CN217287829U - Carbon dioxide removing machine for air-conditioning fresh-keeping storehouse - Google Patents

Abstract

The utility model belongs to the technical field of the carbon dioxide desorption, a carbon dioxide desorption machine of air-conditioned fresh-keeping storehouse is provided. The utility model relates to a carbon dioxide desorption machine of gas conditioning fresh-keeping storehouse includes: the carbon dioxide removing device comprises a fixed box body, a carbon dioxide removing machine main body and a connecting pipeline; the carbon dioxide remover main body is fixedly arranged in the fixed box body, and the fixed box body is arranged on the controlled atmosphere fresh-keeping warehouse; one end of the connecting pipeline is communicated with the fixed box; the other end of the connecting pipeline is communicated with the controlled atmosphere fresh-keeping storehouse. The carbon dioxide removing machine for the air-conditioned fresh-keeping warehouse is reasonable in structure and practical in design, can realize the maximum application space of the air-conditioned fresh-keeping warehouse, adopts a three-side connection design, can fully absorb carbon dioxide gas, and is suitable for industrial popularization.

Description

Carbon dioxide removing machine for air-conditioning fresh-keeping storehouse

Technical Field

The utility model relates to a technical field of carbon dioxide desorption, concretely relates to carbon dioxide desorption machine of gas-conditioning fresh-keeping storehouse.

Background

The controlled atmosphere storage is the most common refrigeration storage for storing fruits and vegetables, the content of oxygen is reduced to 1% -10% and the content of carbon dioxide is improved to 1% -10% in the controlled atmosphere storage, so that the freshness of the fruits and vegetables during picking can be maintained in the storage environment, the loss is reduced, the freshness period is long, and no pollution is caused; after the fresh fruits and vegetables are picked, the fruits and vegetables still have vigorous respiration and evaporation effects, so that oxygen is absorbed from the air, self nutrient substances are decomposed and consumed, and carbon dioxide, water and heat are generated.

The respiration consumes the nutrients of the picked fruits and vegetables, so the key of prolonging the storage period of the fruits and vegetables is to reduce the respiration rate. Evaporation and microbial growth are reduced to a certain extent; the carbon dioxide with proper high concentration can slow down respiration, and has the effect of delaying the start of the respiration jump on the respiration jump type fruits and vegetables, thereby delaying the after-ripening and the aging of the fruits and vegetables.

Therefore, the concentration and the content of the carbon dioxide in the controlled atmosphere storage are controlled, and the carbon dioxide remover is a common device for realizing the function. The common carbon dioxide removing machine is arranged in the controlled atmosphere fresh-keeping warehouse to realize the control of the carbon dioxide concentration in the controlled atmosphere fresh-keeping warehouse; but the installation mode greatly reduces the internal space.

SUMMERY OF THE UTILITY MODEL

To the defects in the prior art, the utility model provides a carbon dioxide removing machine for a controlled atmosphere fresh-keeping warehouse, which is used for improving the internal use space of the controlled atmosphere fresh-keeping warehouse.

The utility model provides a pair of carbon dioxide desorption machine in fresh-keeping storehouse of gas conditioning, include: the carbon dioxide remover comprises a fixed box body, a carbon dioxide remover main body and a connecting pipeline; the carbon dioxide remover main body is fixedly arranged in the fixed box body, and the fixed box body is arranged on the modified atmosphere fresh-keeping warehouse; one end of the connecting pipeline is communicated with the fixed box; the other end of the connecting pipeline is communicated with the controlled atmosphere fresh-keeping warehouse; the fixed box body comprises a main box and a collecting box; the collecting box is detachably arranged below the main box; the carbon dioxide remover main body is arranged in the fixed box body and is communicated with the collecting box; the connecting pipeline is provided with a flow warehouse air pipe and an inlet air pipe, and the flow warehouse air pipe is close to the bottom direction of the controlled atmosphere fresh-keeping warehouse; the warehouse inlet air pipe is positioned at the top of the controlled atmosphere preservation warehouse and extends into the controlled atmosphere preservation warehouse; the carbon dioxide removing machine body comprises a fan, a collecting solution cavity and a drying pipe; the fan is arranged in the flow warehouse air pipe, the collecting solution cavity is filled with collecting solution, the collecting solution can collect carbon dioxide gas, the drying pipe is positioned on one side of the collecting solution cavity, and one end of the drying pipe is communicated with the collecting solution cavity; the other end of the drying tube is communicated with the warehouse inlet air pipe, and the drying tube is used for drying air.

Furthermore, the flow warehouse air pipes are provided with three positions and are respectively positioned at two sides and the back of the controlled atmosphere fresh-keeping warehouse. In practical application, the carbon dioxide gas in the controlled atmosphere fresh-keeping warehouse can be collected more by the design of three surfaces.

Furthermore, the drying device also comprises a drying net, the flow warehouse air pipe is also provided with a pipe combining section, the pipe combining section is positioned at the communication part of the three flow warehouse air pipes, and the drying net is arranged on the pipe combining section. In practical application, the design of the drying net avoids that water in the collecting solution cavity enters the controlled atmosphere preservation warehouse, and the influence on gas in the controlled atmosphere preservation warehouse is avoided.

Furthermore, the flow warehouse air pipe is also provided with a liquid extending section, and the liquid extending section is positioned on one side of the pipe combining section and extends into the collecting solution cavity. In practical application, the design ensures that the carbon dioxide gas coming out of the controlled atmosphere storage is fully absorbed by the collecting solution cavity.

Further, still include the atomizer, it still has the atomizing section to advance the storehouse tuber pipe, the atomizing section sets up in the top of collecting the solution chamber, the atomizer is installed in the atomizing section. In practical application, the design of the atomizer is to further atomize water, and more conveniently dry a tube and gas.

The system further comprises a carbon dioxide concentration sensor, wherein the carbon dioxide concentration sensor is arranged in the controlled atmosphere storage and is used for monitoring the carbon dioxide concentration in the controlled atmosphere storage. In practical application, the carbon dioxide concentration sensor uploads the concentration of carbon dioxide in the controlled atmosphere storage to the background control system, and the control system controls whether devices such as a fan work or not.

Furthermore, the drying tube is made of copper materials and is electrified with the outside. In practical use, the current supply method can effectively reduce moisture.

Further, a float valve is arranged in the collecting solution cavity. In practical application, the floating valve is used for controlling the solution in the solution collecting cavity to flow in and out, and the buoyancy of the floating valve is used for realizing automatic control.

According to the technical scheme, the utility model provides a pair of beneficial effect of fresh-keeping storehouse carbon dioxide desorption machine is transferred to gas:

(1) the fixed box is arranged at the outer side of the controlled atmosphere preservation warehouse, so that the occupation of the internal space of the controlled atmosphere preservation warehouse is reduced.

(2) Meanwhile, the main body of the carbon dioxide removing machine is arranged in the main box of the fixed box, so that the carbon dioxide can be treated; and is communicated with the collecting box, so that the materials can be conveniently collected.

(3) And the design of the air pipes of the air flow warehouse and the air pipes of the air inlet warehouse is adopted, and the fan is additionally arranged, so that the circulation of the air in the controlled atmosphere fresh-keeping warehouse is realized, the entering of external air is reduced, and the concentration of the air in the controlled atmosphere fresh-keeping warehouse is kept.

Drawings

In order to more clearly illustrate the embodiments of the present invention, reference will now be made briefly to the following detailed description or to the accompanying drawings, which are needed in the prior art to describe and illustrate the various embodiments of the present invention. In all the drawings, the elements or parts are not necessarily drawn to actual scale.

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

FIG. 2 is a schematic view of the main body of the carbon dioxide removing machine of the present invention;

reference numerals:

the device comprises a fixed box body 1, a main box 11, a collecting box 12, a carbon dioxide remover main body 2, a fan 21, a collecting solution cavity 22, a drying pipe 23, a connecting pipeline 3, a flow warehouse air pipe 31, a liquid extending section 312, a warehouse inlet air pipe 32, an atomizing section 321, a drying net 4, a pipe combining section 311, an atomizer 5, a carbon dioxide concentration sensor 6 and a floating valve 7.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings. The following examples are only used to illustrate the technical solutions of the present invention more clearly, and therefore are only used as examples, and the protection scope of the present invention is not limited thereby.

The embodiment is basically as shown in the attached figures 1 to 2:

example 1:

as shown in fig. 1-2;

the carbon dioxide removing machine for the controlled atmosphere storage can improve the internal use space of the controlled atmosphere storage.

The utility model provides a pair of carbon dioxide desorption machine in fresh-keeping storehouse of gas conditioning, include: the device comprises a fixed box body 1, a carbon dioxide remover main body 2 and a connecting pipeline 3; the carbon dioxide remover main body 2 is fixedly arranged in the fixed box body 1, and the fixed box body 1 is arranged on a controlled atmosphere fresh-keeping warehouse; one end of the connecting pipeline 3 is communicated with the fixed box; the other end of the connecting pipeline 3 is communicated with the controlled atmosphere fresh-keeping warehouse; the fixed box body 1 comprises a main box 11 and a collecting box 12; the collecting box 12 is detachably mounted below the main box 11; the carbon dioxide remover main body 2 is arranged in the fixed box body 1 and is communicated with the collecting box 12; the connecting pipeline 3 is provided with a flow warehouse air pipe 31 and an inlet air pipe 32, and the flow warehouse air pipe 31 is close to the bottom direction of the modified atmosphere fresh-keeping warehouse; the warehouse inlet air pipe 32 is positioned at the top of the controlled atmosphere preservation warehouse and extends into the controlled atmosphere preservation warehouse; the carbon dioxide remover main body 2 comprises a fan 21, a collecting solution cavity 22 and a drying pipe 23; the fan 21 is installed in the flow warehouse air pipe 31, the collecting solution chamber 22 is filled with collecting solution, the collecting solution can collect carbon dioxide gas, the drying pipe 23 is located on one side of the collecting solution chamber 22, and one end of the drying pipe is communicated with the collecting solution chamber 22; the other end is communicated with the warehouse inlet air pipe 32, and the drying pipe 23 is used for drying air. The fixed box is arranged at the outer side of the controlled atmosphere preservation warehouse, so that the occupation of the internal space of the controlled atmosphere preservation warehouse is reduced. And the main body 2 for removing carbon dioxide is disposed in the main tank 11 of the fixed tank, so that the carbon dioxide can be treated; and is communicated with the collection box 12, so that the collection of the materials can be realized. And the design of the air pipe 31 and the air pipe 32 for entering the air storage is adopted, and the fan 21 is added, so that the circulation of the air inside the controlled atmosphere fresh-keeping storage is realized, and the entering of the external air is reduced.

In this embodiment, the flow warehouse air pipes 31 have three positions, and are respectively located at two sides and the back of the modified atmosphere storage for more fully absorbing carbon dioxide. In practical application, the carbon dioxide gas in the controlled atmosphere fresh-keeping warehouse can be collected more by the design of three surfaces.

Meanwhile, in order to prevent the water molecules in the collecting solution chamber 22 from flowing back, in this embodiment, the drying net 4 is further included, the flow reservoir air pipe 31 further has a pipe combining section 311, the pipe combining section 311 is located at the communication position of the three flow reservoir air pipes 31, and the drying net 4 is installed on the pipe combining section 311. In practical application, the design of the drying net 4 prevents water from entering the controlled atmosphere storage from the collecting solution cavity 22, prevents the gas in the controlled atmosphere storage from being influenced, and keeps the gas concentration in the controlled atmosphere storage.

In order to realize efficient treatment of carbon dioxide gas, in this embodiment, the flow reservoir air duct 31 further has a liquid extending section 312, and the liquid extending section 312 is located at one side of the tube combining section 311 and extends into the collecting solution chamber 22. In practice, this design ensures that the carbon dioxide gas from the controlled atmosphere storage is fully absorbed by the collecting solution chamber 22.

In this embodiment, the device further comprises an atomizer 5, the warehousing air pipe 32 further has an atomizing section 321, the atomizing section 321 is disposed above the collecting solution chamber 22, and the atomizer 5 is installed in the atomizing section 321. In practice, the atomizer 5 is designed to further atomize water, and to facilitate the drying of the gas in the drying tube 23.

In order to monitor the concentration of carbon dioxide in the controlled atmosphere storage, in this embodiment, the controlled atmosphere storage further comprises a carbon dioxide concentration sensor 6, and the carbon dioxide concentration sensor 6 is arranged in the controlled atmosphere storage and is used for monitoring the concentration of carbon dioxide in the controlled atmosphere storage. In practical application, the carbon dioxide concentration sensor 6 uploads the concentration of carbon dioxide in the controlled atmosphere storage to the background control system, and the control system controls whether the devices such as the fan 21 and the like work or not.

In this embodiment, the drying tube 23 is made of copper material and is electrically connected to the outside. In practical use, the current supply method can effectively reduce moisture.

In this embodiment, a float valve 7 is mounted in the collecting solution chamber 22. In practical application, the floating valve 7 is used for controlling the solution in and out of the solution collecting cavity 22, and the buoyancy thereof is used for realizing automatic control.

To sum up, this modified atmosphere fresh-keeping storehouse carbon dioxide desorption machine, not only rational in infrastructure, the practical design can realize the biggest application space of modified atmosphere fresh-keeping storehouse moreover to the trilateral connection design that adopts can fully absorb carbon dioxide gas, is applicable to the trade and promotes.

The above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the embodiments of the present invention, and they should be construed as being included in the scope of the claims and description of the present invention.

Claims (8)

1. The carbon dioxide removing machine for the controlled atmosphere fresh-keeping warehouse is characterized by comprising: the carbon dioxide removing device comprises a fixed box body, a carbon dioxide removing machine main body and a connecting pipeline; the carbon dioxide remover main body is fixedly arranged in the fixed box body, and the fixed box body is arranged on the modified atmosphere fresh-keeping warehouse; one end of the connecting pipeline is communicated with the fixed box; the other end of the connecting pipeline is communicated with the controlled atmosphere fresh-keeping warehouse;

the fixed box body comprises a main box and a collecting box; the collecting box is detachably arranged below the main box; the carbon dioxide remover main body is arranged in the fixed box body and is communicated with the collecting box;

the connecting pipeline is provided with a flowing warehouse air pipe and an air pipe for entering the warehouse, and the flowing warehouse air pipe is close to the bottom direction of the controlled atmosphere fresh-keeping warehouse; the warehouse inlet air pipe is positioned at the top of the controlled atmosphere preservation warehouse and extends into the controlled atmosphere preservation warehouse;

the carbon dioxide removing machine body comprises a fan, a collecting solution cavity and a drying pipe; the fan is arranged in the flow warehouse air pipe, the collecting solution cavity is filled with collecting solution, the collecting solution can collect carbon dioxide gas, the drying pipe is positioned on one side of the collecting solution cavity, and one end of the drying pipe is communicated with the collecting solution cavity; the other end of the drying tube is communicated with the warehouse inlet air pipe, and the drying tube is used for drying air.

2. The carbon dioxide removing machine for the controlled atmosphere storage according to claim 1, wherein the flow storage air duct has three positions, and the three positions are respectively positioned at the two sides and the back of the controlled atmosphere storage.

3. The carbon dioxide removing machine for the controlled atmosphere storage according to claim 1, further comprising a drying net, wherein the flow storage air pipe is further provided with a pipe combining section, the pipe combining section is positioned at the communication position of the three flow storage air pipes, and the drying net is installed on the pipe combining section.

4. The carbon dioxide removing machine for the controlled atmosphere storage according to claim 1, wherein the flow storage air pipe is further provided with a liquid stretching section, and the liquid stretching section is positioned on one side of the pipe combining section and extends into the collecting solution cavity.

5. The carbon dioxide removing machine for the controlled atmosphere storage according to claim 1, further comprising an atomizer, wherein the air pipe for entering the storage further comprises an atomizing section, the atomizing section is arranged above the collecting solution cavity, and the atomizer is installed in the atomizing section.

6. The carbon dioxide removal machine for a controlled atmosphere storage according to claim 1, further comprising a carbon dioxide concentration sensor, wherein the carbon dioxide concentration sensor is arranged in the controlled atmosphere storage and is used for monitoring the carbon dioxide concentration in the controlled atmosphere storage.

7. The carbon dioxide removing machine for controlled atmosphere storage according to claim 1, wherein the drying tube is made of copper material and is electrically connected with the outside.

8. The carbon dioxide removing machine for the controlled atmosphere storage according to claim 1, wherein a floating valve is installed in the collecting solution chamber.

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