CN214665444U - Give birth to bright refrigerating system who carries cabinet certainly - Google Patents

Abstract

The utility model provides a give birth to bright refrigerating system who carries cabinet certainly belongs to refrigeration plant technical field. It has solved the current problem that gives birth to bright self-lifting cabinet power consumption height. This give birth to bright cabinet of carrying certainly includes that the internal water collector that is equipped with of cabinet, refrigerating system is including installing the compressor on the cabinet body, condenser and evaporimeter, be connected through the cooling tube between compressor and the condenser, the cooling tube middle part is buckled in succession and is placed in the water collector, the one end dish that the cooling tube is close to the condenser is established on each cabinet door frame of the cabinet body, be connected through connecting pipe one between condenser and the evaporimeter, be connected through connecting pipe two between evaporimeter and the compressor, the internal evaporimeter bottom department that is close to of cabinet is equipped with the collecting pipe, collecting pipe one end is located the water collector, other end integrated into one piece has the catch tray that is used for collecting the defrosting water. This give birth to bright refrigerating system who carries cabinet certainly can effectual reduction energy consumption.

Description

Give birth to bright refrigerating system who carries cabinet certainly

Technical Field

The utility model belongs to the technical field of refrigeration plant, a give birth to bright refrigerating system who carries cabinet certainly is related to.

Background

In the life now, people are accelerated more because the rhythm of life, most give birth to bright edible material does not have enough time to select on the spot, so generally all can purchase on some electricity merchant platforms, the trade company prepares commodity through order information and in time takes away and delivers by the logistics personnel, nevertheless because buyer probably does not have time to get goods, and some give birth to bright edible material can not expose for a long time at normal atmospheric temperature in summer, so generally can set up a give birth to bright self-service cabinet, the delivery personnel store in the give birth to bright edible material in giving birth to bright self-service cabinet, rely on the password to extract in the self-service cabinet when waiting for buyer time.

The existing fresh food self-lifting cabinet generally comprises a cabinet body, wherein a condenser, an evaporator and a compressor are installed on the cabinet body, the condenser, the evaporator and the compressor are connected through pipelines, a refrigerant is compressed by the compressor and then is input into the condenser, the condenser disperses heat of the refrigerant and then inputs into the evaporator, and finally the refrigerant is gasified by the evaporator to realize vaporization and heat absorption of the refrigerant, so that the cooling effect in the self-lifting cabinet is achieved, a dew removing pipe is arranged between the condenser and the evaporator and is wound on each cabinet door of the cabinet body, the gasified refrigerant still has certain temperature, the cabinet doors can be ensured to have certain temperature, the condensation phenomenon on the surfaces of the cabinet doors caused by opening the cabinet doors is prevented, the evaporator can generate biochemical frost water due to the meeting of cold air and hot air on the surfaces in the process of gasifying the refrigerant, in order to prevent the frost water from damaging the circuits of the self-lifting cabinet, a water tray is generally arranged in the self-lifting cabinet, the heating device is arranged in the water receiving tray, and the defrosting water is prevented from overflowing the water receiving tray under the heating and evaporating action of the heating device after the defrosting water is collected by the water receiving tray.

The water pan needs to be heated by the heater arranged inside, defrosting water flowing into the water pan is continuously evaporated under the action of the defrosting water, the heater needs to keep certain power to continuously work in the part of work, and the energy consumption of the refrigerator can be increased in the past for a long time, so that the power consumption of a user is increased greatly.

Disclosure of Invention

The utility model aims at having the above-mentioned problem to current technique, provided a give birth to bright refrigerating system from carrying cabinet, the utility model aims to solve the technical problem that: how to reduce the energy consumption of the fresh food self-picking cabinet.

The purpose of the utility model can be realized by the following technical proposal: the utility model provides a give birth to bright refrigerating system who carries cabinet certainly, give birth to bright cabinet of carrying includes the cabinet body, and refrigerating system includes compressor, condenser and evaporimeter, the internal water collector that is equipped with of cabinet, a serial communication port, refrigerating system still includes the cooling tube, cooling tube one end is connected with the compressor, and the other end is connected with the condenser, the cooling tube middle part is soaked in the water collector, the one end dish that the cooling tube is close to the condenser is established on the door frame of cabinet body cabinet door.

The fresh food self-service cabinet comprises a cabinet body for storing fresh food materials, wherein a cooling system is arranged in the cabinet body, the cooling system comprises a compressor, a condenser and an evaporator, the cooling system can ensure that the temperature in the cabinet body is kept low, the fresh food materials stored in the cabinet body are prevented from deteriorating, a water receiving tray is also arranged in the cabinet body, the water receiving tray can collect defrosting water generated by the work of the evaporator, the defrosting water is prevented from damaging circuits in the cabinet body, the condenser is connected with the compressor through a cooling pipe, the middle part of the cooling pipe is positioned in the water receiving tray, when the cooling system works, a refrigerant is compressed through the compressor, the compressed refrigerant is in a high-temperature state, the refrigerant flows to the condenser through the cooling pipe, in the flowing process, the high-temperature refrigerant needs to pass through the water receiving tray with the defrosting water inside, and the defrosting water in the water receiving tray can be evaporated through the high temperature of the refrigerant, effectively prevent the water collector internalization frost water overflow, need not install the heating device who is used for evaporating frost water usefulness in the water collector, make this life bright power consumption that carries the cabinet certainly still less, thereby it is lower to guarantee to consume energy, and the body dish that the cooling tube is close to condenser one end is established on the door frame of cabinet door, can paste mutually with the door frame when the cabinet door is closed and lean on, the refrigerator flows through self behind the water collector and still keeps certain heat, flow through after laying the body on the door frame of cabinet door, make and also keep certain temperature on the cabinet door, the condensation phenomenon appears on the cabinet door when can preventing that the cabinet door from opening.

In the refrigerating system of the fresh food self-service cabinet, the pipe body of the cooling pipe positioned in the water receiving tray is continuously bent.

The cooling pipe is located the continuous setting of buckling of partial body of water collector, makes the body of cooling pipe and the water collector internalization frost water's area of contact bigger, and cooling system is carrying out the during operation, and when the refrigerant flowed through the body that is located the continuous setting of buckling in the water collector, can make the evaporation rate of the interior defrosting water of water collector faster, prevents that defrosting water is overflow.

In the refrigerating system of the fresh food self-service cabinet, a first connecting pipe is arranged between the condenser and the evaporator, one end of the first connecting pipe is connected with the condenser, the other end of the first connecting pipe is connected with the evaporator, a second connecting pipe is arranged between the evaporator and the compressor, one end of the second connecting pipe is connected with the evaporator, and the other end of the second connecting pipe is connected with the compressor.

The condenser is connected with the evaporator through the first connecting pipe, the refrigerant flows through the cooling pipe and is cooled after passing through the condenser, the refrigerant enters the evaporator through the first connecting pipe and is subjected to heat exchange with heat in the cabinet body under the gasification effect of the refrigerant through the evaporator, the interior of the cabinet body is kept in a low-temperature state, the evaporator and the compressor are connected through the second connecting pipe, the refrigerant after being used returns to the compressor through the second pipe body, the refrigeration cycle of the refrigerant is realized, and the refrigerant can be compressed again and enters next cycle.

In the refrigeration system of the fresh food self-lifting cabinet, the bottom end of the cabinet body, which is close to the evaporator, is provided with the collecting pipe, one end of the collecting pipe is integrally formed with a quadrilateral collecting disc, the collecting disc gradually inclines inwards from top to bottom, and the other end of the collecting pipe is positioned on the water receiving disc.

When the evaporimeter is carrying out the gasification effect to the refrigerant, its surface can produce a large amount of defrosting water, the internal lower extreme department that is close to the evaporimeter of cabinet is provided with the collecting pipe, the one end of collecting pipe is located the water collector, other end integrated into one piece collecting tray, defrosting water falls on the collecting tray because the effect of gravity, collect and flow in the water collector through the collecting pipe by the collecting tray is unified, prevent to change defrosting water and cause the damage to the internal circuit of cabinet, the collecting tray is four sides shape and top-down leanin gradually, the surface that makes the collecting tray is the inclined plane form, it can not be detained in the collecting tray to guarantee to change defrosting water.

In the refrigerating system of the fresh food self-service cabinet, the evaporator is provided with the buckle plate, and the buckle plate is connected to the plate surface on one side of the evaporator.

The evaporator is connected with a buckle plate in a buckling mode, the evaporator can be provided with an electronic temperature sensing probe through the buckle plate, the temperature in the cabinet body is monitored in real time through the electronic temperature sensing probe, and the temperature in the cabinet body is correspondingly adjusted through the temperature.

Compared with the prior art, the refrigerating system of the fresh self-service cabinet has the following advantages:

the utility model provides a, this give birth to bright self-lifting cabinet includes the cabinet body, the internal water collector that is equipped with of cabinet, this give birth to bright self-lifting cabinet's refrigerating system includes the compressor, condenser and evaporimeter, the compressor is connected through the cooling tube with the condenser, the cooling tube middle part is located the water collector, the one end dish that is close to the condenser is established on each cabinet door of the cabinet body, refrigerant under the compressor compression high temperature state via the cooling tube input condenser, when the refrigerant flows in the cooling tube, can carry out the evaporation of gasification to the defrosting water in the water collector, need not set up heating device in the water collector, guarantee to carry the cabinet power consumption lower certainly, and during the refrigerant flows through the cooling tube of laying on the door frame of cabinet door, can also make the cabinet door keep the uniform temperature, the refrigerated air that adheres to on the cabinet door when preventing the cabinet door from opening meets with external hot-air and takes place the condensation phenomenon.

And the pipe body of the cooling pipe positioned in the water receiving tray is continuously bent, so that the contact area of the pipe body and the defrosting water is increased, and the evaporation rate of the defrosting water is ensured to be higher.

The collecting pipe is arranged in the cabinet body close to the bottom end of the evaporator, one end of the collecting pipe is located on the water receiving disc, the collecting disc is integrally formed at the other end of the collecting pipe into a quadrilateral shape, defrosting water generated on the evaporator is collected uniformly through the collecting disc and flows into the water receiving disc through the collecting pipe, the defrosting water is prevented from damaging electric wires in the cabinet body, the collecting disc is gradually inclined inwards from top to bottom, the surface of the collecting disc is inclined, and the defrosting water is prevented from being retained on the collecting disc.

And fourthly, the evaporator is connected with a buckle plate through a buckle, the evaporator can be provided with an electronic temperature sensing probe through the buckle plate, and the temperature in the cabinet body is detected and correspondingly adjusted through the electronic temperature sensing probe.

Drawings

Fig. 1 is a schematic view of a refrigeration system of the self-service fresh food cabinet and a partially enlarged view thereof.

Fig. 2 is a schematic structural diagram of a refrigeration system of the fresh food self-service cabinet and a partial enlarged view thereof.

Fig. 3 is a schematic structural diagram of an evaporator in a refrigeration system of the self-service fresh food cabinet.

In the figure, 1, a cabinet body; 1a, a water pan; 1b, a collecting pipe; 1b1, collection tray; 2. a compressor; 3. a condenser; 4. an evaporator; 4a, buckling plates; 5. a cooling tube; 6. a first connecting pipe; 7. and a second connecting pipe.

Detailed Description

The following are specific embodiments of the present invention and the accompanying drawings are used to further describe the technical solution of the present invention, but the present invention is not limited to these embodiments.

As shown in fig. 1-3, the self-lifting fresh food cabinet comprises a cabinet body 1, a plurality of cabinet bodies 1 can be arranged in parallel, an inner cavity is arranged in each cabinet body 1, an inner container made of foaming materials is arranged in the inner cavity of each cabinet body 1, four transverse plates are arranged in each inner container, the inner container is divided into four storage cavities through the four transverse plates, four cabinet doors are hinged to the cabinet bodies 1 corresponding to the four storage cavities, a partition plate is vertically arranged in each inner container, a cooling device of the self-lifting fresh food cabinet comprises a compressor 2, a condenser 3 and an evaporator 4, the compressor 2 and the condenser 3 are positioned at the top of the cabinet body 1, the evaporator 4 is a plate-type evaporator 4 and is fixedly arranged on one side plate surface of the partition plate, a fan is arranged on the partition plate, thirty-two air supply outlets communicated with the storage cavities are arranged on the partition plate, a water receiving tray 1a is further arranged at the bottom of the cabinet body 1, the compressor 2 is connected with the condenser 3 through a cooling pipe 5, the setting of buckling in succession in the middle part of cooling tube 5, and this part body of cooling tube 5 is located water collector 1a, compressor 2 compresses the back to the refrigerant, and the refrigerant can reach about 90 ℃ of high temperature, and when the refrigerant flowed to the middle part of cooling tube 5, can carry out the heat transfer through the body with the defrosting water in the water collector 1a, makes the defrosting water evaporation that is heated in the water collector 1a, need not install heating device again in water collector 1a, makes the energy consumption of the fresh self-lifting cabinet of originally giving birth to reduce.

The one end dish that cooling tube 5 is close to condenser 3 is established in each cabinet door frame department, and the refrigerant this moment still can keep certain temperature, flows through behind the cooling tube 5 of each door frame department, makes cabinet door frame department keep certain temperature, guarantees that the cabinet door can not adhere to on the cabinet door in the refrigerated air under the closure state, when the cabinet door was opened, prevents to appear the condensation phenomenon on the cabinet door.

As shown in fig. 1-3, when the refrigerant enters the condenser 3, the condenser 3 further dissipates the heat of the refrigerant, the condenser 3 is connected with the evaporator 4 through the first connecting pipe 6, the refrigerator after cooling enters the evaporator 4 through the connecting pipe, the evaporator 4 performs gasification refrigeration on the refrigerant, and cold air is input into each storage cavity through the fan and each air supply outlet, so that the storage cavity is kept in a low-temperature state, the fresh food material is prevented from deteriorating, the evaporator 4 is connected with the compressor 2 through the second connecting pipe 7, and the refrigerant after cooling can return to the compressor 2 again through the second connecting pipe 7, so that the refrigerant can be recycled.

As shown in fig. 1-3, when the evaporator 4 cools the storage chamber by gasifying the refrigerant, a large amount of defrosted water is generated on the surface of the evaporator 4 due to the cold air meeting with the hot air, and this portion of defrosted water may cause short circuit of the circuit in the cabinet 1 if it drops randomly, a collecting pipe 1b is installed in the cabinet 1 near the bottom end of the evaporator 4, one end of the collecting pipe 1b is located on the water receiving tray 1a, and the other end is integrally formed with a collecting tray 1b1 in a quadrilateral shape, the collecting tray 1b1 is gradually inclined inward from top to bottom to make the collecting tray 1b1 in a funnel shape, the defrosted water moves downward due to gravity and drops on the collecting tray 1b1, the defrosted water on the collecting tray 1b1 does not stay on the collecting tray 1b1 due to the inclined surface of the collecting tray 1b1, but enters the collecting tray 1b through the collecting tray 1 and flows into the collecting tray 1b, ensure that the defrosting water can be completely collected, and prevent the short circuit of the circuit in the cabinet body 1.

As shown in fig. 1-3, two rectangular holes and two round holes have been seted up on evaporimeter 4, be provided with a buckle 4a on the face of evaporimeter 4 one side, the both ends of buckle 4a are provided with the buckle, buckle 4a carries out the buckle connection in the rectangular hole through the buckle card income, pass electron temperature sensing probe and twist the round hole through the screw and assist fixedly, install electron temperature sensing probe between buckle 4a and the face of evaporimeter 4 one side, electron temperature sensing probe can carry out real time monitoring to the temperature in each storing chamber, make evaporimeter 4 work when the temperature is too high, make the storing intracavity temperature reduce, make evaporimeter 4 pause work when the temperature is too low, guarantee that the bright self-lifting cabinet of giving birth to life can be according to the automatic regulation and control of the storing intracavity temperature of the cabinet body 1, the energy consumption is lower, and make the work of the bright self-lifting cabinet of this giving birth to life more intelligent.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein may be made by those skilled in the art without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Although the terms of the cabinet 1, the water pan 1a, the collecting pipe 1b, the collecting pan 1b1, the buckle 4a, the cooling pipe 5, the first connecting pipe 6, the second connecting pipe 7, etc. are used more frequently, the possibility of using other terms is not excluded. These terms are used merely to more conveniently describe and explain the nature of the present invention; they are to be construed in a manner that is inconsistent with the spirit of the invention.

Claims (5)

1. The utility model provides a give birth to bright refrigerating system who carries cabinet certainly, give birth to bright cabinet of carrying includes the cabinet body (1) of carrying, and refrigerating system includes compressor (2), condenser (3) and evaporimeter (4), be equipped with water collector (1a) in the cabinet body (1), its characterized in that, refrigerating system still includes cooling tube (5), cooling tube (5) one end is connected with compressor (2), and the other end is connected with condenser (3), cooling tube (5) middle part is located water collector (1a), one end dish that cooling tube (5) are close to condenser (3) is established on the door frame of the cabinet body (1) cabinet door.

2. The refrigeration system of the fresh food self-service cabinet as claimed in claim 1, wherein the pipe body of the cooling pipe (5) positioned in the water pan (1a) is continuously bent.

3. The refrigeration system of the fresh food self-service cabinet as claimed in claim 1, wherein a first connecting pipe (6) is arranged between the condenser (3) and the evaporator (4), one end of the first connecting pipe (6) is connected with the condenser (3), the other end of the first connecting pipe is connected with the evaporator (4), a second connecting pipe (7) is arranged between the evaporator (4) and the compressor (2), one end of the second connecting pipe (7) is connected with the evaporator (4), and the other end of the second connecting pipe is connected with the compressor (2).

4. The refrigerating system of the self-service fresh food cabinet as claimed in claim 3, wherein a collecting pipe (1b) is disposed in the cabinet body (1) near the bottom end of the evaporator (4), one end of the collecting pipe (1b) is integrally formed with a quadrilateral collecting tray (1b1), the collecting tray (1b1) is gradually inclined inward from top to bottom, and the other end of the collecting pipe (1b) is located on the water receiving tray (1 a).

5. The refrigerating system of the fresh food self-service cabinet as claimed in claim 1, 3 or 4, wherein the evaporator (4) is provided with a buckle plate (4a), and the buckle plate (4a) is connected to a side plate surface of the evaporator (4) in a buckling manner.

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