CN218800336U - Selector snap ring equipment and draw and take off testing arrangement - Google Patents

Abstract

The utility model relates to a selector snap ring equipment and draw and take off testing arrangement, including body positioner, body positioner is from up including body positioning bottom plate and load-bearing platform down in proper order, still includes body testing arrangement, equipment testing arrangement and transition tool equipment, and body positioner is provided with body testing arrangement and equipment testing arrangement along the body positioning bottom plate of Y axle negative direction one side, and body testing arrangement is located one side of equipment testing arrangement along X axle negative direction, and transition tool equipment installs and is close to one side of top along X axle positive direction at the product. The utility model discloses a selector snap ring equipment and draw and take off testing arrangement after, whether the affirmation selector snap ring that can be fine blocks jail and installs and target in place.

Description

Selector snap ring equipment and draw and take off testing arrangement

Technical Field

The utility model relates to a relevant technical field of machining especially relates to a selector snap ring equipment and draw and take off testing arrangement.

Background

Through the magnanimity retrieval, discover prior art publication number CN210209308U, disclose a line control selector snap ring riveting machine, include: the riveting device comprises a machine table, and a fixing mechanism, a riveting upper tool, a riveting lower tool and a hydraulic mechanism which are arranged on the machine table; the fixing mechanism can fix the shift control device; the upper press-riveting tool is mounted on a hydraulic mechanism, the hydraulic mechanism is provided with a hydraulic cylinder, and a piston rod of the hydraulic cylinder can drive the upper press-riveting tool when extending out so as to be matched with the lower press-riveting tool to rivet and press the clamping ring on the drive-by-wire shifter; the riveting press is characterized by further comprising a gas-liquid converter and a pre-pressing type supercharger; and the liquid outlet of the gas-liquid converter is communicated with the liquid inlet of the prepressing type supercharger, and the liquid outlet of the prepressing type supercharger is communicated with the liquid inlet of the rodless cavity of the hydraulic cylinder. The utility model discloses a drive-by-wire selector snap ring riveting machine has improved production efficiency, guarantees product quality, and reduction in production cost has reduced workman intensity of labour, has reduced operation safety risk.

In summary, the problems in the prior art are: in the existing riveting machine for the gear shifter clamping ring, the gear shifter clamping ring is subjected to pressure riveting treatment in a pressure riveting mode, and whether the gear shifter clamping ring is clamped firmly and installed in place can not be well determined after the pressure riveting.

In view of the above-mentioned drawbacks, the present inventors have made active research and innovation to create a shifter snap ring assembling and pulling-off testing device, which has industrial application value.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model aims at providing a selector snap ring equipment and draw and take off testing arrangement.

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

the utility model provides a selector snap ring equipment and draw and take off testing arrangement, including body positioner, body positioner is from up including body positioning bottom plate and load-bearing platform in proper order down, load-bearing platform installs on body positioning bottom plate through set screw and position sleeve respectively all around, the last location cavity that is used for fixing a position the product that is provided with of load-bearing platform, still include body testing arrangement, equipment testing arrangement and transition tool equipment, body positioner is provided with body testing arrangement and equipment testing arrangement on the body positioning bottom plate of Y axle negative direction one side, body testing arrangement is located one side of equipment testing arrangement along X axle negative direction, transition tool equipment is installed and is close to one side of top along X axle positive direction at the product.

As a further improvement, the body testing device includes body test bottom plate, install body test riser on the body test bottom plate, body test riser is provided with the electric jar along one side of Y axle negative direction, the electric jar passes through the electric jar mount pad and installs on body test riser, the drive end at electric jar top is connected with the linking piece of top through the electric jar connecting rod, the breach department that linking piece passed first sensor support bottom is connected with the lower sensor board of top, install first sensor on the lower sensor board, sensor board is installed to the top of first sensor, body test riser is provided with the floating plate along the positive direction of Y axle one side and the position that is close to the top, the floating plate passes through linear guide and installs on body test riser along Z axle direction, install the roof beam board on the floating plate, the roof beam board is located the top inboard of first sensor support and installs on first sensor support through the mounting plate along one side of Y axle negative direction, the roof beam board is connected with the last sensor board of below along one side of Y axle direction, the cylinder is installed along one side of Y axle bottom, the clamping jaw cylinder is provided with two positive directions along the positive directions of Y axle respectively, and the sensor is two sensors along the positive direction.

As the utility model discloses a further improvement is provided with first limiting plate and second limiting plate on the clamping jaw of X axle positive direction one side, and first limiting plate is located one side of second limiting plate along Y axle negative direction.

As a further improvement of the utility model, the equipment testing arrangement is including equipment test bottom plate, install equipment test riser on the equipment test bottom plate, one side that is close to the top on the equipment test riser is provided with equipment test roof, the top of equipment test roof is provided with equipment test diaphragm, be provided with the equipment unit on the equipment test diaphragm, the equipment unit is including push cylinder, push cylinder installs on equipment test diaphragm through the push cylinder mounting panel, push cylinder's the push cylinder connecting plate of drive end drive top moves along the X axle direction, push cylinder connecting plate installs the slurcam along the bottom of X axle negative direction one side, the bottom of slurcam has set gradually drift cylinder and L type mount pad along the negative direction of X axle, the drive end of drift cylinder is connected with the drift along X axle negative direction one side, the drift can freely pass the drift hole that L type mount pad top one side was seted up along the X axle direction, only the position round pin cylinder is installed through only position round pin cylinder mounting panel to bottom one side of L type mount pad, the drive end round pin cylinder top drive end round pin is connected with the first only position round pin of top, first only the position round pin can freely pass first end round pin hole of L type mount pad portion one side along the Z axle direction.

As a further improvement, the assembly unit is provided with the sensor test unit on the equipment test diaphragm of Y axle negative direction one side, and the sensor test unit includes the sensor installation grudging post, is provided with the sensor installation crossbearer on the sensor installation grudging post, installs the second sensor support in proper order along the positive direction of X axle on the sensor installation crossbearer, third sensor support and fourth sensor support, installs the second sensor in second sensor support, third sensor support and the fourth sensor support respectively, third sensor and fourth sensor.

As a further improvement, be provided with on the equipment test riser of equipment test roof below and be used for highly carrying out the adjusting screw who adjusts the equipment test roof, be provided with on the equipment test diaphragm of promotion cylinder mounting panel one side and be used for carrying out the adjusting screw who adjusts along the Y axle direction to the promotion cylinder mounting panel.

As a further improvement, the transition tool equipment includes the frock body, from last two first latches and two second latches that down set gradually along one side of the negative direction of X axle on the frock body, two first latches are located the both sides of frock body along the Y axle direction respectively, first latch is located directly over the second latch, the selector snap ring is located the sliding chamber of constituteing between first latch and the second latch, first latch and second latch are all pegged graft and are gone into the product and be close to the top along one side of X axle positive direction, first frock cross bore has been seted up in proper order along the negative direction of X axle in the frock body of second latch bottom, second frock cross bore and third frock cross bore, first frock cross bore, the aperture of second frock cross bore and third frock cross bore diminishes in proper order, the guiding axle passes first frock cross bore in proper order along the direction of X axle, second frock cross bore and third frock cross bore, the guiding axle is provided with the vertical frock cross bore on one side of the vertical frock body that the side of the vertical frock cross bore was seted up to the side of frock body that the vertical activity pinhole was seted up to the frock body on the side of the second frock cross bore.

As a further improvement, the outside that the guiding axle is located one side that is close to the negative direction of X axle in the second frock cross bore is provided with first spring, and the second only the position round pin is located the vertical pinhole of third frock cross bore top the outside is provided with the second spring.

As the utility model discloses a further improvement installs a plurality of centre gripping cylinder on the load-bearing platform of location cavity one side, and the grip block at centre gripping cylinder top can carry out the centre gripping to the product of location in the location cavity and handle.

Borrow by above-mentioned scheme, the utility model discloses at least, have following advantage:

the utility model discloses a behind the selector snap ring equipment and the pull-out testing arrangement, whether the affirmation selector snap ring that can be fine blocks jail and installs in place.

The utility model discloses can the greatly reduced neglected loading, misloading and the loaded down with trivial details complicated problem of test appear, just so improve the yield of product, improve efficiency.

The above description is only an overview of the technical solution of the present invention, and in order to make the technical means of the present invention clearer and can be implemented according to the content of the description, the following detailed description is made with reference to the preferred embodiments of the present invention and accompanying drawings.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention, and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

Fig. 1 is a schematic structural view of a shifter snap ring assembling and pulling-out testing device according to the present invention;

FIG. 2 is a schematic view of a side of the body testing apparatus of FIG. 1;

FIG. 3 is a schematic view of the other side of the body testing apparatus of FIG. 1;

FIG. 4 is a schematic structural view of the assembled test device of FIG. 1;

FIG. 5 is a schematic view of the internal structure of the portion of FIG. 4;

FIG. 6 is a schematic view of the body positioning device of FIG. 1;

FIG. 7 is a schematic structural diagram of the transition tooling device of FIG. 1;

fig. 8 is a schematic view of the internal structure of fig. 7.

In the drawings, the meanings of the reference numerals are as follows.

The device comprises a body testing device 1, an assembly testing device 2, a body positioning device 3, a product 4 and a transition tool device 5;

the device comprises a body testing bottom plate 6, a body testing vertical plate 7, an electric cylinder 8, an electric cylinder mounting seat 9, an electric cylinder connecting rod 10, a connecting piece 11, a lower sensor plate 12, a first sensor bracket 13, a first sensor 14, an upper sensor plate 15, a beam plate 16, a floating plate 17, a clamping jaw air cylinder 18, a clamping jaw 19, a linear guide rail 20, a first limiting plate 21 and a second limiting plate 22;

the assembling test device comprises an assembling test bottom plate 23, an assembling test vertical plate 24, an adjusting screw 25, an assembling test top plate 26, a punch cylinder 27, an assembling test horizontal plate 28, a pushing cylinder mounting plate 29, a pushing cylinder 30, a pushing cylinder connecting plate 31, a sensor mounting vertical frame 32, a sensor mounting cross frame 33, a second sensor bracket 34, a second sensor 35, a third sensor bracket 36, a third sensor 37, a fourth sensor bracket 38, a fourth sensor 39, a sensor sensing direction 40, a pushing plate 41, an L-shaped mounting seat 42, a stop pin cylinder 43, a punch 44, a stop pin cylinder mounting plate 45 and a first stop pin 46;

the device comprises a body positioning bottom plate 47, a bearing platform 48, a positioning cavity 49, a positioning sleeve 50, a positioning screw 51, a clamping cylinder 52 and a clamping plate 53;

the tool comprises a tool body 54, a shifter snap ring 55, a first snap tooth 56, a second snap tooth 57, a first tool transverse hole 58, a guide shaft 59, a waist-shaped movable vertical hole 60, a vertical pin hole 61, an insertion pin hole 62, a mandrel 63, a first spring 64, a slope 65, a third tool transverse hole 66, a second stop pin 67, a second spring 68, a snap ring pin hole 69 and a second tool transverse hole 70.

Detailed Description

The following detailed description of the embodiments of the present invention is made with reference to the accompanying drawings and examples. The following examples are intended to illustrate the invention, but are not intended to limit the scope of the invention.

In order to make the technical solutions of the present invention better understood, the attached drawings in the embodiments of the present invention are combined below to clearly and completely describe the technical solutions in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. The components of the embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the invention, as presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. Based on the embodiment of the present invention, all other embodiments obtained by the person skilled in the art without creative work belong to the protection scope of the present invention.

Examples

As shown in figures 1 to 8 of the drawings,

the utility model provides a selector snap ring equipment and draw off testing arrangement, including body positioner 3, body positioner 3 is from up including body positioning bottom plate 47 and load-bearing platform 48 down in proper order, load-bearing platform 48 installs on body positioning bottom plate 47 through set screw 51 and position sleeve 50 respectively all around, load-bearing platform 48 is last to be provided with the location cavity 49 that is used for fixing a position product 4, still include body testing arrangement 1, equipment testing arrangement 2 and transition tool equipment 5, be provided with body testing arrangement 1 and equipment testing arrangement 2 on the body positioning bottom plate 47 of body positioner 3 along Y axle negative direction one side, body testing arrangement 1 is located one side of equipment testing arrangement 2 along X axle negative direction, transition tool equipment 5 is installed and is close to one side of top along X axle positive direction at product 4.

The body testing device 1 comprises a body testing bottom plate 6, a body testing vertical plate 7 is installed on the body testing bottom plate 6, an electric cylinder 8 is arranged on one side of the body testing vertical plate 7 along the Y-axis negative direction, the electric cylinder 8 is installed on the body testing vertical plate 7 through an electric cylinder installation seat 9, the driving end of the top of the electric cylinder 8 is connected with a connecting piece 11 above through an electric cylinder connecting rod 10, the connecting piece 11 penetrates through a gap at the bottom of a first sensor support 13 to be connected with a lower sensor plate 12 above, a first sensor 14 is installed on the lower sensor plate 12, an upper sensor plate 15 is installed above the first sensor 14, a floating plate 17 is arranged on the body testing vertical plate 7 along one side of the Y-axis positive direction and close to the top, the floating plate 17 is installed on the body testing vertical plate 7 along the Z-axis direction through a linear guide rail 20, a beam plate 16 is installed on the floating plate 17, the beam plate 16 is located on the inner side of the top of the first sensor support 13 along one side of the Y-axis negative direction and is installed on the first sensor support 13 through a fastening plate, one side of the beam plate 16 is connected with the upper sensor plate 15 along one side of the Y-axis negative direction, two clamping jaw cylinders 18, and two sensors are respectively located on one side of the clamping jaw cylinder 18 along one side of the Y-axis positive direction of the X-axis positive direction, and two clamping jaw cylinder 18.

The clamping jaw 19 on one side of the positive direction of the X axis is provided with a first limiting plate 21 and a second limiting plate 22, and the first limiting plate 21 is positioned on one side of the second limiting plate 22 along the negative direction of the Y axis.

The assembling and testing device 2 comprises an assembling and testing bottom plate 23, an assembling and testing vertical plate 24 is installed on the assembling and testing vertical plate 23, an assembling and testing top plate 26 is arranged on one side, close to the top, of the assembling and testing vertical plate 24, an assembling and testing transverse plate 28 is arranged on the top of the assembling and testing top plate 26, an assembling unit is arranged on the assembling and testing transverse plate 28 and comprises a pushing air cylinder 30, the pushing air cylinder 30 is installed on the assembling and testing transverse plate 28 through a pushing air cylinder installing plate 29, the driving end of the pushing air cylinder 30 drives the pushing air cylinder connecting plate 31 above to move along the X-axis direction, a pushing plate 41 is installed at the bottom of one side of the X-axis negative direction of the pushing air cylinder connecting plate 31, a punch air cylinder 27 and an L-shaped installing seat 42 are sequentially arranged at the bottom of the pushing plate 41 along the X-axis negative direction, the driving end of the punch air cylinder 27 is connected with a punch 44 on one side of the X-axis negative direction, the punch 44 can freely penetrate through a head hole formed in one side of the top of the L-shaped installing seat 42 along the X-axis direction, a stop pin cylinder installing plate 45 is installed at one side of the bottom of the L-shaped installing seat 42, a stop pin cylinder 43, a pin hole is connected with a first stop pin 46, and a first stop pin 46 can penetrate through one side of the first stop pin installing seat 46 along the Z-axis free installing seat.

The assembly unit is provided with the sensor test unit along the equipment test diaphragm 28 on Y axle negative direction one side, the sensor test unit includes sensor installation grudging post 32, be provided with sensor installation crossbearer 33 on the sensor installation grudging post 32, install second sensor support 34, third sensor support 36 and fourth sensor support 38 along the positive direction of X axle in proper order on the sensor installation crossbearer 33, install second sensor 35, third sensor 37 and fourth sensor 39 in second sensor support 34, third sensor support 36 and the fourth sensor support 38 respectively. Wherein, the sensing directions 40 of the sensors in fig. 1 and 4 refer to the sensing directions of the sensors.

An adjusting screw 25 used for adjusting the height of the assembling test top plate 26 is arranged on the assembling test vertical plate 24 below the assembling test top plate 26, and an adjusting screw 25 used for adjusting the pushing cylinder mounting plate 29 along the Y-axis direction is arranged on the assembling test horizontal plate 28 on one side of the pushing cylinder mounting plate 29.

Transition tool equipment 5 includes tool body 54, from last two first latches 56 and two second latches 57 down set gradually along one side of the negative direction of X axle on tool body 54, two first latches 56 are located the both sides of tool body 54 along the Y axle direction respectively, first latch 56 is located directly over second latch 57, selector snap ring 55 is located the sliding chamber of constituteing between first latch 56 and the second latch 57, first latch 56 and second latch 57 are all pegged graft into product 4 and are close to the top along one side of the positive direction of X axle, first tool transverse hole 58 has been seted up in proper order along the negative direction of X axle in the tool body 54 of second latch 57 bottom, second tool transverse hole 70 and third tool transverse hole 66, first tool transverse hole 58, the aperture of second tool transverse hole 70 and third tool transverse hole 66 diminishes in proper order, guide shaft 59 passes first tool transverse hole 58 in proper order along the negative direction of X axle, second tool transverse hole 70 and third tool transverse hole 66, the aperture of guide shaft 59 sets up the vertical tool transverse hole 60 and sets up along the vertical tool transverse hole 60 that the vertical side of the vertical tool hole of the middle part of the vertical tool has seted up along the vertical tool hole 60 of the vertical tool, the vertical tool pin hole 61 that the vertical tool hole of the middle part of the tool pin hole 61 has been seted up along the middle part of the vertical tool pin 61 that the vertical tool pin hole of the tool 54 was set up the second tool, the tool has been seted up on one side of the tool, the vertical tool pin hole 61 was seted up the tool, the vertical tool pin 59.

The outer side of the guide shaft 59, which is positioned on one side of the second tooling transverse hole 70 close to the X-axis negative direction, is provided with a first spring 64, and the outer side of the second stop pin 67, which is positioned in the vertical pin hole 61 above the third tooling transverse hole 66, is provided with a second spring 68.

A plurality of clamping cylinders 52 are mounted on the bearing platform 48 on one side of the positioning cavity 49, and a clamping plate 53 on the top of each clamping cylinder 52 can clamp the product 4 positioned in the positioning cavity 49.

The purpose of the utility model is realized through the following technical scheme:

after a product 4 is positioned, the product 4 is clamped by a clamping plate 53 of a clamping cylinder 52, after a gear shifter clamping ring 55 is placed, a pushing cylinder 30 drives a pushing plate 41 to drive the gear shifter clamping ring 55 to push into a correct position, so that the gear shifter clamping ring 55 is clamped into a lock pin at the top of the product 4, a first stop pin 46 is driven by a stop pin cylinder 43 below to lock a transition tooling device 5, the lock pin at the top of the product 4 is clamped by a clamping jaw 19 of a clamping jaw cylinder 18, and then the pushing cylinder 30 is pulled backwards to determine whether the gear shifter clamping ring 55 is clamped firmly. After the test is finished, the clamping jaw air cylinder 18 drives the lock pin at the top of the product 4 to retract, the pushing air cylinder 30 of the gear shifter clamping ring 55 drives the transition tool device 5 to retract completely, then the rear electric cylinder 8 drives the clamping jaw air cylinder 18 to lift the movable part at the top of the product 4 (namely the lock pin at the top of the product 4) upwards and then descend, and whether the force value in the process of up-and-down movement after the gear shifter clamping ring 55 is clamped is correct is tested, so that whether the gear shifter clamping ring 55 is completely and correctly installed and whether the process tool is completely removed is confirmed.

The utility model discloses a structure brief notes:

body testing device 1:

the body testing bottom plate 6 is oriented by two pins and can be adjusted in the left and right directions, is fixed on the body positioning bottom plate 47 below by four screws, the upper part of the sensor is positioned with a pin on the lower end surface of a body test vertical plate 7 and locked from the lower part by a screw, an electric cylinder mounting seat 9 is positioned by the body test vertical plate 7 on the right side and locked from the right side by a screw, an electric cylinder 8 is positioned by the pin and the electric cylinder mounting seat 9 and locked from the upper part by a screw, a piston rod of the electric cylinder 8 extends out of a round hole of the electric cylinder mounting seat 9 and is locked with an electric cylinder connecting rod 10 on the upper part by a screw, a step hole on the lower surface of a linking member 11 is positioned above the electric cylinder connecting rod 10 and is locked from the upper part by a screw, studs of a first sensor 14 (force sensor) respectively pass through threaded through holes of an upper sensor plate 15 and a lower sensor plate 12 and are respectively locked by nuts, the lower sensor plate 12 is locked with the linking member 11 below by a screw through the threaded through hole, the upper sensor plate 15 is locked with a beam plate 16 on the upper part by a screw through the threaded through hole, the left end surface of the beam plate 16 and the linking member 12 pass through a screw and are attached to a first sensor bracket 13, the floating plate 14 is protected from a micro gap below the vertical plate 12 by a screw, the floating plate, a fixed guide rail on the left side and is attached to a floating guide rail 7 through a slide block 17, and is attached to the body test vertical plate 7 on the left side by a slide block 17, and the lower surface of the right end of the beam plate 16 is attached to the upper surface of the clamping jaw air cylinder 18 and is fixed by penetrating the beam plate 16 from the upper part through screws.

Assembling the testing device 2:

assembling a unit:

the assembly test bottom plate 23 is oriented by two pins, fixed on the body positioning bottom plate 47 by four screws, positioned above the body positioning bottom plate and locked by screws from below with the pins on the lower end surface of the assembly test vertical plate 24, the oriented slotted hole of the assembly test top plate 26 is matched with the pins on the assembly test vertical plate 24, so that the vertical adjustment is convenient, the screws are locked with the assembly test vertical plate 24 through the slotted hole of the assembly test top plate 26, the adjusting support is locked at the bottom of the assembly test vertical plate 24 by screws, the clamping groove of the adjusting screw 25 is clamped in the groove of the adjusting support, and the screw head is connected with the assembly test top plate 26, so that the vertical position of the fixing plate can be adjusted conveniently. The upper end surface of the assembly test top plate 26 is attached to the lower surface of the assembly test transverse plate 28, screws are fastened with the assembly test top plate 26 through threaded through holes of the assembly test transverse plate 28, the push cylinder mounting plate 29 is oriented on the assembly test transverse plate 28 through pin slotted holes and is fastened from above by screws, the push cylinder 30 is fixed by using pins and threaded holes on the push cylinder mounting plate 29, the push cylinder 41 is fixed by using screws through threaded through holes above the push cylinder connecting plate 31, pins below the push cylinder connecting plate 31 and threaded holes and pin holes on a sliding table of the push cylinder 30, the push cylinder connecting plate 31 is positioned by using slots below one end of the push cylinder connecting plate 31, the push plate 41 is fixed by using screws through the screws from above the push cylinder connecting plate 31, the L-shaped mounting seat 42 is matched with the lower surface of the push plate 41 by using pin holes and threaded holes on the upper surface and locked by using screws, the front end of the punch cylinder 27 abuts against the lower step of the push plate 41, the punch is threaded through holes on the bottom of the push cylinder connecting plate 27, the stop pin 43 extends from the top side of the L-shaped mounting seat 42, and is screwed into the bottom of the cylinder connecting plate 42, and is fixed by using a stop pin hole of a screw on the bottom of the cylinder, and a screw on the bottom of the cylinder connecting plate 43, the mounting plate 43, the bottom of the mounting plate, the plug pin of the plug pin seat, the plug pin seat of the plug pin seat, the plug pin of the plug pin on the cylinder connecting plate 42.

A sensor test unit:

the sensor mounting stand 32 is fixedly locked on the assembly testing transverse plate 28 from the upper side through screws and pins, the fourth sensor support 38 is fixedly locked through two arc-shaped notches in the bottom by screws and T-shaped nuts, screws penetrate through the outer side of the fourth sensor support 38 to lock the fourth sensor 39, one screw through hole is an arc-shaped groove and is used for adjusting the angle of the sensor, and the fourth sensor 39 is used for detecting whether the gear shifter clamping ring 55 exists or not. The second sensor support 34 and the third sensor support 36 are matched with the profile groove through notches to orient the sensor supports, screws penetrate through the sensor supports and are fastened with T-shaped nuts in the profile groove, the second sensor 35 and the third sensor 37 are respectively installed in the sensor supports and are respectively locked into the screws from the left side and the right side of the sensor supports to be fastened, one screw through hole is an arc-shaped groove and used for adjusting the angle of the sensor, and the second sensor 35 and the third sensor 37 are respectively used for detecting whether the transition tooling device 5 exists or not.

Body positioning device 3:

a positioning sleeve 50 penetrates through the lower portions of the four screw through holes of the bearing platform 48, hand-screwed positioning screws 51 penetrate through the four screw through holes of the bearing platform 48 and are fixedly locked in the screw holes of the body positioning bottom plate 47, and the upper end face of the clamping cylinder 52 is attached to the lower surface of the clamping plate 53 and is fixedly locked through screws.

Transition tooling device 5:

the second stop pin 67 is a semicircular step shaft, the end of the thin shaft penetrates into the second spring 68 and penetrates into the step-shaped vertical pin hole 61 from the lower part of the tool body, the guide shaft 59 is a step shaft, one end of the thin shaft penetrates into the first spring 64 and is installed in the second tool transverse hole 70 of the tool body, the most of the round head of the second stop pin 67 is pressed against the plane of the guide shaft 59, a round hole is formed in the vertical axis of the guide shaft 59, and a pin is tightly matched to limit the stroke.

The utility model discloses a theory of operation:

under normal conditions, the electric cylinder 8 is in a retraction state, the clamping jaw air cylinder 18 is in an opening state, the pushing air cylinder 30/the punch air cylinder 27/the stop pin air cylinder 43 is in a retraction state, the clamping air cylinder 52 is in an extension state, and the second stop pin 67 and the guide shaft 59 are in a retraction state under the action of a spring.

The transition tooling device 5 is mounted on the product 4, after the product is positioned, the shifter snap ring 55 is placed on the transition tooling device 5, then the clamping cylinder 52 retracts to clamp the bottom of the product 4, and the clamping jaw cylinder 18 drives the clamping jaw 19 to close to keep the product position. The pushing cylinder 30 extends out to drive the pushing plate 41, the L-shaped mounting seat 42, the punch cylinder 27, the punch 44, the stop pin cylinder 43 and the first stop pin 46 to move forward, the shifter snap ring 55 is pushed in place, the stop pin cylinder 43 is used for pushing the first stop pin 46 to extend out, and the first stop pin is inserted into the insertion pin hole 62, so that the transition tool device 5 and the assembly testing device 2 are integrated. The ram cylinder 27 then drives the ram 44 to extend to push the stem 55 to compress the spring 58 to extend the stem, and drives the second stop pin 67 using the ramp (i.e., the ramp 65) of the guide shaft 59 to compress the second spring 68 to extend the second stop pin 67 to insert the second stop pin 67 into the collet pin bore 69 of the shifter collet 55. The push cylinder 30 now provides a retraction motion to confirm that the shifter collar 55 has been snapped into place, and if the push cylinder 30 is fully retracted at this time, the shifter collar 55 fails to assemble, and if the push cylinder 30 is not retracted, the shifter collar 55 is successfully installed. The push cylinder 30 now provides an extension action (to facilitate retraction of the second stop pin 67), then the ram cylinder 27 retracts, the guide shaft 59 retracts under the action of the first spring 64 until the spindle 63 hits the right slot edge, the second stop pin 67 drops below the plane under the action of the second spring 68, and the shifter collar 55 is completely disengaged from the transition tooling assembly 5. The pushing cylinder 30 with the transition tool device 5 retracts completely, the stop pin cylinder 43 with the first stop pin 46 retracts, the gear shifter clamping ring 55 is in a free state, then the electric cylinder 8 drags the beam plate 16, the floating plate 17, the clamping jaw cylinder 18 and the moving part at the top of the product 4 to ascend and descend, and the first sensor 14 is used for testing whether a force value in the up-and-down movement process after the gear shifter clamping ring 55 is clamped is correct, so that whether the gear shifter clamping ring 55 is completely and correctly installed or whether the process tool is completely removed is confirmed. After the test is finished, the clamping jaw air cylinder 18 drives the clamping jaw 19 to open together with the first limiting plate 21 and the second limiting plate 22 of the limiting members.

The utility model discloses a selector snap ring equipment and draw and take off testing arrangement after, can not have neglected loading, wrong installation and the loaded down with trivial details complicated problem of test to appear again, has just so improved the yield of product, has improved efficiency.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are used only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly referring to the number of technical features being grined. Thus, a feature defined as "first," "second," etc. may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted", "connected" and "connected" are to be interpreted broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected: either mechanically or electrically: the terms may be directly connected or indirectly connected through an intermediate member, or may be a communication between two elements.

The above description is only a preferred embodiment of the present invention, and should not be used to limit the present invention, it should be noted that, for those skilled in the art, without departing from the technical principle of the present invention, a plurality of improvements and modifications can be made, and these improvements and modifications should also be regarded as the protection scope of the present invention.

Claims (9)

1. The utility model provides a selector snap ring equipment and draw and take off testing arrangement, includes body positioner (3), body positioner (3) are from up including body positioning bottom plate (47) and load-bearing platform (48) down in proper order, install on body positioning bottom plate (47) through set screw (51) and position sleeve (50) respectively all around of load-bearing platform (48), be provided with location cavity (49) that are used for fixing a position product (4) on load-bearing platform (48), its characterized in that still includes body testing arrangement (1), equipment testing arrangement (2) and transition tool equipment (5), be provided with body testing arrangement (1) and equipment testing arrangement (2) on body positioning bottom plate (47) of body positioner (3) along Y axle negative direction one side, body testing arrangement (1) are located equipment testing arrangement (2) along one side of X axle negative direction, transition tool equipment (5) are installed and are close to the top in one side of X axle positive direction at product (4).

2. A shifter snap ring assembling and pulling-off testing device according to claim 1, wherein the body testing device (1) comprises a body testing base plate (6), a body testing vertical plate (7) is installed on the body testing base plate (6), an electric cylinder (8) is arranged on one side of the body testing vertical plate (7) along a Y-axis negative direction, the electric cylinder (8) is installed on the body testing vertical plate (7) through an electric cylinder installing seat (9), a driving end of the top of the electric cylinder (8) is connected with a connecting piece (11) above through an electric cylinder connecting rod (10), the connecting piece (11) is connected with a lower sensor plate (12) above through a notch at the bottom of a first sensor bracket (13), a first sensor (14) is installed on the lower sensor plate (12), an upper sensor plate (15) is installed above the first sensor (14), a movable plate (17) is arranged on the body testing vertical plate (7) along a position on one side of the Y-axis and close to the top of the first sensor bracket (13), the movable plate (17) is installed on one side of the body testing vertical plate (7) along a Z-axis direction through a linear guide rail (20), and a first sensor plate (16) is installed on one side of the testing beam bracket (13) and is located on the inner side of the first sensor bracket (13), the utility model discloses a sensor plate, including roof beam board (16), clamping jaw cylinder (18) are installed along one side in Y axle positive direction to roof beam board (16) one side and the last sensor board (15) of below along Y axle negative direction, clamping jaw cylinder (18) are provided with two clamping jaws (19), two along one side in Y axle positive direction clamping jaw cylinder (18) are located the both sides of clamping jaw cylinder (18) along X axle direction respectively, just first sensor (14) are force sensor.

3. Shifter snap ring assembling and pulling-out test device according to claim 2, characterized in that the jaw (19) along the positive X-axis side is provided with a first stopper plate (21) and a second stopper plate (22), and the first stopper plate (21) is located on the negative Y-axis side of the second stopper plate (22).

4. The shifter retainer ring assembling and pulling-out testing device according to claim 1, wherein the assembling and testing device (2) comprises an assembling and testing bottom plate (23), an assembling and testing vertical plate (24) is installed on the assembling and testing bottom plate (23), an assembling and testing top plate (26) is arranged on one side, close to the top, of the assembling and testing vertical plate (24), an assembling and testing transverse plate (28) is arranged on the top of the assembling and testing top plate (26), an assembling unit is arranged on the assembling and testing transverse plate (28), the assembling unit comprises a pushing cylinder (30), the pushing cylinder (30) is installed on the assembling and testing transverse plate (28) through a pushing cylinder installing plate (29), the driving end of the pushing cylinder (30) drives the pushing cylinder connecting plate (31) above to move along the X-axis direction, a pushing plate (41) is installed at the bottom of one side of the X-axis negative direction of the pushing cylinder connecting plate (31), an air cylinder (27) and an L-type installing seat (42) are sequentially arranged at the bottom of the pushing plate (41) along the X-axis negative direction, a punch head installing plate (44) is provided with an air cylinder (43) and a punch pin (42) capable of passing through a punch head installing hole (44) which is installed at one side of a free-type punch pin installing seat (43), the driving end of the top of the stop pin cylinder (43) is connected with a first stop pin (46) above the stop pin cylinder, and the first stop pin (46) can freely penetrate through a first stop pin hole formed in one side of the bottom of the L-shaped mounting seat (42) along the Z-axis direction.

5. The shifter snap ring assembling and pulling-off testing device as claimed in claim 4, wherein a sensor testing unit is arranged on an assembling testing transverse plate (28) on one side of the Y-axis negative direction of the assembling unit, the sensor testing unit comprises a sensor mounting vertical frame (32), a sensor mounting transverse frame (33) is arranged on the sensor mounting vertical frame (32), a second sensor bracket (34), a third sensor bracket (36) and a fourth sensor bracket (38) are sequentially arranged on the sensor mounting transverse frame (33) along the positive direction of the X-axis, and a second sensor (35), a third sensor (37) and a fourth sensor (39) are respectively arranged in the second sensor bracket (34), the third sensor bracket (36) and the fourth sensor bracket (38).

6. The shifter snap ring assembling and pulling-out test device according to claim 4, wherein an assembling test vertical plate (24) below the assembling test top plate (26) is provided with an adjusting screw (25) for adjusting the height of the assembling test top plate (26), and an assembling test horizontal plate (28) on one side of the pushing cylinder mounting plate (29) is provided with an adjusting screw (25) for adjusting the pushing cylinder mounting plate (29) along the Y-axis direction.

7. The shifter clamping ring assembling and pulling-off testing device as claimed in claim 1, wherein the transition tool device (5) comprises a tool body (54), two first clamping teeth (56) and two second clamping teeth (57) are sequentially arranged on one side of the tool body (54) along the X-axis negative direction from top to bottom, the two first clamping teeth (56) are respectively located on two sides of the tool body (54) along the Y-axis direction, the first clamping teeth (56) are located right above the second clamping teeth (57), the shifter clamping ring (55) is located in a sliding cavity formed between the first clamping teeth (56) and the second clamping teeth (57), the first clamping teeth (56) and the second clamping teeth (57) are inserted into a product (4) close to one side of the top along the X-axis positive direction, a first transverse tool hole (58), a second transverse hole (70) and a third transverse tool hole (66) are sequentially arranged in the tool body (54) at the bottom of the second clamping teeth (57) along the X-axis negative direction, a first transverse tool hole (58), a second transverse hole (70) and a third tool transverse hole (66) and a third tool guide transverse tool hole (59) which are sequentially arranged along the X-axis direction, and a third tool transverse tool guide transverse hole (58) are sequentially arranged on one side of the tool body (59), be close to seted up grafting pinhole (62) on frock body (54) of second frock cross bore (70) bottom of first frock cross bore (58) one side, be close to seted up waist type activity on frock body (54) of second frock cross bore (70) middle part position and erect hole (60), dabber (63) on guiding axle (59) set up in waist type activity erects hole (60), vertical pinhole (61) have been seted up on frock body (54) of third frock cross bore (66) along X axle negative direction one side, install the second in vertical pinhole (61) and end a round pin (67), snap ring pinhole (69) have been seted up along the intermediate position of X axle positive direction one side in selector snap ring (55).

8. The shifter snap ring assembling and pulling-out test device as claimed in claim 7, wherein a first spring (64) is arranged on the outer side of one side, close to the X-axis negative direction, of the guide shaft (59) in the second tooling transverse hole (70), and a second spring (68) is arranged on the outer side of the second stop pin (67) in the vertical pin hole (61) above the third tooling transverse hole (66).

9. The shifter collar assembly and pull-off test device of claim 1, wherein a plurality of clamping cylinders (52) are mounted on the bearing platform (48) on one side of the positioning cavity (49), and a clamping plate (53) on the top of each clamping cylinder (52) can clamp the product (4) positioned in the positioning cavity (49).

Images