CN205184237U - Jump ring erection equipment - Google Patents

Abstract

The utility model provides a jump ring erection equipment mainly includes: a jump ring pushes and installs for fixing a position and hold the work piece draw -in groove of work piece, the locating plate of fixing a position and hold the jump ring, the feed pole that removes along the locating plate upper surface, at every turn can make progress a jump ring in the locating hole ejecting and make jump ring lower surface and locating plate upper surface parallel and level the ejector beam, can follow the locating plate upper surface and remove and will be ejecting by the ejector beam push -type broach on the work piece. Because the utility model discloses a jump ring erection equipment adopts the feed pole automatically to deliver to the locating hole on the locating plate with the jump ring, then automatic with the ejecting locating hole of jump ring through the ejector beam, install the work piece through the push -type broach is automatic with the jump ring after that on, whole installation need not too much manual operation, therefore has reduced jump ring installation work's worker labor intensity, has improved production efficiency.

Description

A kind of jump ring erection unit

Technical field

The utility model relates to a kind of jump ring erection unit.

Background technology

Axle jump ring is that one is arranged on axial trough, for limiting the part of parts axially-movable, is widely used in mechano-electronic field.As depicted in figs. 1 and 2, the external diameter of jump ring is circular, jump ring has the jump ring endoporus coordinated with the jump-ring slot on axle shape workpiece, jump ring opening part is roughly in the shape of the letter V, comparatively large and be greater than the diameter of axle size at workpiece jump-ring slot place near jump ring outer radius opening size, less and be less than the diameter of axle size at workpiece jump-ring slot place near jump ring endoporus place opening size, like this, can push by the jump-ring slot of jump ring opening alignment pieces and to the jump-ring slot of workpiece, jump ring opening is made to snap in the jump-ring slot of workpiece to the certain distortion of both sides generation, because jump ring is made up of elastic steel sheet, after jump ring is installed in the jump-ring slot of workpiece, jump ring opening resiles, would not come off from workpiece.

On market in all kinds of jump ring application, its assembly method is that craft Circlip tongs or jump ring tool have come mostly.Manual installation is wasted time and energy, the human cost of at substantial.Especially, when installing miniature jump ring, because the size of jump ring, workpiece is all very little, need the jump-ring slot on the bayonet socket of jump ring and workpiece accurately to aim at, installation difficulty can be higher, and production efficiency is lower; Meanwhile, this complicated and work that is that take up one's energy can make workman more tired out, be not only difficult to the stability ensureing product quality, but also be easy to industrial accident occurs.Also all automaticity is lower for more existing jump ring installation methods, is not suitable for large-scale production, is more not suitable for the assembling of miniature jump ring.

Utility model content

The shortcoming of prior art in view of the above, the purpose of this utility model is to provide a kind of jump ring erection unit, can reduce manual labor's intensity of jump ring installment work, enhance productivity.

For achieving the above object and other relevant objects, the utility model provides a kind of jump ring erection unit, adopts following technical scheme: a kind of jump ring erection unit, comprising: workpiece draw-in groove, for holding the workpiece of jump ring to be installed; Location-plate, which is provided with the locating hole that can hold jump ring, and when jump ring is arranged in described locating hole, the opening of jump ring is towards described workpiece draw-in groove; Feed rods, the lower end of feed rods is pressed close to and perpendicular to location-plate, multiple jump rings to be installed are set in feed rods vertically, and feed rods can drive described jump ring to move along location-plate upper surface together; Binder block, is pressed in the most top layer of described multiple jump ring, and when above feed rods moves to described locating hole, binder block is by the jump ring of bottom press-in locating hole; Ejector beam, its upper end extend into locating hole from the below of location-plate; In locating hole one jump ring can upwards eject and make jump ring lower surface concordant with location-plate upper surface at every turn by ejector beam; Push broach, can move along location-plate upper surface and the jump ring ejected by ejector beam be pushed workpiece draw-in groove, and be installed on described workpiece.

Further, described jump ring erection unit also comprises a rotating disk, the excircle of rotating disk is evenly equipped with multiple described workpiece draw-in groove.

Further, described locating hole inwall is provided with the location fin suitable with the opening of jump ring.

Further, described push broach front end is provided with the locating slot matched with jump ring excircle.

Further, described feed rods is provided with the side, location coordinated with the opening of jump ring.

Preferably, described feed rods is arranged on the first horizontal guide rail by an installing rack, installing rack is provided with first upright guide rail parallel with feed rods, the second upright guide rail is provided with the pouring weight that can slide up and down along the second upright guide rail, described pouring weight is connected with described binder block.

Preferably, described push broach is arranged on the second horizontal guide rail.

Preferably, described ejector beam is arranged on the second upright guide rail by a connection sliding block.

Preferably, described connection sliding block is connected with the nut of a ball-screw, and ball-screw is by driving stepper motor.

Preferably, described push broach and feed rods are respectively driven by a straight line driving mechanism.

As mentioned above, a kind of jump ring erection unit of the present utility model, there is following beneficial effect: automatically jump ring is delivered to the locating hole on location-plate due to jump ring erection unit employing feed rods of the present utility model, then automatically jump ring is ejected locating hole by ejector beam, then automatically jump ring is installed on workpiece by push broach, whole installation process, without the need to too much manual operation, thus reduces manual labor's intensity of jump ring installment work, improves production efficiency.

Accompanying drawing explanation

Fig. 1 is shown as the structural representation of jump ring.

Fig. 2 is shown as the structural representation of workpiece.

Fig. 3 is shown as the jump ring erection unit operation principle schematic diagram of the utility model embodiment.

Fig. 4 is shown as the partial structurtes schematic diagram (top view) of location-plate.

Fig. 5 is shown as the cross sectional representation of feed rods.

Fig. 6 is shown as the partial structurtes schematic diagram of push broach.

Fig. 7 is shown as the jump ring erection unit overall structure schematic diagram of the utility model embodiment.

Fig. 8 is shown as the structural representation of feeding device in Fig. 7 and location-plate, locating support.

Fig. 9 is shown as the structural representation of the Lifting Device in Fig. 7.

Figure 10 is shown as the structural representation of material-pulling device in Fig. 7 and location-plate.

Piece mark explanation

1 frame 3 feeding device

100 location-plate 300 feed rods

101 locating hole 301 cylinder locating surfaces

102 location fins 302 locate side

110 rotating disk 310 first upright guide rails

120 locating support 320 pouring weights

121 workpiece draw-in groove 330 binder blocks

130 jump ring 340 installing racks

131 jump ring endoporus 350 first horizontal guide rails

132 jump ring opening 360 reciprocating cylinder

140 workpiece 4 Lifting Device

141 jump-ring slot 400 ejector beams

2 material-pulling device 410 connection sliding blocks

200 push broach 420 ball-screws

201 locating slot 430 second upright guide rails

210 second horizontal guide rail 440 stepper motors

220 reciprocating cylinder 450 nuts

230 buffer 460 code-discs

240 risers

Detailed description of the invention

Below by way of specific instantiation, embodiment of the present utility model is described, those skilled in the art the content disclosed by this description can understand other advantages of the present utility model and effect easily.The utility model can also be implemented or be applied by detailed description of the invention different in addition, and the every details in this description also can based on different viewpoints and application, carries out various modification or change not deviating under spirit of the present utility model.

Fig. 1 is shown as the structural representation of jump ring, Fig. 2 is shown as the structural representation of workpiece, as depicted in figs. 1 and 2, jump ring 130 is generally stamped to form by sheet metal, and its outline is circular, and jump ring endoporus 131 coordinates for the external cylindrical surface at jump-ring slot 141 place with workpiece 140, jump ring 130 also has jump ring opening 132, jump ring opening 132 is V-shaped, narrower near jump ring endoporus 131 place opening, wider near jump ring 130 outer radius opening; When jump ring 130 is installed in the jump-ring slot 141 on workpiece 140, jump ring 130 is pressed towards workpiece 140 towards the jump-ring slot 141 of workpiece 140 by jump ring opening 132, jump ring 130 can be snapped in jump-ring slot 141.

Fig. 3 is shown as the jump ring erection unit operation principle schematic diagram of the utility model embodiment; Refer to Fig. 3, the utility model provides a kind of jump ring erection unit, comprising: workpiece draw-in groove 121, location-plate 100, feed rods 300, binder block 330, ejector beam 400 and push broach 200; Workpiece draw-in groove 121 is for holding and locate the workpiece 140 of jump ring 130 to be installed; Location-plate 100 is provided with the locating hole 101 that can hold jump ring 130, and when jump ring 130 is arranged in described locating hole 101, the opening of jump ring 130 is towards described workpiece draw-in groove 121; The lower end of feed rods 300 is pressed close to and perpendicular to location-plate 100, multiple jump rings 130 to be installed to be set in vertically in feed rods 300 and can to slide axially along feed rods 300, feed rods 300 is driven by driving mechanism and can flatly move back and forth, and feed rods 300 can drive described jump ring 130 to move along location-plate 100 upper surface together; Binder block 330 (see Fig. 8) is pressed in the most top layer of described multiple jump ring 130, and when above feed rods 300 moves to described locating hole 101, the jump ring 130 of bottom is pressed in locating hole 101 by binder block 330; Ejector beam 400 upper end extend into locating hole 101 from the below of location-plate 100; Ejector beam 400 is driven can be moved up and down by driving mechanism, and the jump ring of in locating hole 101 130 can upwards eject and make jump ring 130 lower surface concordant with location-plate 100 upper surface at every turn by ejector beam 400; Push broach 200 is driven by driving mechanism can linearly horizontal reciprocating movement, and push broach 200 can be moved along location-plate 100 upper surface and the jump ring 130 ejected by ejector beam 400 be pushed workpiece draw-in groove 121, and is installed on described workpiece 140.Jump ring erection unit of the present utility model, jump ring 130 is automatically delivered to the locating hole 101 on location-plate 100 by feed rods 300, then automatically jump ring 130 is ejected locating hole 101 by ejector beam 400, then automatically jump ring 130 is installed on workpiece 140 by push broach 200, whole installation process is without the need to too much manual operation, thus reduce manual labor's intensity of jump ring 130 installment work, improve production efficiency.

The aperture of the locating hole 101 on location-plate 100 and the external diameter of jump ring 130 adapt, and the aperture of locating hole 101 is slightly larger than the external diameter of jump ring 130, when push broach 200 pushes jump ring 130 to jump-ring slot 141 workpiece 140 from locating hole 101, the opening of jump ring 130 needs alignment pieces draw-in groove 121 could snap in jump-ring slot 141 swimmingly, Fig. 4 is shown as the partial structurtes schematic diagram (top view) of location-plate, as shown in Figure 4, the one location fin 102 suitable with the opening of jump ring 130 can be set on locating hole 101 inwall, location fin 102 is with locating hole 101 axis being parallel and the side be arranged near workpiece draw-in groove 121, the cross section of location fin 102 is the V-arrangement closed with jump ring opening 132 matching form, when jump ring 130 is arranged in locating hole 101, location fin 102 matches with jump ring opening 132 and jump ring 130 can not be rotated in locating hole 101, make jump ring opening 132 reliably alignment pieces draw-in groove 121.The location of jump ring 130 in locating hole 101 is not limited to the form of above-mentioned location fin 102, and other location structure also can be adopted to locate jump ring 130.

Locating hole 101 on location-plate 100 runs through location-plate 100, and the upper end of such ejector beam 400 can extend into locating hole 101 below location-plate 100, and the upper surface of ejector beam 400 forms a positioning table terrace; Distance between the upper surface of positioning table terrace and location-plate 100 is the thickness of a jump ring 130, like this, when above feed rods 300 moves to locating hole 101, can be pressed into a jump ring 130 in locating hole 101 at every turn.Also the distance between positioning table terrace and location-plate 100 upper surface can be set to N (N be more than or equal to 2 integer) thickness of individual jump ring 130, like this, when above feed rods 300 moves to locating hole 101, feed rods 300 resets after being pressed into N number of jump ring 130 in locating hole 101 at every turn, ejector beam 400 distance that at every turn moves upward is the thickness of a jump ring 130, after push broach 200 pushes jump ring 130 to workpiece 140, ejector beam 400 keeps motionless, when needing to assemble next jump ring 130, ejector beam 400 upwards pushes up the thickness of a motion jump ring 130 again, next jump ring 130 is ejected locating hole 101, ejector beam 400 is reset to initial position after being ejected by N number of jump ring 130 continuously again, and then, feed rods 300 moves to above locating hole 101 again and falls into jump ring 130 wherein.Like this, feed rods 300 need not action frequently, and the number of resets of ejector beam 400 will greatly reduce, and is conducive to raising the efficiency.The cross sectional shape of ejector beam 400 can be arranged to identical with the cross sectional shape of locating hole 101, and like this, when ejector beam 400 moves upward in locating hole 101, locating hole 101 can play guide effect to ejector beam 400, prevents rotation or the vibration of ejector beam 400.

When feed rods 300 drives the multiple jump rings 130 worn thereon to move along location-plate 100 upper surface, in the process of motion, jump ring 130 may rotate in feed rods 300, this can cause when feed rods 300 moves to the top of locating hole 101, and the opening of jump ring 130 can not be aimed at locating hole 101 and cause jump ring 130 can not enter locating hole 101 swimmingly.In order to prevent this situation, can the location structure can locating jump ring opening 132 be set on the securing lever; Fig. 5 is shown as the cross sectional representation of feed rods 300, as shown in Figure 5, feed rods 300 is provided with cylinder locating surface 301, is provided with side 302, location in the both sides of cylinder locating surface 301; When jump ring 130 is located in feed rods 300, the endoporus of jump ring 130 coordinates with cylinder locating surface 301, opening and the side 302, location of jump ring 130 coordinate, like this, when feed rods 300 moves, the jump ring 130 in feed rods 300 can not rotate, when moving to when feed rods 300 above the locating hole 101 on location-plate 100, location structure in feed rods 300 is aimed at the location fin 102 in the locating hole 101 on location-plate 100, can ensure that jump ring 130 enters locating hole 101 swimmingly.

In push broach 200, jump ring 130 is pushed to from locating hole 101 in the process of workpiece 140, jump ring 130 may produce rotation or sidesway and make jump ring opening 132 can not alignment pieces draw-in groove 121, and then make jump ring opening 132 can not jump-ring slot 141 in alignment pieces 140, like this, jump ring 130 just can not be installed in the jump-ring slot 141 on workpiece 140 swimmingly.In order to prevent the generation of this situation, Fig. 6 is shown as the partial structurtes schematic diagram of push broach 200, as shown in Figure 6, can arrange the locating slot 201 that matches with jump ring 130 excircle in the front end of push broach 200 to prevent jump ring 130 sidesway or rotation, locating slot 201 can be the shapes such as circular arc, square opening type, V-arrangement.

Fig. 7 is shown as the jump ring erection unit overall structure schematic diagram of the utility model embodiment, as shown in Figure 7, jump ring 130 erection unit of the utility model embodiment comprises frame 1, frame 1 is provided with a rotating disk 110, the excircle of rotating disk 110 is provided with multiple locating support 120, workpiece draw-in groove 121 is arranged on locating support 120, each workpiece draw-in groove 121 is evenly arranged on the excircle of rotating disk 110, described location-plate 100 is had in edge's arranged outside of rotating disk 110, comprise the feeding device 3 of described feed rods 300, comprise the Lifting Device 4 of described ejector beam 400, comprise the material-pulling device 2 of described push broach 200.Fig. 8 is shown as the structural representation of feeding device in Fig. 73 and location-plate 100, locating support 120, as shown in Figure 8, frame 1 is provided with the first horizontal guide rail 350, first horizontal guide rail 350 is provided with the installing rack 340 be slidably matched with the first horizontal guide rail 350, feed rods 300 is fixedly connected with installing rack 340, installing rack 340 is connected with a reciprocating cylinder 360, and reciprocating cylinder 360 drives installing rack 340 to do reciprocating linear motion along the first horizontal guide rail 350, installing rack 340 is also installed with first upright guide rail 310 parallel with feed rods 300, first upright guide rail 310 is provided with the pouring weight 320 that can slide up and down along the first upright guide rail 310, pouring weight 320 is connected with a binder block 330, binder block 330 is vertically pressed in the most top layer of multiple jump ring 130 in feed rods 300, by the gravity of pouring weight 320, the jump ring 130 be located in feed rods 300 can be compressed like this, when feed rods 300 moves to the top of locating hole 101, the pushing downwards of jump ring 130 in feed rods 300 makes the jump ring 130 of bottom drop in locating hole 101 by pouring weight 320.Fig. 9 is shown as the structural representation of the Lifting Device 4 in Fig. 7, as shown in Figure 9, frame 1 is provided with the second upright guide rail 430, second upright guide rail 430 is provided with the connection sliding block 410 be slidably matched with the second upright guide rail 430, ejector beam 400 is arranged on connection sliding block 410, connection sliding block 410 is connected with the nut 450 of ball-screw 420, ball-screw 420 is driven by stepper motor 440, utilize ball-screw 420 and stepper motor 440 can control the positional precision of ejector beam 400 upwards jacking easily, to ensure that the jump ring 130 be in locating hole 101 can eject and make the lower surface of jump ring 130 concordant with the upper surface of location-plate 100 by ejector beam 400.Figure 10 is shown as the structural representation of material-pulling device in Fig. 72 and location-plate 100, as shown in Figure 10, frame 1 is provided with the second horizontal guide rail 210, push broach 200 is slidably mounted on the second horizontal guide rail 210, push broach 200 is connected with such as reciprocating cylinder 220 isoline drive unit, and reciprocating cylinder 220 drives push broach 200 release forward and push the jump ring 130 at locating hole 101 place to workpiece draw-in groove 121 and be installed on workpiece 140.In order to reduce the vibration produced when push broach 200 resets, one riser 240 in frame 1 can be arranged on arranging below of push broach 200, riser 240 is installed one just to the buffer 230 of push broach 200 afterbody, strike when push broach 200 resets on buffer 230 and can reduce vibration.Each driving mechanism of jump ring erection unit is connected with control device, as shown in Figure 7, control rotating disk 110 by control system to rotate, the multiple workpiece 140 be fixed in the workpiece draw-in groove 121 of rotating disk 110 can be made to move to the operating position relative with push broach 200 successively, jump ring 130 to be pushed in workpiece draw-in groove 121 from locating hole 101 and to be installed on workpiece 140 by push broach 200, and the automaticity of jump ring erection unit of the present utility model is improved further.

In order to jump ring erection unit of the present utility model can be controlled easily, can the driving mechanisms such as the reciprocating cylinder 220 of the stepper motor 440 of the reciprocating cylinder 360 of feeding device 3, Lifting Device 4 and material-pulling device 2 be connected on control device, utilize electronic signal to control the action of each drive unit; It can also be the performance that jump ring erection unit sensors configured improves jump ring erection unit, such as whether one move to appropriate position photoelectrical coupler in order to detect push broach 200 can be set for push broach 200, whether move the code-disc 460 put in place for stepper motor 440 configures a detection stepper motor 440.

Below contrast Fig. 3 to do the working method of jump ring erection unit of the present utility model to illustrate, jump ring erection unit of the present utility model can work in the following order:

1) in feed rods 300, multiple jump ring 130 is worn;

2) feed rods 300 move to location-plate 100 locating hole 101 above and in locating hole 101, be pressed into a jump ring 130, then feed rods 300 resets;

3) ejector beam 400 upwards jack-up, the jump ring 130 in locating hole 101 ejects to jump ring 130 lower surface concordant with location-plate 100 upper surface;

4) push broach 200 is released forward and jump ring 130 pushing is installed on the workpiece 140 in workpiece draw-in groove 121, and then push broach 200 resets;

5) ejector beam 400 resets.

Repeat above-mentioned steps 2) to step 5) to the jump ring 130 in feed rods 300, all assembling is complete.

It should be noted that, above-mentioned job step is just done the working method of jump ring erection unit of the present utility model to illustrate, be not limit its working method, those skilled in the art can utilize control device to arrange the working method of jump ring erection unit as required.

In sum, automatically jump ring is delivered to the locating hole on location-plate due to jump ring erection unit employing feed rods of the present utility model, then automatically jump ring is ejected locating hole by ejector beam, then automatically jump ring is installed on workpiece by push broach, whole installation process is without the need to too much manual operation, thus reduce manual labor's intensity of jump ring installment work, improve production efficiency.

Above-described embodiment is illustrative principle of the present utility model and effect thereof only, but not for limiting the utility model.Any person skilled in the art scholar all without prejudice under spirit of the present utility model and category, can modify above-described embodiment or changes.Therefore, such as have in art and usually know that the knowledgeable modifies or changes not departing from all equivalences completed under the spirit and technological thought that the utility model discloses, must be contained by claim of the present utility model.

Claims (10)

1. a jump ring erection unit, is characterized in that, comprising:

Workpiece draw-in groove (121), for holding the workpiece (140) of jump ring to be installed;

Location-plate (100), which is provided with the locating hole (101) that can hold jump ring (130), when jump ring (130) is arranged in described locating hole (101), the opening (132) of jump ring is towards described workpiece draw-in groove (121);

Feed rods (300), the lower end of feed rods (300) is pressed close to and perpendicular to location-plate (100), multiple jump rings (130) to be installed are set in feed rods (300) vertically, and feed rods (300) can drive described jump ring (130) to move along location-plate (100) upper surface together;

Binder block (330), be pressed in the most top layer of described multiple jump ring (130), when feed rods (300) moves to described locating hole (101) top, binder block (330) is by the jump ring (130) of bottom press-in locating hole (101);

Ejector beam (400), its upper end extend into locating hole (101) from the below of location-plate (100); A jump ring (130) in locating hole (101) can upwards eject and make jump ring (130) lower surface concordant with location-plate (100) upper surface at every turn by ejector beam (400);

Push broach (200), can move along location-plate (100) upper surface and the jump ring (130) ejected by ejector beam (400) be pushed workpiece draw-in groove (121), and be installed on described workpiece (140).

2. jump ring erection unit as claimed in claim 1, is characterized in that: also comprise a rotating disk (110), the excircle of rotating disk (110) is evenly equipped with multiple described workpiece draw-in groove (121).

3. jump ring erection unit as claimed in claim 1, is characterized in that: described locating hole (101) inwall is provided with the location fin (102) suitable with the opening of jump ring (132).

4. jump ring erection unit as claimed in claim 1, is characterized in that: described push broach (200) front end is provided with the locating slot matched with jump ring (130) excircle.

5. jump ring erection unit as claimed in claim 1, is characterized in that: described feed rods (300) is provided with the side, location (302) coordinated with the opening of jump ring (132).

6. jump ring erection unit as claimed in claim 1, it is characterized in that: described feed rods (300) is arranged on the first horizontal guide rail (350) by an installing rack (340), installing rack (340) is provided with first upright guide rail (310) parallel with feed rods (300), second upright guide rail (310) is provided with the pouring weight (320) that can slide up and down along the second upright guide rail (310), described pouring weight (320) is connected with described binder block (330).

7. jump ring erection unit as claimed in claim 1, is characterized in that: described push broach (200) is arranged on the second horizontal guide rail (210).

8. jump ring erection unit as claimed in claim 1, is characterized in that: described ejector beam (400) is arranged on the second upright guide rail (430) by a connection sliding block (410).

9. jump ring erection unit as claimed in claim 8, it is characterized in that: described connection sliding block is connected with the nut (450) of a ball-screw (420), ball-screw (420) is driven by stepper motor (440).

10. the jump ring erection unit as described in any one of claim 1 to 9, is characterized in that: described push broach (200) and feed rods (300) are respectively driven by a straight line driving mechanism.