TWM544618U - Ultra-low temperature rapid freezing system structure - Google Patents

Description

Ultra-low temperature rapid freezing system structure

This creation is about a refrigeration system, especially an ultra-low temperature rapid freezing system.

According to many fresh products, in order to maintain freshness and taste, most of them use rapid freezing to freeze the food in the shortest time. The rapid freezing is mainly used to set up a conveyor belt in a tunnel freezer. The refrigeration compressor generates freezing energy in the tunnel freezer, and at the same time, with the use of a few fans, the freezing energy is filled in the tunnel freezer. Because the space inside the tunnel freezer is small, the refrigeration compressor can be effectively utilized. Freezing energy, the food is frozen at a very high speed, but the low-temperature freezing energy produced by this method is limited. Therefore, it is necessary to use the length of the extended tunnel freezer and slow down the moving speed of the conveyor belt to have enough time and distance to freeze the food. However, this method is extremely fast freezing, and it is not possible to freeze the food in a shorter time, and the space required is extremely long, and a longer space must be used to accommodate the tunnel freezer.

In view of this, the creator has been engaged in the manufacturing development and design experience of related products for many years. After detailed design and careful evaluation, the author has finally achieved a practical and practical creation.

The technical problem to be solved by the present invention lies in the above-mentioned existing technologies. Missing, providing an ultra-low temperature rapid freezing system structure.

An ultra-low temperature rapid freezing system structure comprising: a frozen body, a conveyor belt body, a plurality of driving units, a cold row pipe and two compressors, wherein a freezer system has a tunneling chamber and passes through a plurality of partitions The spacing is defined such that a plurality of independent spaces are formed in the tunnel interior of the freezer body, and the outer wall of the freezer body and the partitions of the independent spaces are provided with communicating through holes, and the opening of the tunnel chamber is correspondingly independent. The space is provided with a door body, and a conveyor belt system is arranged between the through holes of the freezing machine body, and a plurality of driving units are respectively used for driving a plurality of fans, and the driving units are respectively arranged in the independent body space and are sequentially arranged and fixed on the freezing machine body. Externally, the fans are respectively placed upside down in a separate space inside the freezer body, a cold-discharge pipe is disposed on the side of each of the independent spaces of the freezer body, and the two compressors are connected in series to the cold-discharge pipe, wherein a compressor is cooled, and then connected to another compressor for cooling, and finally connected to a cold discharge pipe. With the above structure, the crucible is configured to constitute an ultra-low temperature rapid freezing system. Structure.

(1) There are several partitions in the tunnel chamber of the freezer body, so that there are a number of independent spaces inside the freezer body, which can fully utilize the freezing energy to avoid unnecessary flow, and at the same time cooperate with the use of the driving unit and the fan to make the airflow only It flows evenly in a separate space, so that the frozen energy can be effectively used. Therefore, the length of the freezer body can be set to be shorter, without taking up space, and the frozen food can be completed more quickly.

(2) Refrigeration in the freezer body is to use the two-stage compressor to perform the first stage of refrigeration, so that the temperature reaches zero degree, and then continue to use the single-stage compressor to continue the second stage of refrigeration. The temperature can be instantly reduced to below minus 80 degrees, so that the temperature inside the freezer can reach the minimum directly and quickly.

10‧‧‧Freezer body

11‧‧‧Tunnel room

12‧‧‧Baffle

13‧‧‧Independent space

14‧‧‧through hole

15‧‧‧

20‧‧‧ conveyor belt body

30‧‧‧Drive unit

31‧‧‧Fan

40‧‧‧ Cold-discharge tube

50‧‧‧Compressor

501‧‧‧Single stage compressor

502‧‧‧Two-stage compressor

Figure 1: This is a perspective view of the creation.

Figure 2: This is a perspective view of the creation and a partial perspective view.

Figure 3: A perspective view of another angle of the creation.

Figure 4: This is the front view of the creation.

Figure 5: This is a side view of the creation.

In order to enable your review committee to have a better understanding and understanding of the purpose, characteristics and efficacy of this creation, please refer to the following [Simplified Description of the Drawings] for details: First, please refer to Figures 1 to 5 first. An ultra-low temperature rapid freezing system structure comprising: a freezing machine body 10, a conveyor belt body 20, a plurality of driving units 30, a cold discharging tube 40 and two compressors 50, wherein a refrigerator body 10 has a tunneling chamber 11 And a plurality of partitions 12 are spaced apart to define a plurality of independent spaces 13 formed in the tunnel chamber 11 of the freezer body 10, and the outer wall of the freezer body 10 and the partitions 12 of the individual spaces 13 are connected to each other. The hole 14 and the opening of the tunnel chamber 11 are respectively provided with a door body 15 corresponding to each independent space. A conveyor belt body 20 is looped back and forth between the through holes 14 of the freezer body 10, and a plurality of driving units 30 are respectively used for driving. A plurality of fans 31 are arranged in the outer space 13 corresponding to the independent spaces 13 and arranged in the outer space of the freezer body 10, and then the fans 31 are respectively placed upside down in the independent space 13 inside the refrigerator body 10, and a cold tube is arranged. 40 series The two compressors 50 are arranged in series to the cold discharge pipe 40, and the two compressors 50 are a single-stage compressor 501 and a two-stage compressor 502, respectively, on the inner side of each of the independent spaces 13 of the refrigeration body 10. First, the two-stage compressor 502 is first cooled, then connected to the single-stage compressor 501 to continue cooling, and finally connected to the cold-discharge tube 40. With the above structure, the ultra-low temperature rapid freezing system structure is completed.

The state in which the structure is actually used, as shown in Figs. 2 to 5, the conveyor belt body 20 is continuously operated between the through holes 14 of the refrigerator body 10, and the food to be frozen is provided through the conveyor belt body 20, The food is fed into the tunnel chamber 11 of the freezer body 10 by the conveyor belt body 20, and sequentially passes through the through holes 14 and passes through the independent spaces 13, and the cold energy generated by the cold discharge tube 40 is firstly After the two-stage compressor 502 performs the first stage of cooling (at this time, the temperature is about minus 40 degrees), the cooling effect is transmitted to the single-stage compressor 501, and the single-stage compressor 501 continues. The two-stage refrigeration causes the temperature to drop again and rapidly reaches below minus 80 degrees, and the frozen energy is sent to the cold discharge pipe 40, and the cold discharge pipe 40 is distributed in the independent spaces 13 of the refrigeration body 10, and then The fans 31 are respectively driven by the driving unit 30 to uniformly distribute and flow the freezing energy in the independent spaces 13 , and further utilize the limitation of the partition 12 to enable the flow freezing energy to generate high efficiency in each of the independent spaces 13 . When the conveyor belt body 20 transports the food, it can pass through the through holes 1 4 sequentially passes through the separate spaces 13 to freeze the food at a very fast speed.

According to the structure of the above specific embodiment, the following benefits can be obtained: (1) The plurality of partitions 12 are provided in the tunnel chamber 11 of the freezer body 10, so that the interior of the freezer body 10 has a plurality of independent spaces 13 for sufficient freezing capacity. By avoiding unnecessary flow and cooperating with the use of the driving unit 30 and the fan 31, the airflow can only flow uniformly in the independent space 13, so that the freezing energy can be effectively used, so that the length of the freezing body 10 can be set and used. Short, without taking up space, can also complete frozen food faster; (2) Refrigeration in the refrigeration body 10 is to use the two-stage compressor 502 for the first stage of refrigeration, so that the temperature reaches minus 40 degrees Then, the single-stage compressor 501 is continuously used to continue the second-stage cooling, so that the temperature can be instantaneously dropped to below minus 80 degrees, so that the temperature in the refrigerator body 10 can be directly and quickly reached the minimum.

In summary, this creation has indeed achieved a breakthrough structural design with improved The content of the creation can at the same time achieve the utilization and progress of the industry, and the creation is not found in any publications, and it is also novel. When it meets the requirements of the relevant laws and regulations of the Patent Law, it is required to file a patent application in accordance with the law. The review committee granted legal patent rights and was praying.

Only the above-mentioned ones are only preferred embodiments of the present invention, and the scope of the implementation of the creation cannot be limited by them; that is, the equal changes and modifications made by the applicants in accordance with the scope of the patent application for this creation should still belong to the creation. Within the scope of the patent.

10‧‧‧Freezer body

11‧‧‧Tunnel room

12‧‧‧Baffle

13‧‧‧Independent space

14‧‧‧through hole

20‧‧‧ conveyor belt body

30‧‧‧Drive unit

31‧‧‧Fan

50‧‧‧Compressor

501‧‧‧Single stage compressor

502‧‧‧Two-stage compressor

Claims (2)

An ultra-low temperature rapid freezing system structure comprising: a refrigerating machine body having a tunneling chamber and being spaced apart by a plurality of partitions to form a plurality of independent spaces inside the tunneling chamber of the freezing body body, and the freezing body The outer wall and the partition of each independent space are provided with through holes communicating with each other, and the opening of the tunnel chamber is provided with a door body corresponding to each independent space; a conveyor belt body is connected to the through hole of the freezer body And a plurality of driving units respectively for driving a plurality of fans, wherein the driving units are respectively arranged in the independent space and arranged in the outer part of the freezer body, and then the fans are respectively arranged upside down in the independent space inside the freezing machine body; a cold discharge pipe is disposed on the inner side of each independent space of the refrigeration body; and two compressors are connected in series to the cold discharge pipe, wherein one compressor is cooled, and then connected to another compressor for cooling, Finally connected to the cold discharge pipe. According to the ultra-low temperature rapid freezing system structure described in claim 1, wherein the two compressors are a single-stage compressor and a two-stage compressor, and the system is first cooled by a two-stage compressor and then transmitted to Single-stage compressors continue to be refrigerated.