CN204195593U - Auxiliary valve body assembly tooling - Google Patents

Abstract

The utility model discloses a kind of auxiliary valve body assembly tooling, comprise base plate, clamping device and hold-down mechanism, clamping device comprises movable part and fixed part, movable part comprises sliding seat and first and rotates fixture block, fixed part be provided with holder and with first rotate that fixture block matches second rotate fixture block, first rotation fixture block and second rotates fixture block and is equipped with spinning structure, first rotation fixture block and second rotates fixture block and is also provided with the interlocking gear making it link together, sliding seat is connected with the first cylinder, holder is fixedly connected with base plate, the air inlet of the first cylinder is also connected with the first Pneumatic valve, first Pneumatic valve can the air inlet of break-make first cylinder, according to said structure, the assembling process of dynamic balance valve can be made directly once can easily complete to station, by arranging multiple this kind of auxiliary valve body assembly tooling, can not only reduce artificial, and the inconsistent and problem causing production efficiency to reduce of assembling speed due to each station can be solved.

Description

Auxiliary valve body assembly tooling

Technical field

The utility model relates to a kind of frock, and more particularly, it relates to a kind of frock for auxiliary valve assembling.

Background technology

After household metering is carried out by country, user is in energy-conservation object, is all carrying out user from main regulation, when the change of user's valve opening causes discharge to change, the flow of other user also changes thereupon, the flow required during off-design, thus the dynamic state hydraulic disorder causing system.Therefore, ensure that the balance of dynamic waterpower in variable flow system is more and more taken seriously, and, in HVAC water system, due to people's improving constantly the requirement of system quality and awareness of saving energy, flow-changing water Force system occupies more and more important position.

Along with a large amount of uses of dynamic balance valve, required manufacture also very fast growth, need a series of a large amount of Assembly of the parts such as valve courage, capping, controllers in the assembling process of dynamic balance valve, usually the process production line grown is needed very much, this method not only wastes a large amount of manpowers, and in process of production, the inconsistent reduction also easily causing production efficiency of the assembling speed due to each station.

Summary of the invention

For the deficiency that prior art exists, the purpose of this utility model is to provide a kind of auxiliary valve body assembly tooling, by auxiliary valve body assembly tooling, the assembling process of dynamic balance valve can be made directly once can easily complete to station, by arranging multiple this kind of auxiliary valve body assembly tooling, can not only reduce artificial, and the inconsistent and problem that causes production efficiency to reduce of assembling speed due to each station can be solved.

For achieving the above object, the utility model provides following technical scheme: a kind of auxiliary valve body assembly tooling, comprise base plate, clamping device and hold-down mechanism, described clamping device comprises movable part and fixed part, described movable part comprises sliding seat and first and rotates fixture block, fixed part be provided with holder and with first rotate that fixture block matches second rotate fixture block, described first rotation fixture block and second rotates fixture block and is equipped with spinning structure, the nothing oil cun cover that described spinning structure comprises rotating shaft and coordinates with it, described first rotate fixture block and second rotate in fixture block be all embedded with described without oil cun cover, described first rotation fixture block and second rotates fixture block and is also provided with the interlocking gear making it link together, described sliding seat is connected with the first cylinder, described holder is fixedly connected with base plate, described first cylinder is provided with air inlet and gas outlet, described air inlet is also connected with the first hand-operated pneumatic control valve, described first hand-operated pneumatic control valve can the air inlet of the first-hand dynamic air cylinder of break-make.

By adopting technique scheme, first rotates fixture block and second rotates fixture block by rotating shaft and the function that can realize spinning without the cooperation of oil cun cover respectively, pass through interlocking gear, docking and locating effect accurately can be realized, movable part can realize compressing with fixed part under the effect of the first cylinder, thus make to put into the limited clamping of valve shell that the first rotation fixture block and second rotates the dynamic balance valve between fixture block in advance, the air inlet of cut-out first cylinder can be realized by controlling the first hand-operated pneumatic control valve, the thrust provided to movable part by the first cylinder is interrupted, what so just can realize being linked together by interlocking gear first is rotated fixture block and second and rotates the effect overturn together with fixture block, because a dynamic balance valve needs to assemble multiple parts, and these different parts are usually located at the multiple different face of dynamic balance valve, so just can control the first hand-operated pneumatic control valve, realize the face being turned to suitable assembling by the valve shell that first rotates fixture block and the second rotation fixture block clamping, then realize assembling action easily.

The utility model is set to further: described interlocking gear comprises the axis of guide be arranged on the first rotation fixture block, and described second rotates fixture block is provided with fairlead, and the described axis of guide and fairlead form grafting.

By adopting technique scheme, fairlead is provided with by being arranged on the axis of guide on the first rotation fixture block and being arranged on the second rotation fixture block, achieve the first rotation fixture block and second and rotate the mistake proofing effect of fixture block when docking, simultaneously by the docking of the axis of guide and fairlead, achieve the first rotation fixture block and second and rotate the chain of fixture block, make rotation first rotate synchronism when fixture block and second rotates fixture block, avoid and rotate fixture block when rotated asynchronous owing to rotating the first rotation fixture block and second and cause the generation of the shearing stress to valve body.

The utility model is set to further: described first rotation fixture block and second rotates fixture block and removably connects with sliding seat and holder respectively.

By adopting technique scheme, because the model of dynamic balance valve is varied, and the dynamic balance valve of each model can only rotate fixture block by corresponding corresponding first rotation fixture block and second, by the mode that the first rotation fixture block and the second rotation fixture block removably connect with sliding seat and holder respectively, make when needing the dynamic balance valve processing different model, only need to change corresponding first and rotate fixture block and the second rotation fixture block, avoid the mode of the frock clamp that making one is special again again, greatly save cost, and the mode by removably connecting, make maintenance when the first rotation fixture block and the second rotation fixture block convenient.

The utility model is set to further: described sliding seat and holder are all connected with latch with described rotating shaft, described sliding seat and holder are equipped with the jack with described rotating shaft mating shapes, one end that described rotating shaft inserts jack is provided with pin-and-hole, described sliding seat and holder are equipped with the through hole matched with described pin-and-hole, and described latch realizes locking through through hole and pin-and-hole.

By adopting technique scheme, latch is made to pass through to be located at the through hole on sliding seat and holder and the pin-and-hole in rotating shaft realizes locking, first rotation fixture block and second is rotated under fixture block and sliding seat and holder realize the mode that replaceable is connected, respective spinning campaign can not be affected, and by the mode of latch, can realize changeing more fast.

The utility model is set to further: the described second one side rotating fixture block relative with holder is provided with elastomer block.

By adopting technique scheme, when movable part can realize compressing with fixed part under the effect of the first cylinder, the elastomer block be arranged on the second rotation fixture block can be extruded distortion, formation must precompression, when the first hand-operated pneumatic control valve cuts off the air inlet of the first cylinder, when making to be interrupted to the thrust that movable part provides by the first cylinder, rotate on fixture block by the precompression energy acting in opposition of elastomer block in second, first rotation fixture block and second is rotated fixture block still can be in must under the state of clamping force, be unlikely to rotate the getting loose of valve body when fixture block and second rotates fixture block in upset first.

The utility model is set to further: described elastomer block is made up of polyurethane.

By adopting technique scheme, polyurethane itself has excellent anti-wear performance and corrosion resistance, and this elastomer block is made up of polyurethane, greatly can increase service life.

The utility model is set to further: described hold-down mechanism comprises support, and described support is hinged with connecting rod, and one end of described connecting rod is provided with pressure head, and the other end is connected with the second cylinder, and described second cylinder is fixedly connected on support.

By adopting technique scheme, by controlling the second cylinder, the rising of pressure head can be realized and press down, when dynamic balance valve is when assembling valve courage etc. needs the assembly of downforce, first valve courage can be placed on the oral area of valve body, then condition second cylinder, makes pressure valve courage under pressure head, loads in valve body easily.

The utility model is set to further: be also connected with the first line slideway between described support and base plate.

By adopting technique scheme, achieve the slip mode between support and base plate, by slippage bracket, the depressed position of pressure head be have also been obtained adjustable, make depressing position more flexible and changeable, adaptability is stronger.

The utility model is set to further: described support is also provided with the operating grip for manipulating hold-down mechanism slippage.

By adopting technique scheme, because pressure head can produce certain power pressing down in process, the position that can better be held clamp system by operating grip is not pressed down power impact, and can better slippage and guiding clamping mechanism by operating grip.

The utility model is set to further: be connected with the second line slideway between described sliding seat and base plate.

By adopting technique scheme, because sliding seat is connected with the first cylinder, under the effect of the first cylinder, the motion of sliding seat is by the guide effect of the second line slideway, realize accurate sliding trajectory, the careless skew of sliding seat can not be made, ensure that the first rotation fixture block and second has better clamping effect when rotating fixture block clamping valve.

Compared with prior art, the utility model has the advantage of: the assembling process of dynamic balance valve can be made directly once can easily complete to station, by arranging multiple this kind of auxiliary valve body assembly tooling, can not only reduce artificial, and the inconsistent and problem that causes production efficiency to reduce of assembling speed due to each station can be solved.

Accompanying drawing explanation

Fig. 1 is state diagram when putting into clamping device of the valve body of the utility model auxiliary valve body assembly tooling embodiment;

Fig. 2 is the state diagram of the valve body of the utility model auxiliary valve body assembly tooling embodiment when being clamped by clamping device;

Fig. 3 is state diagram when installing measurement of discharge end of the valve body of the utility model auxiliary valve body assembly tooling embodiment;

State diagram when Fig. 4 is the valve body loading valve courage of the utility model auxiliary valve body assembly tooling embodiment;

Fig. 5 is state diagram when installing bottom of the valve body of the utility model auxiliary valve body assembly tooling embodiment;

Fig. 6 is state diagram when installing actuator of the valve body of the utility model auxiliary valve body assembly tooling embodiment;

State diagram when Fig. 7 is the taking-up of the utility model auxiliary valve body assembly tooling embodiment complete dynamic balance valve;

Fig. 8 is the movable part of the utility model auxiliary valve body assembly tooling embodiment and the decomposing schematic representation of fixed part;

Fig. 9 is the sectional view that first of the utility model auxiliary valve body assembly tooling embodiment rotates fixture block.

In figure, 1, base plate; 2, clamping device; 21, movable part; 211, sliding seat; 2111, through hole; 212, first rotates fixture block; 2121, the axis of guide; 2122, rotating shaft; 21221, pin-and-hole; 22, fixed part; 221, holder; 222, second rotates fixture block; 2221, fairlead; 2222, elastomer block; 3, hold-down mechanism; 31, support; 311, operating grip; 32, connecting rod; 321, pressure head; 4, the first cylinder; 5, the second cylinder; 6, the first line slideway; 7, the second line slideway; 8, pressure regulator valve; 9, the second hand-operated pneumatic control valve; 10, the first hand-operated pneumatic control valve; 11, the 3rd hand-operated pneumatic control valve; 12, latch; 13, without oil cun cover.

Detailed description of the invention

Referring to figs. 1 through Fig. 9, the embodiment of the utility model auxiliary valve body assembly tooling is described in further details:

The present embodiment comprises base plate 1, clamping device 2 and hold-down mechanism 3, described clamping device 2 comprises movable part 21 and fixed part 22, described movable part 21 comprises sliding seat 211 and first and rotates fixture block 212, fixed part 22 be provided with holder 221 and with first rotate that fixture block 212 matches second rotate fixture block 222, described second one side rotating fixture block 222 relative with holder 221 is provided with elastomer block 2222, described first rotation fixture block 212 and the second rotation fixture block 222 are equipped with spinning structure, the nothing oil cun cover 13 that described spinning structure comprises rotating shaft 2122 and coordinates with it, described first rotate fixture block 212 and second rotate in fixture block 222 be all embedded with described without oil cun cover 13, described first rotation fixture block 212 and the second rotation fixture block 222 are also provided with the interlocking gear making it link together, described interlocking gear comprises the axis of guide 2121 be arranged on the first rotation fixture block 212, described second rotates fixture block 222 is provided with fairlead 2221, the described axis of guide 2121 forms grafting with fairlead 2221, described sliding seat 211 is connected with the first cylinder 4, the second line slideway 7 is connected with between described sliding seat 211 and base plate 1, described holder 221 is fixedly connected with base plate 1, described first cylinder 4 is provided with air inlet and gas outlet, described air inlet is also connected with the first hand-operated pneumatic control valve 10, described first hand-operated pneumatic control valve 10 can the air inlet of the first-hand dynamic air cylinder of break-make.

According to said structure, and see figures.1.and.2, first hand-operated pneumatic control valve 10 of the utility model auxiliary valve body assembly tooling is two five-way type hand-operated pneumatic control valves of band retentivity handle, second hand-operated pneumatic control valve 9 is the two-bit triplet type hand-operated pneumatic control valve of band reset pressing handle, and the 3rd hand-operated pneumatic control valve 11 is the two-bit triplet type hand-operated pneumatic control valve of band mushroom head maintenance button; Breather line is divided into two-way, the first via is: pressure regulator valve 8 to the three hand-operated pneumatic control valve 11, the air inlet of the 3rd hand-operated pneumatic control valve 11 to the first hand-operated pneumatic control valve 10, first hand-operated pneumatic control valve 10 to the first cylinder 4, the gas outlet of the first cylinder 4 is to the 3rd hand-operated pneumatic control valve 11; Second tunnel is: the air inlet of pressure regulator valve 8 to the second hand-operated pneumatic control valve 9, second hand-operated pneumatic control valve 9 to the second cylinder 5, the gas outlet of the second cylinder 5 is to the second hand-operated pneumatic control valve 9.

Concrete operating procedure is: connect total gas circuit, pressure regulator valve 8 is transferred to applicable atmospheric pressure value, one hand-held valve body, other hand pressing the 3rd hand-operated pneumatic control valve 11, the air inlet of the first cylinder 4 is ventilated, and the security of work is ensure that by bimanualness, after the air inlet ventilation of the first cylinder 4, movable part 21 can realize pressing with fixed part 22 under the effect of the first cylinder 4; Then operate the air inlet that the first hand-operated pneumatic control valve 10 cuts off the first cylinder 4 and obtain source of the gas, due to the existence of elastomer block 2222, even if movable part 21 is under the thrust not having the first cylinder 4, still can keep must chucking power; Realize in the process to valve body clamping at the first rotation fixture block 212 and the second rotation fixture block 222, the axis of guide 2121 be arranged on the first rotation fixture block 212 achieves a butt joint with the fairlead 2221 be arranged on the second rotation fixture block 222, ensure that the globality of the first rotation fixture block 212 and the second rotation fixture block 222; Rotate fixture block 212 and second by rotating shaft 2122 and first and rotate the relation that is rotatably connected that the nothing oil cun arranged in fixture block 222 overlaps 13, make after the air inlet of the first cylinder 4 is cut-off, valve body rotates fixture block 212 by first and the second rotation fixture block 222 realizes integrally rotated effect, when turning to desired position, operating the first hand-operated pneumatic control valve 10 makes the air inlet of the first cylinder 4 again obtain source of the gas, first rotation fixture block 212 like this and the second rotation fixture block 222 just can realize again closely pressing and fix, and realize the assembling action for valve body.

Further, with reference to Fig. 8 and Fig. 9, described first rotation fixture block 212 and the second rotation fixture block 222 removably connect with sliding seat 211 and holder 221 respectively, described sliding seat 211 and holder 221 are all connected with latch 12 with described rotating shaft 2122, described sliding seat 211 and holder 221 are equipped with the jack with described rotating shaft 2122 mating shapes, one end that described rotating shaft 2122 inserts jack is provided with pin-and-hole 21221, described sliding seat 211 and holder 221 are equipped with the through hole 2111 matched with described pin-and-hole 21221, described latch 12 realizes locking through through hole 2111 and pin-and-hole 21221.

Because the model of valve body is varied, and the dynamic balance valve of each model can only rotate fixture block 222 by corresponding corresponding first rotation fixture block 212 and second, structure by the way, if desired locking is realized, then latch 12 realizes locking with the pin-and-hole 21221 in rotating shaft 2122 by the through hole 2111 be located on sliding seat 211 and holder 221, first rotation fixture block 212 and second is rotated under fixture block 222 and sliding seat 211 and holder 221 realize the mode that replaceable is connected, respective spinning campaign can not be affected; If desired change, then only latch 12 need be extracted, the first rotation fixture block 212 and sliding seat 211, second can be removed and rotate between fixture block 222 and holder 221 and lock, just can realize fast changeing.

Dynamic balance valve inside is conveniently installed and needs to use the parts that certain pressure could install, hold-down mechanism 3 is specially set, with reference to Fig. 4 and Fig. 5, described hold-down mechanism 3 comprises support 31, described support 31 is hinged with connecting rod 32, one end of described connecting rod 32 is provided with pressure head 321, the other end is connected with the second cylinder 5, described second cylinder 5 is fixedly connected on support 31, also being connected with the first line slideway 6 between described support 31 and base plate 1, described support 31 being also provided with the operating grip 311 for manipulating hold-down mechanism 3 slippage.

According to said structure, when need to install the needs such as valve courage use larger pressure could put into the parts of valve body time, valve courage first can be placed on the corresponding oral area of valve body, hold operating grip 311, by hold-down mechanism 3 under the guiding phorogenesis of the first line slideway 6, slippage is to fixed position, then the second hand-operated pneumatic control valve 9 is operated, the air inlet of the second cylinder 5 will be brought about the desired sensation, drivening rod 32 moves, pressure head 321 on connecting rod 32 will press down, valve courage is made to load valve inner easily, again operate the second hand-operated pneumatic control valve 9 afterwards, to bring about the desired sensation in the gas outlet of the second cylinder 5, drivening rod 32 again, pressure head 321 is made to be returned to home position, slippage hold-down mechanism 3 is to home position, again bottom is screwed on valve body, realize installing easily.

In order to better represent state when valve body is installed, with reference to Fig. 3, Fig. 6 and Fig. 7, when first rotates fixture block 212 and the second rotation fixture block 222 clamping valve forwards relevant position to respectively, valve body installs state diagram during measurement of discharge end, state diagram when valve body installs actuator and state diagram when taking out complete dynamic balance valve, so comprehensively above-mentioned is simple action schematic diagram dynamic balance valve being realized to assembling, compared with prior art, achieve the complete assembling process that a station just can realize for dynamic balance valve, overcome the problem causing production efficiency reduction etc. in prior art because the assembling speed of each station is inconsistent.

The above is only preferred embodiment of the present utility model, protection domain of the present utility model be not only confined to above-described embodiment, and all technical schemes belonged under the utility model thinking all belong to protection domain of the present utility model.It should be pointed out that for those skilled in the art, do not departing from the some improvements and modifications under the utility model principle prerequisite, these improvements and modifications also should be considered as protection domain of the present utility model.

Claims (10)

1. an auxiliary valve body assembly tooling, comprise base plate, clamping device and hold-down mechanism, it is characterized in that, described clamping device comprises movable part and fixed part, described movable part comprises sliding seat and first and rotates fixture block, fixed part be provided with holder and with first rotate that fixture block matches second rotate fixture block, described first rotation fixture block and second rotates fixture block and is equipped with spinning structure, the nothing oil cun cover that described spinning structure comprises rotating shaft and coordinates with it, described first rotate fixture block and second rotate in fixture block be all embedded with described without oil cun cover, described first rotation fixture block and second rotates fixture block and is also provided with the interlocking gear making it link together, described sliding seat is connected with the first cylinder, described holder is fixedly connected with base plate, the air inlet of described first cylinder is also connected with the first hand-operated pneumatic control valve, described first hand-operated pneumatic control valve can the air inlet of break-make first cylinder.

2. auxiliary valve body assembly tooling according to claim 1, is characterized in that, described interlocking gear comprises the axis of guide be arranged on the first rotation fixture block, and described second rotates fixture block is provided with fairlead, and the described axis of guide and fairlead form grafting.

3. auxiliary valve body assembly tooling according to claim 1, is characterized in that, described first rotation fixture block and second rotates fixture block and removably connects with sliding seat and holder respectively.

4. auxiliary valve body assembly tooling according to claim 3, it is characterized in that, described sliding seat and holder are all connected with latch with described rotating shaft, described sliding seat and holder are equipped with the jack with described rotating shaft mating shapes, one end that described rotating shaft inserts jack is provided with pin-and-hole, described sliding seat and holder are equipped with the through hole matched with described pin-and-hole, and described latch realizes locking through through hole and pin-and-hole.

5. auxiliary valve body assembly tooling according to claim 1, is characterized in that, the described second one side rotating fixture block relative with holder is provided with elastomer block.

6. auxiliary valve body assembly tooling according to claim 5, is characterized in that, described elastomer block is made up of polyurethane.

7. auxiliary valve body assembly tooling according to claim 1, is characterized in that, described hold-down mechanism comprises support, described support is hinged with connecting rod, one end of described connecting rod is provided with pressure head, and the other end is connected with the second cylinder, and described second cylinder is fixedly connected on support.

8. auxiliary valve body assembly tooling according to claim 7, is characterized in that, is also connected with the first line slideway between described support and base plate.

9. auxiliary valve body assembly tooling according to claim 8, is characterized in that, described support is also provided with the operating grip for manipulating hold-down mechanism slippage.

10. auxiliary valve body assembly tooling according to claim 1, is characterized in that, is connected with the second line slideway between described sliding seat and base plate.