CN208012206U - A kind of freezer of swirl type air velocity distribution - Google Patents

Abstract

The utility model discloses a cold store with a swirling air flow field, which comprises a storehouse body, the storehouse body includes a circular top board, a cylindrical wallboard and a circular storehouse bottom plate; Warehouse door; on the inner side of the cylindrical wall panel, two air coolers are arranged oppositely and up and down. The cylindrical wall panel is connected with the outlet of the throttling and pressure-reducing element of the refrigeration system and the inlet of the refrigeration compressor; there is a drainage groove near the edge of the cylindrical wall panel on the bottom plate of the circular storehouse, and a bacteria collector is installed in the center of the circular top plate. The utility model utilizes the cold air blown out by the blowing outlets of two cooling fans to form a rotating airflow in the storage body. Due to the density, the moisture entrained in the rotating airflow air is thrown to the inner wall of the storage body under the action of centrifugal force and discharged through the drain outlet. Bacteria formed in the center of the airflow are absorbed by the bacteria collector.

Description

A cold storage with swirling air flow field

technical field

The utility model relates to the technical field of freezing and refrigeration of cold chain logistics, in particular to a cold store with a swirling air flow field.

Background technique

The existing cold storage used in the field of cold chain logistics freezing and refrigeration has a cubic structure, and the air flow field formed by the air cooler blows up and down, and it may be at the corners of the storage body, where the cold wind cannot blow. The airflow is unevenly organized. At the same time, the humid air in the cold room passes through the air cooler, and the water is analyzed, and dew or frost forms on the surface of the evaporator of the air cooler, which affects the heat transfer effect of the evaporator, reduces the heat transfer efficiency, increases the heat transfer temperature difference, and refrigerates. The suction temperature of the compressor decreases, the pressure ratio increases, the power consumption increases, and the performance of the refrigeration system decreases. At the same time, condensation and frost on the surface of the evaporator will increase the air flow resistance of the cooling fan, increase the power consumption of the fan, increase the cooling load of the equipment, and increase the energy consumption.

Utility model content

The purpose of the utility model is to aim at the technical defects existing in the prior art, and provide a cold storage with a swirling air flow field, so as to further improve the operating performance of the refrigeration system and ensure the quality of food.

The technical scheme adopted for realizing the purpose of this utility model is as follows:

A cold store with a swirling air flow field, comprising a storehouse body, the storehouse body comprising a circular roof, a cylindrical wallboard and a circular storehouse floor; a storehouse door frame is opened on the cylindrical wallboard, and the storehouse There is a sealed and fitted warehouse door inside the door frame; a first air cooler and a second air cooler are arranged on the inner side of the cylindrical wall panel opposite to each other and arranged up and down, and the blowing outlets of the first air cooler and the second air cooler are in opposite directions And arranged clockwise; the first cooling fan liquid supply pipe and the first cooling fan return air pipe of the first cooling fan and the second cooling fan liquid supply pipe and the second cooling fan return air pipe of the second cooling fan are respectively Through the cylindrical wallboard, it is connected with the outlet of the throttling and pressure-reducing element of the refrigeration system and the inlet of the refrigeration compressor; a drainage groove is set on the edge of the circular warehouse floor near the cylindrical wallboard, and the storage body A bacteria collector is detachably installed in the central position of the circular top plate.

The drainage groove is provided with a drainage outlet at the bottom position facing the warehouse door, and the location of the drainage outlet is lower than the drainage groove.

The number of air outlets of the first cooling fan and the second cooling fan are the same.

The utility model utilizes the cold air blown out by the blowing outlets of two cooling fans to form a rotating air flow in the storage body. Due to the density, the moisture entrained in the rotating air flow air is thrown to the inner wall of the storage body under the action of centrifugal force, and passes through the bottom of the storage body. The bacteria formed in the center of the swirling air flow are absorbed by the bacteria collector.

The utility model of the cold storage with swirling air flow field, the air distribution in the cold room is uniform, the performance of the refrigeration system is improved, the moisture in the air is separated by centrifugal force, the condensation and frost on the surface of the evaporator is less, and the heat transfer effect of the evaporator is improved. Well, the air flow resistance of the air cooler is reduced and the overall energy consumption is reduced.

Description of drawings

Fig. 1 is the top view schematic diagram of the utility model whirling air flow field cold storage after being cut radially;

Fig. 2 is a sectional view along line A-A of Fig. 1 .

Detailed ways

Below in conjunction with accompanying drawing and specific embodiment the utility model is described in further detail. It should be understood that the specific embodiments described here are only used to explain the utility model, and are not intended to limit the utility model.

As shown in Figure 1-2, a swirling air flow field cold storage includes:

Storage body 1, first cooling fan 2, storage door 3, second cooling fan 4, bacteria collector 5, drainage tank 6, first cooling fan liquid supply pipe 7, first cooling fan return air pipe 8, second cooling fan Liquid supply pipe 9, second air cooler return air pipe 10;

The warehouse body 1 is composed of a circular top plate, a cylindrical wall panel and a circular warehouse bottom plate to form a cylindrical sealed structure. One side of the warehouse body 1 is provided with a warehouse door frame directly in front, The storage door 3 sealed and matched in the storage door frame, the second cooling fan 4 and the first cooling fan 2 are located at different upper and lower positions on the inner wall of the cylindrical wall panel, and are fixed on the inner wall of the cylindrical wall panel and are arranged oppositely. Two air coolers 4 and the air outlets of the first air cooler 2 are arranged in the opposite direction and clockwise, and drainage grooves 6 are set on the edge of the cylindrical wallboard on the bottom of the circular warehouse, and the storage body 1 of the A bacteria collector 5 is fixed at the central position of the circular top plate;

The first cooling fan liquid supply pipe 7 and the first cooling fan return air pipe 8 of the first cooling fan 2 respectively pass through the cylindrical wallboard to connect with the outlet of the throttling and step-down element of the refrigeration system and the inlet of the refrigeration compressor. The second cooling fan liquid supply pipe 9 and the second cooling fan return air pipe 10 of the second cooling fan 4 respectively pass through the cylindrical wallboard and are connected with the outlet of the throttling and pressure reducing element of the refrigeration system and the inlet of the refrigeration compressor.

The drain tank 6 is provided with a drain outlet at the bottom position facing the warehouse door 3, the position of the drain outlet is lower than the drain tank 6, and the bacteria collector 5 is detachably installed in the center of the circular top plate, which can be cleaned regularly or replace.

Wherein, the air outlets of the first air cooler 2 and the second air cooler 4 are designed to be arranged up and down, and the number of air outlets of the first air cooler 2 and the second air cooler 4 is the same, which can be adjusted according to the size and cooling capacity of the cold room. to be specific.

Wherein, the bacteria collector 5 is the bacteria collector or device used in the existing cold storage.

When the refrigeration system of the cold storage is in operation, the cold air blown out from the air outlets of the first cooling fan 2 and the second cooling fan 4 forms a rotating air flow in the storage body 1. Due to the density, the moisture entrained in the air is under the action of centrifugal force. Throw it to the inner wall of the storage body, and flow to the drainage tank 6, and discharge through the drain outlet, and the bacteria formed in the center of the rotating air flow are absorbed by the bacteria collector 5.

The above is only a preferred embodiment of the utility model, it should be pointed out that for those of ordinary skill in the art, without departing from the principle of the utility model, some improvements and modifications can also be made, these Improvement and retouching should also be regarded as the protection scope of the present utility model.

Claims (3)

1. a kind of freezer of swirl type air velocity distribution, characterized in that including the library, the library includes circular top plate, cylindrical shape Wallboard and round house bottom plate；Library doorframe is offered on the cylindrical shape wallboard, there is the Ku Men that sealing coordinates in the library doorframe；Institute It states opposite on the medial surface of cylindrical shape wallboard and is disposed with the first air-cooler and the second air-cooler, the first air-cooler and second up and down The direction of the blowing mouth of air-cooler is opposite and in arrangement clockwise；First air-cooler liquid supply pipe of first air-cooler and first The the second air-cooler liquid supply pipe and the second air-cooler muffler of air-cooler muffler and second air-cooler are each passed through institute State reducing pressure by regulating flow component outlet and the refrigeration compressor import connection of cylindrical shape wallboard and refrigeration system；On the circle house bottom plate Rhone, the detachable installation bacterium in middle position of the circular top plate of the library are opened up close to the edge of cylindrical shape wallboard Collector.

2. the freezer of swirl type air velocity distribution according to claim 1, characterized in that the rhone is in library door face Bottom position offer discharge outlet, the position of the discharge outlet is less than the rhone.

3. the freezer of swirl type air velocity distribution according to claim 1, characterized in that first air-cooler and the second cold wind The quantity of the blowing mouth of machine is identical.