CN215113443U - Refrigeration equipment - Google Patents

Abstract

The refrigeration equipment comprises a shell and a plurality of refrigeration assembly lines arranged in the shell, wherein any assembly line is provided with a spiral refrigeration tower, and cold source equipment is positioned among the spiral refrigeration towers. The freezing assembly line is provided with two freezing assembly lines; the first freezing assembly line comprises a first feeding hole, a first spiral tower, a first conveying belt and a first discharging hole in the conveying direction in sequence, and the second freezing assembly line comprises a second feeding hole, a second conveying belt, a second spiral tower and a second discharging hole in the conveying direction in sequence. The beneficial effects are that: the integration of a plurality of production lines is realized, and the occupied area of equipment is reduced; the energy utilization efficiency is improved, and a plurality of lines can better share one set of cold source; the spiral cooling towers are all distributed at the periphery of the cold source, and have better cooling efficiency.

Description

Refrigeration equipment

Technical Field

The utility model belongs to the technical field of it is freezing, especially, relate to a refrigeration plant.

Background

The freezing method of the product is a low-temperature fresh-keeping method which utilizes the low-temperature condition to inhibit the propagation of microorganisms in the aquatic products and slows down the chemical reaction speeds of lipid oxidation, non-enzymatic browning and the like of the aquatic products, so that the aquatic products can keep excellent quality during storage.

The existing refrigeration equipment is single, generally, one equipment can only refrigerate for one product, and when a plurality of products are required to be refrigerated, a plurality of refrigeration lines are required to be built. At this time, the occupied area and the energy consumption of the equipment are multiplied.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model adopts the following technical scheme:

a refrigeration apparatus comprising

A housing, and arranged in the housing

A plurality of refrigeration production lines, any one of which is provided with a spiral refrigeration tower,

and the cold source equipment is positioned among the spiral freezing towers.

In some embodiments, the freezing line has two;

the first freezing production line sequentially comprises a first feeding hole, a first spiral tower, a first conveying belt and a first discharging hole in the conveying direction,

the second freezing assembly line comprises a second feeding hole, a second conveying belt, a second spiral tower and a second discharging hole in the conveying direction in sequence.

In some modes, the first spiral tower and the second spiral tower are respectively positioned at two ends of the shell.

In some embodiments, the heat sink apparatus is positioned between the first spiral tower and the second spiral tower.

In some embodiments, the spiral freezing tower includes a spiral track and a spiral conveyor belt disposed on the spiral track.

In some modes, the middle part of the spiral freezing tower is provided with a driving mechanism, and the driving mechanism rotates to drive the spiral conveying belt to move.

In some forms, the drive mechanism and the helical track have a thermal insulation module.

In some embodiments, the first conveyor belt and the second conveyor belt are both positioned between the first spiral tower and the second spiral tower.

In some embodiments, the first and second conveyor belts are parallel to each other.

The utility model has the advantages that:

the integration of a plurality of production lines is realized, and the occupied area of equipment is reduced; the energy utilization efficiency is improved, and a plurality of lines can better share one set of cold source; the spiral cooling towers are all distributed at the periphery of the cold source, and have better cooling efficiency.

Drawings

Fig. 1 is a schematic top view of the present invention;

fig. 2 is a schematic front view of the present invention;

FIG. 3 is a schematic top view of a spiral cooling tower.

In the figure:

101 a first feed inlet, 102 a first discharge outlet, 110 a first conveyor belt, 201 a second feed inlet, 202 a second discharge outlet, 210 a second conveyor belt, 300 a cold source device, 401 a spiral track, 402 a spiral conveyor belt, 403 a driving mechanism, 410 a first spiral tower, 420 a second spiral tower, 500 a shell.

Detailed Description

The following further description of the present invention:

a refrigeration apparatus comprising

The shell 500 is provided with a heat insulation layer on the side wall, so that the heat insulation capacity of the refrigeration equipment is improved;

and provided in the case 500

A plurality of refrigeration production lines, any one of which is provided with a spiral refrigeration tower,

and the cold source device 300 is positioned among the plurality of spiral freezing towers.

In the prior art, a refrigeration pipeline is generally arranged in a shell, and then each refrigeration pipeline is provided with a set of cold source equipment; the utility model discloses a many freezing assembly lines can share one set of cold source equipment. And set up the spiral freezing tower at cold source equipment 300 equipment periphery, spiral operation about the spiral freezing tower has improved the refrigeration effect.

In one embodiment, as in FIG. 1, the freeze line has two; the two production lines are mutually independent and can independently operate, so that different products can be frozen by one set of refrigeration equipment, the refrigeration efficiency is accelerated, and the energy consumption is reduced.

In order to improve the equipment servicing degree, the working efficiency and the freezing efficiency, the arrangement of the first freezing assembly line and the second freezing assembly line is different:

the first freezing assembly line comprises a first feeding hole 101, a first spiral tower 410, a first conveying belt 110 and a first discharging hole 102 in the conveying direction in sequence,

the second refrigeration line comprises a second feed port 201, a second conveyor belt 210, a second spiral tower 420 and a second discharge port 202 in sequence in the conveying direction.

The two sets of equipment are reasonably staggered, so that the width of the equipment is ensured to be smaller, the occupied area is reduced, and the same freezing effect of one cold source on two lines is kept.

The first inlet 101 and the second inlet 201 are located at the same end of the housing 500, and the frozen objects on the two lines move along different paths as shown by the two arrows

The first spiral tower 410 and the second spiral tower 420 are respectively located at two ends of the shell 500.

The heat sink apparatus 300 is positioned between the first spiral tower 410 and the second spiral tower 420.

In connection with what is shown in fig. 2, the spiral freezing tower includes a spiral track 401, and a spiral conveyor 402 disposed on the spiral track 401.

In connection with the illustration of fig. 3, a driving mechanism 403 is disposed in the middle of the spiral freezing tower, and the driving mechanism 403 rotates to drive the spiral conveyor 402 to move. The specific combination and principle of the driving mechanism 403 moving by edge-pulling the spiral transmission belt 402 may be one using the existing technology, and is not particularly limited.

The driving mechanism 403 and the spiral track 401 are provided with a thermal insulation module, and the thermal insulation module enables the inner core part of the spiral tower to have a certain temperature insulation part with the outside, so that cold air entering the inner core is reduced, and cold air waste is caused;

further, as shown in fig. 2, the first conveyor belt 110 and the second conveyor belt 210 are located between the first spiral tower 410 and the second spiral tower 420.

The first conveying belt 110 and the second conveying belt 210 are parallel to each other; thereby ensuring that the two have the same working state and improving the transportation and refrigeration efficiency.

It will be apparent to those skilled in the art that various modifications may be made to the above embodiments without departing from the general spirit and concept of the invention. Which all fall within the protection scope of the utility model. The protection scheme of the utility model is based on the appended claims.

Claims (9)

1. Refrigeration equipment, characterized by comprising

A housing (500), and a housing (500) provided therein

A plurality of refrigeration production lines, any one of which is provided with a spiral refrigeration tower,

a cold source device (300) is positioned between the plurality of spiral freezing towers.

2. Refrigeration apparatus according to claim 1, characterized in that the refrigeration line has two;

the first freezing production line sequentially comprises a first feeding hole (101), a first spiral tower (410), a first conveying belt (110) and a first discharging hole (102) in the conveying direction,

the second refrigeration assembly line comprises a second feeding hole (201), a second conveying belt (210), a second spiral tower (420) and a second discharging hole (202) in sequence in the conveying direction.

3. Refrigeration device according to claim 2, wherein the first spiral tower (410) and the second spiral tower (420) are located at both ends of the housing (500), respectively.

4. A cold appliance according to claim 3, wherein the cold source device (300) is located between the first spiral tower (410) and the second spiral tower (420).

5. Refrigeration device according to claim 1, characterized in that the spiral freezing tower comprises a spiral track (401) and a spiral conveyor belt (402) arranged to the spiral track (401).

6. The freezing apparatus according to claim 5, wherein the spiral freezing tower is provided with a driving mechanism (403) at the middle part, and the driving mechanism (403) rotates to drive the spiral conveyor belt (402) to move.

7. Refrigeration appliance according to claim 6, characterized in that the drive mechanism (403) and the spiral track (401) have a temperature-insulating module.

8. Refrigeration device according to claim 2, characterized in that the first conveyor belt (110) and the second conveyor belt (210) are each located between a first spiral tower (410) and a second spiral tower (420).

9. Refrigeration device according to claim 8, characterized in that the first conveyor belt (110) and the second conveyor belt (210) are parallel to each other.

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