CN204195694U - Automatic pressure spring machine - Google Patents

Abstract

The utility model provides a kind of pressure spring machine automatically, this automatic pressure spring machine is used for the connection of jump ring and button, button is provided with the groove coordinated with jump ring, this automatic pressure spring machine comprises the jump ring feeding guide for transmitting jump ring and the button chute feeder for transmitting button, the top of jump ring feeding guide is provided with jump ring feeding pressure mechanism, the top of button chute feeder is provided with button feeding pressure mechanism, the jump ring being positioned at the end of jump ring feeding guide is corresponding with the groove of the button of the end of button chute feeder, installs executing agency and is loaded in the groove of button by jump ring.This automatic pressure spring machine, only need manually jump ring and button to be contained on jump ring feeding guide, button chute feeder respectively, this automatic pressure spring machine just can install jump ring automatically on button, its the fastest installation rate can reach 2s/, qualification rate ensures more than 90%, greatly simplifie the assembling process of installing miniature jump ring on T-shaped button, drastically increase installation effectiveness.

Description

Automatic pressure spring machine

Technical field

The utility model relates to a kind of pressure spring machine automatically, particularly a kind of automatic pressure spring machine installing jump ring for intelligent watch button.

Background technology

Intelligent watch is provided with a kind of button as shown in Figure 2, and this button 2 comprises button head 21 and button connecting portion 22, and wherein button connecting portion 22 is provided with groove 23, and this groove 23 needs to assemble with the jump ring 1 shown in Fig. 1.At present this jump ring 1 adopts with the assembling of button 2 and manually completes, and the jump ring 1 related to due to this assembling process, button 2 are extremely small, and when hand assembled, efficiency of assembling is extremely low.

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 pressure spring machine automatically, the problem that the efficiency for solving hand assembled jump ring and button in prior art is extremely low.

For achieving the above object and other relevant objects, the utility model provides a kind of pressure spring machine automatically, this automatic pressure spring machine is used for the connection of jump ring and button, button is provided with the groove coordinated with jump ring, this automatic pressure spring machine comprises the jump ring feeding guide for transmitting jump ring and the button chute feeder for transmitting button, the top of jump ring feeding guide is provided with jump ring feeding pressure mechanism, the top of button chute feeder is provided with button feeding pressure mechanism, the jump ring being positioned at the end of jump ring feeding guide is corresponding with the groove of the button of the end of button chute feeder, executing agency is installed jump ring is loaded in the groove of button.

Preferably, automatic pressure spring machine also comprises unloading mechanism, and the button installing jump ring is sent in rewinding case by unloading mechanism.

Preferably, executing agency is installed and comprises compression execution unit and snap in execution unit, compress execution unit and button is compressed, snap in execution unit and jump ring is snapped in the groove of button.

Further preferably, snap in execution unit and comprise jump ring card, jump ring card is positioned at the end of jump ring feeding guide, jump ring card is provided with the bayonet socket corresponding with the outer peripheral face of jump ring, jump ring to be installed is positioned at the bayonet socket of jump ring card, and jump ring to be installed snaps in the groove of button by jump ring card under the control of jump ring card control cylinder.

Further preferably, compress execution unit and comprise locating piece, locating piece is provided with locating slot towards the one side of jump ring feeding guide, and the button to be installed in button chute feeder falls into locating slot; The side of locating slot is provided with the defining flange extended in groove, and the bottom surface of locating slot is provided with the binder through hole running through locating piece; Compress execution unit and also comprise compressing rod, the axis of compressing rod and the axis being parallel of binder through hole, compressing rod is connected with compressing rod control cylinder, and compressing rod control cylinder can control compressing rod in binder through hole along axial-movement.

Further preferred, locating piece is connected with material returned guide rail, and when locating piece moves back and forth along the axis direction of material returned guide rail under the control of material returned control cylinder, the locating slot of locating piece moves back and forth snapping between execution unit and rewinding case.Further preferred, be provided with material blanking tube above the opening part of rewinding case, locating slot can move to above material blanking tube.Another kind is further preferred, is provided with and blows material pipe above rewinding case, blows below material pipe described in locating slot can move to.

Preferably, jump ring feeding pressure mechanism comprises jump ring binder guide rail, the axis of jump ring binder guide rail and the axis being parallel of jump ring feeding guide, jump ring binder guide rail is provided with jump ring binder control cylinder, jump ring binder control cylinder is fixedly connected with jump ring binder block, jump ring binder block is provided with the jump ring binder head matched with jump ring feeding guide, when jump ring binder control cylinder drives jump ring binder block along jump ring binder slide, jump ring binder head moves along jump ring feeding guide, jump ring is pushed one by one to the end of jump ring feeding guide.

Preferably, button feeding pressure mechanism comprises button binder guide rail, the axis of button binder guide rail parallels with the axis of button chute feeder, button binder guide rail is provided with button binder control cylinder, button binder control cylinder is fixedly connected with button binder block, button binder block is provided with button binder head, button binder head matches with button chute feeder, button binder control cylinder drives button binder block to slide along the direction of button binder guide rail together, and button is pushed to the end of button chute feeder by button binder head one by one.

As mentioned above, the automatic pressure spring machine of the utility model, has following beneficial effect:

This automatic pressure spring machine, only need manually jump ring and button to be contained on jump ring feeding guide, button chute feeder respectively, this automatic pressure spring machine just can install jump ring automatically on button, its the fastest installation rate can reach 2s/, qualification rate ensures more than 90%, greatly simplifie the assembling process of installing miniature jump ring on T-shaped button, drastically increase installation effectiveness.

Accompanying drawing explanation

Fig. 1 is shown as the structural representation of the jump ring of the automatic pressure spring machine assembling of the utility model.

Fig. 2 is shown as the structural representation of the button of the automatic pressure spring machine assembling of the utility model.

Fig. 3 is shown as the placement structural representation on the table of the automatic pressure spring machine of the utility model.

Fig. 4 is shown as the structural representation of the automatic pressure spring machine shown in Fig. 3.

Fig. 5 is shown as the partial enlarged drawing of the automatic pressure spring machine shown in Fig. 4.

Fig. 6 is shown as the left view of the automatic pressure spring machine shown in Fig. 3.

Fig. 7 is shown as the A-A of the automatic pressure spring machine shown in Fig. 6 to sectional view.

Fig. 8 to Figure 10 is shown as the partial enlarged drawing of the automatic pressure spring machine shown in Fig. 7.

Figure 11 is shown as the structural representation of the jump ring card of the automatic pressure spring machine shown in Fig. 4.

Figure 12 is shown as the implementation schematic diagram of the installation executing agency of the automatic pressure spring machine shown in Fig. 4.

Figure 13 is shown as the structural representation of the locating piece of the automatic pressure spring machine shown in Fig. 4.

Figure 14 is shown as the partial enlarged drawing of the locating piece of the automatic pressure spring machine shown in Figure 13.

Figure 15 is shown as the partial structurtes schematic diagram of the compression execution unit of the automatic pressure spring machine shown in Fig. 4.

Figure 16 is shown as the top view of the compression execution unit of the automatic pressure spring machine shown in Figure 15.

Figure 17 is shown as the partial structurtes schematic diagram of the button chute feeder of the automatic pressure spring machine shown in Fig. 4.

Figure 18 is shown as the top view of the button chute feeder of the automatic pressure spring machine shown in Figure 17.

The schematic diagram that the jump ring feeding guide that Figure 19 is shown as the automatic pressure spring machine shown in Fig. 4 coordinates with jump ring.

Figure 20 is shown as the jump ring feeding guide of the automatic pressure spring machine shown in Fig. 4 and the structural representation of jump ring feeding pressure mechanism.

Figure 21 is shown as the partial enlarged drawing of the jump ring feeding pressure mechanism of the automatic pressure spring machine shown in Figure 20

Figure 22 is shown as the structural representation of the unloading mechanism of the automatic pressure spring machine shown in Fig. 4.

Figure 23 is shown as the top view of the unloading mechanism of the automatic pressure spring machine shown in Figure 22.

Element numbers explanation

1 jump ring

2 buttons

21 button head

22 button connecting portions

23 grooves

3 jump ring feeding guides

31 lower limbs

4 button chute feeders

5 jump ring feeding pressure mechanisms

51 jump ring binder guide rails

52 jump ring binder blocks

53 jump ring binder heads

531 guide rail fit

54 jump ring binder control cylinders

6 button feeding pressure mechanisms

61 button binder guide rails

62 button binder blocks

63 button binder heads

64 button binder control cylinders

7 install executing agency

71 compress execution unit

711 locating pieces

712 locating slots

713 defining flanges

714 binder through holes

715 compressing rods

7151 spring limit flange

716 compressing rod control cylinders

717 travelling carriages

718 piston rods

719 fixed mounts

7110 springs

72 snap in execution unit

721 jump ring cards

722 bayonet sockets

723 jump ring card control cylinders

724 card fixed blocks

8 unloading mechanisms

81 material returned guide rails

82 material returned control cylinders

83 contiguous blocks

84 drive blocks

9 rewinding casees

10 material blanking tubes

11 blow material pipe

12 workbench

Detailed description of the invention

By particular specific embodiment, embodiment of the present utility model is described below, person skilled in the art scholar the content disclosed by this description can understand other advantages of the present utility model and effect easily.

Refer to Fig. 1 to Figure 23.Notice, structure, ratio, size etc. that this description institute accompanying drawings illustrates, content all only in order to coordinate description to disclose, understand for person skilled in the art scholar and read, and be not used to limit the enforceable qualifications of the utility model, therefore the not technical essential meaning of tool, the adjustment of the modification of any structure, the change of proportionate relationship or size, do not affecting under effect that the utility model can produce and the object that can reach, still all should drop on technology contents that the utility model discloses and obtain in the scope that can contain.Simultaneously, quote in this description as " on ", D score, "left", "right", " centre " and " one " etc. term, also only for ease of understanding of describing, and be not used to limit the enforceable scope of the utility model, the change of its relativeness or adjustment, under changing technology contents without essence, when being also considered as the enforceable category of the utility model.

The utility model provides a kind of pressure spring machine automatically, and this automatic pressure spring machine is used for the connection of jump ring 1 and button 2, and as shown in Figure 1 to Figure 2, button 2 comprises button head 21 and button connecting portion 22, and wherein button connecting portion 22 is provided with the groove 23 coordinated with jump ring 1.

As shown in Fig. 3 to Fig. 7, this automatic pressure spring machine comprises the jump ring feeding guide 3 for transmitting jump ring 1 and the button chute feeder 4 for transmitting button 2, the top of jump ring feeding guide 3 is provided with jump ring feeding pressure mechanism 5, the top of button chute feeder 4 is provided with button feeding pressure mechanism 6, be positioned at the jump ring 1 of the end of jump ring feeding guide 3 corresponding with the groove 23 of the button 2 of the end of button chute feeder 4, executing agency 7 be installed jump ring 1 is loaded in the groove 23 of button 2.Wherein, automatic pressure spring machine also comprises unloading mechanism 8, and the button 2 installing jump ring 1 is sent in rewinding case 9 by unloading mechanism 8.

Above-mentioned automatic pressure spring machine only needs manually to be contained on jump ring feeding guide 3, button chute feeder 4 respectively by jump ring 1 and button 2, this automatic pressure spring machine just can install jump ring 1 automatically on button 2, its the fastest installation rate can reach 2s/, drastically increases installation effectiveness.

Above-mentioned installation executing agency 7 comprises compression execution unit 71 and snaps in execution unit 72, compresses execution unit 71 and is compressed by button 2, snap in execution unit 72 and snapped in the groove 23 of button 2 by jump ring 1.

As shown in Figure 10 to Figure 12, a kind of detailed description of the invention wherein snapping in execution unit 72 is as follows.Snap in execution unit 72 and comprise jump ring card 721, jump ring card 721 is positioned at the end of jump ring feeding guide 3, jump ring card 721 is provided with the bayonet socket 722 corresponding with the outer peripheral face of jump ring 1, jump ring 1 to be installed is positioned at the bayonet socket 722 of jump ring card 721, and jump ring 1 to be installed snaps in the groove 23 of button 2 by jump ring card 721 under the control of jump ring card control cylinder 723.

It is above-mentioned that to snap in execution unit 72 1 kinds of preferred structures as follows.Jump ring card 721 is fixed in card fixed block 724 away from one end of bayonet socket 722, and card fixed block 724 is fixedly connected with the expansion link of jump ring card control cylinder 723.When the expansion link of jump ring card control cylinder 723 stretches, card fixed block 724 drives jump ring card 721 to move together.

When the jump ring 1 on jump ring feeding guide 3 is delivered in bayonet socket 722 by jump ring feeding pressure mechanism 5, button 2 in button chute feeder 4 is delivered to and is compressed in execution unit 71 by button feeding pressure mechanism 6, jump ring 1 is corresponding with the groove 23 of button 2, compress execution unit 71 to be fixed by button 2, jump ring 1 to be installed snaps in the groove 23 of button 2 by jump ring card 721 under the control of jump ring card control cylinder 723.

As shown in Figure 13 to Figure 16, a kind of detailed description of the invention wherein compressing execution unit 71 is as follows.Compress execution unit 71 and comprise locating piece 711, locating piece 711 is provided with locating slot 712 towards the one side of jump ring feeding guide 3, and the button to be installed 2 in button chute feeder 4 falls into locating slot 712; The side of locating slot 712 is provided with the defining flange 713 extended in groove, and the bottom surface of locating slot 712 is provided with the binder through hole 714 running through locating piece 711; Compress execution unit 71 and also comprise compressing rod 715, the axis of compressing rod 715 and the axis being parallel of binder through hole 714, compressing rod 715 is connected with compressing rod control cylinder 716, and compressing rod control cylinder 716 can control compressing rod 715 in binder through hole 714 along axial-movement.

Wherein, compressing rod 715 is as follows with the concrete syndeton of one of compressing rod control cylinder 716.The piston rod 718 of compressing rod control cylinder 716 is parallel with compressing rod 715, compressing rod 715 near an end-rack of locating piece 711 on travelling carriage 717, one end away from locating piece 711 of compressing rod 715 and the end of piston rod 718 are fixed by fixed mount 719, when the piston rod 718 of compressing rod control cylinder 716 does stretching motion, compressing rod 715 on travelling carriage 717 along axial sliding movement.Compressing rod 715 is provided with spring limit flange 7151, and on compressing rod 715, also cover has spring 7110, and spring 7110 is between spring limit flange 7151 and fixed mount 719.

Button 2 in button chute feeder 4 pushes in locating slot 712 by button feeding pressure mechanism 6, and the groove 23 of button 2 is corresponding with jump ring 1 to be installed; Then, compressing rod 715 is through binder through hole 714, and extend in locating slot 712, be against in the button head 21 of button 2, the another side of button head 21 just contacts with defining flange 713, and button 2 clamps by defining flange 713 and compressing rod 715; Finally, snap in execution unit 72 jump ring 1 is snapped in the groove 23 of button 2.

Above-mentioned locating slot 712 can be set to the shape corresponding with button chute feeder 4, and locating slot 712 is positioned over the end of button chute feeder 4.

As shown in Fig. 3 to Fig. 7, jump ring feeding guide 3 is preferably set to horizontal positioned, and button chute feeder 4 is preferably set to vertical placement.

As shown in figure 19, jump ring feeding guide 3 is provided with outstanding lower limb 31, and the cross section of lower limb 31 matches with the inner peripheral surface of jump ring 1.Like this, jump ring 1 is arranged in a row, and hangs on lower limb 31, more seriatim jump ring 1 is delivered to place of installation executing agency 7 by jump ring feeding pressure mechanism 5.

As Fig. 8 and Figure 20, shown in Figure 21, jump ring feeding pressure mechanism 5 comprises jump ring binder guide rail 51, the axis of jump ring binder guide rail 51 and the axis being parallel of jump ring feeding guide 3, jump ring binder guide rail 51 is provided with jump ring binder control cylinder 54, jump ring binder control cylinder 54 is fixedly connected with jump ring binder block 52, jump ring binder block 52 is provided with the jump ring binder head 53 matched with jump ring feeding guide 3, when jump ring binder control cylinder 54 can drive jump ring binder block 52 to slide along jump ring binder guide rail 51, jump ring binder head 53 moves along jump ring feeding guide 3, jump ring 1 is pushed one by one to the end of jump ring feeding guide 3.

If jump ring feeding guide 3 is provided with outstanding lower limb 31, then jump ring binder head 53 can be provided with the guide rail fit 531 matched with lower limb 31 profile, like this when jump ring binder block 52 slides along the direction of jump ring binder guide rail 51 under the control of jump ring binder control cylinder 54, the guide rail fit 531 of jump ring binder head 53 coordinates with the lower limb 31 of jump ring feeding guide 3, jump ring binder head 53 slides along jump ring feeding guide 3, the jump ring 1 be positioned on jump ring feeding guide 3 is pushed one by one to the end of jump ring feeding guide 3.

As shown in Figure 17 to Figure 18, button chute feeder 4 can be set to T-slot, and the cross section of this T-slot matches with the axial cross section of button 2, when button 2 is placed in this button chute feeder 4, the axis of button 2 all the time with the axes normal of button chute feeder 4.

As shown in Figure 9, button feeding pressure mechanism 6 comprises button binder guide rail 61, the axis of button binder guide rail 61 parallels with the axis of button chute feeder 4, button binder guide rail 61 is provided with button binder control cylinder 64, button binder control cylinder 64 is fixedly connected with button binder block 62, button binder block 62 is provided with button binder head 63, button binder head 63 matches with button chute feeder 4, button binder control cylinder 64 drives button binder block 62 to slide along the direction of button binder guide rail 61 together, button 2 is pushed to the end of button chute feeder 4 by button binder head 63 one by one.

If button chute feeder 4 is set to T-slot, then button binder head 63 is also set to T-shaped, when button binder block 62 along button binder guide rail 61 direction slide time, button binder head 63 is positioned at button chute feeder 4, button 2 is pushed one by one to the end of button chute feeder 4.

As shown in Fig. 5, Fig. 7, Figure 22 to Figure 23, a kind of detailed description of the invention of unloading mechanism 8 is as follows.Locating piece 711 is connected with material returned guide rail 81, and when locating piece 711 moves back and forth along the axis direction of material returned guide rail 81 under the control of material returned control cylinder 82, the locating slot 712 of locating piece 711 moves back and forth snapping between execution unit 72 and rewinding case 9.

Above-mentioned unloading mechanism 8 one kinds of preferred structures are as follows.Material returned guide rail 81 is provided with the contiguous block 83 that can slide on material returned guide rail 81, contiguous block 83 is fixedly connected with locating piece 711, and contiguous block 83 is fixedly connected with drive block 84, material returned control cylinder 82 can control drive block 84 and slide on material returned guide rail 81, and drive block 84 then drives locating piece 711 to move back and forth along the direction of material returned guide rail 81 by contiguous block 83.

After jump ring 1 installs on button 2, compressing rod 715 is retracted from binder through hole 714, the button 2 installing jump ring 1 is arranged in locating slot 712, locating piece 711 is under the control of material returned control cylinder 82, direction to rewinding case 9 is moved, until locating slot 712 is positioned at the top of rewinding case 9, rewinding case 9 fallen by the button 2 being now arranged in locating slot 712.After discharging, locating piece 711 returns under the control of material returned control cylinder 82, and the end of button chute feeder 4 got back to again by locating slot 712, and button chute feeder 4 is sent in button 2 to locating slot 712 next to be installed.

As shown in Figure 5, Figure 7, the opening part of rewinding case 9 can be provided with material blanking tube 10, locating slot 712 can move to above material blanking tube 10.Like this, during blanking, the button 2 installing jump ring 1 falls into rewinding case 9 by material blanking tube 10.

Also be provided with above rewinding case 9 and blow material pipe 11, locating slot 712 can move to and blow below material pipe 11.When locating slot 712 arrives the top of rewinding case 9, blow material pipe 11 and blow to the button 2 being arranged in locating slot 712, certain pressure is applied to button 2, has guaranteed that button 2 falls into rewinding case 9.

As shown in Fig. 3 to Fig. 7, above-mentioned automatic pressure spring machine is fixed on workbench 12, and rewinding case 9 is positioned at below workbench 12, and material blanking tube 10 is through above workbench 12 to rewinding case 9.

Above-mentioned automatic pressure spring machine is as follows for the concrete mode of one of the installation of jump ring 1 as depicted in figs. 1 and 2, button 2:

1) be enclosed within jump ring feeding guide 3 by row's jump ring 1, row's button 2 is placed in button chute feeder 4;

2) start jump ring feeding pressure mechanism 5, the jump ring 1 being arranged in jump ring feeding guide 3 least significant end is sent into the bayonet socket 722 of jump ring card 721; Start button feeding pressure mechanism 6, sends the button 2 being arranged in button chute feeder 4 least significant end into locating slot 712 simultaneously;

3) compressing rod 715 is under the control of compressing rod control cylinder 716, through binder through hole 714, extends in locating slot 712, is fixed by button 2;

4) jump ring 1 to be installed snaps in the groove 23 of button 2 by jump ring card 721 under the control of jump ring card control cylinder 723;

5) jump ring card 721 returns back to original position under the control of jump ring card control cylinder 723, and compressing rod 715 returns back to original position under the control of compressing rod control cylinder 716;

6) button 2 installing jump ring 1 is arranged in locating slot 712, and locating piece 711 is under the control of material returned control cylinder 82, and the direction to rewinding case 9 is moved, until locating slot 712 is positioned at the top of rewinding case 9;

7) blow material pipe 11 to blow to the button 2 being arranged in locating slot 712, certain pressure is applied to button 2, guarantees that button 2 falls into rewinding case 9;

8) after discharging, locating piece 711 returns under the control of material returned control cylinder 82, and the end of button chute feeder 4 got back to again by locating slot 712, namely completes the installation of one group of jump ring 1 and button 2.

In sum, the automatic pressure spring machine of the utility model, only need manually jump ring and button to be contained on jump ring feeding guide, button chute feeder respectively, this automatic pressure spring machine just can install jump ring automatically on button, its the fastest installation rate can reach 2s/, qualification rate ensures more than 90%, greatly simplifies the assembling process of installing miniature jump ring on T-shaped button, drastically increases installation effectiveness.So the utility model effectively overcomes various shortcoming of the prior art and tool high industrial utilization.

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. an automatic pressure spring machine, described automatic pressure spring machine is used for the connection of jump ring and button, described button is provided with the groove coordinated with jump ring, it is characterized in that: it comprises the jump ring feeding guide for transmitting jump ring and the button chute feeder for transmitting button, the top of described jump ring feeding guide is provided with jump ring feeding pressure mechanism, the top of described button chute feeder is provided with button feeding pressure mechanism, the jump ring being positioned at the end of described jump ring feeding guide is corresponding with the groove of the button of the end of described button chute feeder, executing agency is installed described jump ring is loaded in the groove of described button.

2. automatic pressure spring machine according to claim 1, is characterized in that: described automatic pressure spring machine also comprises unloading mechanism, and the button installing jump ring is sent in rewinding case by described unloading mechanism.

3. automatic pressure spring machine according to claim 1, it is characterized in that: described installation executing agency comprises compression execution unit and snaps in execution unit, described button compresses by described compression execution unit, described in snap in execution unit described jump ring snapped in the groove of described button.

4. automatic pressure spring machine according to claim 3, it is characterized in that: described in snap in execution unit and comprise jump ring card, described jump ring card is positioned at the end of described jump ring feeding guide, described jump ring card is provided with the bayonet socket corresponding with the outer peripheral face of described jump ring, jump ring to be installed is positioned at the bayonet socket of described jump ring card, and described jump ring to be installed snaps in the groove of described button by described jump ring card under the control of jump ring card control cylinder.

5. automatic pressure spring machine according to claim 3, it is characterized in that: described compression execution unit comprises locating piece, described locating piece is provided with locating slot towards the one side of described jump ring feeding guide, and the button to be installed in described button chute feeder falls into described locating slot; The side of described locating slot is provided with the defining flange extended in groove, and the bottom surface of described locating slot is provided with the binder through hole running through locating piece; Described compression execution unit also comprises compressing rod, the axis of described compressing rod and the axis being parallel of described binder through hole, described compressing rod is connected with compressing rod control cylinder, and described compressing rod control cylinder can control described compressing rod in described binder through hole along axial-movement.

6. automatic pressure spring machine according to claim 5, it is characterized in that: described locating piece is connected with material returned guide rail, when described locating piece moves back and forth along the axis direction of described material returned guide rail under the control of material returned control cylinder, the locating slot of described locating piece moves back and forth described snapping between execution unit and rewinding case.

7. automatic pressure spring machine according to claim 6, is characterized in that: be provided with material blanking tube above the opening part of described rewinding case, described locating slot can move to above described material blanking tube.

8. automatic pressure spring machine according to claim 6, is characterized in that: be provided with above described rewinding case and blow material pipe, blows below material pipe described in described locating slot can move to.

9. automatic pressure spring machine according to claim 1, it is characterized in that: described jump ring feeding pressure mechanism comprises jump ring binder guide rail, the axis of described jump ring binder guide rail and the axis being parallel of described jump ring feeding guide, described jump ring binder guide rail is provided with jump ring binder control cylinder, described jump ring binder control cylinder is fixedly connected with jump ring binder block, described jump ring binder block is provided with the jump ring binder head matched with described jump ring feeding guide, when described jump ring binder control cylinder drives described jump ring binder block along described jump ring binder slide, described jump ring binder head moves along jump ring feeding guide, described jump ring is pushed one by one to the end of described jump ring feeding guide.

10. automatic pressure spring machine according to claim 1, it is characterized in that: described button feeding pressure mechanism comprises button binder guide rail, the axis of described button binder guide rail parallels with the axis of described button chute feeder, described button binder guide rail is provided with button binder control cylinder, described button binder control cylinder is fixedly connected with button binder block, described button binder block is provided with button binder head, described button binder head matches with described button chute feeder, described button binder control cylinder drives described button binder block to slide along the direction of described button binder guide rail together, described button is pushed to the end of described button chute feeder by described button binder head one by one.