CN214080108U - Valve cover assembling structure of multi-channel valve - Google Patents

Abstract

The utility model relates to an assembly devices especially relates to valve gap package assembly of multichannel valve. Including the tool equipment tool, the tool equipment tool in be equipped with valve body and valve gap, still include the valve gap final pressure subassembly that can XY carry out the displacement, the valve gap final pressure subassembly include the final pressure tool, the final pressure tool in be equipped with the axle sleeve that can displace and place in the valve body, the bottom of final pressure tool be equipped with the upper portion of valve gap to the valve body in the absorbable tool equipment tool, the final pressure tool with the valve gap through the axle sleeve pack into to the valve body. The manufacturing efficiency is greatly improved, the labor cost is reduced, and the product percent of pass is improved.

Description

Valve cover assembling structure of multi-channel valve

Technical Field

The utility model relates to an assembly structure especially relates to a valve gap assembly structure of multichannel valve.

Background

There is a need in the industry of pure electric vehicles to enable mass production of a product having an assembly process in which a valve cover is assembled to a valve body.

After the valve core is assembled to the valve body, the sealing gasket in the valve body is in interference fit with the valve core, the sealing gasket is not completely covered on the inner wall of the valve body, a gap is formed in one side between the valve core and the valve body, the valve core is inclined towards one side of the gap due to stress generated by extrusion of the valve core on the sealing gasket, after the valve cover is assembled to the valve body, the valve core is eccentric, a gap is formed between the valve cover assembled to the valve body and the valve body, and the valve cover can even jump out of the valve body.

The existing scheme is as follows: the technical processes of fixing the parts before welding between the motor and the lead, between the PCB and the lead, detecting the height of a wire head before welding, welding at four points, detecting welding spots after welding, removing defective products, blanking and the like are completely completed manually.

The main defects are low efficiency, high labor cost is consumed in mass manufacturing, manual operation errors exist, threading positions, welding positions, line colors, line head heights and the like need to be controlled in the manufacturing process, and the product yield is low due to part tolerance.

The existing manufacturing mode has the disadvantages of high difficulty in manual operation, incoherent process, low efficiency, high labor cost and low product qualification rate.

SUMMERY OF THE UTILITY MODEL

The utility model discloses solve exist not enough among the prior art, provide an degree of automation height, let the valve gap correct the case at the pressure equipment in-process through the mode of adding the axle sleeve, solved case skew problem, not only improved production efficiency, practiced thrift the valve gap package assembly of a multichannel valve of cost moreover.

The above technical problem of the present invention can be solved by the following technical solutions:

a valve cover assembling structure of a multi-channel valve comprises a tool jig, wherein a valve body and a valve cover are arranged in the tool jig, and the multi-channel valve cover assembling structure further comprises a valve cover final pressing assembly capable of displacing in the XY direction, the valve cover final pressing assembly comprises a final pressing jig, a shaft sleeve capable of being placed in the valve body in a displaceable mode is arranged in the final pressing jig, the bottom of the final pressing jig is provided with a shaft sleeve capable of sucking the valve cover in the tool jig to the upper portion of the valve body, and the final pressing jig is used for installing the valve cover into the valve body through the shaft sleeve; the bottom of the final pressure jig is provided with a plurality of distributed vacuum suckers which suck and displace the valve cover to the upper part of the valve body, the bottom of the final pressure jig is provided with a positioning column for positioning the valve cover, and the bottom of the final pressure jig is provided with a stripping cylinder for stripping the valve cover; and final-pressure clamping jaws for clamping and releasing the shaft sleeve are respectively arranged on two side walls of the final-pressure jig.

Preferably, the device further comprises a servo press, the final-pressing clamping jaw clamps and releases the shaft sleeve through a final-pressing cylinder, the final-pressing cylinder is connected with the final-pressing clamping jaw through a clamping jaw connecting plate, the final-pressing clamping jaw is elastically connected with the clamping jaw connecting plate through a compression spring, the servo press is fixedly connected with the final-pressing jig through a servo press connecting shaft and presses the valve body and the valve cover, a CCD camera which moves in the XY direction along with the final-pressing jig is arranged on one side of the final-pressing jig, and an opposite photoelectric sensor is arranged on the outer wall of the final-pressing jig.

Preferably, the valve cover final-pressing assembly is arranged in the operation frame, the inner wall of the operation frame is provided with a valve core correcting assembly which is matched and distributed with the tool jig, the valve core correcting assembly comprises a valve core correcting clamping jaw capable of horizontally moving, and the valve core correcting clamping jaw horizontally pushes and adjusts the position of the shaft sleeve.

Preferably, the outer end of the valve core correcting clamping jaw is provided with a valve core adjusting arc groove movably adjusted with the outer wall of the shaft sleeve, a valve core correcting reflection sensor fixed with the operation frame is arranged above the valve core correcting component, the valve core correcting reflection sensor and the shaft sleeve are distributed in an induction mode, and the valve core correcting clamping jaw carries out displacement through a valve core correcting electric cylinder.

Preferably, the valve body final pressure positioning assembly further comprises a cushion pad movably positioned with the valve body. The utility model discloses a valve body final pressure positioning assembly, including the blotter, the blotter establish in the blotter mounting panel, the blotter carry out the displacement through valve body final pressure positioning cylinder, the valve body final pressure positioning assembly's top be equipped with and be the valve body final pressure positioning reflection sensor that the induction type distributes with the axle sleeve.

The working principle is as follows: the tooling jig rotates to a valve cover press-mounting station along with the rotation of the dividing disc, a CCD camera shoots to obtain the central position of a valve core in the valve body, a valve cover final-pressing assembly is moved to the position right above the central position of the valve body through horizontal transplanting, a piston rod of a servo press is pushed out, the valve cover final-pressing assembly descends to a set position, the piston rod of the air cylinder retracts into the air cylinder body, a final-pressing clamping jaw releases a shaft sleeve in the final-pressing jig, the servo press rises to the original height after the shaft sleeve is put on the valve core in the valve body, a reflection sensor in the valve cover final-pressing positioning assembly detects the shaft sleeve, the piston rod of the air cylinder is pushed out, a buffer cushion pushes and presses the valve body for positioning, the valve cover final-pressing assembly is moved to the position of the valve cover through transplanting, the piston rod of the servo press is pushed out, the final-pressing assembly of the valve cover descends, a vacuum chuck arranged on the final-pressing jig adsorbs the valve cover after the position is reached, the valve cover is picked up, the servo press ascends and moves to the position of the valve body, a piston rod of the servo press is pushed out, after the piston rod reaches a position, a sensor positioned on the valve core correction assembly gives a signal, an electric cylinder piston rod is pushed out, a correction clamping jaw tightly pushes the valve core, the valve core is enabled to be vertical, a material-removing cylinder piston rod is pushed out, the valve cover is released to the valve body, the servo press piston rod continues to push out for a certain distance, the valve cover is pressed on the valve body, the cylinder piston rod on the final-pressure jig is pushed out, the final-pressure clamping jaw clamps the shaft sleeve, the final-pressure assembly of the valve cover is displaced upwards under the action of a compression spring, the clamping jaw clamps the shaft sleeve at the position, the shaft sleeve is kept in the final-pressure jig, the electric rod piston rod retracts, the cylinder returns, the servo press piston rod returns to the original position, the valve cover pressing station is completed, and a product is transported to the next station

The advantages are that:

1. the number of stations is reduced, the equipment space is saved, and the press fitting working time of the valve cover is shortened.

2. By adding the shaft sleeve correction mode, the valve core gear is prevented from being scratched.

3. The correction of the valve body and the press fitting of the valve cover are completed at the same stage, and the product yield is obviously improved.

Therefore, the utility model discloses a valve gap package assembly of multichannel valve, the range has improved manufacturing efficiency, reduces the cost of labor, has improved the product percent of pass.

Drawings

Fig. 1 is a schematic perspective view of the present invention;

FIG. 2 is an enlarged schematic view of the structure of FIG. 1;

fig. 3 is a schematic perspective view of the final-pressing assembly of the middle valve cover according to the present invention;

FIG. 4 is a schematic cross-sectional view of FIG. 3;

FIG. 5 is a schematic view of a portion of the structure of FIG. 3;

FIG. 6 is a schematic bottom view of FIG. 3;

fig. 7 is a schematic structural view of the valve element correcting assembly of the present invention;

FIG. 8 is an enlarged schematic view of the structure of FIG. 7;

FIG. 9 is a perspective view of the valve element straightening jaw of FIG. 7;

fig. 10 is a schematic perspective view of the final-pressure positioning assembly of the valve body of the present invention.

Detailed Description

The technical solution of the present invention is further specifically described below by way of examples and with reference to the accompanying drawings.

Example 1: as shown in the figure, the mechanism is assembled to valve gap of multichannel valve, includes tool jig 1, tool jig 1 in be equipped with valve body 2 and valve gap 3, still include but XY to carrying out valve gap final pressure subassembly 4 of displacement, valve gap final pressure subassembly 4 include final pressure tool 5, final pressure tool 5 in be equipped with the axle sleeve 6 that can displace and place in valve body 2, the bottom of final pressure tool 5 be equipped with the upper portion that can absorb valve gap 3 in tool jig 1 to valve body 2, final pressure tool 5 pack into valve gap 3 to valve body 2 through axle sleeve 6.

The bottom of the final pressure jig 5 is provided with a plurality of distributed vacuum suckers 7, the vacuum suckers 7 suck and displace the valve cover 3 to the upper part of the valve body 2, the bottom of the final pressure jig 5 is provided with a positioning column 8 for positioning the valve cover 3, and the bottom of the final pressure jig 5 is provided with a stripping cylinder 9 for stripping the valve cover 3;

and final-pressure clamping jaws 10 for clamping and releasing the shaft sleeve 6 are respectively arranged on two side walls of the final-pressure jig 5.

Still include servo press 11, final pressure clamping jaw 10 carry out centre gripping and release operation to axle sleeve 6 through final pressure cylinder 12, final pressure cylinder 12 and final pressure clamping jaw 10 between be connected through clamping jaw linkage plate 13 and final pressure clamping jaw 10 and clamping jaw linkage plate 13 through compression spring 14 looks elastic connection, servo press 11 through servo press connecting shaft 15 with final pressure tool 5 link firmly and servo press 11 carries out the pressure equipment operation to valve body 2 and valve gap 3, one side of final pressure tool 5 be equipped with and carry out XY to the CCD camera 16 that shifts along with final pressure tool 5, the outer wall of final pressure tool 5 be equipped with correlation photoelectric sensor 17.

The valve cover final-pressure assembly 4 is arranged in the operation frame 18, a valve core correction assembly 19 which is matched and distributed with the tool jig 1 is arranged on the inner wall of the operation frame 18, the valve core correction assembly 19 comprises a valve core correction clamping jaw 20 capable of horizontally moving, and the valve core correction clamping jaw 20 horizontally pushes and adjusts the position of the shaft sleeve 6.

The outer end of the valve core correcting clamping jaw 20 is provided with a valve core adjusting arc groove 21 movably adjusted with the outer wall of the shaft sleeve 6, a valve core correcting reflection sensor 22 fixed with the operation frame 18 is arranged above the valve core correcting component 19, the valve core correcting reflection sensor 22 and the shaft sleeve 6 are distributed in an induction mode, and the valve core correcting clamping jaw 20 carries out displacement through a valve core correcting electric cylinder 23.

The valve body final pressure positioning assembly 30 is further included, and the valve body final pressure positioning assembly 30 comprises a cushion 26 movably positioned with the valve body 2; the buffer cushion 26 is arranged in a buffer cushion mounting plate 27, the buffer cushion 26 is displaced through a valve body final pressure positioning cylinder 28, and a valve body final pressure positioning reflection sensor 29 which is distributed with the shaft sleeve 6 in an induction mode is arranged above the valve body final pressure positioning assembly 30.

Claims (5)

1. The utility model provides a valve gap package assembly of multichannel valve, includes tool jig (1), tool jig (1) in be equipped with valve body (2) and valve gap (3), its characterized in that: the valve cover final-pressing device is characterized by further comprising a valve cover final-pressing assembly (4) capable of moving in the XY direction, wherein the valve cover final-pressing assembly (4) comprises a final-pressing jig (5), a shaft sleeve (6) capable of being placed in the valve body (2) in a moving mode is arranged in the final-pressing jig (5), the bottom of the final-pressing jig (5) is provided with a device capable of sucking the valve cover (3) in the tool jig (1) to the upper portion of the valve body (2), and the valve cover (3) is installed into the valve body (2) through the shaft sleeve (6) by the final-pressing jig (5); the bottom of the final pressure jig (5) is provided with a plurality of distributed vacuum suckers (7), the vacuum suckers (7) suck and displace the valve cover (3) to the upper part of the valve body (2), the bottom of the final pressure jig (5) is provided with a positioning column (8) for positioning the valve cover (3), and the bottom of the final pressure jig (5) is provided with a stripping cylinder (9) for stripping the valve cover (3); and final-pressure clamping jaws (10) for clamping and releasing the shaft sleeve (6) are respectively arranged on two side walls of the final-pressure jig (5).

2. A valve cover assembly structure of a multi-channel valve as claimed in claim 1, wherein: still include servo press (11), final pressure clamping jaw (10) carry out centre gripping and release operation through final pressure cylinder (12) to axle sleeve (6), final pressure cylinder (12) and final pressure clamping jaw (10) between be connected through clamping jaw linkage plate (13) and final pressure clamping jaw (10) and through compression spring (14) looks elastic connection, servo press (11) link firmly and servo press (11) carry out the pressure equipment operation to valve body (2) and valve gap (3) through servo press connecting axle (15) and final pressure tool (5), one side of final pressure tool (5) be equipped with and carry out XY to the CCD camera (16) of displacement along with final pressure tool (5), the outer wall of final pressure tool (5) be equipped with correlation photoelectric sensor (17).

3. A valve cover assembling structure of a multi-channel valve according to claim 1 or 2, wherein: still include handling frame (18), valve gap final pressure subassembly (4) establish in handling frame (18), the inner wall of handling frame (18) be and join in marriage valve core correction subassembly (19) that connect the distribution with frock tool (1), valve core correction subassembly (19) including but horizontal displacement's valve core correction clamping jaw (20), valve core correction clamping jaw (20) flat push adjust axle sleeve (6) position.

4. A valve cover assembling structure of a multi-channel valve according to claim 3, wherein: the outer end of the valve core correcting clamping jaw (20) is provided with a valve core adjusting arc groove (21) movably adjusted with the outer wall of the shaft sleeve (6), a valve core correcting reflection sensor (22) fixed with the operating frame (18) is arranged above the valve core correcting component (19), the valve core correcting reflection sensor (22) and the shaft sleeve (6) are distributed in an induction mode, and the valve core correcting clamping jaw (20) carries out displacement through a valve core correcting electric cylinder (23).

5. A valve cover assembling structure of a multi-channel valve according to claim 1 or 2, wherein: the valve body final pressure positioning assembly (30) is further included, and the valve body final pressure positioning assembly (30) comprises a cushion pad (26) movably positioned with the valve body (2); the buffer cushion (26) is arranged in the buffer cushion mounting plate (27), the buffer cushion (26) is displaced through the valve body final pressure positioning cylinder (28), and a valve body final pressure positioning reflection sensor (29) which is distributed in an induction mode with the shaft sleeve (6) is arranged above the valve body final pressure positioning assembly (30).

Images