CN203527301U - General combination clamp for multiple-process-step detection - Google Patents

Abstract

The utility model relates to a general combination clamp for multiple-process-step detection. The general combination clamp comprises a base plate (22), a mat plate (20) is installed above one side of the base plate (22), a linear displacement guide rail (19) is installed above the mat plate (20) and connected with a supporting plate (17), an air cylinder B (15) is installed above the supporting plate (17), one end of the air cylinder B (15) is connected with an ejection rod (11), the ejection rod (11) is driven by a motor assembly (29) to rotate to be linked with the linear displacement guide rail (19), and the linear displacement of the ejection rod (11) is achieved through conversion; a datum plate (5) is installed above the other side of the base plate (22), a product base plate (4) is installed above the datum plate (5), and a locating base A (6) and a locating base B are installed on the product base plate (4). According to the general combination clamp, computer programming movement sequences are adopted, detection on sensitivity, sealing performance, stroke gap measurement and the like of valve class products can be achieved, and the requirements for detection quality, efficiency and accuracy are improved.

Description

Simulation Based On Multi-step detects general built-up jig

Technical field

The utility model relates to a kind of detection fixture, particularly a kind of general built-up jig detecting for Simulation Based On Multi-step.

Background technology

The detection in the sensitivity of valve series products, sealing, stroke gap etc. is to weigh its whether qualified committed step, but at present, only can to the properties of valve series products, detect respectively by different testing tools, caused like this quality inspection procedure numerous and diverse, time-consuming, thereby increased quality inspection cost, this improves product export valency, and competitiveness declines, and is unfavorable for the control of product quality.If can detect the detection that frock realizes above-mentioned several indexs with one, the time cost that product detects reduces greatly, the guaranteed while of product quality can be reduced the multinomial programs such as human cost, thereby improve quality and the competitiveness of product, and detection quality, efficiency and the required precision of product can reach corresponding standard.

Application number is that 201220725632.0 utility model patent discloses a kind of fast detecting fixture, it comprises reference seat (1), compact heap (2) and fixed block (3), described compact heap (2) fits in reference seat (1), it is upper that reference seat (1) is fixed on by pin and screw in fixed block (3) one end, and the other end is connected with compact heap (2) with spring by pin.This detects fixture can fast detecting workpiece, accumulated error while reducing conventional detection, and can detect the assembling result of workpiece, but it can not meet the arbitrarily used requirement of product of a plurality of products, similar large small lot, be difficult to reach the object that fast quick change produces, and can not reach the requirement that disposable detection puts in place.

Utility model content

The utility model is improved for above-mentioned defect, provide a kind of Simulation Based On Multi-step to detect general built-up jig, it comprises base plate, and backing plate is equipped with in a side top of this base plate, straight-line displacement guide rail is equipped with in this backing plate top, guide rail connects gripper shoe, and cylinder B is equipped with in this gripper shoe top, and one end of this cylinder B is connected with push rod, by electric machine assembly, rotate, interlock straight-line displacement guide rail, by conversion, realizes push rod straight-line displacement; Datum plate is equipped with in the opposite side top of described base plate, and product base plate is equipped with in this datum plate top, and positioning seat A, positioning seat B, guide holder and riser A are housed on this product base plate, and clamping cylinder is equipped with in the outside of described riser A.

Preferably, product orientation plate and alignment pin, clamping cylinder and cylinder C are housed on described product base plate, described clamping cylinder connects seal plug, by seal plug air inlet, realizes air-tightness and detects.

Preferably, described backing plate comprises screw, and described backing plate is connected to described base plate top by bolt II.

Preferably, between described backing plate and described gripper shoe, screw component is housed, this screw component comprises screw mandrel and line slideway, and this screw mandrel and guide rail are nibbled and be incorporated in traveling priority on guide rail.

Preferably, between described cylinder supports plate and described screw component, be bolted.

Preferably, between described gripper shoe and described cylinder B, by hexagon socket head cap screw, be connected.

Preferably, described cylinder B is connected with described push rod by connector.

Preferably, the top of described connector comprises outside protrusion, and this protrusion comprises screw I and screw II, setting-in sensor in screw I, and the bottom of described connector comprises screw III, this screw III is used for connecting described cylinder B.

Preferably, described sensor is connected with computer, for output test data to computer.

Preferably, the side that described push rod contacts with described connector comprises cylinder shape groove, the embedded dress return spring of this groove.

Preferably, described push rod radially comprises protrusion.

Preferably, limit base is equipped with in the left side of described push rod, the bottom of this limit base comprises the screw IV with counterbore, and this screw IV overlaps with the center line of the screw II of described connector when mounted, and screw IV and screw II are for linking together described limit base and described connector.

Preferably, between described limit base and described connector, described push rod is housed, a reserved spacing between described limit base and described connector end face, this spacing is greater than the thickness of described push rod protrusion radially, therefore, push rod is when contact product, spring return function automatic guiding, when push rod touches after sensor, sensor outgoing signal, start stroke clearance measurement, push rod moves back and forth and plays the effect of location under the effect of return spring between limit base and connector.

Preferably, between described base plate and described datum plate, electric machine assembly is housed, together with described base plate is bolted with described datum plate.

Preferably, on described base plate, motor fixing plate is housed, this motor fixing plate is joined with bolts described electric machine assembly.

Preferably, described electric machine assembly comprises servomotor and decelerator, and described servomotor is connected with decelerator.

Preferably, described servomotor is connected by shaft coupling with described decelerator.

Preferably, between described servomotor output shaft and described shaft coupling for key is connected.

Preferably, a side of described shaft coupling is connected with described decelerator by bolt.

Preferably, the other end of described decelerator connects the screw mandrel in described screw component.

Preferably, between described datum plate and described product base plate, be bolted.

Preferably, on described product base plate, comprise successively from left to right described riser A, positioning seat A, positioning seat B and guide holder, positioning seat A and positioning seat B are used for installing product to be detected and to its location, described guide holder, to product axial location, makes it unlikely and departs from.

Preferably, described riser A, positioning seat A, all separates certain distance between positioning seat B and guide holder.

Preferably, described riser A, positioning seat A, positioning seat B and guide holder are bolted respectively described product base plate.

Preferably, described positioning seat B left side comprises alignment pin, and this alignment pin is used for product orientation to be detected.

Preferably, described riser A comprises installing hole, the in-built output that has described clamping cylinder of this installing hole.

Preferably, the output of described clamping cylinder suit nylon pressure head, this nylon pressure head can protect product without scratching and colliding with, and improves presentation quality.

Preferably, the output of described clamping cylinder is connected with described nylon pressure head by bolt.

Preferably, on described product base plate, comprise riser B, the direction of this riser B is vertical with the arranged direction of described riser A, positioning seat A.

Preferably, described riser B is contained on described product base plate by bolt.

Preferably, described riser B comprises installing hole, and the output of cylinder C is housed in this installing hole.

Preferably, the output of described cylinder C is equipped with plug component.

Preferably, described plug component comprises plug and the vulcanized rubber of sulfuration on plug.

Preferably, described clamping cylinder connects seal plug, by seal plug, ventilates, and realizes air-tightness and detects.

The working method that Simulation Based On Multi-step described in the utility model detects general built-up jig is: sensitivity detects: starting switch, make clamping cylinder and cylinder C pass into air pressure, clamp product to be detected, from cylinder, B passes into air pressure, movable 3 times, whether sensitively detect piston return, if sensitive, represent that piston is without hair fastener, the insensitive piston hair fastener that represents, needs dissembling inspection.

Air-tightness detects: the plug component forming to plug, the vulcanization of rubber passes into air pressure, and the sealing of the testing product of dying after voltage stabilizing, and pressurize 30S are differentiated and detected sealing leakage coefficient by GB;

Product clearance measurement: start servomotor, drive reductor rotation, by being delivered to screw mandrel by shaft joint after proportioning conversion, screw mandrel rotates, by the guide rail gripper shoe feeding that links, when push rod touches after product, by reaction force, push rod reverse compression return spring, when push rod end contact is during to sensor, program starts, testing product clearance measurement, by product requirement and adopt computer detection discriminating data whether qualified, returns original position after having detected, last removal product, detection completes.

In the time need to detecting dissimilar workpiece, adjust screw on datum plate by positioning seat A, positioning seat B and limit base adjustment, change corresponding positioning fixture and can reach the testing goal to the product of different sizes and model.

More multioperation is known to those skilled in the art, and repeats no more.

The technical scheme that the Simulation Based On Multi-step that the utility model provides detects general built-up jig comprises any combination of each part mentioned above, and the simple change of each part mentioned above assembly or combination are still protection domain of the present utility model.

The Simulation Based On Multi-step that the utility model provides detects general this detection of built-up jig fixture and is integrated with cylinder-pressing, driven by servomotor high accuracy screw mandrel, product orientation and computer detection, adopt computer programming sequence of movement, can realize the sensitivity of valve series products, sealing, stroke clearance measurement etc. are detected, thereby improve, detect quality, efficiency and required precision; It is simple and quick that Simulation Based On Multi-step described in the utility model detects general built-up jig; Clamping adopts artificial placement, both hands start button, and disposable detection puts in place, the waste of reducing work hours, and its highly versatile; Adopt interchangeable product positioning jig, during use, can go to adjust frock according to own demand, to meet the technological requirement of different product; Simulation Based On Multi-step described in the utility model detects general built-up jig and is applicable to a plurality of kind products detections, the product of similar large small lot is used arbitrarily, can reach the object that fast quick change produces, in addition, this fixture clearance measurement stroke accuracy is high, adopt the rotation of driven by motor screw mandrel, can realize the detection of 0.01mm class precision, thereby improve the quality of products requirement, and improve required precision, it adopts double operation, and volume is little, and it is convenient to change.

Accompanying drawing explanation

Fig. 1 is documents, the overall structure schematic diagram of the utility model patent that application number is 201220725632.0.

Fig. 2 is the structural representation of a preferred embodiment of the reference seat of utility model shown in Fig. 1.

Fig. 3 is the cross-sectional view (comprising product to be detected) of the front view of the Simulation Based On Multi-step described in the utility model preferred embodiment that detects general built-up jig.

Fig. 4 is top view embodiment illustrated in fig. 3.

Fig. 5 is the cross-sectional view of the front view direction while not comprising product to be detected embodiment illustrated in fig. 3.

Fig. 6 is the exploded view of middle limit base embodiment illustrated in fig. 3, push rod and connector and return spring, sensor.

Fig. 7 is the cross-sectional view of middle shaft coupling embodiment illustrated in fig. 3.

Mark in Fig. 3-Fig. 7 represents respectively:

1-clamping cylinder 2-riser A 3-nylon pressure head 4-product base plate 5-datum plate 6-positioning seat A 7-alignment pin 8-positioning seat B 9-guide holder 10-limit base 11-push rod 12-sensor 13-return spring 14-connector 15-cylinder B 16-hexagon socket head cap screw 17-gripper shoe

18-bolt I, 19-straight-line displacement guide rail, 20-backing plate, 21-bolt II, 22-base plate

23-bolt III, 24-shaft joint, 25-key, 26-motor fixing plate, 27-riser

28-bolt IV, 29-electric machine assembly, 30-cylinder C, 31-riser B, 32-plug component.

The specific embodiment

In order to understand better the utility model, below in conjunction with accompanying drawing, describe in detail respectively according to a kind of Simulation Based On Multi-step of the present utility model and detect in preferred embodiment the present embodiment of general built-up jig, Simulation Based On Multi-step detects general built-up jig and comprises base plate 22, backing plate 20 is equipped with in one side top of this base plate 22, straight-line displacement guide rail 19 is equipped with in these backing plate 20 tops, guide rail 19 connects gripper shoe 17, cylinder B 15 is equipped with in these gripper shoe 17 tops, one end of this cylinder B 15 is connected with push rod 11, by electric machine assembly 29, rotate, interlock straight-line displacement guide rail 19, by conversion, realize push rod 11 straight-line displacements, datum plate 5 is equipped with in the opposite side top of described base plate 22, and product base plate 4 is equipped with in these datum plate 5 tops, and positioning seat A 6, positioning seat B 8, guide holder 9 and riser A2 are housed on this product base plate 4,, clamping cylinder 1 is equipped with in the outside of described riser A2.

In the present embodiment, preferably, described backing plate 20 comprises screw, and described backing plate 20 is connected to described base plate 22 tops by bolt II 21.

In the present embodiment, preferably, between described backing plate 20 and described gripper shoe 17, screw component is housed, this screw component comprises screw mandrel and straight-line displacement guide rail 19, and this screw mandrel and guide rail 19 are nibbled to be incorporated on guide rail 19 and moved.

In the present embodiment, preferably, between described gripper shoe 17 and described screw component, by bolt I 18, be connected.

In the present embodiment, preferably, between described gripper shoe 17 and described cylinder B 15, by hexagon socket head cap screw 16, be connected.

In the present embodiment, preferably, described cylinder B 15 is connected with described push rod 11 by connector 14.

In the present embodiment preferably, the top, vertical section of described connector 14 comprises outside protrusion, and this protrusion comprises screw I and screw II, setting-in sensor 12 in screw I, the bottom of described connector 14 comprises screw III, and this screw III is used for connecting described cylinder B 15.

In the present embodiment, preferably, described sensor 12 is connected with computer, for output test data to computer.

In the present embodiment, preferably, described push rod 11 comprises cylinder shape groove with the side that described connector 14 contacts, the embedded dress return spring 13 of this groove.

In the present embodiment preferably, described push rod 11 radially comprise protrusion.

In the present embodiment preferably, limit base 10 is equipped with in the left side of described push rod 11, the bottom of this limit base 10 comprises the screw IV with counterbore, this screw IV overlaps with the center line of the screw II of described connector 14 when mounted, and screw IV and screw II are for linking together described limit base 10 with described connector 14.

In the present embodiment preferably, described push rod 11 is housed between described limit base 10 and described connector 14, a reserved spacing between described limit base 10 and described connector 14 end faces, this spacing is greater than the thickness of described push rod 11 protrusion radially, therefore, push rod 11 is when contact product to be detected, return spring 13 returns automatic guiding, when push rod 11 touches after sensor 12, sensor 12 outgoing signals, start stroke clearance measurement, push rod 11 moves back and forth and plays the effect of location under the effect of return spring 13 between limit base 10 and connector 14.

In the present embodiment, preferably, between described base plate 22 and described datum plate 5, electric machine assembly 29 is housed, described base plate 22 links together by bolt IV 28 with described datum plate 5.

In the present embodiment, preferably, motor fixing plate 26 and riser 27 are housed on described base plate 22, described motor fixing plate 26 and described riser 27 are all for fixing described electric machine assembly 29.

In the present embodiment, preferably, described electric machine assembly 29 comprises servomotor and decelerator, and described servomotor is connected with decelerator.

In the present embodiment, preferably, described servomotor is connected by shaft coupling 24 with described decelerator.

In the present embodiment, preferably, between described servomotor output shaft and described shaft coupling 24, by key 25, be connected.

In the present embodiment, preferably, a side of described shaft coupling is connected with described decelerator by bolt III 23.

In the present embodiment, preferably, the other end of described decelerator connects the screw mandrel in described screw component.

In the present embodiment, preferably, between described datum plate 5 and described product base plate 4, be bolted.

In the present embodiment, preferably, on described product base plate 4, comprise successively from left to right described riser A2, positioning seat A6, positioning seat B8 and guide holder 9, positioning seat A6 and positioning seat B 8 are for installing product to be detected and it being located, and 9 pairs of product axial location of described guide holder, make it unlikely and depart from.

In the present embodiment preferably, described riser A2, positioning seat A6, all separates certain distance between positioning seat B 8 and guide holder 9.

In the present embodiment preferably, described riser A2, positioning seat A6, positioning seat B 8 and guide holder 9 are bolted respectively described product base plate 4.

In the present embodiment, preferably, described positioning seat B 8 left sides comprise alignment pin 7, and this alignment pin 7 is for by product orientation to be detected.

In the present embodiment, preferably, described riser A2 comprises installing hole, and the output of clamping cylinder 1 is housed in this installing hole.

In the present embodiment, preferably, the output of described clamping cylinder 1 is set with nylon pressure head 3, and this nylon pressure head 3 can protect product without scratching and colliding with, and improves presentation quality.

In the present embodiment, preferably, the output of described clamping cylinder 1 is connected with described nylon pressure head 3 by bolt.

In the present embodiment, preferably, on described product base plate 4, comprise riser B 31, the direction of this riser B 31 is vertical with the arranged direction of described riser A2, positioning seat A6.

In the present embodiment, preferably, described riser B 31 is contained on described product base plate 4 by bolt.

In the present embodiment, preferably, described riser B 31 comprises installing hole, and the output of cylinder C 30 is housed in this installing hole.

In the present embodiment, preferably, the output of described cylinder C 30 is equipped with plug component 32.

In the present embodiment, preferably, described plug component 32 comprises plug and the vulcanized rubber of sulfuration on plug.

In the present embodiment, preferably, clamping cylinder 1 connects seal plug, by seal plug, ventilates, and realizes air-tightness and detects.

The working method that Simulation Based On Multi-step described in the present embodiment detects general built-up jig is: sensitivity detects: starting switch, make clamping cylinder 1 and cylinder C 30 pass into air pressure, clamp product to be detected, from cylinder B 15, pass into air pressure, movable 3 times, whether sensitively detect piston return, if sensitive, represent that piston is without hair fastener, insensitive piston hair fastener, needs dissembling inspection;

Air-tightness detects: the plug component 32 forming to plug, the vulcanization of rubber passes into air pressure, and the sealing of the testing product of dying after voltage stabilizing, and pressurize 30S are differentiated and detected sealing leakage coefficient by GB;

Product clearance measurement: start servomotor, drive reductor rotation, by being delivered to screw mandrel by shaft joint 24 after proportioning conversion, screw mandrel rotates, by guide rail gripper shoe 17 feedings that link, when push rod 11 touches after product, by reaction force, push rod 11 reverse compression return springs 13, when push rod 11 end contacts are during to sensor 12, program starts, testing product clearance measurement, and adopt computer detection discriminating data whether qualified, after having detected, return original position, last removal product, detection completes.

In the time need to detecting dissimilar workpiece, adjust screw on datum plate 5 by positioning seat A6, positioning seat B 8 and limit base 10 adjust, change corresponding positioning fixture can reach the testing goal to the product of different sizes and model.

More multioperation is known to those skilled in the art, and repeats no more.

The technical scheme that the Simulation Based On Multi-step that the present embodiment provides detects general built-up jig comprises any combination of each part mentioned above, and the simple change of each part mentioned above assembly or combination are still protection domain of the present utility model.

The Simulation Based On Multi-step that the present embodiment provides detects general this detection of built-up jig fixture and is integrated with cylinder-pressing, driven by servomotor high accuracy screw mandrel, product orientation and computer detection, adopt computer programming sequence of movement, can realize the sensitivity of valve series products, sealing, stroke clearance measurement etc. are detected, thereby improve, detect quality, efficiency and required precision; It is simple and quick that Simulation Based On Multi-step described in the utility model detects general built-up jig; Clamping adopts artificial placement, both hands start button, and disposable detection puts in place, the waste of reducing work hours, and its highly versatile; Adopt interchangeable product positioning jig, during use, can go to adjust frock according to own demand, to meet the technological requirement of different product; Simulation Based On Multi-step described in the utility model detects general built-up jig and is applicable to a plurality of kind products detections, the product of similar large small lot is used arbitrarily, can reach the object that fast quick change produces, in addition, this fixture clearance measurement stroke accuracy is high, adopt the rotation of driven by motor screw mandrel, can realize the detection of 0.01mm class precision, thereby improve the quality of products requirement, and improve required precision, it adopts double operation, and volume is little, and it is convenient to change.

Claims (29)

1. a Simulation Based On Multi-step detects general built-up jig, it comprises base plate (22), backing plate (20) is equipped with in the one side top of this base plate (22), and straight-line displacement guide rail (19) is equipped with in this backing plate (20) top, and guide rail (19) connects gripper shoe (17), cylinder B(15 is equipped with in this gripper shoe (17) top), this cylinder B(15) one end is connected with push rod (11), by electric machine assembly (29) rotation, and interlock straight-line displacement guide rail (19), by conversion, realize push rod (11) straight-line displacement; Datum plate (5) is equipped with in the opposite side top of described base plate (22), product base plate (4) is equipped with in this datum plate (5) top, it is characterized in that: on this product base plate (4), positioning seat A(6 is housed), positioning seat B(8), guide holder (9) and riser A(2), described riser A(2) outside clamping cylinder (1) is housed.

2. Simulation Based On Multi-step as claimed in claim 1 detects general built-up jig, it is characterized in that: backing plate (20) comprises screw, and backing plate (20) is connected to described base plate (22) top by bolt II (21).

3. Simulation Based On Multi-step as claimed in claim 1 detects general built-up jig, it is characterized in that: between backing plate (20) and gripper shoe (17), screw component is housed, this screw component comprises screw mandrel and straight-line displacement guide rail (19), this screw mandrel and guide rail (19) engagement.

4. Simulation Based On Multi-step as claimed in claim 3 detects general built-up jig, it is characterized in that: between gripper shoe (17) and screw component (19), by bolt I (18), be connected.

5. Simulation Based On Multi-step as claimed in claim 4 detects general built-up jig, it is characterized in that: cylinder B(15) by connector (14), be connected with push rod (11).

6. Simulation Based On Multi-step as claimed in claim 5 detects general built-up jig, it is characterized in that: the top of connector (14) comprises outside protrusion, this protrusion comprises screw I and screw II, setting-in sensor (12) in screw I, and the bottom of connector (14) comprises screw III.

7. Simulation Based On Multi-step as claimed in claim 6 detects general built-up jig, it is characterized in that: sensor (12) is connected with computer.

8. Simulation Based On Multi-step as claimed in claim 7 detects general built-up jig, it is characterized in that: push rod (11) comprises cylinder shape groove with the side that described connector (14) contacts, the embedded dress return spring of this groove (13).

9. Simulation Based On Multi-step as claimed in claim 8 detects general built-up jig, it is characterized in that: push rod (11) radially comprise protrusion.

10. Simulation Based On Multi-step as claimed in claim 9 detects general built-up jig, it is characterized in that: limit base (10) is equipped with in the left side of push rod (11), the bottom of this limit base (10) comprises the screw IV with counterbore, and this screw IV overlaps with the center line of the screw II of connector (14) when mounted.

11. Simulation Based On Multi-steps as claimed in claim 10 detect general built-up jig, it is characterized in that: between limit base (10) and connector (14), push rod (11) is housed.

12. Simulation Based On Multi-steps as claimed in claim 11 detect general built-up jig, it is characterized in that: a reserved spacing between limit base (10) and connector (14) end face, this spacing is greater than the thickness of push rod (11) protrusion radially.

13. Simulation Based On Multi-steps as claimed in claim 12 detect general built-up jig, it is characterized in that: between base plate (22) and datum plate (5), electric machine assembly (29) is housed, base plate (22) is connected by bolt IV (28) with datum plate (5).

14. Simulation Based On Multi-steps as claimed in claim 13 detect general built-up jig, it is characterized in that: motor fixing plate (26) and riser (27) are housed on base plate (22).

15. Simulation Based On Multi-steps as claimed in claim 14 detect general built-up jig, it is characterized in that: electric machine assembly (29) comprises servomotor and decelerator, and described servomotor is connected with decelerator.

16. Simulation Based On Multi-steps as claimed in claim 15 detect general built-up jig, it is characterized in that: described servomotor is connected by shaft coupling (24) with described decelerator.

17. Simulation Based On Multi-steps as claimed in claim 16 detect general built-up jig, it is characterized in that: between described servomotor output shaft and shaft coupling (24), by key (25), be connected.

18. Simulation Based On Multi-steps as claimed in claim 17 detect general built-up jig, it is characterized in that: a side of shaft coupling (24) is connected with described decelerator by bolt III (23), and the other end of decelerator connects the screw mandrel in described screw component.

19. Simulation Based On Multi-steps as claimed in claim 18 detect general built-up jig, it is characterized in that: on product base plate (4), comprise successively from left to right riser A(2), positioning seat A(6), positioning seat B(8) and guide holder (9).

20. Simulation Based On Multi-steps as claimed in claim 19 detect general built-up jig, it is characterized in that: riser A(2), positioning seat A(6), positioning seat B(8) and guide holder (9) between all separate certain distance.

21. Simulation Based On Multi-steps as claimed in claim 20 detect general built-up jig, it is characterized in that: riser A(2), positioning seat A(6), positioning seat B(8) and guide holder (9) be bolted respectively described product base plate (4).

22. Simulation Based On Multi-steps as claimed in claim 21 detect general built-up jig, it is characterized in that: positioning seat B(8) left side comprises alignment pin (7).

23. Simulation Based On Multi-steps as claimed in claim 20 detect general built-up jig, it is characterized in that: riser A(2) comprise and the output of clamping cylinder (1) is housed installing hole in this installing hole.

24. Simulation Based On Multi-steps as claimed in claim 23 detect general built-up jig, it is characterized in that: the output suit nylon pressure head (3) of clamping cylinder (1).

25. Simulation Based On Multi-steps as claimed in claim 24 detect general built-up jig, it is characterized in that: product base plate comprises riser B(31 on (4)), this riser B(31) direction and described riser A(2), positioning seat A(6) arranged direction vertical.

26. Simulation Based On Multi-steps as claimed in claim 25 detect general built-up jig, it is characterized in that: riser B(31) comprise and cylinder C(30 is housed installing hole in this installing hole) output.

27. Simulation Based On Multi-steps as claimed in claim 26 detect general built-up jig, it is characterized in that: output cylinder C(30) is equipped with plug component (32).

28. Simulation Based On Multi-steps as claimed in claim 27 detect general built-up jig, it is characterized in that: plug component (32) comprises plug and the vulcanized rubber of sulfuration on plug.

29. Simulation Based On Multi-steps as claimed in claim 24 detect general built-up jig, it is characterized in that: clamping cylinder (1) connects seal plug.

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