CN220525242U - Air tightness detection integrated equipment - Google Patents

Abstract

The utility model discloses air tightness detection integrated equipment, and relates to the technical field of air tightness detection. The utility model comprises a water storage component, wherein a movable frame is arranged on the water storage component, and a hanging component is arranged on the movable frame; the hanging assembly comprises two electric push rods, a plate body is arranged at the output end of the two electric push rods, two first sliding seats are slidably matched at the lower part of the plate body, a first motor is arranged on one side of the plate body, a first screw rod is arranged at the output end of the first motor, threads of the first sliding seats are matched with the periphery side of the first screw rod, an extension plate is arranged at the lower side of the first sliding seats, and side baffles are arranged at the lower part of the extension plate. According to the utility model, the movable frame is matched with the hanging assembly, so that the high-pressure hose is conveniently conveyed and placed in the water storage assembly for air tightness detection and then replaced, the manual workload and the labor cost are reduced, and meanwhile, the movable frame is matched with the L-shaped plate, the connector, the air pump and the L-shaped bent pipe, so that the operation of connecting the end part of the high-pressure hose with the connector is conveniently performed outside the water storage assembly.

Description

Air tightness detection integrated equipment

Technical Field

The utility model belongs to the field of air tightness detection, and particularly relates to air tightness detection integrated equipment.

Background

The high-pressure hose is a flexible pipeline bearing high pressure and is widely used for industrial production and living, the high-pressure hose is divided into a plurality of types according to different materials, and the high-pressure hose is required to detect the air tightness before leaving a factory, so that the phenomenon of whether gas and liquid leak is generated or not can be judged as a whole.

Chinese patent publication No. CN216207322U discloses a high-pressure hose gas tightness detection device, including detecting transparent case, the lower extreme that detects transparent case is provided with drainage mechanism, drainage mechanism includes drain pipe and drain valve, detect the lower extreme intermediate zone of transparent case and be provided with the drain pipe, the lower extreme of drain pipe is provided with the drain valve, detect the inside of transparent case and be provided with detection mechanism, detection mechanism includes hose, first connector, fixed block, second connector, helium switch-on control valve, third connector and spouts the helium pipe, detect the inside lower extreme of transparent case and be provided with the hose, the one end of hose is provided with first connector, the one end of first connector is provided with the fixed block.

And the high-pressure hose gas tightness detection device disclosed in this application is in the in-process of using, at every turn to high-pressure hose's gas tightness detection, all need to discharge the reinjection into with the water that detects in the transparent case, although water can repetitious usage reduce extravagant, but this operation process is comparatively time-consuming, influences the speed that high-pressure hose detected, otherwise easily causes the hose to take place at the circumstances of installing in-process water, and when high-pressure hose is heavier longer, the workman is comparatively laborsaving at the in-process that high-pressure hose put into and take out the transparent case of detection.

Disclosure of Invention

The utility model aims to overcome the defects of the prior art and provide the air tightness detection integrated equipment.

In order to solve the technical problems, the utility model adopts the basic conception of the technical scheme that:

the air tightness detection integrated device comprises a water storage component, wherein a movable frame is arranged on the water storage component, and a hanging component is arranged on the movable frame;

the hanging assembly comprises two electric push rods, a plate body is arranged at the output end of the two electric push rods, two first sliding seats are slidably matched at the lower part of the plate body, a first motor is arranged at one side of the plate body, a first screw rod which is in running fit with the plate body is arranged at the output end of the first motor, threads of the first sliding seats are matched with the periphery of the first screw rod, an extension plate is arranged at the lower side of the first sliding seats, side baffles are arranged at the lower part of the extension plate and are positioned above the water storage assembly, inserting blocks are respectively arranged at the inner ends of the two side baffles, L-shaped plates are arranged at the side parts of the side baffles, connectors are arranged at one side of the L-shaped plates, an air pump is arranged at one side of the plate body, and the output end of the air pump is connected with an L-shaped bent pipe which is communicated with one connector.

Optionally, a first chute is formed on the lower side of the plate body, the first slide seat is in sliding fit in the first chute, and the first screw rod penetrates through the first chute in the transverse direction.

Optionally, the water storage component comprises a water tank, a drain pipe is arranged on one side of the water tank and communicated with the inner cavity of the water tank, and a valve is arranged on the drain pipe.

Optionally, the movable rack comprises two strips arranged on the upper side of the water tank, a second chute is arranged on the upper side of the strips, a second motor is arranged on one side of the strips, and a second screw rod which is in running fit in the second chute is arranged at the output end of the second motor.

Optionally, the supporting leg is installed to the slat downside, and the base is installed to the supporting leg lower extreme, and supporting leg and base all are located one side of water tank.

Optionally, remove the frame and still include the second slide of sliding fit in the second spout, second slide screw-thread fit is in the week side of second screw rod, and the riser has been installed to second slide upside, and the diaphragm has been installed to two riser upside, and electric putter installs the upside at the diaphragm, and electric putter output runs through the diaphragm, and the plate body is located the below of diaphragm, and plate body and first motor are located between two risers.

After the technical scheme is adopted, compared with the prior art, the utility model has the following beneficial effects, and of course, any product for implementing the utility model does not necessarily need to achieve all the following advantages at the same time:

through moving the frame and hanging the subassembly cooperation of putting, be convenient for put into the high-pressure hose transport and put back after carrying out the gas tightness and detect in the water storage subassembly, reduce manual work volume and human cost, cooperate with L shaped board, connector, air pump, L shape return bend simultaneously, be convenient for carry out the operation of being connected with the end of high-pressure hose and connector in the water storage subassembly outside, be convenient for last the use to the water in the water storage subassembly, reduce the in-process that high-pressure hose gas tightness detected to water in the water storage subassembly outlying demand, improve the efficiency that high-pressure hose gas tightness detected.

The following describes the embodiments of the present utility model in further detail with reference to the accompanying drawings.

Drawings

The drawings in the following description are only examples of embodiments from which other drawings may be derived by those skilled in the art without the exercise of inventive faculty. Attached at

In the figure:

FIG. 1 is a schematic front perspective view of an embodiment of the present utility model;

FIG. 2 is a schematic rear perspective view of an embodiment of the present utility model;

fig. 3 is a schematic cross-sectional structure of an embodiment of the present utility model.

In the drawings, the list of components represented by the various numbers is as follows:

the water storage assembly 1, the water tank 101, the water drain pipe 102, the valve 103, the movable frame 2, the lath 201, the second sliding groove 202, the supporting leg 203, the base 204, the second motor 205, the second screw 206, the second sliding seat 207, the vertical plate 208, the transverse plate 209, the hanging assembly 3, the electric push rod 301, the plate body 302, the first sliding groove 303, the first motor 304, the first screw 305, the first sliding seat 306, the extension plate 307, the side baffle 308, the insertion block 309, the L-shaped plate 310, the connector 311, the air pump 4 and the L-shaped bent pipe 410.

It should be noted that these drawings and the written description are not intended to limit the scope of the inventive concept in any way, but to illustrate the inventive concept to those skilled in the art by referring to the specific embodiments.

Detailed Description

The utility model will now be described in further detail with reference to the accompanying drawings.

Referring to fig. 1-3, in this embodiment, an integrated device for detecting air tightness is provided, which includes a water storage component 1, a moving frame 2 is provided on the water storage component 1, a hanging component 3 is provided on the moving frame 2, and the integrated design combination of air tightness detection, carrying and returning of a high-pressure hose is performed by matching the water storage component 1 with the moving frame 2 and the hanging component 3, so that the automation degree of the device is improved;

the hanging assembly 3 comprises two electric push rods 301, a plate body 302 is arranged at the output end of the two electric push rods 301, two first sliding seats 306 are arranged at the lower part of the plate body 302 in a sliding fit mode, a first motor 304 is arranged at one side of the plate body 302, a first screw rod 305 which is in rotary fit in the plate body 302 is arranged at the output end of the first motor 304, positive and negative double threads are arranged on the peripheral side of the first screw rod 305, the first sliding seats 306 are in threaded fit with the peripheral side of the first screw rod 305, an extension plate 307 is arranged at the lower side of the first sliding seat 306, side baffles 308 are arranged at the lower part of the extension plate 307, the side baffles 308 are located above the water storage assembly 1, inserting blocks 309 are respectively arranged at the opposite inner ends of the two side baffles 308, L-shaped plates 310 are arranged at the side parts of the side baffles 308, a connector 311 is arranged at one side of the L-shaped plate 310, an air pump 4 is arranged at one side of the plate body 302, an output end of the air pump 4 is connected with an L-shaped elbow 410, an L-shaped elbow groove is formed in the upper side of one L-shaped plate 310, the L-shaped elbow groove penetrates through one side of the L-shaped elbow 310 corresponding to the connector 311, the L-shaped elbow groove corresponds to the connector 311, and the L-shaped elbow groove is in contact with the L-shaped connector 310, and the L-shaped connector side is in a high pressure joint with the L-shaped connector 308, and can be completely connected with the water through the L-shaped connector through the side connector and the L-shaped connector 308, and can be completely through the water.

The application of one aspect of the embodiment is: when the high-pressure hose lifting device is used, water is injected into a water storage component 1, a coiled high-pressure hose is rolled to one side of the water storage component 1, then a movable frame 2 is controlled to work so as to move a lifting component 3 to one side of the water storage component 1 from right above the water storage component 1, then an electric push rod 301 stretches and pushes structures such as a plate body 302, an extension plate 307, side baffles 308 and an inserting block 309 to move downwards, then a first motor 304 is controlled to work so as to drive a first screw 305 to rotate, the first screw 305 rotates so as to drive two first sliding seats 306 to slide close to each other, so that two inserting blocks 309 are inserted into the high-pressure hose coil close to each other, meanwhile, the two side baffles 308 are close to each other so as to clamp the high-pressure hose coil, and then the head end and the tail end of the high-pressure hose are found to be connected with one connector 311 respectively; when the tightness is tested, the electric push rod 301 firstly contracts to drive the high-pressure hose roll to move upwards, the movable frame 2 then works to drive the high-pressure hose roll to move right above the water storage component 1, then the electric push rod 301 stretches again to put the high-pressure hose roll into the water storage component 1, the high-pressure hose roll is completely soaked in water, then the air pump 4 works to supply air into the high-pressure hose through the L-shaped bent pipe 410, whether air bubbles are generated in the water storage component 1 generally is judged to judge the air tightness of the high-pressure hose, and the high-pressure hose roll can be taken out from the water storage component 1 again by repeating the operation.

The lower side of the plate 302 in this embodiment is provided with a first sliding groove 303, the first sliding seat 306 is slidably fitted in the first sliding groove 303, the first screw 305 penetrates through the first sliding groove 303 in the transverse direction, the stability of the first sliding seat 306 during sliding is improved through the first sliding groove 303, and the displacement direction and distance of the first sliding seat 306 are limited.

The water storage component 1 of the embodiment comprises a water tank 101, a drain pipe 102 is arranged on one side of the water tank 101, the drain pipe 102 is communicated with the inner cavity of the water tank 101, a valve 103 is arranged on the drain pipe 102, and sewage in the water storage component 1 is conveniently discharged from the drain pipe 102 by controlling the valve 103 to be opened.

The movable frame 2 of the present embodiment includes two laths 201 mounted on the upper side of the water tank 101, a second chute 202 is provided on the upper side of the laths 201, a second motor 205 is provided on one side of the laths 201, and a second screw 206 rotatably fitted in the second chute 202 is provided at the output end of the second motor 205. The supporting leg 203 is installed to slat 201 downside, and base 204 has been installed to supporting leg 203 lower extreme, and supporting leg 203 and base 204 all are located one side of water tank 101, increase the area of contact between supporting leg 203 and the ground through base 204, support slat 201 through supporting leg 203, improve the bearing capacity and the bending resistance ability of slat 201.

The moving frame 2 of this embodiment further includes a second slide seat 207 slidingly engaged in the second chute 202, the second slide seat 207 is screwed on the peripheral side of the second screw 206, the upper side of the second slide seat 207 is provided with a vertical plate 208, the upper sides of the two vertical plates 208 are provided with a horizontal plate 209, the electric push rod 301 is provided on the upper side of the horizontal plate 209, the output end of the electric push rod 301 penetrates through the horizontal plate 209, the plate 302 is located below the horizontal plate 209, the plate 302 and the first motor 304 are located between the two vertical plates 208, and during use, the second motor 205 is controlled to work to drive the second screw 206 to rotate, and the second screw 206 rotates to drive the second slide seat 207 to slide along the direction of the second chute 202.

The present utility model is not limited to the above embodiments, and any person who can learn the structural changes made under the teaching of the present utility model can fall within the scope of the present utility model if the present utility model has the same or similar technical solutions. The technology, shape, and construction parts of the present utility model, which are not described in detail, are known in the art.

Claims (6)

1. An air tightness detection integrated apparatus, comprising: the water storage device comprises a water storage component (1), wherein a movable frame (2) is arranged on the water storage component (1), and a hanging component (3) is arranged on the movable frame (2);

the hanging assembly (3) comprises two electric push rods (301), a plate body (302) is arranged at the output end of the two electric push rods (301), two first sliding seats (306) are slidably matched at the lower portion of the plate body (302), a first motor (304) is arranged at one side of the plate body (302), a first screw rod (305) is arranged at the output end of the first motor (304), the first sliding seats (306) are in threaded fit with the periphery of the first screw rod (305), an extension plate (307) is arranged at the lower side of the first sliding seat (306), a side baffle (308) is arranged at the lower portion of the extension plate (307), an inserting block (309) is arranged at one end of the side baffle (308), an L-shaped plate (310) is arranged at the side portion of the side baffle (308), a connector (311) is arranged at one side of the L-shaped plate (310), an air pump (4) is arranged at one side of the plate body (302), and the output end of the air pump (4) is connected with an L-shaped elbow (410) and one connector (311) is communicated with the L-shaped elbow (410).

2. The air tightness detection integrated device according to claim 1, wherein a first chute (303) is formed on the lower side of the plate body (302), and the first screw (305) and the first slide (306) are both movably matched in the first chute (303).

3. The air tightness detection integrated device according to claim 1, wherein the water storage component (1) comprises a water tank (101), a drain pipe (102) is arranged on one side of the water tank (101), and a valve (103) is arranged on the drain pipe (102).

4. A gas tightness detection integrated apparatus according to claim 3, wherein the moving frame (2) comprises two strips (201) arranged on the upper side of the water tank (101), a second chute (202) is arranged on the upper side of the strips (201), a second motor (205) is arranged on one side of the strips (201), and a second screw (206) which is in rotary fit with the second chute (202) is arranged at the output end of the second motor (205).

5. The integrated equipment for airtightness detection according to claim 4, wherein the lower side of the lath (201) is provided with supporting legs (203), and the lower end of the supporting legs (203) is provided with a base (204).

6. The integrated equipment for detecting air tightness according to claim 4, wherein the movable frame (2) further comprises a second sliding seat (207) which is in sliding fit with the second sliding groove (202), the second sliding seat (207) is in threaded fit with the periphery of the second screw (206), a vertical plate (208) is arranged on the upper side of the second sliding seat (207), and a transverse plate (209) is arranged on the upper sides of the two vertical plates (208).