CN210801710U - Hydraulic assembly and air conditioning unit - Google Patents

Abstract

The application provides a hydraulic component and an air conditioning unit. The hydraulic assembly comprises a base frame, a water outlet pipe, a water inlet pipe and a hydraulic component. The water outlet pipe and the water inlet pipe are respectively arranged on the base frame, the two ends of the water outlet pipe are respectively provided with a heat exchanger side water outlet interface and a user side water outlet interface, and the two ends of the water inlet pipe are respectively provided with a heat exchanger side water inlet interface and a user side water inlet interface. The hydraulic component is arranged on the water outlet pipe and/or the water inlet pipe. Use the technical scheme of the utility model, when needs field installation, only need carry suitable position with the bed frame, let heat exchanger and heat exchanger side water outlet interface and heat exchanger side water inlet interface connection, let user side water outlet interface and user side water inlet interface be connected with the equipment of user side again, the water conservancy function of operation water conservancy subassembly that just can be normal, the loaded down with trivial details work of having avoided installing various water conservancy parts at the scene and the installation error's that probably leads to problem, the efficiency and the accuracy of air conditioning unit installation have been guaranteed.

Description

Hydraulic assembly and air conditioning unit

Technical Field

The utility model relates to a refrigeration plant technical field particularly, relates to a hydraulic component and air conditioning unit.

Background

The commercial air conditioning unit is a large-scale air conditioning unit device for providing refrigeration for large-scale places, and the commercial air conditioning unit has huge demand at present. When the commercial air conditioning unit is installed, a complex and tedious hydraulic module needs to be assembled, namely, various hydraulic parts are installed on the water inlet pipe and the water outlet pipe, but when the commercial air conditioning unit is assembled on a construction site, the technical level of constructors and the construction environment of the site are difficult to control, so that the assembly of the hydraulic module often breaks down, and the air conditioning unit cannot normally operate.

SUMMERY OF THE UTILITY MODEL

An embodiment of the utility model provides a water conservancy subassembly and air conditioning unit to the field assembly who solves among the prior art water conservancy module receives constructor's technical level easily and the influence of the construction environment on scene and the technical problem that breaks down.

The present embodiments provide a hydro assembly, comprising: a base frame; the water outlet pipe and the water inlet pipe are respectively arranged on the base frame, a heat exchanger side water outlet interface and a user side water outlet interface are respectively formed at two ends of the water outlet pipe, and a heat exchanger side water inlet interface and a user side water inlet interface are respectively formed at two ends of the water inlet pipe; and the hydraulic component is arranged on the water outlet pipe and/or the water inlet pipe.

In one embodiment, the hydro assembly further comprises: and the bypass pipe is connected between the water outlet pipe and the water inlet pipe, and a control valve is installed on the bypass pipe.

In one embodiment, the control valve is a differential pressure bypass valve.

In one embodiment, the hydraulic component comprises a water pump mounted on the water intake pipe.

In one embodiment, the water pump is connected to the water inlet pipe by a soft joint.

In one embodiment, the hydraulic component further comprises a first check valve mounted on the water inlet conduit for preventing water in the water inlet conduit from flowing from the heat exchanger side water inlet interface to the user side water inlet interface.

In one embodiment, the hydraulic component further comprises a filter, the filter being mounted on the inlet conduit.

In one embodiment, the hydraulic component further comprises a water pressure gauge mounted on the outlet pipe and the inlet pipe, respectively.

In one embodiment, the hydraulic component further comprises an expansion tank mounted on the base frame and connected to the water inlet pipe.

In one embodiment, the hydraulic component further comprises a make-up/drain valve mounted on the water inlet pipe in parallel with the expansion tank.

In one embodiment, the hydraulic component further comprises a second check valve mounted between the make/drain valve and the inlet pipe.

In one embodiment, the hydraulic assembly further comprises an electric cabinet mounted on the base frame for controlling the operation of the hydraulic component.

In one embodiment, the base frame is a frame structure, and the heat exchanger side water outlet interface, the user side water outlet interface, the heat exchanger side water inlet interface and the user side water inlet interface are all circumscribed from the gap of the frame structure.

In one embodiment, a support structure is provided on the base frame for supporting the outlet pipe and the inlet pipe.

The application also provides an air conditioning unit, which comprises the hydraulic assembly.

In the above embodiment, because the outlet pipe, the inlet pipe and the hydraulic component are integrated on the base frame, when the air conditioning unit needs to be installed on site, the base frame is only required to be carried to a proper position, the heat exchanger is connected with the heat exchanger side water outlet interface and the heat exchanger side water inlet interface, and then the user side water outlet interface and the user side water inlet interface are connected with the equipment on the user side, so that the hydraulic function of the hydraulic component can be normally operated, the problems of complicated work for installing various hydraulic components on site and installation errors possibly caused are solved, and the installation efficiency and accuracy of the air conditioning unit are ensured.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this application, are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification. In the drawings:

figure 1 is a schematic perspective view of an embodiment of a hydro assembly according to the present invention;

FIG. 2 is a rear view schematic of the hydro-assembly of FIG. 1;

FIG. 3 is a left side structural schematic view of the hydro-assembly of FIG. 1;

FIG. 4 is a system schematic of the hydro-assembly of FIG. 1.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the following embodiments and accompanying drawings. The exemplary embodiments and descriptions of the present invention are provided to explain the present invention, but not to limit the present invention.

The technical problem that the field assembly of the hydraulic module in the prior art is easily influenced by the technical level of constructors and the construction environment of the field to cause faults is solved. The utility model provides a hydraulic component is integrated for a module with hydraulic component, outlet pipe 20 and inlet tube 30 for hydraulic component only needs to take over the equipment work that the work just can accomplish hydraulic module at the scene, avoids all being difficult to the relevant technical problem that the accuse caused because site constructor's technical level or on-the-spot construction environment.

Specifically, as shown in fig. 1 and 4, in the technical solution of the present embodiment, the hydraulic assembly includes a base frame 10, an outlet pipe 20, an inlet pipe 30, and a hydraulic component. The water outlet pipe 20 and the water inlet pipe 30 are respectively installed on the base frame 10, a heat exchanger side water outlet interface and a user side water outlet interface are respectively formed at two ends of the water outlet pipe 20, and a heat exchanger side water inlet interface and a user side water inlet interface are respectively formed at two ends of the water inlet pipe 30. The hydraulic components are mounted on the outlet pipe 20 and/or the inlet pipe 30.

Use the technical scheme of the utility model, because outlet pipe 20, inlet tube 30 and hydraulic power part are all integrated on bed frame 10, when needs field installation, only need carry suitable position with bed frame 10, let heat exchanger and heat exchanger side interface connection of intaking of water outlet and heat exchanger side, let user side interface of intaking and user side interface of intaking again be connected with the equipment of user side, the water conservancy function of operation hydraulic power subassembly that just can be normal, the loaded down with trivial details work of having avoided installing various hydraulic power parts at the scene and the installation error's that probably leads to problem, the efficiency and the accuracy of air conditioning unit installation have been guaranteed.

It should be noted that, because the technical scheme of the utility model the design that integrates has been carried out outlet pipe 20, inlet tube 30 and water conservancy part for water conservancy subassembly can replace the engineering installation under limited space and abominable environment, reduces air conditioning unit and water pump and receives other factors to break down unnecessarily, practices thrift the cost and reduces and takes up an area of space and engineering installation time, effectively improves air conditioning unit operational safety factor and stability.

Preferably, as shown in fig. 1 and 4, in the solution of this embodiment, the hydraulic assembly further includes a bypass pipe 40, the bypass pipe 40 is connected between the water outlet pipe 20 and the water inlet pipe 30, and the control valve 41 is installed on the bypass pipe 40. When the water-saving device is used, the water can effectively flow back according to the water pressure of the water channel through the by-pass pipe 40, the water pressure of the water channel is maintained, and the working efficiency is improved. Preferably, the control valve 41 is a differential pressure bypass valve.

Optionally, as shown in fig. 1 and fig. 2, in the technical solution of the present embodiment, the hydraulic component includes a water pump 51, and the water pump 51 is installed on the water inlet pipe 30. The water inlet pipe 30 can be provided with water delivery power through the water pump 51. Alternatively, as shown in fig. 4, the water pump 51 is connected to the water inlet pipe 30 through a soft joint 52, and the connection of the water pump 51 is facilitated through the soft joint 52.

More preferably, as shown in fig. 4, the hydraulic component further includes a first check valve 53, the first check valve 53 is installed on the water inlet pipe 30, and the first check valve 53 is used for preventing water in the water inlet pipe 30 from flowing to the user side water inlet interface from the heat exchanger side water inlet interface, so as to effectively prevent the water paths from being connected in series when the two units operate.

In a more preferred embodiment, as shown in FIG. 4, the hydraulic assembly further includes a filter 54, the filter 54 being mounted to the inlet conduit 30. Can clear up the water impurity through filter 54, effectively prevent that engineering water impurity from getting into the water route.

As an alternative embodiment, the hydraulic component further includes an expansion tank 56, the expansion tank 56 is mounted on the base frame 10 and connected with the water inlet pipe 30, and the balance of the waterway water pressure can be effectively maintained through the expansion tank 56. More preferably, the hydraulic component further comprises a water supply/discharge valve 57, and the water supply/discharge valve 57 and the expansion tank 56 are arranged on the water inlet pipe 30 in parallel, so that the safety factor of the operation of the water circuit is improved. Optionally, the hydraulic assembly further includes a second check valve 58, the second check valve 58 being installed between the make/drain valve 57 and the water inlet pipe 30 to prevent water from being discharged from the water inlet pipe 30.

As shown in fig. 2 and 3, in the technical solution of the present embodiment, the hydraulic assembly further includes an electric control box 60, and the electric control box 60 is mounted on the base frame 10 and is used for controlling the operation of the hydraulic components, so as to realize automatic control of each hydraulic component. More preferably, the hydraulic unit further includes a water pressure gauge 55, and the water pressure gauge 55 is installed on the water outlet pipe 20 and the water inlet pipe 30, respectively. Through electric cabinet 60 combination water gauge 55, can carry out more accurate automatic control to hydraulic power part.

As shown in fig. 1, fig. 2 and fig. 3, in the technical solution of this embodiment, the base frame 10 is of a frame structure, and the heat exchanger side water outlet port, the user side water outlet port, the heat exchanger side water inlet port and the user side water inlet port are all externally connected to gaps of the frame structure, so as to facilitate connection between the heat exchanger side water outlet port, the user side water outlet port, the heat exchanger side water inlet port and the user side water inlet port and related devices. More preferably, the base frame 10 is provided with a supporting structure 11, and the supporting structure 11 is used for supporting the water outlet pipe 20 and the water inlet pipe 30 so as to lift the heat exchanger side water outlet interface, the user side water outlet interface, the heat exchanger side water inlet interface and the user side water inlet interface to a certain height for convenient connection and use.

As another optional implementation, the base frame 10 may also be a relatively closed structure, and only the heat exchanger side water outlet port, the user side water outlet port, the heat exchanger side water inlet port and the user side water inlet port penetrate out of the side wall, so as to effectively prevent the adverse effect of the environment on the water conservancy component and the effect of the noise of the air conditioning unit on the surrounding environment.

Therefore, the utility model discloses a hydraulic component concentrates on an subassembly with moisturizing, a plurality of functions such as maintaining pressure balance, filtration impurity, has saved a large amount of spaces and engineering installation work load, can improve air conditioning unit operational safety factor

The utility model discloses still erect an air conditioning unit, this air conditioning unit include foretell hydraulic assembly, adopt foretell hydraulic assembly, can improve air conditioning unit operational safety factor.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not intended to limit the present invention, and it will be apparent to those skilled in the art that various modifications and variations can be made in the embodiments of the present invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (15)

1. A hydro assembly, comprising:

a base frame (10);

the water outlet pipe (20) and the water inlet pipe (30) are respectively installed on the base frame (10), a heat exchanger side water outlet interface and a user side water outlet interface are respectively formed at two ends of the water outlet pipe (20), and a heat exchanger side water inlet interface and a user side water inlet interface are respectively formed at two ends of the water inlet pipe (30);

a hydraulic component mounted on the outlet pipe (20) and/or the inlet pipe (30).

2. The hydro assembly of claim 1, further comprising: and the bypass pipe (40) is connected between the water outlet pipe (20) and the water inlet pipe (30), and a control valve (41) is installed on the bypass pipe (40).

3. Hydraulic assembly according to claim 2, wherein the control valve (41) is a differential pressure bypass valve.

4. Hydraulic assembly according to claim 1, characterized in that the hydraulic component comprises a water pump (51), the water pump (51) being mounted on the inlet conduit (30).

5. Hydraulic assembly according to claim 4, characterized in that the water pump (51) is connected to the water inlet pipe (30) by means of a soft joint (52).

6. The hydro assembly of claim 1, wherein the hydro component further comprises a first check valve (53), the first check valve (53) being mounted on the water inlet conduit (30), the first check valve (53) being configured to prevent water within the water inlet conduit (30) from flowing from the heat exchanger side water inlet interface to the user side water inlet interface.

7. The hydro assembly of claim 1, wherein the hydro component further comprises a filter (54), the filter (54) being mounted on the inlet conduit (30).

8. Hydraulic assembly according to claim 1, characterized in that said hydraulic means further comprise a water pressure gauge (55), said water pressure gauge (55) being mounted on said outlet pipe (20) and said inlet pipe (30), respectively.

9. The hydro assembly of claim 1, wherein the hydro component further comprises an expansion tank (56), the expansion tank (56) being mounted on the base frame (10) and connected to the water intake riser (30).

10. The hydraulic assembly according to claim 9, characterized in that the hydraulic component further comprises a make/drain valve (57), the make/drain valve (57) being mounted on the inlet pipe (30) in parallel with the expansion tank (56).

11. The hydraulic assembly according to claim 10, wherein the hydraulic component further comprises a second check valve (58), the second check valve (58) being mounted between the make/drain valve (57) and the inlet pipe (30).

12. Hydraulic assembly according to claim 1, further comprising an electric control box (60), said electric control box (60) being mounted on said base frame (10) for controlling the operation of said hydraulic components.

13. The hydro assembly of claim 1, wherein the base frame (10) is a frame structure, and the heat exchanger side water outlet interface, the user side water outlet interface, the heat exchanger side water inlet interface, and the user side water inlet interface are each circumscribed by a void of the frame structure.

14. Hydraulic assembly according to claim 1, wherein a support structure (11) is provided on the base frame (10), said support structure (11) being adapted to support the outlet pipe (20) and the inlet pipe (30).

15. An air conditioning assembly comprising a hydraulic assembly, wherein the hydraulic assembly is as claimed in any one of claims 1 to 14.

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