CN211186941U - Equipment for rapidly cooling food - Google Patents

Abstract

A device for rapidly cooling food at least comprises a cooling bowl, wherein the cooling bowl is of a hollow structure and is divided into three layers, namely an inner layer, an interlayer and an outer layer, the interlayer divides the hollow part of the cooling bowl into an inner cavity and an outer cavity, and the two cavities are communicated with each other at the top of the interlayer; the bottom of the interlayer is provided with a hole, the hole opening is a water inlet, the outlet at the bottom of the outer cavity of the hollow part of the cooling bowl is a water outlet, and the water inlet, the inner cavity, the outer cavity and the water outlet of the cooling bowl form a water circulation channel of the cooling bowl; the cooling bowl is characterized in that a water supply machine is connected to the bottom of the cooling bowl and provided with a water supply pipeline and a water return pipeline, the water supply pipeline is in butt joint with a water inlet of the cooling bowl, and the water return pipeline is in butt joint with a water outlet of the cooling bowl. The utility model discloses an equipment of quick cooling food, cooling bowl and water supply line and the butt joint of return water pipeline of water feeder, the circulating water enters into the cooling bowl inner cavity, takes away the heat of food fast, and the cooling back is direct to be held special cooling bowl and is eaten, and cooling speed is fast, and cooling process safety and sanitation is applicable to big use in batches.

Description

Equipment for rapidly cooling food

Technical Field

The utility model relates to a quick equipment of cooling off food belongs to food and beverage equipment technical field.

Background

When food such as meal is just cooked, the temperature is often higher, the food is difficult to eat directly, people who need to catch time or people who are relatively hungry feel very inconvenient, and in summer with higher temperature, high-temperature food is particularly daunting.

The traditional cooling method is basically to wait for the natural cooling of food, and the method not only needs longer cooling time, but also causes the food to be stale and has poor taste after being placed for a long time. And the method of mouth-blowing cooling is adopted, and the method has unobvious cooling effect and is not sanitary. Moreover, the heat of the food is taken away by blowing air by using the fan, dust and the like are easily blown into the food by blowing air for cooling, and the sanitation and the safety are difficult to ensure. If the food with higher temperature is eaten for a long time, certain influence is caused to the health of people, and the eating mode is obviously unhealthy.

The cooling bowl is not convenient to use, water needs to be manually injected into the bowl, the water injection speed is low, the cooling bowl is long in cooling time and not suitable for being used in large batches of restaurants and the like, and the cooling bowl is not convenient to use when people eat food due to the fact that the upper edge and the lower edge of the cooling bowl are provided with the holes, and the comfort level is poor.

Disclosure of Invention

In order to solve the not enough of existence among the prior art, the utility model provides a quick equipment of cooling off food can make food cool off rapidly, is applicable to big use in batches, and food after the cooling need not to shift the tableware, and the dedicated cooling bowl of equipment can directly supply the visitor to use, and the cooling bowl is as good as with ordinary bowl when using, and convenient and sanitary safety has obtained the assurance.

In order to achieve the above object, the utility model adopts the following technical scheme:

a device for rapidly cooling food at least comprises a cooling bowl, wherein the cooling bowl is of a hollow structure and is divided into three layers, namely an inner layer, an interlayer and an outer layer, the interlayer divides the hollow part of the cooling bowl into an inner cavity and an outer cavity, and the two cavities are communicated with each other at the top of the interlayer; the bottom of the interlayer is provided with a hole, the hole opening is a water inlet, the outlet at the bottom of the outer cavity of the hollow part of the cooling bowl is a water outlet, and the water inlet, the inner cavity, the outer cavity and the water outlet of the cooling bowl form a water circulation channel of the cooling bowl; the cooling bowl is characterized in that a water supply machine is connected to the bottom of the cooling bowl and provided with a water supply pipeline and a water return pipeline, the water supply pipeline is in butt joint with a water inlet of the cooling bowl, and the water return pipeline is in butt joint with a water outlet of the cooling bowl.

To the utility model discloses technical scheme's further concrete improvement is:

the cooling bowl is characterized in that a bowl seat is arranged at the bottom of the cooling bowl, the shape and size of the bowl seat are matched with the bottom of the cooling bowl, the bowl seat is composed of a table top and a cylindrical outer edge surrounding the bottom of the table top, more than two clamping blocks are arranged on the inner wall of the cylindrical outer edge, holes corresponding to a water inlet and a water outlet of the cooling bowl are formed in the table top of the bowl seat, and the bowl seat and the outer layer of the cooling bowl are integrated at the.

The top parts of a water supply pipeline and a water return pipeline of the water supply machine are provided with fixed seats, the size of each fixed seat corresponds to that of the cooling bowl seat, the bottom parts of the fixed seats are hollow, and the water supply pipeline penetrates through the fixed seats; the bowl cooling device is characterized in that more than 2 clamping hooks are arranged on the hollowed edge of the bottom of the fixing seat, and the quantity, position and shape of the clamping hooks correspond to those of clamping blocks on the cooling bowl seat.

The inner layer of the cooling bowl is an edible grade 304 stainless steel thin plate, and the bowl seat and the clamping blocks on the bowl seat are made of edible grade 304 stainless steel.

The clamping hook is fixedly arranged on the fixed seat or rotates relative to the fixed seat; when the hook is arranged in a rotating manner, the hook is arranged on a long cylindrical hook seat, the long cylindrical hook seat is arranged on a fixed disc C through a bearing arranged on the outer wall of the long cylindrical hook seat, a power device A is connected to the outer wall of the long cylindrical hook seat, and the power device A drives the long cylindrical hook seat and the hook to rotate around the axis and controls the rotating angle of the long cylindrical hook seat and the hook; when the clamping hook is arranged in a rotating mode, the bottom edge of the fixing seat is provided with a positioning pin in the vertical direction, and the bowl seat is provided with a positioning hole corresponding to the positioning pin.

And sealing gaskets are arranged at the tops of the water supply pipeline and the water return pipeline.

A vertical linear motion device is arranged below the water supply pipeline and the water return pipeline, the vertical linear motion device consists of a moving part and a fixing part, and the water supply pipeline and the water return pipeline are arranged on the moving part of the vertical linear motion device; and the power device B is used for driving a moving part of the vertical linear motion device to move, so that the water feeding pipeline and the water return pipeline are driven to move up and down.

The vertical linear motion device comprises a cross beam, two ends of the cross beam are respectively provided with a slide bar B in the downward vertical direction, and the two slide bars B respectively penetrate through linear bearings with corresponding specifications arranged on the fixed disc B below.

The water supply pipeline and the water return pipeline are provided with slide bars A at the lower parts, spring baffles are arranged at the middle parts, springs are sleeved on the slide bars A below the spring baffles, sliding sleeve members are arranged below the springs and sleeved on the slide bars A below the springs, and the bottoms of the sliding sleeve members are connected to a power device B.

The power device B is an electric push rod.

The sliding sleeve is connected with a push rod of the power device B through a universal coupling.

And the power device A and the power device B are controlled by a P L C or a singlechip.

By the technical scheme provided by the utility model, when cooling bowl and water feeder butt joint, the circulating water enters into the inner cavity of cooling bowl through the water inlet of cooling bowl, carries out the heat exchange through the food in cooling bowl inlayer and the cooling bowl, takes away the food heat, and the department of lining up at the top again gets into outer cavity, flows by the delivery port of cooling bowl. The inner layer of the cooling bowl is an edible grade 304 stainless steel thin plate, so that the food sanitation is ensured, and the cooling speed is increased. The bottom of the cooling bowl is provided with a clamping block, the top of the fixing seat is provided with a corresponding clamping hook, the clamping block is clamped into the clamping hook, so that the cooling bowl can be fixed on the fixing seat, and the cooling bowl is very convenient to disassemble. The size of the fixing seat corresponds to that of the cooling bowl seat, so that the cooling bowl seat can be just placed into the fixing seat, and the cooling bowl is stabilized. When the clamping hook is set to rotate, the bottom of the fixing seat is provided with a positioning pin, the bowl seat is provided with a positioning hole corresponding to the positioning pin, and the positioning pin is inserted into the positioning hole at the bottom of the cooling bowl to position the cooling bowl. The power device A drives the long cylindrical clamping hook seat and the clamping hook to rotate around the axis, so that the clamping hook is fixedly connected with a clamping block on the cooling bowl seat; the whole clamping process is very convenient and fast, and the action is accurate. The top of the water supply pipeline and the water return pipeline of the water supply machine are provided with sealing gaskets which can play a role in sealing, and water leakage is avoided when the water supply pipeline and the water return pipeline are in butt joint with the water inlet and the water outlet of the cooling bowl. The baffle, the spring and the sliding sleeve are arranged on the sliding rod of the vertical linear motion component, the power device B pushes the sliding sleeve, the spring is compressed, the water supply pipeline and the water return pipeline are tightly pressed at the bottom of the cooling bowl through the elastic force of the spring, and the elastic force of the spring ensures the stability and uniformity of pressure, so that the sealing effect of the joint is ensured. The sliding sleeve is connected with a push rod of the power device B through the universal coupling, so that damage to parts caused by the action of force in other directions on the moving mechanism due to deviation of the displacement direction of the up-and-down moving part can be avoided. The water feeding pipeline and the water return pipeline are arranged on a moving part of the vertical linear movement device, the water feeding pipeline and the water return pipeline are only regulated to move up and down along the vertical direction, the positioning accuracy is prevented from being influenced due to the occurrence of circumferential movement, and therefore the normal operation of equipment is guaranteed.

Drawings

Figure 1 is the circulating water flow direction schematic diagram in the cooling bowl of the present invention.

Fig. 2 is a schematic structural diagram of the cooling bowl of the present invention.

Fig. 3 is a schematic view of a structure for combining the bottom of the outer layer of the bowl and the bowl seat according to the embodiment of the present invention.

Fig. 4 is a schematic view of the bowl seat bottom and the fixture block according to the embodiment of the present invention.

Fig. 5 is a schematic view of the upper surface structure of the bowl base according to the embodiment of the present invention.

Fig. 6 is a schematic diagram of a model structure according to an embodiment of the present invention.

Fig. 7 is a schematic view of the embodiment of the present invention showing the installation structure of the hook, the water supply pipeline and the water return pipeline.

Fig. 8 is a schematic view of a hook and a fixing seat mounting structure according to an embodiment of the present invention.

Fig. 9 is a schematic view of the installation structure of the long cylindrical hook seat, the water supply pipeline and the water return pipeline of the embodiment of the present invention.

Fig. 10 is a schematic structural view of a jacking leakage-proof mechanism according to an embodiment of the present invention.

Fig. 11 is a schematic diagram of the overall structure of the embodiment of the present invention.

In the figure: 1. the cooling device comprises a cooling bowl, 2 parts of a fixed seat, 3 parts of a clamping hook seat, 4 parts of a fixed disc A, 5 parts of a stepping motor, 6 parts of a cross beam, 7 parts of a linear bearing A, 8 parts of a spring A, 9 parts of a sliding sleeve, 10 parts of an electric push rod, 11 parts of a support, 12 parts of a bearing, 13 parts of a water return pipeline, 14 parts of a water supply pipeline, 15 parts of a universal coupling, 16 parts of an ice water machine, 17 parts of a slide rod B, 18 parts of a fixed disc B, 19 parts of an extension pipe, 24 parts of the slide rod A, 25 parts of the linear bearing B, 29 parts of a stop pin, 30 parts of a fixed disc C, 101 parts of an inner layer, 102 parts of a partition layer, 103 parts of a screw, 104 parts of an outer layer, 105 parts of a positioning hole, 106 parts of a.

Detailed Description

The present invention will be further explained with reference to the drawings and examples.

As shown in fig. 1 to 11, the apparatus for rapidly cooling food of the present embodiment includes a cooling bowl 1, a fixing base 2, a water supply pipeline 14, a water return pipeline 13, a water chiller 16, a clamping and rotating mechanism and a jacking and leakage preventing mechanism.

As shown in fig. 2, the cooling bowl 1 is a hollow structure and is divided into three layers, namely an inner layer 101, an interlayer 102 and an outer layer 104, wherein the inner layer 101 is a thin plate made of food-grade 304 stainless steel, the interlayer 102 is made of PPR heat-insulating plastic, and the outer layer 104 is made of food-grade plastic. The shape of the interlayer 102 is the same as that of the inner layer 101 and the outer layer 104, a hole is formed in the bottom of the interlayer 102, the interlayer 102 divides the hollow part of the cooling bowl 1 into an inner cavity and an outer cavity, and the two cavities are communicated with each other at the top of the interlayer 102; the hole at the bottom of the interlayer 102 is a water inlet, and the bottom of the outer cavity of the hollow part of the cooling bowl 1 is a water outlet. The water inlet, the inner cavity, the outer cavity and the water outlet of the cooling bowl 1 form a water circulation channel of the cooling bowl 1. As shown in fig. 1, the circulating water enters the inner cavity from the water inlet, enters the outer cavity through the through part at the top of the partition layer 102, and finally flows out from the water outlet at the bottom of the outer cavity. As shown in FIG. 3, the bottom of the outer layer 104 of the cooling bowl is divided into an inner ring and an outer ring by a water inlet and a water outlet, the inner ring and the outer ring at the bottom of the outer layer 104 of the cooling bowl are connected through three connecting blocks, and the water outlet of the cooling bowl is evenly divided into three parts. As shown in fig. 4, the bowl seat at the bottom of the cooling bowl 1 is made of 304 stainless steel, the table surface of the bowl seat is 3 mm thick, three clamping blocks 106 are uniformly arranged at the edge of the bottom of the bowl seat, and holes corresponding to the water inlet and the water outlet of the cooling bowl 1 are respectively arranged in the middle of the bowl seat; as shown in fig. 5, a plurality of inverted small round tables are arranged on the table top of the bowl seat, and the outer ring of the bottom of the cooling bowl outer layer 104 and the three connecting blocks are firmly injected with the bowl seat through the inverted small round tables on the table top of the bowl seat. Three protruding small screw holes are formed in the inner ring of the bowl seat of the cooling bowl 1, the bottom of the interlayer 102 is fixed to the inner ring of the bowl seat of the cooling bowl 1 through three small screws 103, and a sealing gasket is arranged between the bottom of the interlayer 102 and the inner ring of the bowl seat of the cooling bowl 1, so that sealing tightness is guaranteed. The top of the cooling bowl inner layer 101 is turned over to the upper part of the cooling bowl outer layer 104 and is fixedly connected with the cooling bowl outer layer 104, and the connection can be fixed by pressing, bonding and other modes. The positions, corresponding to the three clamping blocks, on the surface of the cooling bowl outer layer 104 are respectively provided with a mark, and the marks are used for mounting the cooling bowl 1 and the fixing seat 2, so that the mounting is quicker. The bowl seat at the bottom of the cooling bowl 1 is provided with a positioning hole 105, and the surface of the cooling bowl outer layer 104 corresponding to the positioning hole 105 is provided with a mark for marking the position of the positioning hole 105, so that the cooling bowl can be conveniently aligned with the positioning pin 204 when being placed on the fixed seat.

As shown in fig. 8, the fixing base 2 is located on the fixing disc a4 at the top of the bracket 11 and integrated with the fixing disc a4, the diameter of the fixing base 2 corresponds to the diameter of the bowl seat 107, the depth of the fixing base 2 is smaller than the height of the cooling bowl seat 107, and the bottom of the fixing base is hollowed out so that the cylindrical hook seat and the hook can be placed therein. The edge of the upper opening of the fixing seat is provided with an inclined guide plate 203, so that the bowl seat 107 can be quickly and conveniently placed in the fixing seat 2. The bottom of the fixed seat 2 is provided with a positioning pin 204 along the vertical direction, and the position of the positioning pin 204 corresponds to the positioning hole 105 at the bottom of the cooling bowl 1.

As shown in fig. 9, the clamping and rotating mechanism is located inside the fixed seat 2 and includes a cylindrical hook seat 3, a bearing 12 is disposed on an outer wall of a lower portion of the cylindrical hook seat 3, and the bearing 12 is mounted on a fixed disc C30. The top of the cylindrical hook seat 3 is uniformly provided with three hooks 201, and the sizes and the positions of the three hooks 201 correspond to the clamping blocks 106 at the bottom of the cooling bowl 1; the belt pulley is equipped with to the cylindric trip seat outer wall of bearing 12 below, and the belt pulley passes through the belt and connects on step motor 5's belt pulley, and step motor 5 is fixed in on fixed disc C30 through its support, and step motor 5 is rotatory to drive cylindric trip seat 3 and trip 201 rotatory to control its rotation angle. The cylindrical clamping hook seat 3 is made into a long cylindrical shape, so that the rotary bearing is far away from the clamping hook and the cooling bowl 1, and the bearing oil stain is prevented from polluting the fixed seat and the cooling bowl.

The water supply pipeline 14 and the water return pipeline 13 are divided into an upper moving part and a lower fixed part, the water supply pipeline 14 and the water return pipeline 13 are integrated, the upper section of the moving part of the water supply pipeline 14 is arranged in the upper section of the moving part of the water return pipeline 13, and the upper section and the lower section of the moving part of the water supply pipeline 14 are concentric and are separated respectively. A heat insulation layer is arranged between the water supply pipeline and the water return pipeline inside the water return pipeline 13 to prevent heat conduction between the water inlet and the water outlet. The top of the water supply pipeline 14 and the top of the water return pipeline 13 are both provided with sealing gaskets made of edible silica gel. The water supply pipeline 14 and the moving part pipeline of the water return pipeline 13 are arranged on the jacking anti-leakage mechanism, the fixed part pipelines of the water supply pipeline 14 and the water return pipeline 13 are fixed on the fixed disc B18 through mounting holes, and the moving part pipelines and the fixed part pipelines of the water supply pipeline 14 and the water return pipeline 13 are connected through the telescopic pipes 19. The inlet at the bottom of the water supply pipeline 14 is connected with the water outlet of the ice and water machine 16, and the outlet at the bottom of the water return pipeline 13 is connected with a pipeline to the water tank of the ice and water machine 16. All exposed parts of the water supply pipeline and the water return pipeline of the device are insulated, so that the loss of cold energy is prevented, and energy is saved.

The jacking anti-leakage mechanism is positioned below the moving parts of the water inlet pipeline 14 and the water outlet pipeline 13 and comprises a sliding rod A24 arranged at the lower part of the moving part of the water inlet pipeline 14, and a sliding rod A24 penetrates through a large round hole in the middle of the fixed disc B18 to be positioned below the fixed disc B18. As shown in fig. 10, a spring baffle is arranged in the middle of the sliding rod a24, the spring A8 is sleeved on the sliding rod a24 below the spring baffle, a sliding sleeve 9 is arranged below the spring A8, the sliding sleeve 9 is sleeved on the sliding rod a24 below the spring A8, a stop pin 29 is arranged on the sliding rod a24 below the sliding sleeve 9, and the bottom of a support of the sliding sleeve 9 is connected with the electric push rod 10 through a universal joint 15. The upper part of the sliding rod A24 is fixedly provided with a long strip-shaped cross beam 6 along the horizontal direction, two ends of the cross beam 6 are respectively provided with a sliding rod B17 with the same specification in the downward vertical direction, and two sliding rods B17 respectively penetrate through the lower part and are arranged on corresponding linear bearings A7 and B25 on a fixed disc B18. The beam 6, the sliding rod a24, the sliding rod B17, the linear bearing a7 and the linear bearing B25 form a vertical linear motion device, the vertical linear motion device comprises a moving piece and a fixed piece, the moving piece is formed by the beam and the sliding rod A, B, and the fixed piece is formed by two linear bearings A, B. The vertical linear motion device provides that the jacking leakage-proof mechanism can only move up and down along the vertical direction, and the jacking leakage-proof mechanism moves up and down to drive the moving parts of the water supply pipeline 14 and the water return pipeline 13 to move up and down, and stretch and compress the telescopic pipe 19. The linear bearings are oilless linear bearings, so that the cleanness of the equipment is guaranteed.

The electric push rod 10 and the stepping motor 5 are both connected with the P L C or the singlechip controller and controlled through the controller.

The water chiller has the functions of making ice water, storing ice water, supplying ice water and the like, is a mature product in the market and is not described much.

The water outlet pipeline 13 and the water inlet pipeline 14 in this embodiment may also be designed as mutually independent pipelines, for example, the water inlet pipeline is separately arranged in the middle, the water outlets at the bottom of the cooling bowl 1 are designed as three outlets, three water outlet pipelines are respectively connected with the three water outlets, and finally the three water outlet pipelines are converged at the water inlet of the ice water machine. If the pipeline is connected with the jacking leakage-proof mechanism below, a fixing part can be additionally arranged between the pipelines, the fixing part fixes a plurality of pipelines together, and the pipelines are connected with the jacking leakage-proof mechanism through the fixing part.

The working principle of the embodiment is as follows:

and (3) containing the food which is just taken out of the pot by using the cooling bowl, sleeving the positioning hole of the cooling bowl 1 on the positioning pin 204 on the fixed seat 2 according to the positioning hole mark of the cooling bowl 1, placing the cooling bowl, and starting the equipment.

And (3) starting a forward rotation program of the stepping motor 5, rotating the stepping motor 5 clockwise to drive the cylindrical clamping hook seat 3 to rotate, screwing the clamping hook 201 into the clamping block 106 to be matched and hung, and stopping rotating, so that the cooling bowl 1 is fixed.

Starting an electric push rod 10 to ascend, wherein the electric push rod 10 pushes a sliding sleeve 9 to move upwards, the sliding sleeve 9 drives the upper parts of a water supply pipeline 14 and a water return pipeline 13 to move upwards, when the tops of the water supply pipeline 14 and the water return pipeline 13 are contacted with the bottom of the cooling bowl 1, the upper parts of the water supply pipeline 14 and the water return pipeline 13 stop moving upwards, a spring A8 above the sliding sleeve 9 starts to compress, when a spring A8 compresses to a set value, the electric push rod 10 stops moving, and the elastic force of the spring A8 enables the tops of the water supply pipeline 14 and the water return pipeline 13 to be tightly sealed with the peripheries of a water inlet and a water outlet at the bottom of the cooling bowl.

And starting a circulating water pump of the water chiller 16, enabling ice water to enter the hollow-structure inner cavity of the cooling bowl 1 through the water supply pipeline 14, carrying out heat exchange with food in the cooling bowl 1 through the stainless steel inner layer of the cooling bowl 304 to take heat of the food, flowing into the outer cavity through the top through part of the inner cavity and the top through part of the outer cavity, flowing out of a water outlet of the cooling bowl, and flowing back to a water tank of the water chiller 16 along the water return pipe 13 to realize water circulation cooling. When the food is cooled to the proper temperature of 40 ℃ for people to eat after the food is circularly cooled for the set time, about 2.5 minutes is needed (data measured by a model test), at the moment, a circulating water pump of the water chiller 16 is closed, the residual water in the inner cavity and the outer cavity of the cooling bowl 1 flows into the water supply pipeline 14 and the water return pipeline 13 due to the self gravity, about 10 seconds, and the residual water in the inner cavity and the outer cavity of the cooling bowl is drained.

And starting a descending program of the electric push rod 10, moving the electric push rod downwards to drive the slider sleeve 9 to move downwards, simultaneously resetting the spring A8, when the sliding part of the slider sleeve 9 moves downwards to touch the stop pin 29, ending the resetting of the spring A8, pushing the stop pin 29 by the sliding part of the slider sleeve 9 to drive the sliding rod A24 to move downwards, driving the moving parts of the water supply pipeline 14 and the water return pipeline 13 to descend by the sliding rod A24 to leave the bottom of the cooling bowl 1, and stopping the movement of the electric push rod after leaving the set distance.

And starting a reverse rotation program of the stepping motor 5 to enable the stepping motor 5 to run reversely, driving the hook 201 to rotate away from the clamping block 106 on the cooling bowl seat 107, and stopping the rotation of the stepping motor 5 after the hooking is released.

The cooling bowl 1 is removed and the cooling bowl is delivered directly to the consumer for consumption along with the food in the bowl.

The above operation flows are all controlled by P L C or single chip, and are automatically completed.

The equipment main function of the quick cooling food of this embodiment is to just go out the pot and roll hot soup class food and carry out quick cold instant, if: vegetable soup, broth, simmered soup, crock soup, fresh soup noodles, fresh soup powder, casserole noodles, casserole dish, etc. The equipment has the advantages of high food cooling speed, automatic completion of one-key starting, safe and sanitary cooling process, convenient use of the special cooling bowl and suitability for mass use in restaurants.

The embodiment can also design the water feeder into a small volume, the cooling bowl seat is fixed on the fixed seat of the water feeder by hand, and the water supply pipeline is butted with the water inlet and the water outlet of the cooling bowl by operating the mechanical component by hand force to form the simple water feeder. Tap water is connected as circulating cooling water, and the tap water after cooling food is discharged to the vegetable washing basin. Although the temperature of tap water is lower than that of ice water, the time for cooling the food is longer, but the soup food which is just taken out of the pot and rolled can be cooled more quickly. The food cooling equipment does not need electromechanical power, does not need an ice water source, has a simple structure, is convenient to operate, and is very suitable for a household kitchen.

The fresh soup food that just came out of pot is abundant in nutrition, clean health, is the food that people generally liked, the utility model discloses a high temperature that equipment of quick cooling food had just come out of pot fresh soup food is rolled and is scalded the problem, will be the first-selected facility that people eat soup food, and equipment market is huge, and commercial prospect sees well.

Claims (11)

1. An apparatus for rapid cooling of food products, comprising at least a cooling bowl, characterized in that: the cooling bowl is of a hollow structure and is divided into three layers, namely an inner layer, an interlayer and an outer layer, the interlayer divides the hollow part of the cooling bowl into an inner cavity and an outer cavity, and the two cavities are communicated with each other at the top of the interlayer; the bottom of the interlayer is provided with a hole, the hole opening is a water inlet, the outlet at the bottom of the outer cavity of the hollow part of the cooling bowl is a water outlet, and the water inlet, the inner cavity, the outer cavity and the water outlet of the cooling bowl form a water circulation channel of the cooling bowl; the cooling bowl is characterized in that a water supply machine is connected to the bottom of the cooling bowl and provided with a water supply pipeline and a water return pipeline, the water supply pipeline is in butt joint with a water inlet of the cooling bowl, and the water return pipeline is in butt joint with a water outlet of the cooling bowl.

2. The apparatus for rapidly cooling food according to claim 1, wherein: the cooling bowl is characterized in that a bowl seat is arranged at the bottom of the cooling bowl, the shape and size of the bowl seat are matched with the bottom of the cooling bowl, the bowl seat is composed of a table top and a cylindrical outer edge surrounding the bottom of the table top, more than two clamping blocks are arranged on the inner wall of the cylindrical outer edge, holes corresponding to a water inlet and a water outlet of the cooling bowl are formed in the table top of the bowl seat, and the bowl seat and the outer layer of the cooling bowl are integrated at the.

3. The apparatus for rapidly cooling food according to claim 2, wherein: the top parts of a water supply pipeline and a water return pipeline of the water supply machine are provided with fixed seats, the size of each fixed seat corresponds to that of the cooling bowl seat, the bottom parts of the fixed seats are hollow, and the water supply pipeline penetrates through the fixed seats; the bowl cooling device is characterized in that more than 2 clamping hooks are arranged on the hollowed edge of the bottom of the fixing seat, and the quantity, position and shape of the clamping hooks correspond to those of clamping blocks on the cooling bowl seat.

4. The apparatus for rapidly cooling food according to claim 2, wherein: the inner layer of the cooling bowl is an edible grade 304 stainless steel thin plate, and the bowl seat and the clamping blocks on the bowl seat are made of edible grade 304 stainless steel.

5. Apparatus for rapidly cooling food products according to claim 3, characterized in that: the clamping hook is fixedly arranged on the fixed seat or rotates relative to the fixed seat; when the hook is arranged in a rotating manner, the hook is arranged on a long cylindrical hook seat, the long cylindrical hook seat is arranged on a fixed disc C through a bearing arranged on the outer wall of the long cylindrical hook seat, a power device A is connected to the outer wall of the long cylindrical hook seat, and the power device A drives the long cylindrical hook seat and the hook to rotate around the axis and controls the rotating angle of the long cylindrical hook seat and the hook; when the clamping hook is arranged in a rotating mode, the bottom edge of the fixing seat is provided with a positioning pin in the vertical direction, and the bowl seat is provided with a positioning hole corresponding to the positioning pin.

6. The apparatus for rapidly cooling food according to claim 1, wherein: and sealing gaskets are arranged at the tops of the water supply pipeline and the water return pipeline.

7. The apparatus for rapidly cooling food according to claim 1, wherein: a vertical linear motion device is arranged below the water supply pipeline and the water return pipeline and consists of a moving part and a fixing part, and the water supply pipeline and the water return pipeline are arranged on the moving part of the vertical linear motion device; and the power device B is used for driving a moving part of the vertical linear motion device to move, so that the water feeding pipeline and the water return pipeline are driven to move up and down.

8. The apparatus for rapidly cooling food according to claim 7, wherein: the vertical linear motion device comprises a cross beam, two ends of the cross beam are respectively provided with a slide bar B in the downward vertical direction, and the two slide bars B respectively penetrate through linear bearings with corresponding specifications arranged on the fixed disc B below.

9. The apparatus for rapidly cooling food according to claim 7, wherein: the water supply pipeline and the water return pipeline are provided with slide bars A at the lower parts, spring baffles are arranged at the middle parts, springs are sleeved on the slide bars A below the spring baffles, sliding sleeve members are arranged below the springs and sleeved on the slide bars A below the springs, and the bottoms of the sliding sleeve members are connected to a power device B.

10. The equipment for rapidly cooling food as claimed in claim 5, wherein the power device A is controlled by P L C or a single chip microcomputer.

11. The equipment for rapidly cooling the food as claimed in claim 7, wherein the power device B is controlled by P L C or a single chip microcomputer.

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