Title of Invention	"TUBE CLAMP"
Abstract	A hose clamp consisting of band (10) with band ends that overlap one another in a closed condition of the clamp in which an outer band portion (12) adjacent an outer band end is connected to an inner band portion (11) adjacent an inner band end, comprising a tongue (17) formed at the inner band end, an opening (20) provided in the outer band portion (12) for receiving the tongue (17) in the tightened condition, and a step (19) which projects inwardly extending transversely to the band longitudinal direction within the area of the end of the opening (20) nearer to the outer band end, and has a height corresponding to the thickness of the band, characterised in the length of the tongue (17) is shorter than the difference between the circumferential length of the hose clamp in the closed condition and the hose clamp in the tightened condition, and that the outer band portion (12) between the outer band end and the opening (20) has a guide structure (18, 24) for laterally guiding the tongue (17) prior to its entry into the opening.

Title of Invention

"TUBE CLAMP"

Abstract

A hose clamp consisting of band (10) with band ends that overlap one another in a closed condition of the clamp in which an outer band portion (12) adjacent an outer band end is connected to an inner band portion (11) adjacent an inner band end, comprising a tongue (17) formed at the inner band end, an opening (20) provided in the outer band portion (12) for receiving the tongue (17) in the tightened condition, and a step (19) which projects inwardly extending transversely to the band longitudinal direction within the area of the end of the opening (20) nearer to the outer band end, and has a height corresponding to the thickness of the band, characterised in the length of the tongue (17) is shorter than the difference between the circumferential length of the hose clamp in the closed condition and the hose clamp in the tightened condition, and that the outer band portion (12) between the outer band end and the opening (20) has a guide structure (18, 24) for laterally guiding the tongue (17) prior to its entry into the opening.

Full Text	The present invention relates to A Hose clamp. Description US 4,299,012 discloses a hose clamp with the features recited in the first part of claim 1. This hose clamp has proved suitable for fixing even thin, hard hoses to pipe nipples due to the fact that, in the tightened condition, the inner surface of the clamp is free of gaps and steps and therefore supports the hose at all circumferential positions. For tightening the known hose clamp, a so-called "Oetiker ear' provided in the outer band section is narrowed by means of a pair of grippers. A tongue provided at the inner band end serves to bridge the gap remaining underneath the ear, the tongue cooperating with a tongue channel provided in the outer band portion. The channel is formed by two parallel cuts extending in the longitudinal direction of the band, wherein the two band portions outside these cuts are offset inwardly at their ends close to the outer band end, and the central portion situated between the cuts is offset inwardly at its end remote from the outer band end, each offset corresponding to the thickness of the band material. In the closed but not yet tightened condition of the hose clamp, hooks provided at the inner band end are inserted in openings near the outer band end. The tongue and the tongue channel are so arranged and dimensioned in the circumferential direction of the hose clamp in such a way that, in this closed condition, the free end of the tongue just reaches the channel and the portion of full band width adjacent the tongue bridges the spacing between the legs of the ear. In tightening, the tongue moves completely into the tongue channel until its end comes to lie close to the offset of the centre band portion between the two cuts, and the portion of full band width adjacent the tongue comes to lie close to the offset at the other end of the tongue channel. In this tightened condition, while gaps occur near the offsets, these gaps at no location extend across the full band width so that the hose is supported even in these regions by at least part of the band width, and tightness between the hose and the nipple is ensured over the entire circumference. In the hose clamp known from EP 0 570 742 Al, the tongue during tightening enters a space between two beads formed in the inner surface of the outer band section, which beads project inwardly by an amount corre- spending to the thickness of the band material and terminate in a step of the same height. In order to make sure that the tongue is laterally guided throughout the tightening process, the tongue and beads have such a length in the circumferential direction of the hose clamp that the tongue reaches the space between the beads already in the closed condition of the hose clamp. US 4,315,348 describes a hose clamp having a separate insert portion bridging the ear, with two tongue-type ends extending through windows provided in the outer band section. The invention is based on the object to remove at least in part such disadvantages as occur with comparable hose clamps of the prior art. A more specific object may be seen in providing a hose clamp which requires an as small as possible length of band material at a given clamp diameter. The solution of this object in accordance with the invention is characterised in claim 1. According to claim 1, the tongue provided at the inner band end is guided during tightening of the hose clamp consecutively by two different measures wherein, during the first part of the tightening movement, the tongue is remote from the aperture and only in the second portion enters the aperture and is guided by it. The tongue can thus be shorter by roughly one half than in the prior art, which results in a corresponding saving in band material length. The embodiment of claim 2 leads to a specifically safe guiding and retaining of the central band section transverse to the band. An easily obtained possibility of guiding the tongue in the first part of the tightening movement is recited in claims 3 to 5. Claim 6 relates to a measure of reducing the friction which occurs between the tongue and the outer band portion during tightening of the hose clamp. The embodiment of the invention recited in claims 7 and 8 results in a specifically safe guidance of the tongue transverse to the band longitudinal direction also in the first part of the tightening movement. In accordance with claims 9 and 10, the invention is adapted for use with hose clamps with and without ear-like tightening means. Advantageous embodiments will now be explained in more detail with reference to the drawings. In the drawings, Fig. 1 shows a hose clamp according to a first embodiment in the open condition; Fig. 2 is a somewhat enlarged cross-section through the tongue and the outer band portion of the hose clamp according to Fig. 1 in the tightened condition; Fig. 3 shows an earless hose clamp according to a second embodiment in the closed, not yet tightened condition; Fig. 4 is a somewhat enlarged partial view of the hose clamp according to Fig. 3, viewed from the inside; Fig. 5 represents a hose clamp having an Oetiker ear according to a third embodiment of the invention in the closed, not yet tightened condition; and Fig. 6 is an enlarged partial view of the hose clamp according to Fig. 5, viewed from the inside. The open hose clamp shown in Figs. 1 and 2 is manufactured from a steel band 10 having a width of, e.g., 10 mm and a thickness of, e.g., 1 mm and is pre-bent to the configuration shown, with mutually overlapping band ends. In this condition, the inner band end portion 11 is opposite an outer band portion referenced 12. In order to seal, e.g. a hose (not shown) with respect to a nipple (not shown either), the hose clamp is applied to the hose portion to be sealed. Upon engagement of a hook 13 provided at the inner band portion into openings 14 located near the outer band end, an overall approximately U-shaped "Oetiker ear" 15 provided in the inner band portion 12 is compressed by means of grippers so that the hose clamp is narrowed and tightened around the hose. A tongue 17 is integrally formed at the inner band end portion 11, the tongue having a width of, e.g., 4 mm at the assumed band width of 10 mm. The length of the tongue is somewhat greater than half the amount by which the ear 15 is narrowed and the circumference of the hose clamp is reduced during tightening. Two lateral beads 18 extending in the longitudinal direction of the band and projecting radially inwardly are formed in the opposite outer band portion 12. The beads 18 are located hear the outer band edges, each having a width of approximately 1/10 to at most 1/4 of the band width. The length of the beads 18 in the longitudinal direction of the band is essentially the same as the length of the tongue 17. The beads 18 terminate at a step 19 which projects inwardly as seen from the outer band end, extends transversely to the band longitudinal direction and has a height corresponding to the thickness of the band material. At the start of step 19, thus at the end of the beads 18 remote from the outer band end, an opening in the form of an overall rectangular window 20 starts, which has a width slightly larger than the width of the tongue 17 and a length that extends beyond the step 19. Two inwardly projecting beads 21 are formed in the inner band end portion 11 on both sides of the tongue 17 and starting at the end of the tongue, the beads 21 having a length corresponding at least to the length of the beads 18. Further, the free end of the tongue 17 is provided with an outwardly projecting point-shaped embossment 22. The beads 18 and 21 thus provide a guide structure for laterally guiding the tongue 17 prior to its entry into the window 20. In the closed, not yet tightened condition, in which the hooks 13 provided on the inner band portion engage the openings 14 provided in the outer band portion 12, the free end of the tongue 17 is just between the beads 18 provided in the outer band portion. When the ear 15 is then narrowed for tightening the hose clamp, the tongue 17 at first moves between the beads 18 and is guided by them, thereby preventing the inner band end from moving relative to the outer band portion 12 transversely to the band longitudinal direction. During this movement, the embossment 22 reduces the friction between the tongue 17 and the outer band portion 12. In the second half of this tightening movement, the tongue 17 reaches the window 20 and passes therethrough while the beads 18 provided in the outer band portion 12 engage the beads 21 formed in the inner band end portion 11. In the completely tightened condition, in which the ear 15 is closed down to a small gap, the shoulders which exist at the inner band end portion 11 on both sides of the tongue 17 are at the step 19 with a small gap remaining at these two lateral positions. Since the height of the step 19 corresponds to the thickness of the hose clamp material and since the tongue 17 at this location extends further and finally through the window 20, the result in the tightened condition is an inner surface of the hose clamp which is continuously smooth and free of gaps. The alternative embodiments of the hose clamp shown in Figs. 3 to 6 differ from that of Fig. 1 in that the tongue 17 in the first half of the tighten- ing movement is guided not by lateral beads provided in the outer band portion but by an outward projection 23 formed at the free end of the tongue, which projection 23 engages a narrower slot 24 continuous with the window 20. The projection may be formed as a nose punched out of the tongue or, alternatively, as a rearwardly bent hook. A hook has the advantage that it may engage at the closed end of the slot 24, thereby rendering an inadvertent opening of the hose clamp difficult. In this embodiment, the projection 23 and slot 24 provide a guide structure for laterally guiding the tongue 17 prior to its entry into the window 20. The hose clamp of Figs. 3 and 4 is an earless hose clamp, wherein the resiliency required for sealing a hose to a nipple is achieved by an undulation 25. On the other hand, the hose clamp of Figs. 5 and 6 is a hose clamp which, just as that of Fig. 1, has an Oetiker ear 15, with an undulation 25 being provided as an additional elasticity reserve. We claim: 1. A hose clamp which consists of band (10) with band ends that overlap one another in a closed condition of the clamp in which an outer band portion (12) adjacent an outer band end is connected to an inner band portion (11) adjacent an inner band end, the clamp being transferred from said closed condition to a tightened condition in which the clamp has a smaller circumference than in the closed condition, comprising a tongue (17) formed at the inner band end, an opening (20) provided in the outer band portion (12) for receiving the tongue (17) in the tightened condition, and a step (19) which projects inwardly as seen from the outer band end, which extends transversely to the band longitudinal direction within the area of the end of the opening (20) nearer to the outer band end, and which has a height corresponding to the thickness of the band, characterised in that the length of the tongue (17) is shorter than the difference between the circumference of the hose clamp in the closed condition and that of the hose clamp in the tightened condition, and that the outer band portion (12) in the region between the outer band end and the opening (20) has a guide structure (18, 24) for laterally guiding the tongue (17) prior to its entry into the opening (20). 2. A hose clamp as claimed in claim 1, wherein the opening is a window (20) for the tongue (17) to pass in the tightened condition of the hose clamp. 3. A hose clamp as claimed in claim 1 or claim 2, wherein the guide structure is constituted by two beads (18) formed in the outer band portion (12) on either side of the tongue (17). 4. A hose clamp as claimed in claim 3, wherein the inner band portion (11) has two beads (21) in the area adjacent the tongue (17) in the band longitudinal direction, said two beads (21) being engaged, in the tightened condition of the hose clamp, by the two beads (18) in the outer band portion (12). 5. A hose clamp as claimed in claim 3 or claim 4, wherein the width of each bead (18) is 1/4 to 1/10 of the band width. 6. A hose clamp as claimed in any preceding claim, wherein a point-shaped embossment (22) facing the outer band portion (12) is provided near the free end of the tongue (17). 7. A hose clamp as claimed in claim 1 or claim 2, wherein the guide struc ture is constituted by a slot (24) continuous with the opening (20) in the outer band portion (12) and a projection (23) on the outer side of the tongue (17) for engaging the slot (24). 8. A hose clamp as claimed in claim 7, wherein the projection (23) is a nose punched out of the tongue (17). 9. A hose clamp as claimed in any preceding claim, wherein a U-shaped ear (15) is provided between the guide structure (18, 24) and the outer band end. 10. A hose clamp as claimed in any preceding claim, wherein an undulation (25} is provided between the guide structure (18, 24) and the outer band end.

Full Text

The present invention relates to A Hose clamp.
Description
US 4,299,012 discloses a hose clamp with the features recited in the first part of claim 1. This hose clamp has proved suitable for fixing even thin, hard hoses to pipe nipples due to the fact that, in the tightened condition, the inner surface of the clamp is free of gaps and steps and therefore supports the hose at all circumferential positions.
For tightening the known hose clamp, a so-called "Oetiker ear' provided in the outer band section is narrowed by means of a pair of grippers. A tongue provided at the inner band end serves to bridge the gap remaining underneath the ear, the tongue cooperating with a tongue channel provided in the outer band portion. The channel is formed by two parallel cuts extending in the longitudinal direction of the band, wherein the two band portions outside these cuts are offset inwardly at their ends close to the outer band end, and the central portion situated between the cuts is offset inwardly at its end remote from the outer band end, each offset corresponding to the thickness of the band material.
In the closed but not yet tightened condition of the hose clamp, hooks provided at the inner band end are inserted in openings near the outer band end. The tongue and the tongue channel are so arranged and dimensioned in the circumferential direction of the hose clamp in such a way that, in this closed condition, the free end of the tongue just reaches the channel and the portion of full band width adjacent the tongue bridges the spacing between the legs of the ear.
In tightening, the tongue moves completely into the tongue channel until its end comes to lie close to the offset of the centre band portion between the two cuts, and the portion of full band width adjacent the tongue comes to lie close to the offset at the other end of the tongue channel. In this tightened condition, while gaps occur near the offsets, these gaps at no location extend across the full band width so that the hose is supported even in these regions by at least part of the band width, and tightness between the hose and the nipple is ensured over the entire circumference.
In the hose clamp known from EP 0 570 742 Al, the tongue during tightening enters a space between two beads formed in the inner surface of the outer band section, which beads project inwardly by an amount corre-
spending to the thickness of the band material and terminate in a step of the same height. In order to make sure that the tongue is laterally guided throughout the tightening process, the tongue and beads have such a length in the circumferential direction of the hose clamp that the tongue reaches the space between the beads already in the closed condition of the hose clamp.
US 4,315,348 describes a hose clamp having a separate insert portion bridging the ear, with two tongue-type ends extending through windows provided in the outer band section.
The invention is based on the object to remove at least in part such disadvantages as occur with comparable hose clamps of the prior art. A more specific object may be seen in providing a hose clamp which requires an as small as possible length of band material at a given clamp diameter.
The solution of this object in accordance with the invention is characterised in claim 1. According to claim 1, the tongue provided at the inner band end is guided during tightening of the hose clamp consecutively by two different measures wherein, during the first part of the tightening movement, the tongue is remote from the aperture and only in the second portion enters the aperture and is guided by it. The tongue can thus be shorter by roughly one half than in the prior art, which results in a corresponding saving in band material length.
The embodiment of claim 2 leads to a specifically safe guiding and retaining of the central band section transverse to the band.
An easily obtained possibility of guiding the tongue in the first part of the tightening movement is recited in claims 3 to 5.
Claim 6 relates to a measure of reducing the friction which occurs between the tongue and the outer band portion during tightening of the hose clamp.
The embodiment of the invention recited in claims 7 and 8 results in a specifically safe guidance of the tongue transverse to the band longitudinal direction also in the first part of the tightening movement.
In accordance with claims 9 and 10, the invention is adapted for use with hose clamps with and without ear-like tightening means.
Advantageous embodiments will now be explained in more detail with reference to the drawings. In the drawings,
Fig. 1 shows a hose clamp according to a first embodiment in the open condition;
Fig. 2 is a somewhat enlarged cross-section through the tongue and the outer band portion of the hose clamp according to Fig. 1 in the tightened condition;
Fig. 3 shows an earless hose clamp according to a second embodiment in the closed, not yet tightened condition;
Fig. 4 is a somewhat enlarged partial view of the hose clamp according to Fig. 3, viewed from the inside;
Fig. 5 represents a hose clamp having an Oetiker ear according to a third embodiment of the invention in the closed, not yet tightened condition; and
Fig. 6 is an enlarged partial view of the hose clamp according to Fig. 5, viewed from the inside.
The open hose clamp shown in Figs. 1 and 2 is manufactured from a steel band 10 having a width of, e.g., 10 mm and a thickness of, e.g., 1 mm and is pre-bent to the configuration shown, with mutually overlapping band ends. In this condition, the inner band end portion 11 is opposite an outer band portion referenced 12.
In order to seal, e.g. a hose (not shown) with respect to a nipple (not shown either), the hose clamp is applied to the hose portion to be sealed. Upon engagement of a hook 13 provided at the inner band portion into openings 14 located near the outer band end, an overall approximately U-shaped "Oetiker ear" 15 provided in the inner band portion 12 is compressed by means of grippers so that the hose clamp is narrowed and tightened around the hose.
A tongue 17 is integrally formed at the inner band end portion 11, the tongue having a width of, e.g., 4 mm at the assumed band width of 10 mm. The length of the tongue is somewhat greater than half the amount by which the ear 15 is narrowed and the circumference of the hose clamp is reduced during tightening.
Two lateral beads 18 extending in the longitudinal direction of the band and projecting radially inwardly are formed in the opposite outer band portion 12. The beads 18 are located hear the outer band edges, each having a width of approximately 1/10 to at most 1/4 of the band width. The length of the beads 18 in the longitudinal direction of the band is essentially the same as the length of the tongue 17.
The beads 18 terminate at a step 19 which projects inwardly as seen from the outer band end, extends transversely to the band longitudinal direction and has a height corresponding to the thickness of the band material.
At the start of step 19, thus at the end of the beads 18 remote from the outer band end, an opening in the form of an overall rectangular window 20 starts, which has a width slightly larger than the width of the tongue 17 and a length that extends beyond the step 19.
Two inwardly projecting beads 21 are formed in the inner band end portion 11 on both sides of the tongue 17 and starting at the end of the tongue, the beads 21 having a length corresponding at least to the length of the beads 18. Further, the free end of the tongue 17 is provided with an outwardly projecting point-shaped embossment 22. The beads 18 and 21 thus provide a guide structure for laterally guiding the tongue 17 prior to its entry into the window 20.
In the closed, not yet tightened condition, in which the hooks 13 provided on the inner band portion engage the openings 14 provided in the outer band portion 12, the free end of the tongue 17 is just between the beads 18 provided in the outer band portion. When the ear 15 is then narrowed for tightening the hose clamp, the tongue 17 at first moves between the beads 18 and is guided by them, thereby preventing the inner band end from moving relative to the outer band portion 12 transversely to the band longitudinal direction. During this movement, the embossment 22 reduces the friction between the tongue 17 and the outer band portion 12.
In the second half of this tightening movement, the tongue 17 reaches the window 20 and passes therethrough while the beads 18 provided in the outer band portion 12 engage the beads 21 formed in the inner band end portion 11. In the completely tightened condition, in which the ear 15 is closed down to a small gap, the shoulders which exist at the inner band end portion 11 on both sides of the tongue 17 are at the step 19 with a small gap remaining at these two lateral positions. Since the height of the step 19 corresponds to the thickness of the hose clamp material and since the tongue 17 at this location extends further and finally through the window 20, the result in the tightened condition is an inner surface of the hose clamp which is continuously smooth and free of gaps.
The alternative embodiments of the hose clamp shown in Figs. 3 to 6 differ from that of Fig. 1 in that the tongue 17 in the first half of the tighten-
ing movement is guided not by lateral beads provided in the outer band portion but by an outward projection 23 formed at the free end of the tongue, which projection 23 engages a narrower slot 24 continuous with the window 20. The projection may be formed as a nose punched out of the tongue or, alternatively, as a rearwardly bent hook. A hook has the advantage that it may engage at the closed end of the slot 24, thereby rendering an inadvertent opening of the hose clamp difficult. In this embodiment, the projection 23 and slot 24 provide a guide structure for laterally guiding the tongue 17 prior to its entry into the window 20.
The hose clamp of Figs. 3 and 4 is an earless hose clamp, wherein the resiliency required for sealing a hose to a nipple is achieved by an undulation 25.
On the other hand, the hose clamp of Figs. 5 and 6 is a hose clamp which, just as that of Fig. 1, has an Oetiker ear 15, with an undulation 25 being provided as an additional elasticity reserve.

We claim:
1. A hose clamp which consists of band (10) with band ends that overlap one another in a closed condition of the clamp in which an outer band portion (12) adjacent an outer band end is connected to an inner band portion (11) adjacent an inner band end, the clamp being transferred from said closed condition to a tightened condition in which the clamp has a smaller circumference than in the closed condition, comprising
a tongue (17) formed at the inner band end,
an opening (20) provided in the outer band portion (12) for receiving the tongue (17) in the tightened condition, and
a step (19) which projects inwardly as seen from the outer band end, which extends transversely to the band longitudinal direction within the area of the end of the opening (20) nearer to the outer band end, and which has a height corresponding to the thickness of the band,
characterised in
that the length of the tongue (17) is shorter than the difference between the circumference of the hose clamp in the closed condition and that of the hose clamp in the tightened condition, and
that the outer band portion (12) in the region between the outer band end and the opening (20) has a guide structure (18, 24) for laterally guiding the tongue (17) prior to its entry into the opening (20).
2. A hose clamp as claimed in claim 1, wherein the opening is a
window (20) for the tongue (17) to pass in the tightened condition of the
hose clamp.
3. A hose clamp as claimed in claim 1 or claim 2, wherein the guide
structure is constituted by two beads (18) formed in the outer band
portion (12) on either side of the tongue (17).

4. A hose clamp as claimed in claim 3, wherein the inner band portion (11)
has two beads (21) in the area adjacent the tongue (17) in the band longitudinal
direction, said two beads (21) being engaged, in the tightened condition of the
hose clamp, by the two beads (18) in the outer band portion (12).
5. A hose clamp as claimed in claim 3 or claim 4, wherein the width of each
bead (18) is 1/4 to 1/10 of the band width.
6. A hose clamp as claimed in any preceding claim, wherein a point-shaped
embossment (22) facing the outer band portion (12) is provided near the free end
of the tongue (17).
7. A hose clamp as claimed in claim 1 or claim 2, wherein the guide struc
ture is constituted by a slot (24) continuous with the opening (20) in the outer
band portion (12) and a projection (23) on the outer side of the tongue (17) for
engaging the slot (24).
8. A hose clamp as claimed in claim 7, wherein the projection (23) is a nose
punched out of the tongue (17).
9. A hose clamp as claimed in any preceding claim, wherein a U-shaped ear
(15) is provided between the guide structure (18, 24) and the outer band end.
10. A hose clamp as claimed in any preceding claim, wherein an undulation
(25} is provided between the guide structure (18, 24) and the outer band end.

Documents:

1521-delnp-2003-abstract.pdf

1521-delnp-2003-claims.pdf

1521-delnp-2003-correspondence-others.pdf

1521-delnp-2003-correspondence-po.pdf

1521-delnp-2003-description (complete).pdf

1521-delnp-2003-drawings.pdf

1521-delnp-2003-form-1.pdf

1521-delnp-2003-form-13.pdf

1521-delnp-2003-form-18.pdf

1521-delnp-2003-form-2.pdf

1521-delnp-2003-form-3.pdf

1521-delnp-2003-form-5.pdf

1521-delnp-2003-gpa.pdf

1521-delnp-2003-pct-210.pdf

1521-delnp-2003-petition-137.pdf

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Patent Number

217517

Indian Patent Application Number

1521/DELNP/2003

PG Journal Number

15/2008

Publication Date

11-Apr-2008

Grant Date

26-Mar-2008

Date of Filing

29-Sep-2003

Name of Patentee

HANS-OETIKER AG MASCHINEN-UND APPARATEFABRIK

Applicant Address

OBERDORFSTRASSE 21, CH-8812 HORGEN, SWITZERLAND.

Inventors:

#	Inventor's Name	Inventor's Address
1	HANS OETIKER	OBERDORFSTRASSE 21, CH-8812 HORGEN, SWITZERLAND.
2	ULRICH MEIER	FUHRSTRASSE 13, CH-8820 WADENSWIL, SWITZERLAND.

PCT International Classification Number

F16L 33/02

PCT International Application Number

PCT/EP02/03259

PCT International Filing date

2002-03-22

PCT Conventions:

#	PCT Application Number	Date of Convention	Priority Country
1	01107515.7	2001-03-26	EPO