CN219827810U - Electromagnetic opposite cut-off reversing valve for ice maker - Google Patents

Abstract

An electromagnetic counter-stop reversing valve for an ice machine includes a reversing valve housing, and a reversing valve cartridge. The reversing valve shell comprises a reversing valve shell body, an input pipe, a first output pipe and a second output pipe, and the reversing valve core comprises a core rod body, a first reversing pipe, a first water outlet hole, a second reversing pipe and a second water outlet hole. The first output pipe and the second output pipe are oppositely arranged on the reversing valve shell main body. The first reversing tube and the second reversing tube are oppositely arranged on the core rod main body. The inner diameter of the first output pipe is the same as the outer diameter of the first reversing pipe, and the inner diameter of the second output pipe is the same as the outer diameter of the second reversing pipe. The distance between the first water outlet hole and the second water outlet hole is larger than the radius of the reversing valve shell main body. The electromagnetic opposite stop reversing valve for the ice maker is simple in structure, mechanically controlled, driven and controlled and convenient for later maintenance.

Description

Electromagnetic opposite cut-off reversing valve for ice maker

Technical Field

The utility model belongs to the technical field of refrigeration system control, and particularly relates to an electromagnetic opposite cut-off reversing valve for an ice maker.

Background

An ice maker is a refrigeration mechanical device which cools water by an evaporator through a refrigerating system refrigerant to generate ice, and the ice is manufactured by adopting the refrigerating system and a water carrier through a certain device under the power-on state. The shape of the generated ice blocks is different according to the principle and the production mode of the evaporator; ice machines are generally classified into particle ice machines, flake ice machines, plate ice machines, pipe ice machines, shell ice machines, and the like in the shape of ice.

Reversing valves are generally adopted in ice making systems to realize the switching function of refrigeration and heating. Along with the development of industry at present, the internal installation structure of the current reversing valve is complex, is inconvenient for production, and is unfavorable for later maintenance.

Disclosure of Invention

In view of the above, the present utility model provides an electromagnetic opposite cut-off reversing valve for an ice maker, which is convenient for post maintenance, to meet industrial demands.

The electromagnetic opposite stop reversing valve for the ice maker comprises a reversing valve shell and a reversing valve core arranged in the reversing valve shell, wherein the reversing valve shell comprises a reversing valve shell body, an input pipe arranged on the reversing valve shell body, a first output pipe arranged on the reversing valve shell body, and a second output pipe arranged on one side of the reversing valve shell body, the reversing valve core comprises a core rod body which is accommodated in the reversing valve shell body, a first reversing pipe which is arranged on the core rod body and is accommodated in the first output pipe, a first water outlet hole which is arranged on the first reversing pipe, a second reversing pipe which is arranged on the core rod body and is accommodated in the second output pipe, a second water outlet hole which is arranged on the second reversing pipe, the first output pipe and the second output pipe are oppositely arranged on the reversing valve shell body, the first reversing pipe and the second reversing pipe are arranged in the same in diameter, the first reversing pipe and the second reversing pipe are opposite to each other, and the diameter of the first reversing pipe and the second reversing pipe is equal to the diameter of the first reversing pipe or the second reversing pipe, and the second reversing pipe is equal to the diameter of the first reversing pipe and the second reversing pipe.

Further, the first output pipe, the second output pipe, the input pipe and the reversing valve housing main body are vertically connected.

Further, the first reversing tube and the second reversing tube are vertically connected with the core rod main body.

Further, the input pipe and the first output pipe are arranged on the same side.

Further, the first reversing tube and the second reversing tube have the same length.

Compared with the prior art, the electromagnetic opposite cut-off reversing valve for the ice machine controls the flow direction of the refrigerant in the reversing valve shell through the reversing valve core. The reversing valve comprises a reversing valve shell, a reversing valve body, a first output pipe and a second output pipe, wherein the reversing valve shell body is arranged on the reversing valve body in the reversing valve shell, the first reversing pipe in the reversing valve core is contained in the first output pipe, the second reversing pipe is contained in the second output pipe, a first water outlet hole is formed in the first reversing pipe, a second water outlet hole is formed in the second reversing pipe, the inner diameter of the first output pipe is identical to the outer diameter of the first reversing pipe, the inner diameter of the second output pipe is identical to the outer diameter of the second reversing pipe, the distance between the first water outlet hole and the second water outlet hole is larger than the inner diameter of the reversing valve shell body, and when the reversing valve is in a driving process, the first water outlet hole or the second water outlet hole is contained in the reversing valve shell body so as to realize the conduction of the first reversing pipe or the second reversing pipe. The electromagnetic opposite stop reversing valve for the ice maker is simple in structure, mechanical in driving control and convenient for later maintenance.

Drawings

Fig. 1 is a schematic diagram of a use structure of an electromagnetic counter-cut-off reversing valve for an ice maker according to the present utility model.

Fig. 2 is a schematic structural view of the electromagnetic counter-cut-off reversing valve for the ice maker of fig. 1.

Fig. 3 is a schematic cross-sectional structure of the electromagnetic counter-cut-off reversing valve for the ice maker of fig. 1.

Detailed Description

Specific embodiments of the present utility model are described in further detail below. It should be understood that the description herein of the embodiments of the utility model is not intended to limit the scope of the utility model.

As shown in fig. 1 to 3, the electromagnetic opposite cut-off reversing valve for an ice maker according to the present utility model is schematically shown. The electromagnetic counter-stop reversing valve for an ice maker includes a reversing valve housing 10, and a reversing valve cartridge 20 provided in the reversing valve housing 10. The electromagnetic counter-stop reversing valve for the ice maker also includes other functional modules, such as assembly components, solenoid valves, etc., which should be known to those skilled in the art and will not be described in detail herein.

The stop reversing valve is connected with a compressor in the ice machine so as to control the transmission direction of high-temperature high-pressure refrigerant in the compressor.

The reversing valve housing 10 includes a reversing valve housing body 11, an input pipe 12 provided to the reversing valve housing body 11, a first output pipe 13 provided to the reversing valve housing body 11, and a second output pipe 14 provided to one side of the reversing valve housing body 11. The input pipe 12 is connected with a compressor, and the first output pipe 13 and the second output pipe 14 control the transmission direction of the refrigerant in the reversing valve housing 10. In this embodiment, the input pipe 12 and the first output pipe 13 are disposed on the same side.

The first output pipe 13 and the second output pipe 14 are disposed on the reversing valve housing main body 11 in opposite directions, and the first output pipe 13, the second output pipe 14 and the reversing valve core 20 are mutually matched, so that the first output pipe 13 and the second output pipe 14 will be described in detail with reference to the reversing valve core 20.

The reversing valve core 20 comprises a core rod main body 21 accommodated in the reversing valve housing main body 11, a first reversing pipe 22 arranged on the core rod main body 21 and accommodated in the first output pipe 13, a first water outlet hole 23 arranged on the first reversing pipe 22, a second reversing pipe 24 arranged on the core rod main body 21 and accommodated in the second output pipe 14, and a second water outlet hole 25 arranged on the second reversing pipe 24.

The first output pipe 13, the second output pipe 14, the input pipe 12 and the reversing valve housing main body 11 are vertically connected, the first reversing pipe 22 and the second reversing pipe 24 are vertically connected with the core rod main body 21, the lengths of the first reversing pipe 22 and the second reversing pipe 24 are the same, the first output pipe 13 and the second output pipe 14 are oppositely arranged on the reversing valve housing main body 11, the first reversing pipe 22 and the second reversing pipe 24 are oppositely arranged on the core rod main body 21, so that the reversing valve core 20 is driven to oppositely move, and the outflow directions of the first output pipe 13 and the second output pipe 14 are regulated.

The inner diameter of the first output pipe 13 is the same as the outer diameter of the first reversing pipe 22, and the inner diameter of the second output pipe 14 is the same as the outer diameter of the second reversing pipe 24, so that the refrigerant flow in the reversing valve housing main body 11 can only flow out through the first water outlet hole 23 or the second water outlet hole 25.

The distance between the first water outlet hole 23 and the second water outlet hole 24 is larger than the radius of the reversing valve housing main body 11, so that the first water outlet hole 23 or the second water outlet hole 25 is accommodated in the reversing valve housing main body 11 in the driving process of the reversing valve core 20.

When the shut-off reversing valve is in the driving process, the first water outlet hole 23 or the second water outlet hole 25 is accommodated in the reversing valve housing main body 11, so as to realize the conduction of the first reversing pipe 22 or the second reversing pipe 24.

Compared with the prior art, the electromagnetic opposite cut-off reversing valve for the ice maker controls the flow direction of the refrigerant in the reversing valve housing 10 through the reversing valve core 20. The first output pipe 13 and the second output pipe 14 are arranged on the reversing valve housing main body 11 in the reversing valve housing 10, the first reversing pipe 22 in the reversing valve core 20 is contained in the first output pipe 13, the second reversing pipe 24 is contained in the second output pipe 14, the first water outlet hole 23 is arranged on the first reversing pipe 22, the second water outlet hole 25 is arranged on the second reversing pipe 24, the inner diameter of the first output pipe 13 is the same as the outer diameter of the first reversing pipe 22, the inner diameter of the second output pipe 14 is the same as the outer diameter of the second reversing pipe 24, the distance between the first water outlet hole 23 and the second water outlet hole 24 is larger than the radius of the reversing valve housing main body 11, and when the reversing valve is in a driving process, the first water outlet hole 23 or the second water outlet hole 25 is contained in the reversing valve housing main body 11 so as to realize the conduction of the first reversing pipe 22 or the second reversing pipe 24. The electromagnetic opposite stop reversing valve for the ice maker is simple in structure, mechanical in driving control and convenient for later maintenance.

The above is only a preferred embodiment of the present utility model and is not intended to limit the scope of the present utility model, and any modifications, equivalent substitutions or improvements within the spirit of the present utility model are intended to be covered by the claims of the present utility model.

Claims (5)

1. An electromagnetic counter-stop reversing valve for an ice machine, characterized in that: the electromagnetic opposite stop reversing valve for the ice maker comprises a reversing valve shell and a reversing valve core arranged in the reversing valve shell, wherein the reversing valve shell comprises a reversing valve shell body, an input pipe arranged on the reversing valve shell body, a first output pipe arranged on the reversing valve shell body, and a second output pipe arranged on one side of the reversing valve shell body, the reversing valve core comprises a core rod body which is accommodated in the reversing valve shell body, a first reversing pipe which is arranged on the core rod body and is accommodated in the first output pipe, a first water outlet hole which is arranged on the first reversing pipe, a second reversing pipe which is arranged on the core rod body and is accommodated in the second output pipe, a second water outlet hole which is arranged on the second reversing pipe, the first output pipe and the second output pipe are oppositely arranged on the reversing valve shell body, the first reversing pipe and the second reversing pipe are arranged in the same in diameter, the first reversing pipe and the second reversing pipe are opposite to each other, and the diameter of the first reversing pipe and the second reversing pipe is equal to the diameter of the first reversing pipe or the second reversing pipe, and the second reversing pipe is equal to the diameter of the first reversing pipe and the second reversing pipe.

2. The electromagnetic counter-stop reversing valve for an ice-making machine of claim 1, wherein: the first output pipe, the second output pipe and the input pipe are vertically connected with the reversing valve shell main body.

3. The electromagnetic counter-stop reversing valve for an ice-making machine of claim 1, wherein: the first reversing tube and the second reversing tube are vertically connected with the core rod main body.

4. The electromagnetic counter-stop reversing valve for an ice-making machine of claim 1, wherein: the input pipe and the first output pipe are arranged on the same side.

5. The electromagnetic counter-stop reversing valve for an ice-making machine of claim 1, wherein: the length of the first reversing tube is the same as that of the second reversing tube.