Title of Invention	"DEVICE AND METHOD FOR REDUCING LOSSES RELATING TO THE STARTING UP OF AN INDUSTRIAL ICE-CREAM MANUFACTURING LINE"
Abstract	Device for reducing losses relating to the starting up of an industrial ice-cream manufacturing line, the said line comprising a freezer, an apportioning machine and a manifold that conducts the ice cream from the freezer to the apportioning machine, the said device being characterized in that it comprises refrigerant fluid, the temperature of which is close to the future apportioning temperature of the ice-cream; a surround for surrounding the said manifold while allowing the circulation of the refrigerant fluid within it, the said device is equipped with a pump actuated by a command for causing the fluid to circulate in the surround.

Title of Invention

"DEVICE AND METHOD FOR REDUCING LOSSES RELATING TO THE STARTING UP OF AN INDUSTRIAL ICE-CREAM MANUFACTURING LINE"

Abstract

Device for reducing losses relating to the starting up of an industrial ice-cream manufacturing line, the said line comprising a freezer, an apportioning machine and a manifold that conducts the ice cream from the freezer to the apportioning machine, the said device being characterized in that it comprises refrigerant fluid, the temperature of which is close to the future apportioning temperature of the ice-cream; a surround for surrounding the said manifold while allowing the circulation of the refrigerant fluid within it, the said device is equipped with a pump actuated by a command for causing the fluid to circulate in the surround.

Full Text	The present invention relates to a device and method for reducing losses relating to the starting up of an industrial ice-cream manufacturing line. This invention relates to a device for reducing losses during start up of an ice cream production line equipped with a traditional freezer. This operation is performed as follows in the current state of the art: the line is composed of a freezer (machine designed to cool a mix made in advance after having added a variable quantity of air depending on the recipe at a temperature called the proportioning temperature), tubing between this freezer and the proportioning machine, and therefore a proportioning machine that itself usually precedes a setting tunnel and packaging machines, The freezer is started so as to work {freeze) the first mix quantities made in advance and these mixes are then sent to the proportioning machine through the tubing. The first quantities cannot be proportioned because they are too soft and too liquid and they form a loss; attempts are made to recycle this loss later on in other installations under conditions that are not always satisfactory and often partial. The purpose of this invention is to provide a means of reducing these start up losses. An analysis of the phenomena involved during this start up operation shows that the main cause of losses is the quantity of product that has to be used to cool the tubing located between the freezer and the proportioning machine until the metal from which this tubing is made is cold enough so that bond conditions between the product and the tubing wall are such that proportioning is possible. As it exits from the freezer, the temperature of the product is between -8°C to -9°C and 0°C depending on the planned use of the product. The temperature of the tubing at the beginning of the operations is ambient temperature (18°C or more) . Therefore the solid mix melts as it comes into contact with the metal and flows too quickly, losing its consistency and making proportioning impossible until the tubing becomes sufficiently cold so that a bond is formed between the solid product mix and the metal, after a certain quantity of product has passed. The product can then be proportioned, but large losses have occurred. The device according to this invention reduces the temperature of the tubing to the required temperature before the beginning of proportioning (without using the product), thus avoiding losses. According to a first characteristic, the device according to the invention has three elements: - the first element called "frigorie transport fluid" is a fluid at a temperature close to the required proportioning temperature, - the second element called the "surround" is a device that surrounds the tubing and carried circulation of the "frigorie transport fluid" inside it, the third element is called the "pump" and circulates fluid inside the "surround". According to another characteristic of the invention, the device will be equipped with a control element called the "control" that circulates the "frigorie transport fluid" inside the "surround" for a required time before proportioning is started. According to one particular embodiment, the "frigorie transport fluid" can be glycol water that is often used in ice cream production factories at a temperature of -5 to -6°C, in central distribution. According to another particular embodiment, the "surround" may be a coil made of a hollow pipe surrounding the tubing with adjacent turns so as to provide a sort of second casing surrounding this tubing. The efficiency of the system should be much better if the hollow pipe section is parallelepiped shaped (rather than round) so that a surface (and not linear) contact with the tubing can be made. The material used to make the "surround" must be capable of transferring' frigories from the "frigorie transport fluid" to the tubing. According to another particular embodiment, the "pump" must be chosen from the conventional range of commercially available products and the "control" should be made using classical automation rules. The main advantage provided by the device according to the invention is the reduction of losses related to start up of a classical industrial ice cream fabrication installation. WE CLAIM: 1. Device for reducing losses relating to the starting up of an industrial ice-cream manufacturing line, the said line comprising a freezer, an apportioning machine and a manifold that conducts the ice cream from the freezer to the apportioning machine, the said device being characterized in that it comprises refrigerant fluid, the temperature of which is close to the future apportioning temperature of the ice-cream; a surround for surrounding the said manifold while allowing the circulation of the refrigerant fluid within it, the said device is equipped with a pump actuated by a command for causing the fluid to circulate in the surround. 2. Device as claimed in claim 1, wherein the surround is a coil made from hollow pipe surrounding the manifold turn against turn so as to constitute for this manifold a kind of second envelope. 3. Device as claimed in claim 2, wherein the cross section of the hollow pipe is parallelepipedal so as to create a surface contact with the manifold. 4. Device as claimed in one of claims 1 to 3, wherein the material constituting the surround allows the transfer of negative calories from the refrigerant fluid to the manifold. 5. Method for reducing losses related to start up of an industrial ice cream production line, the said line including a freezer, a proportioning machine and tubing that carries the ice cream from the freezer to the proportioning machine, the said method being characterized in that the temperature of the tubing is reduced before starting proportioning without using the product. 6. Method as claimed in claim 5, wherein the temperature of the tubing is reduced before starting proportioning until the tubing is sufficiently cold so that bond conditions between the ice cream and the tubing wall are such that proportioning is possible.

Full Text

The present invention relates to a device and method for reducing losses relating to the starting up of an industrial ice-cream manufacturing line.
This invention relates to a device for reducing losses during start up of an ice cream production line equipped with a traditional freezer.
This operation is performed as follows in the current state of the art: the line is composed of a freezer (machine designed to cool a mix made in advance after having added a variable quantity of air depending on the recipe at a temperature called the proportioning temperature), tubing between this freezer and the proportioning machine, and therefore a proportioning machine that itself usually precedes a setting tunnel and packaging machines,
The freezer is started so as to work {freeze) the first mix quantities made in advance and these mixes are then sent to the proportioning machine through the tubing.
The first quantities cannot be proportioned because they are too soft and too liquid and they form a loss; attempts are made to recycle this loss later on in other

installations under conditions that are not always satisfactory and often partial.
The purpose of this invention is to provide a means of reducing these start up losses.
An analysis of the phenomena involved during this start up operation shows that the main cause of losses is the quantity of product that has to be used to cool the tubing located between the freezer and the proportioning machine until the metal from which this tubing is made is cold enough so that bond conditions between the product and the tubing wall are such that proportioning is possible.
As it exits from the freezer, the temperature of the product is between -8°C to -9°C and 0°C depending on the planned use of the product. The temperature of the tubing at the beginning of the operations is ambient temperature (18°C or more) . Therefore the solid mix melts as it comes into contact with the metal and flows too quickly, losing its consistency and making proportioning impossible until the tubing becomes sufficiently cold so that a bond is formed between the solid product mix and the metal, after a certain quantity of product has passed. The product can then be proportioned, but large losses have occurred.
The device according to this invention reduces the temperature of the tubing to the required temperature before the beginning of proportioning (without using the product), thus avoiding losses.
According to a first characteristic, the device according to the invention has three elements:
- the first element called "frigorie transport fluid"
is a fluid at a temperature close to the required
proportioning temperature,
- the second element called the "surround" is a device
that surrounds the tubing and carried circulation of the
"frigorie transport fluid" inside it,
the third element is called the "pump" and circulates fluid inside the "surround".
According to another characteristic of the invention, the device will be equipped with a control element called the "control" that circulates the "frigorie transport fluid" inside the "surround" for a required time before proportioning is started.
According to one particular embodiment, the "frigorie transport fluid" can be glycol water that is often used in ice cream production factories at a temperature of -5 to -6°C, in central distribution.
According to another particular embodiment, the "surround" may be a coil made of a hollow pipe surrounding the tubing with adjacent turns so as to provide a sort of second casing surrounding this tubing. The efficiency of the system should be much better if the hollow pipe section is parallelepiped shaped (rather than round) so that a surface (and not linear) contact with the tubing can be made. The material used to make the "surround" must be capable of transferring' frigories from the "frigorie transport fluid" to the tubing.
According to another particular embodiment, the "pump" must be chosen from the conventional range of commercially
available products and the "control" should be made using classical automation rules.
The main advantage provided by the device according to the invention is the reduction of losses related to start up of a classical industrial ice cream fabrication installation.

WE CLAIM:
1. Device for reducing losses relating to the starting up of an industrial ice-cream manufacturing line, the said line comprising a freezer, an apportioning machine and a manifold that conducts the ice cream from the freezer to the apportioning machine, the said device being characterized in that it comprises refrigerant fluid, the temperature of which is close to the future apportioning temperature of the ice-cream; a surround for surrounding the said manifold while allowing the circulation of the refrigerant fluid within it, the said device is equipped with a pump actuated by a command for causing the fluid to circulate in the surround.
2. Device as claimed in claim 1, wherein the surround is a coil made from hollow pipe surrounding the manifold turn against turn so as to constitute for this manifold a kind of second envelope.
3. Device as claimed in claim 2, wherein the cross section of the hollow pipe is parallelepipedal so as to create a surface contact with the manifold.
4. Device as claimed in one of claims 1 to 3, wherein the material constituting the surround allows the transfer of negative calories from the refrigerant fluid to the manifold.
5. Method for reducing losses related to start up of an industrial ice cream production line, the said line including a freezer, a proportioning machine and tubing that carries the ice cream from the freezer to the proportioning machine, the said method being characterized in that the

temperature of the tubing is reduced before starting proportioning
without using the product.
6. Method as claimed in claim 5, wherein the temperature of the
tubing is reduced before starting proportioning until the tubing is
sufficiently cold so that bond conditions between the ice cream and the
tubing wall are such that proportioning is possible.

Documents:

4405-DELNP-2005-Abstract-(03-11-2008).pdf

4405-delnp-2005-abstract.pdf

4405-DELNP-2005-Claims-(03-11-2008).pdf

4405-delnp-2005-claims.pdf

4405-DELNP-2005-Correspondence-Others-(03-11-2008).pdf

4405-DELNP-2005-Correspondence-Others-(04-11-2008).pdf

4405-delnp-2005-correspondence-others.pdf

4405-DELNP-2005-Description (Complete)-(03-11-2008).pdf

4405-delnp-2005-description (complete).pdf

4405-DELNP-2005-Form-1-(03-11-2008).pdf

4405-delnp-2005-form-1.pdf

4405-delnp-2005-form-13.pdf

4405-delnp-2005-form-18.pdf

4405-DELNP-2005-Form-2-(03-11-2008).pdf

4405-delnp-2005-form-2.pdf

4405-DELNP-2005-Form-3-(03-11-2008).pdf

4405-delnp-2005-form-3.pdf

4405-delnp-2005-form-5.pdf

4405-DELNP-2005-GPA-(03-11-2008).pdf

4405-DELNP-2005-GPA-(04-11-2008).pdf

4405-delnp-2005-pct-210.pdf

4405-DELNP-2005-Petition-137-(03-11-2008).pdf

4405-DELNP-2005-Petition-138-(03-11-2008).pdf

« Previous Patent

Next Patent »

Patent Number

226873

Indian Patent Application Number

4405/DELNP/2005

PG Journal Number

03/2009

Publication Date

16-Jan-2009

Grant Date

28-Dec-2008

Date of Filing

29-Sep-2005

Name of Patentee

PHILIPPE HEINE

Applicant Address

16, AVENUE JOFFRE, F-91710 VERT LE PETIT, FRANCE.

Inventors:

#	Inventor's Name	Inventor's Address
1	PHILIPPE HEINE	16, AVENUE JOFFRE, F-91710 VERT LE PETIT, FRANCE.

PCT International Classification Number

A23G 9/16

PCT International Application Number

PCT/FR2003/003620

PCT International Filing date

2003-12-08

PCT Conventions:

#	PCT Application Number	Date of Convention	Priority Country
1	03/02608	2003-03-04	France