CN110645763A

CN110645763A - Freezer connects white device

Info

Publication number: CN110645763A
Application number: CN201911035588.3A
Authority: CN
Inventors: 李苏
Original assignee: Jiangsu Elite Heating And Cooling Equipment Engineering Co Ltd
Current assignee: Jiangsu Elite Heating And Cooling Equipment Engineering Co Ltd
Priority date: 2019-10-29
Filing date: 2019-10-29
Publication date: 2020-01-03

Abstract

The invention provides a refrigerator defrosting device, which comprises: the canvas is detachably arranged on the frost receiving frame; the guide rail bracket is erected below a top discharge pipe of the refrigeration house and used for bearing the frost receiving frame; and the driving device is arranged in the frost receiving frame and used for driving the frost receiving frame to move on the guide rail bracket. According to the invention, when the top calandria defrosting is carried out, the mechanical defrosting blank of the top calandria refrigerator defrosting is filled, the whole refrigerator defrosting is realized by arranging the canvas defrosting frame capable of longitudinally and transversely moving under the top calandria, the problem that goods need to be moved and defrosting needs to be cleaned when the top calandria of the refrigerator defrosting is solved, manpower and material resources are greatly saved, the goods do not need to be transferred during defrosting, and the temperature and the quality of the goods are ensured.

Description

Freezer connects white device

Technical Field

The invention relates to the field of defrosting of a top discharge pipe of a refrigeration house, in particular to a refrigeration house defrosting device.

Background

At present, a plurality of methods for sweeping frost in a refrigeration house are available, but three methods are mainly used for cooling a calandria, the first method is hot refrigerant defrosting, the second method is manual defrosting, and the third method is mechanical defrosting. The defrosting of the hot refrigerant is realized by heating a frost layer by a high-temperature refrigerant flowing into a discharge pipe, so that the frost layer is gradually melted and falls off to achieve the purpose of defrosting, but because the low-temperature and low-pressure vapor-liquid mixed refrigerant originally flowing in the discharge pipe is difficult to switch into high-temperature and high-pressure refrigerant gas, the refrigerant gas can possibly impact a refrigeration system, the quality of a storehouse is also affected, and even during defrosting, melted frost falls on goods in the storehouse to be condensed again to affect the goods, so that the storehouse is required to be emptied to defrost the hot refrigerant; therefore, the defrosting method is troublesome to be practically applied. The manual defrosting mode is that the frost attached to the calandria is swept away by the simple defrosting tool with manual force, but because the tool is too crude, the manual force is too weak to achieve the ideal defrosting effect, and if the cooling calandria is of a double-layer structure, the traditional manual defrosting mode cannot sweep the upper calandria above the top surface of the calandria and the upper calandria above the calandria in the double-layer structure. A mechanical defrosting, for example chinese patent application No. 201120285299.1, discloses a defrosting device for a cooling grid of a freezer.

No matter which kind of defroster above, during the defrosting of freezer top calandria, even if mechanical defrosting, because the frost layer falls more after melting, the goods must be cleared up and cleaned after the transfer in the storehouse, and a large amount of manpower and materials are consumed in the goods transfer, and the goods transfer in-process temperature rise, cause certain influence to the goods quality, article also can produce more or less colliding with and damage in the handling.

Disclosure of Invention

In order to solve the problems, the invention provides a refrigerator frost receiving device. According to the invention, when the top calandria defrosting is carried out, the mechanical defrosting blank of the top calandria refrigerator defrosting is filled, the whole refrigerator defrosting is realized by arranging the canvas defrosting frame capable of longitudinally and transversely moving under the top calandria, the problem that goods need to be moved and defrosting needs to be cleaned when the top calandria of the refrigerator defrosting is solved, manpower and material resources are greatly saved, the goods do not need to be transferred during defrosting, and the temperature and the quality of the goods are ensured.

In order to realize the technical purpose, the technical scheme of the invention is as follows: a freezer defrosting device comprising: the canvas is detachably arranged on the frost receiving frame; the guide rail bracket is erected below a top discharge pipe of the refrigeration house and used for bearing the frost receiving frame; preferably, the guide rail bracket is arranged 50cm below the top row pipe of the refrigerator. And the driving device is arranged in the frost receiving frame and used for driving the frost receiving frame to move on the guide rail bracket.

Further, a canvas retracting connecting rod is transversely arranged in the frost receiving frame, a canvas accommodating motor and a guide wheel are respectively arranged at two ends of the connecting rod, and the canvas accommodating motor and the first guide wheel are arranged in the frost receiving frame;

one end of the canvas is detachably arranged on the frost collecting frame through the self-adhesive strip, and the other end of the canvas is fixed on the canvas retracting and releasing connecting rod.

Further set up the track on the guide rail bracket, the track divides the guide rail bracket into two at least regions, and every regional size is connect the frost frame size.

Further, the driving device includes: the horizontal driving motor and the horizontal guide wheel of the frost receiving frame are respectively arranged on the longitudinal central axis of the frost receiving frame; and the longitudinal driving motor and the longitudinal guide wheel of the frost receiving frame are respectively arranged on the transverse central axis of the frost receiving frame.

As a preferred embodiment of the present invention, based on the above, it is different that the driving device includes: the universal ball wheels are arranged at four corners of the frost receiving frame;

and the driving motor drives at least one universal ball wheel to rotate.

Further, the guide rail is a strip-shaped guide rail and is arranged below the transverse guide wheel, the longitudinal guide wheel or the universal ball wheel.

Preferably, the guide rail is a U-shaped groove, the horizontal driving motor of the frost receiving frame, the horizontal guide wheel, the vertical driving motor of the frost receiving frame and the vertical guide wheel are clamped in the U-shaped groove, and the avoiding opening is formed in the U-shaped groove.

Preferably, the guide rail is a U-shaped groove, and the universal ball wheel is clamped in the U-shaped groove.

The invention has the beneficial effects that:

according to the invention, when the top calandria defrosting is carried out, the canvas defrosting frame capable of longitudinally and transversely moving is arranged below the top calandria, so that the mechanical defrosting blank of the top calandria refrigerator defrosting is filled, the whole refrigerator defrosting is realized, the problem that goods need to be moved and the frost needs to be cleaned when the top calandria of the refrigerator defrosting is solved, manpower and material resources are greatly saved, the goods do not need to be transferred when the defrosting is carried out, and the temperature and the quality of the goods are ensured.

Drawings

FIG. 1 is a schematic view; the overall structure schematic diagram of the refrigeration house defrosting device is shown;

FIG. 2 is a schematic structural view of the strip guide of the present invention;

FIG. 3 is a schematic view of a U-shaped groove with an escape opening according to the present invention;

FIG. 4 is a schematic view of the U-shaped groove structure of the present invention;

in the figure: 1 guide rail bracket, 2 connect the frost frame, and 3 canvas are accomodate the motor, 4 guide pulleys, and 5 are connect frost bracket longitudinal movement motor, 6 longitudinal guide wheels, and 7 are connect frost bracket lateral shifting motor, 8 lateral guide wheels, 9 canvas, 10 canvas receive and release the connecting rod, 11 bar guide rails, 12U type groove, 13 dodge the mouth.

Detailed Description

The technical solution of the present invention will be clearly and completely described below.

In order to clearly illustrate the position relationship of the components of the invention, the directions of "transverse direction" and "longitudinal direction" in the invention are relative to the position of the freezer frost receiving device, such as "up" and "down", and are used in fig. 1, and the invention is not to be construed as being limited thereto.

A freezer defrosting device, as shown in fig. 1, comprising: the frost receiving frame 2 is provided with canvas 9 which is detachably arranged on the frost receiving frame; the guide rail bracket 1 is erected below a top discharge pipe of the refrigeration house and used for bearing the frost receiving frame; preferably, the guide rail bracket is arranged 50cm below the top row pipe of the refrigerator. And the driving device is arranged in the frost receiving frame and used for driving the frost receiving frame to move on the guide rail bracket. The canvas defrosting frame capable of longitudinally and transversely moving is arranged below the top calandria, so that the mechanical defrosting blank of defrosting of the top calandria refrigerator is filled, the canvas defrosting frame can be widely used in the top calandria refrigerator, cleaning and sweeping are not needed when the top calandria defrosting is carried out, manpower and material resources are saved, and the quality of stocks is not influenced.

Further, a canvas 9 retracting and releasing connecting rod 10 is transversely arranged in the frost receiving frame, a canvas accommodating motor 3 and a guide wheel 4 are respectively arranged at two ends of the connecting rod, and the canvas accommodating motor and the first guide wheel are arranged in the frost receiving frame;

one end of the canvas is detachably arranged on the frost collecting frame through the self-adhesive strip, and the other end of the canvas is fixed on the canvas retracting and releasing connecting rod. The invention is provided with the canvas which can be folded and unfolded, the self-adhesive strip is adhered before the frost is collected and then is tied by the cloth strip, when the pipe at the top of the refrigeration house is defrosted, the canvas collecting motor 3 drives the canvas folding and unfolding connecting rod 10 to rotate, and the canvas is unfolded to be positioned below the defrosting area for realizing the frost collection. After defrosting is finished, the canvas is started to accommodate the motor 3, and the canvas 10 is rolled up without occupying a top row refrigeration area.

Further, set up the track on the rail brackets, the track divides rail brackets into two at least regions, and every regional size is connect the frost frame size. As an embodiment of the invention, the guide rail bracket is divided into 4 sections by the guide rail, as shown in fig. 1. In order to ensure the integral rigidity of the guide rail and the guide rail bracket, when the area of the top row of tubes is large, the guide rail can be divided into more areas.

Further, the driving device includes: the horizontal driving motor 7 and the horizontal guide wheel 8 of the frost receiving frame are respectively arranged on the longitudinal central axis of the frost receiving frame; and the longitudinal driving motor 5 and the longitudinal guide wheel 6 of the frost receiving frame are respectively arranged on the transverse central axis of the frost receiving frame. The arrangement of the transverse driving motor 7 of the frost collecting frame and the longitudinal driving motor 5 of the frost collecting frame ensures that the frost collecting frame can move freely in each area under the top row of tubes.

and the driving motor drives at least one universal ball wheel to rotate.

Further, as shown in fig. 2, the guide rail is a strip-shaped guide rail 11 and is disposed below the transverse guide wheel, the longitudinal guide wheel or the universal ball wheel.

Preferably, as shown in fig. 3, the guide rail is a U-shaped groove 12, the lateral driving motor of the frost collecting frame, the lateral guide wheel, the longitudinal driving motor of the frost collecting frame, and the longitudinal guide wheel are clamped in the U-shaped groove, and the avoidance port 13 is formed in the U-shaped groove, so that the lateral driving motor of the frost collecting frame, the lateral guide wheel, the longitudinal driving motor of the frost collecting frame, and the longitudinal guide wheel can move forward conveniently.

Preferably, as shown in fig. 4, the guide rail is a U-shaped groove 12, and the universal ball wheel is clamped in the U-shaped groove.

The implementation method of the invention is as follows:

before the frost is received, the self-adhesive strips are adhered and then tied tightly by the cloth strips, when the freezer top calandria is defrosted, the canvas accommodating motor 3 drives the canvas folding and unfolding connecting rod 10 to rotate, and the canvas is unfolded to be positioned below a defrosting area and used for realizing frost receiving. If connect frost frame 2 to want to move from region 1 to region 2 and connect the frost, start and connect frost bracket longitudinal movement motor 5, connect frost frame 2 and move to region 2 under the motor drives, realize the effect of connecing the frost to region 2, if connect frost bracket guide rail 2 to want to move from region 1 to region 3 and connect the frost, start and connect frost bracket lateral shifting motor 7, connect frost frame 2 and move to region 3 under the motor drives, realize the function of connecing the frost of region 3, and so on, can realize the regional frost of connecing of whole storehouse. After the frost is dissolved and the frost is received, the cloth strips and the self-adhesive strips are unfastened, and the frost falls into a frost receiving vehicle. After defrosting is finished, the canvas is started to accommodate the motor 3, and the canvas 10 is rolled up without occupying a top row refrigeration area.

It will be apparent to those skilled in the art that various changes and modifications can be made without departing from the inventive concept thereof, and these changes and modifications can be made without departing from the spirit and scope of the invention.

Claims

1. A freezer connects white device which characterized in that includes: the canvas is detachably arranged on the frost receiving frame; the guide rail bracket is erected below a top discharge pipe of the refrigeration house and used for bearing the frost receiving frame; and the driving device is arranged in the frost receiving frame and used for driving the frost receiving frame to move on the guide rail bracket.

2. The freezer frost collecting device of claim 1, wherein a canvas retracting connecting rod is transversely arranged in the frost collecting frame, a canvas accommodating motor and a guide wheel are respectively arranged at two ends of the connecting rod, and the canvas accommodating motor and the first guide wheel are arranged in the frost collecting frame; one end of the canvas is detachably arranged on the frost collecting frame through the self-adhesive strip, and the other end of the canvas is fixed on the canvas retracting and releasing connecting rod.

3. The freezer defrosting device of claim 2, wherein the rail bracket is provided with a track, the track divides the rail bracket into at least two regions, and the size of each region is the size of the defrosting rack.

4. The cold storage defrosting device according to claim 3, wherein the driving device comprises: the horizontal driving motor and the horizontal guide wheel of the frost receiving frame are respectively arranged on the longitudinal central axis of the frost receiving frame; and the longitudinal driving motor and the longitudinal guide wheel of the frost receiving frame are respectively arranged on the transverse central axis of the frost receiving frame.

5. The cold storage defrosting device according to claim 3, wherein the driving device comprises: the universal ball wheels are arranged at four corners of the frost receiving frame;

and the driving motor drives at least one universal ball wheel to rotate.

6. The freezer defrosting device according to any one of claims 4 to 5, wherein the guide rail is a strip-shaped guide rail and is arranged below a transverse guide wheel, a longitudinal guide wheel or a universal ball wheel.

7. The freezer of claim 4 connects white device, characterized in that, the guide rail is U type groove, connect white frame horizontal driving motor, horizontal guide pulley, connect white frame vertical driving motor, vertical guide pulley card to place in U type groove, and set up on the U type groove and dodge the mouth.

8. The freezer defrosting device that connects of claim 5, wherein, the guide rail is U type groove, universal ball wheel card is placed in U type groove.