CN216050507U - Positioning structure for detecting air tightness of water separator - Google Patents

Abstract

The utility model discloses a positioning structure for detecting the air tightness of a water separator, which comprises a mounting frame, a water separator socket and a first positioning mechanism, the first positioning mechanism comprises a first positioning driving cylinder and a positioning arm, the first positioning driving cylinder and a water distributor socket are fixedly arranged at the bottom end of the mounting frame, the water distributor socket is used for inserting a water distributor to be detected, a telescopic rod of the first positioning driving cylinder is arranged towards the direction of the water distributor socket, one end of the positioning arm is connected with the telescopic rod of the first positioning driving cylinder, the telescopic rod of the first positioning driving cylinder stretches to drive the positioning arm to move, the other end of the positioning arm is provided with a positioning opening, the telescopic rod of the first positioning driving cylinder extends out, one end of the positioning arm provided with the positioning opening moves to the position above the water distributor socket, the water distributor to be detected is inserted into the water distributor socket, and the handle on the water distributor extends into the positioning opening. The positioning structure can improve the air tightness detection accuracy and efficiency of the water separator.

Description

Positioning structure for detecting air tightness of water separator

Technical Field

The utility model relates to the technical field of water distributor detection, in particular to a positioning structure for detecting the air tightness of a water distributor.

Background

In current production and life, people adopt a water separator as a switch for fluid in a pipeline. Along with the improvement of the demand of people, the precision of various hydraulic parts is also continuously improved, so that the structures of the water distributors in various water distributors are more and more complicated, and the precision requirement is higher and higher. The water trap is typically tested for its air tightness before use. If the air tightness of the water separator is not good, the working performance of the water separator can be directly influenced, and sometimes even safety accidents can be caused.

In the past, when the air tightness of the water separator is detected by people, the existing water separator air tightness detection equipment needs to be compressed by a compression structure before detection, but before compression, the water separator is placed into the air tightness detection equipment only by the feeling of workers, the positioning is not accurate enough, the placing angle of the water separator is easy to deviate, and adverse effects are caused on the compression of the compression structure on the water separator and the air tightness detection accuracy of the water separator.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a positioning structure for detecting the air tightness of a water separator, which can accurately position the water separator to be placed into air tightness detection equipment.

In order to achieve the purpose, the utility model provides the following technical scheme:

the utility model provides a location structure that hydrophone gas tightness detected, includes mounting bracket, water knockout drum socket and a positioning mechanism, a positioning mechanism includes first location actuating cylinder and location arm, first location actuating cylinder all sets firmly on the bottom of mounting bracket with the water knockout drum socket, the water knockout drum socket is used for the cartridge to detect the water knockout drum, the telescopic link of first location actuating cylinder sets up towards water knockout drum socket place direction, the one end of location arm is connected with the telescopic link of first location actuating cylinder, the telescopic link through first location actuating cylinder is flexible to drive the location arm activity, be equipped with the location mouth on the other end of location arm, stretch out with the telescopic link that supplies first location actuating cylinder, the one end activity that the location arm was equipped with the location mouth to the top of water knockout drum socket, detect water knockout drum cartridge to the water knockout drum socket of detecting, handle on the water knockout drum stretches into to the location mouth.

As a further technical scheme of the utility model: the positioning structure comprises a positioning block, the positioning block is fixedly arranged on one side of the water distributor socket, the bottom end of the positioning block is connected with the mounting frame, an extension section is arranged at the top end of the positioning block and extends to the upper side of the water distributor socket, and a positioning groove is formed in the extension section and abuts against one side of the water distributor after the water distributor to be detected is inserted into the water distributor socket.

As a further technical scheme of the utility model: the positioning structure comprises a second positioning mechanism, the second positioning mechanism comprises a second positioning driving cylinder and a positioning cylinder, the second positioning driving cylinder is fixedly arranged on one side of the water distributor socket, a telescopic rod of the second positioning driving cylinder is arranged towards the water distributor socket, one end of the positioning cylinder is connected with the telescopic rod of the second positioning driving cylinder, a sleeving opening is formed in the other end of the positioning cylinder, so that a water distributor to be detected is inserted into the water distributor socket, the telescopic rod of the second positioning driving cylinder extends out to drive the positioning cylinder to be correspondingly connected with the water distributor, and a water inlet of the water distributor is inserted into the sleeving opening.

As a further technical scheme of the utility model: the positioning structure comprises a pressing mechanism, the pressing mechanism is arranged above the water distributor socket, a sensing piece is arranged in the positioning opening, so that a handle on the water distributor can stretch into the positioning opening, the sensing piece senses the handle, and signals are transmitted to the first positioning driving cylinder, the second positioning driving cylinder and the pressing mechanism.

As a further technical scheme of the utility model: the bottom end of the mounting frame is provided with a bottom mounting plate, the bottom mounting plate is L-shaped and is provided with a bottom plate section and a vertical plate section vertically connected to the bottom plate section, the water distributor socket is arranged on the bottom plate section, and the first positioning driving cylinder and the water distributor socket are correspondingly arranged on the vertical plate section.

As a further technical scheme of the utility model: the pressing mechanism comprises a pressing driving cylinder, a lifting seat and a pressing module, the pressing driving cylinder is fixedly arranged at the top end of the mounting frame, a telescopic rod of the pressing driving cylinder is arranged towards the water distributor socket, the lifting seat is arranged between the pressing driving cylinder and the water distributor socket, the top end of the lifting seat is connected with the telescopic rod of the pressing driving cylinder, and the lifting seat is driven to lift through the telescopic rod of the pressing driving cylinder; the pressing module is fixedly arranged on the bottom surface of the lifting seat and used for enabling the telescopic rod of the pressing driving cylinder to extend out to drive the lifting seat to descend, and the pressing module abuts against the water distributor inserted on the water distributor socket.

As a further technical scheme of the utility model: hold-down mechanism includes swing driving motor and swing arm lock, swing driving motor sets firmly in the lift seat, and the bottom surface to the lift seat is worn out to swing driving motor's pivot, the swing arm lock can swing and set up on the bottom surface of lift seat, and the swing arm lock is connected with swing driving motor's pivot, rotates through swing driving motor's pivot, drives the swing arm lock to supply to compress tightly the module and support to press the water knockout drum back of cartridge on the water knockout drum socket, the handle on the swing arm lock centre gripping water knockout drum to under swing driving motor's pivot rotates, drive the handle swing.

Compared with the prior art, the utility model has the beneficial effects that: according to the positioning structure for detecting the air tightness of the water distributor, the water distributor socket and the first positioning mechanism are matched, the water distributor can be inserted into the water distributor socket in a precisely positioned mode, so that the pressing mechanism can press the water distributor and drive the handle of the water distributor to swing conveniently, and the air tightness detection accuracy and efficiency of the water distributor are effectively improved.

Drawings

Fig. 1 is a schematic view of a water separator to be tested.

Fig. 2 is a first perspective view of a positioning structure for water knockout vessel airtightness detection.

Fig. 3 is a second perspective view of the positioning structure for water knockout vessel airtightness detection.

Fig. 4 is a side view of a positioning structure for water diverter air tightness detection.

Detailed Description

The following detailed description of embodiments of the utility model refers to the accompanying drawings. It should be understood that the detailed description and specific examples, while indicating the preferred embodiment of the utility model, are intended for purposes of illustration and explanation only and are not intended to limit the scope of the utility model.

Referring to fig. 1, a water separator to be tested comprises a water separator main body, a water outlet 101 is respectively arranged at the top end and the bottom end of the water separator main body, a water inlet 102 and a rotatable water channel switching section 103 are arranged between the two ends of the water separator main body, a handle 104 is arranged on the outer surface of the water channel switching section 103, the water channel switching section 103 is driven to rotate by the swinging of the handle 104, and the water outlet 101 at the top end or the bottom end of the switching is communicated with the water inlet 102.

Referring to fig. 2, 3 and 4, a positioning structure for air tightness detection of a water separator is used for being installed in an air tightness detection device of the water separator to position the water separator, and comprises an installation frame 10, a water separator socket 20 and a first positioning mechanism 30, wherein the first positioning mechanism 30 comprises a first positioning driving cylinder 31 and a positioning arm 32, the first positioning driving cylinder 31 and the water separator socket 20 are fixedly arranged at the bottom end of the installation frame 10, the water separator socket 20 is used for inserting a water separator to be detected, a telescopic rod of the first positioning driving cylinder 31 is arranged towards the direction of the water separator socket 20, one end of the positioning arm 32 is connected with a telescopic rod of the first positioning driving cylinder 31, the telescopic rod of the first positioning driving cylinder 31 drives the positioning arm 32 to move, a positioning opening 321 is arranged at the other end of the positioning arm 32, so that the telescopic rod of the first positioning driving cylinder 31 can extend out, one end of the positioning arm 32, which is provided with the positioning opening 321, moves above the water distributor socket 20, the water distributor to be detected is inserted into the water distributor socket 20, and the handle on the water distributor extends into the positioning opening 321 for positioning.

Further, the positioning structure comprises a second positioning mechanism 40 and a positioning block 50 arranged opposite to the second positioning mechanism 40, the positioning block 50 is fixedly arranged on one side of the water distributor socket 20, the bottom end of the positioning block 50 is connected with the mounting frame 10, an extension section 51 is arranged at the top end of the positioning block 50, the extension section 51 extends to the upper side of the water distributor socket 20, and a positioning groove 52 is arranged on the extension section 51, so that after the water distributor to be detected is inserted into the water distributor socket 20, the positioning groove 52 abuts against one side of the water distributor to be positioned.

Further, the second positioning mechanism 40 includes a second positioning driving cylinder 41 and a positioning cylinder 42, the second positioning driving cylinder 41 is fixedly disposed at the other side of the water distributor socket 20, a telescopic rod of the second positioning driving cylinder 41 is disposed toward the water distributor socket 20, one end of the positioning cylinder 42 is connected to the telescopic rod of the second positioning driving cylinder 41, a sleeving opening is formed at the other end of the positioning cylinder 42, so that a water distributor to be detected is inserted into the water distributor socket 20, the telescopic rod of the second positioning driving cylinder 41 extends out to drive the positioning cylinder 42 to be correspondingly connected to the water distributor, and a water inlet of the water distributor is inserted into the sleeving opening.

Further, the positioning structure comprises a pressing mechanism 60, the pressing mechanism 60 is arranged above the water distributor socket 20 and comprises a pressing driving cylinder 61, a lifting seat 62, a pressing module 63, a swinging driving motor 64 and a swinging clamping arm 65, the pressing driving cylinder 61 is fixedly arranged at the top end of the mounting frame 10, a telescopic rod of the pressing driving cylinder 61 is arranged towards the water distributor socket 20, the lifting seat 62 is arranged between the pressing driving cylinder 61 and the water distributor socket 20, the top end of the lifting seat 62 is connected with the telescopic rod of the pressing driving cylinder 61, and the lifting seat 62 is driven to lift through the telescopic rod of the pressing driving cylinder 61; the pressing module 63 is fixedly arranged on the bottom surface of the lifting seat 62, so that the telescopic rod of the pressing driving cylinder 61 extends out to drive the lifting seat 62 to descend, and the pressing module 63 abuts against the water distributor inserted on the water distributor socket 20; the swing driving motor 64 is fixedly arranged in the lifting seat 62, a rotating shaft of the swing driving motor 64 penetrates out of the bottom surface of the lifting seat 62, the swing clamping arm 65 is arranged on the bottom surface of the lifting seat 62 in a swinging mode, the swing clamping arm 65 is connected with the rotating shaft of the swing driving motor 64, the rotating shaft of the swing driving motor 64 rotates to drive the swing clamping arm 65, so that after the pressing module 63 abuts against and presses the water distributor inserted in the water distributor socket 20, the swing clamping arm 65 clamps a handle on the water distributor, and the handle is driven to swing under the rotation of the rotating shaft of the swing driving motor 64.

Further, a sensing part (not shown) is arranged in the positioning opening 321, so that after a handle on the water distributor extends into the positioning opening 321, the sensing part senses the handle, transmits signals to the first positioning driving cylinder 31, the second positioning driving cylinder 41 and the pressing mechanism 60, so that the telescopic rod of the first positioning driving cylinder 31 retracts, the second positioning driving cylinder 41 and the telescopic rod of the pressing driving cylinder 61 extend out, the pressing module 63 presses the water distributor inserted into the water distributor socket 20, the swing clamping arm 65 clamps the handle on the water distributor and drives the positioning cylinder 42 to be assembled with the water distributor correspondingly, and a water inlet of the water distributor is inserted into the sleeving opening.

Further, a bottom mounting plate is disposed at the bottom end of the mounting frame 10, the bottom mounting plate is L-shaped, and has a bottom plate section and a vertical plate section vertically connected to the bottom plate section, the water separator socket 20 is disposed on the bottom plate section, and the first positioning driving cylinder 31 is disposed on the vertical plate section corresponding to the water separator socket 20.

It can be understood that, the utility model relates to a positioning method of a positioning structure for detecting the air tightness of a water separator, which comprises the following steps: before a water separator to be detected is placed in the air tightness detection device of the water separator, the telescopic rod of the first positioning driving cylinder 31 is in an extending state, one end of the positioning arm 32, which is provided with the positioning opening 321, is moved above the water separator socket 20, after the water separator is inserted on the water separator socket 20, the handle on the water separator correspondingly extends into the positioning opening 321, the sensing part senses the handle, transmits signals to the first positioning driving cylinder 31, the second positioning driving cylinder 41 and the pressing mechanism 60, so that the telescopic rod of the first positioning driving cylinder 31 retracts, the telescopic rods of the second positioning driving cylinder 41 and the pressing driving cylinder 61 both extend, the handle on the water separator is clamped by the swinging clamping arm 65 while the pressing module 63 is pressed against the water separator inserted on the water separator socket 20, the positioning cylinder 42 is driven to be correspondingly assembled with the water separator, the water inlet of the water separator is inserted into the sleeving opening, and the positioning and pressing of the water separator are completed, when the detection component of the water separator air tightness detection device carries out air tightness detection on the water separator, the rotating shaft of the swing driving motor 64 rotates in cooperation with air tightness detection to drive the swing clamping arm 65 to swing around the rotating shaft, the swing clamping arm 65 drives the handle to swing on the water separator, the communication between the water outlet and the water inlet at the top end or the bottom end of the water separator is switched through the swinging of the handle, and the air tightness detection is effectively carried out on the water separator.

In summary, according to the positioning structure for detecting the air tightness of the water separator, the water separator can be accurately inserted into the water separator socket 20 in a positioning manner through the cooperation among the mounting frame 10, the water separator socket 20 and the first positioning mechanism 30, so that the pressing mechanism 60 presses the water separator and drives the handle of the water separator to swing, and the air tightness detection accuracy and efficiency of the water separator are effectively improved.

Any combination of the various embodiments of the present invention should be considered as disclosed in the present invention, unless the inventive concept is contrary to the present invention; within the scope of the technical idea of the utility model, any combination of various simple modifications and different embodiments of the technical solution without departing from the inventive idea of the present invention shall fall within the protection scope of the present invention.

Claims (7)

1. The utility model provides a location structure that water knockout drum gas tightness detected which characterized in that: the water distributor positioning device comprises an installation frame (10), a water distributor socket (20) and a first positioning mechanism (30), wherein the first positioning mechanism (30) comprises a first positioning driving cylinder (31) and a positioning arm (32), the first positioning driving cylinder (31) and the water distributor socket (20) are fixedly arranged at the bottom end of the installation frame (10), the water distributor socket (20) is used for inserting a water distributor to be detected, a telescopic rod of the first positioning driving cylinder (31) is arranged towards the direction of the water distributor socket (20), one end of the positioning arm (32) is connected with the telescopic rod of the first positioning driving cylinder (31), the positioning arm (32) is driven to move by stretching of the telescopic rod of the first positioning driving cylinder (31), a positioning opening (321) is formed in the other end of the positioning arm (32) and stretches out of the telescopic rod of the first positioning driving cylinder (31), one end of the positioning arm (32) provided with the positioning opening (321) moves to the upper side of the water distributor socket (20), the water distributor to be detected is plugged into the water distributor socket (20), and the handle on the water distributor extends into the positioning opening (321).

2. The positioning structure according to claim 1, wherein: the positioning structure comprises a positioning block (50), the positioning block (50) is fixedly arranged on one side of the water distributor socket (20), the bottom end of the positioning block (50) is connected with the mounting frame (10), an extension section (51) is arranged on the top end of the positioning block (50), the extension section (51) extends to the upper side of the water distributor socket (20), and a positioning groove (52) is formed in the extension section (51) and used for inserting the water distributor to be detected onto the water distributor socket (20) and then abutting against one side of the water distributor with the positioning groove (52).

3. The positioning structure according to claim 1, wherein: the positioning structure comprises a second positioning mechanism (40), the second positioning mechanism (40) comprises a second positioning driving cylinder (41) and a positioning cylinder (42), the second positioning driving cylinder (41) is fixedly arranged on one side of the water distributor socket (20), a telescopic rod of the second positioning driving cylinder (41) is arranged towards the water distributor socket (20), one end of the positioning cylinder (42) is connected with the telescopic rod of the second positioning driving cylinder (41), a sleeving opening is formed in the other end of the positioning cylinder (42) so that a water distributor to be detected can be inserted into the water distributor socket (20), the telescopic rod of the second positioning driving cylinder (41) extends out to drive the positioning cylinder (42) to be correspondingly connected with the water distributor, and a water inlet of the water distributor is inserted into the sleeving opening.

4. The positioning structure according to claim 1, wherein: the positioning structure comprises a pressing mechanism (60), the pressing mechanism (60) is arranged above the water distributor socket (20), a sensing piece is arranged in the positioning opening (321) so that a handle on the water distributor can stretch into the positioning opening (321), the sensing piece senses the handle, and a signal is transmitted to the first positioning driving cylinder (31), the second positioning driving cylinder (41) and the pressing mechanism (60).

5. The positioning structure according to claim 1, wherein: the bottom end of the mounting rack (10) is provided with a bottom mounting plate, the bottom mounting plate is L-shaped and is provided with a bottom plate section and a vertical plate section vertically connected to the bottom plate section, the water distributor socket (20) is arranged on the bottom plate section, and the first positioning driving cylinder (31) and the water distributor socket (20) are correspondingly arranged on the vertical plate section.

6. The positioning structure according to claim 4, wherein: the pressing mechanism (60) comprises a pressing driving cylinder (61), a lifting seat (62) and a pressing module (63), the pressing driving cylinder (61) is fixedly arranged at the top end of the mounting frame (10), a telescopic rod of the pressing driving cylinder (61) is arranged towards the water distributor socket (20), the lifting seat (62) is arranged between the pressing driving cylinder (61) and the water distributor socket (20), the top end of the lifting seat (62) is connected with the telescopic rod of the pressing driving cylinder (61), and the lifting seat (62) is driven to lift through the telescopic rod of the pressing driving cylinder (61) stretching; the pressing module (63) is fixedly arranged on the bottom surface of the lifting seat (62) so that the telescopic rod of the pressing driving cylinder (61) can extend out to drive the lifting seat (62) to descend, and the pressing module (63) is abutted against the water distributor inserted on the water distributor socket (20).

7. The positioning structure according to claim 6, wherein: hold-down mechanism (60) are including swing driving motor (64) and swing arm lock (65), swing driving motor (64) sets firmly in lift seat (62), and the bottom surface to lift seat (62) is worn out to the pivot of swing driving motor (64), swing arm lock (65) can swing and set up on the bottom surface of lift seat (62), and swing arm lock (65) are connected with the pivot of swing driving motor (64), rotate through the pivot of swing driving motor (64), drive swing arm lock (65) to supply to compress tightly module (63) and support to press behind the water knockout drum of cartridge on water knockout drum socket (20), the handle on the water knockout drum is held to swing arm lock (65), and under the pivot rotation of swing driving motor (64), drive handle swing.

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