CN217237090U - Production line for detecting leakage of water tank of air source heat pump unit - Google Patents

Abstract

The utility model particularly relates to a production line for detecting air source heat pump set water tank leaks, including first gyro wheel conveyer belt and second gyro wheel conveyer belt, be equipped with the slide rail between first gyro wheel conveyer belt and the second gyro wheel conveyer belt, the slide rail is equipped with the second removal gyro wheel conveyer belt that can switch over the position, and side of first gyro wheel conveyer belt is equipped with the test area, and first gyro wheel conveyer belt still is equipped with the handling frame, and the upper surface of handling frame is equipped with second water tank and water pump, delivery pipe, wet return, water inlet joint, delivery port joint. The beneficial effects of the utility model are that through first gyro wheel conveyer belt, second gyro wheel conveyer belt and slide rail, the slide rail is equipped with the second that can switch over the position and removes the gyro wheel conveyer belt, and first gyro wheel conveyer belt side is equipped with the test area, can implement air source heat pump set switching position and transport appointed test area to do not hinder other air source heat pump set and continue to transport other test areas, be convenient for carry out many hourglass, promote efficiency of software testing.

Description

Production line for detecting leakage of water tank of air source heat pump unit

Technical Field

The utility model relates to a testing arrangement technical field, in particular to a production line for detecting air source heat pump set water tank leakage.

Background

When the whole machine is in production, the water tank of the air source heat pump unit needs to be movably connected or welded with the main machine of the air source heat pump unit and the water tank. In actual production, due to the fact that the water tank has quality problems and the water inlet and the water outlet of the water tank are not welded well, water leakage quality problems occur when a user uses the water tank, for example, leakage exists at the joint of a main machine of the air source heat pump unit and the water tank, and heating effect is reduced. In order to ensure the ex-factory qualification rate of the air source heat pump unit, the leakage detection of the connection part of the host machine and the water tank of the air source heat pump unit needs to be carried out, but the air source heat pump unit is large in size and heavy, the leakage detection is carried out in the actual transportation designated place, and the transportation is very inconvenient.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome foretell technical problem and provide a production line for detecting air source heat pump set water tank leakage, can be convenient for transport the assigned position and carry out the function of leaking hunting.

The utility model discloses a production line for detecting water tank leakage of an air source heat pump unit, which comprises a first roller conveyer belt and a second roller conveyer belt, it is characterized in that a slide rail is arranged between the first roller conveyer belt and the second roller conveyer belt, the slide rail is provided with a second movable roller conveyer belt capable of switching positions, a test area is arranged at the side of the first roller conveyer belt, the first roller conveyer belt is also provided with an operation frame, the upper surface of the operation frame is provided with a second water tank and a water pump, the second water tank is connected with a water supply pipe for water outlet and a water return pipe for water return, the other end of the water supply pipe, which corresponds to one end of the second water tank, is connected with a water pump, the water pump is provided with a water inlet joint for communicating with a water inlet of the air source heat pump unit, and the other corresponding end of the water return pipe connected with one end of the second water tank is provided with a water outlet joint for communicating with a water outlet of the air source heat pump unit.

Further, the water pump and the joint are respectively directed to the test area.

Further, the second water tank is connected with the water pump through a water supply pipe.

Furthermore, the operation frame is also provided with an operation box, and the operation box is electrically connected with the water pump.

Further, the second water tank still is connected with first water pipe and second water pipe, and first water pipe is connected with first water tank, and the second water pipe is connected with first water tank, and first water tank still is equipped with the cooling water tank frame, and the top surface of cooling water tank frame is equipped with the cooling tower, and the cooling tower is linked together with first water tank.

Furthermore, a wall body is arranged on the side face of the cooling water tank frame, and the first water pipe and the second water pipe penetrate through the wall body respectively.

Furthermore, a second ladder stand is arranged at the front end of the cooling water tank frame.

Furthermore, a first ladder stand is arranged at the front end of the operating frame.

Further, the top surface of the operation frame is provided with a guardrail.

The utility model has the advantages that: this structure is through first gyro wheel conveyer belt, second gyro wheel conveyer belt and slide rail, and the slide rail is equipped with the second of the switchable position and removes the gyro wheel conveyer belt, and first gyro wheel conveyer belt side is equipped with the test area, can implement air source heat pump set switching position and transport appointed test area to do not hinder other air source heat pump set and continue to transport other test areas, be convenient for carry out many hourglass, promote efficiency of software testing.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings.

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural view of a water pipe supply device.

FIG. 3 is a schematic view of the connection structure of the second water tank, the operation frame, the joint, the water pump, the water supply pipe, the water return pipe, and the water inlet and the water outlet of the air source heat pump unit.

Fig. 4 is a schematic view of the present invention connected to an air source heat pump unit.

The reference numbers are as follows:

the device comprises a first roller conveying belt 1, a second movable roller conveying belt 2, a second roller conveying belt 3, a test area 4, a sliding rail 5, a wall 6, a cooling tower 7, a cooling water tank frame 8, a first water tank 9, a first water pipe 10, a second water pipe 11, a second water tank 12, an operation frame 13, a water inlet joint 14, a water pump 15, a water supply pipe 16, an operation box 17, a first ladder stand 18, a second ladder stand 19, a water return pipe 20, a water outlet joint 21, a water inlet 22, a water outlet 23 and an air source heat pump unit 24.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present invention, and should not be construed as limiting the present invention.

As shown in fig. 1 and 3, the utility model discloses a production line for detecting air source heat pump set water tank leakage, including first gyro wheel conveyer belt 1 and second gyro wheel conveyer belt 3, be equipped with slide rail 5 between first gyro wheel conveyer belt 1 and the second gyro wheel conveyer belt 3, slide rail 5 is equipped with the second of changeable position and removes gyro wheel conveyer belt 2, and first gyro wheel conveyer belt 1 side is equipped with test section 4, and first gyro wheel conveyer belt 1 still is equipped with handling frame 13, and handling frame 13's upper surface is equipped with second water tank 12, and second water tank 12 is connected with water pump 15, and water pump 15 is connected with water inlet joint 14.

This structure is through first gyro wheel conveyer belt 1 and second gyro wheel conveyer belt 3 and slide rail 5, and slide rail 5 is equipped with the second of the switchable position and removes gyro wheel conveyer belt 2, and 1 side of first gyro wheel conveyer belt is equipped with test area 4, can implement air source heat pump set 24 switching position and transport appointed test area 4 to do not hinder other air source heat pump set 24 to continue transporting other test areas, be convenient for carry out many hourglass, promote efficiency of software testing.

As shown in fig. 4, the air source heat pump unit 24 is provided with a water inlet 22 and a water outlet 23, the second movable roller conveyer belt 2 is displaced on the slide rail 5 along the direction indicated by the arrow shown in fig. 4, so that the second movable roller conveyer belt 2 moves to the side of the test area 4 and is connected with the movable test area 4, the air source heat pump unit 24 on the second movable roller conveyer belt 2 is pushed to the test area 4, and the leakage detection process of the water tank leakage of the air source heat pump unit is further waited. Specifically, first gyro wheel conveyer belt 1 is equipped with handling frame 13, and the upper surface of handling frame 13 is equipped with second water tank 12 and water pump 15, second water tank 12 is connected with the delivery pipe 16 that is used for going out water and the wet return 20 that is used for the return water, the delivery pipe 16 is connected the corresponding other end of second water tank 12 one end and is connected with water pump 15, water pump 15 is equipped with the water inlet joint 14 that is used for intercommunication air source heat pump set water inlet 22, the corresponding other end that wet return 20 is connected second water tank 12 one end is equipped with the delivery port joint 21 that is used for intercommunication air source heat pump set delivery port 23.

In the structure, the operating frame 13 is also provided with an operating box 17, and the operating box 17 is electrically connected with the water pump 15. The function of the operation box 17 is to start the water pump 15 and perform the function of pumping the water in the second water tank 12 to the water tank of the air source heat pump unit. The electric wire of the operation box 17 is connected to the control end of the water pump 15. The operation box 17 can be internally provided with a control panel and a display screen, and the control panel is connected with the display screen through a signal wire. The control panel is a conventional control panel such as a control box 17 manufactured by ontomi (tianjin) technologies ltd and will not be described in detail.

This structure second water tank 12 still is connected with first water pipe 10 and second water pipe 11, and first water pipe 10 is connected with first water tank 9, and second water pipe 11 is connected with first water tank 9, and first water tank 9 still is equipped with cooling water tank frame 8, and the top surface of cooling water tank frame 8 is equipped with cooling tower 7, and cooling tower 7 is linked together with first water tank 9. The cooling tower 7 is connected with the first water tank 9 through a hose, the cooling tower 7 and the first water tank 9 are respectively used for storing liquid, and the first water tank 9 supplies liquid to the second water tank 12 through a first water pipe 10 and a second water pipe 11. The cooling tower 7 supplies liquid to a first tank 9. It is further understood that, when the air source heat pump unit 24 operates, the second water tank 12 is heated, if the second water tank 12 is not cooled, after the production line for detecting the water tank leakage of the air source heat pump unit operates for a period of time, the air source heat pump unit 24 heats the second water tank 12, if the second water tank 12 is not cooled, the detection effect and accuracy of the production line for detecting the water tank leakage of the air source heat pump unit on the air source heat pump unit 24 are inevitably influenced. Therefore, the present invention is provided with the first water tank 9 and the cooling tower 7 to cool the second water tank 12, so as to ensure that the second water tank 12 is at the set temperature, and it should be clear to those skilled in the art, specifically, the test is performed according to the GB/T10870 + 2001 detection standard, and specifically, the second water tank 12 needs to be maintained at 15 ℃.

The second water tank 12 is square, and the first water tank 9 is square.

In the structure, a wall body 6 is arranged on the side of the cooling water tank frame 8, and the first water pipe 10 and the second water pipe 11 respectively penetrate through the wall body 6. The cooling water tank bracket 8 is used to fix the positions of the cooling tower 7 and the first water tank 9.

The front end of the cooling water tank frame 8 is provided with a second ladder stand 19. The front end of the operation frame 13 is provided with a first ladder 18. The worker climbs the cooling water tank frame 8 from the second ladder 19 to perform routine maintenance, and the worker climbs the operation frame 13 from the first ladder 18 to perform routine maintenance.

One end of the second ladder stand 19 is welded with the cooling water tank frame 8, and one end of the first ladder stand 18 is welded with the operation frame 13, so that the reliability of the whole structure is improved.

The top surface of the operation frame 13 of the structure is provided with a guardrail. The guardrail plays the personal safety of protection staff.

The utility model discloses a theory of operation: as shown in fig. 1 and fig. 4, an air source heat pump unit 24 waiting on a test area 4 is conveyed to a first roller conveyor belt 1, as shown in fig. 4, a water inlet connector 14 connected with a second water tank 12 is communicated with a water inlet 22 of the air source heat pump unit 24, a water outlet connector 21 on an operation frame 13 is communicated with a water outlet 23 of the air source heat pump unit 4, the air source heat pump unit 4 and a water pump 15 run simultaneously by starting an operation box 17, at the moment, water in the second water tank 12 circularly flows through the water pump 15, the second water tank 12 enters through the water inlet 22 and flows out through the water outlet 23, at the moment, a producer can visually observe whether a leakage phenomenon exists at the water inlet 22 of the air source heat pump unit 24 and the water outlet 23 of the air source heat pump unit 24, and simultaneously observe whether the water tank has a quality problem when the air source heat pump unit 24 runs, if the water tank leaks due to water pressure and the connecting copper pipe (the welding part of the extending part of the copper pipe and the water tank) extending out of the water tank leaks, corresponding repair is needed if necessary, and 100 percent of qualified rate of the air source heat pump unit is ensured to leave a factory.

Claims (9)

1. A production line for detecting air source heat pump set water tank leaks, including first gyro wheel conveyer belt (1) and second gyro wheel conveyer belt (3), its characterized in that: a slide rail (5) is arranged between the first roller conveyer belt (1) and the second roller conveyer belt (3), the slide rail (5) is provided with a second movable roller conveyer belt (2) capable of switching positions, a test area (4) is arranged on the side of the first roller conveyer belt (1), the first roller conveyer belt (1) is also provided with an operation frame (13), a second water tank (12) and a water pump (15) are arranged on the upper surface of the operation frame (13), the second water tank (12) is connected with a water supply pipe (16) for water outlet and a water return pipe (20) for water return, the other end of the water supply pipe (16) corresponding to one end of the second water tank (12) is connected with a water pump (15), the water pump (15) is provided with a water inlet joint (14) which is used for being communicated with a water inlet (22) of the air source heat pump unit, and the other end, corresponding to one end of the water return pipe (20) connected with the second water tank (12), is provided with a water outlet joint (21) for communicating with a water outlet (23) of the air source heat pump unit.

2. The production line for detecting the water tank leakage of the air source heat pump unit according to claim 1, characterized in that: the water pump (15) and the connector (14) are respectively directed towards the test area (4).

3. The production line for detecting the water tank leakage of the air source heat pump unit according to claim 1, characterized in that: the second water tank (12) is connected with the water pump (15) through a water supply pipe (16).

4. A production line for detecting air source heat pump unit water tank leakage according to claim 1, characterized in that: the operation frame (13) is also provided with an operation box (17), and the operation box (17) is electrically connected with the water pump (15).

5. The production line for detecting the water tank leakage of the air source heat pump unit according to claim 1, characterized in that: the second water tank (12) is further connected with a first water pipe (10) and a second water pipe (11), the first water pipe (10) is connected with a first water tank (9), the second water pipe (11) is connected with the first water tank (9), the first water tank (9) is further provided with a cooling water tank frame (8), the top surface of the cooling water tank frame (8) is provided with a cooling tower (7), and the cooling tower (7) is communicated with the first water tank (9).

6. A production line for detecting air source heat pump unit water tank leakage according to claim 5, characterized in that: and a wall body (6) is arranged on the side surface of the cooling water tank frame (8), and the first water pipe (10) and the second water pipe (11) penetrate through the wall body (6) respectively.

7. A production line for detecting air source heat pump unit water tank leakage according to claim 5, characterized in that: the front end of the cooling water tank frame (8) is provided with a second ladder (19).

8. The production line for detecting the water tank leakage of the air source heat pump unit according to claim 1, characterized in that: the front end of the operating frame (13) is provided with a first ladder (18).

9. The production line for detecting the water tank leakage of the air source heat pump unit according to claim 1, characterized in that: the top surface of the operating frame (13) is provided with a guardrail.

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