CN204566592U - A kind of ejecting mechanism and adopt the mould of this ejecting mechanism - Google Patents

Abstract

The utility model discloses a kind of ejecting mechanism, comprise side and take out slide block, the slider guide portion that slide block slippage is connected is taken out with side, slider guide portion is obliquely installed, side is taken out on slide block and is connected with driven unit, described driven unit driving side is taken out slide block and is done sliding motion along slider guide portion, it is characterized in that: the ejection piece also comprising ejecting product, eject guide part, described ejection piece with eject guide part slippage and be connected, described side is taken out in slide block slipping and is driven ejection piece along ejecting guide part sliding motion, this ejecting mechanism is compared and the structure of original ejector retainner plate, the mold materials of nearly 25-40% can be saved, greatly reduce die cost, simplify the structure.

Description

A kind of ejecting mechanism and adopt the mould of this ejecting mechanism

Technical field

The utility model relates to a kind of mould structure, and more particularly, it relates to a kind of ejecting mechanism and adopts the mould of this ejecting mechanism.

Background technology

Injection machine thermoplastic or thermosetting plastics is utilized mould for plastics to make the main former of the plastic products of various shape, and wherein mould is the part of wherein most critical, and the structure of mould, size directly can affect the structure of injection machine.

Existing mould is normally deviate from the product of ejector retainner plate by injection mo(u)lding in the demoulding, but ejector retainner plate needs to coordinate such structure such as footstock, thimble making the entirety of mould will be larger, make the shared volume of mold integral comparatively large when making mould, materials are more.

Therefore, need to provide a kind of structure comparatively simple, compact mould.

Also have, current I bar is fixed on solid plate, and groove is arranged on skew back accordingly to take out on block, like this because its structure is inherently less, so the groove that can output can not do very long, like this when slide block side is taken out, certain unstability will be produced because groove itself is shorter.

Utility model content

For the deficiency that prior art exists, the purpose of this utility model is to provide a kind of and saves material and eject a kind of ejecting mechanism easily and adopt the mould of this ejecting mechanism.

For achieving the above object, the utility model provides following technical scheme: a kind of ejecting mechanism, comprise side to take out slide block, take out the slider guide portion that slide block slippage is connected with side, slider guide portion is obliquely installed, side is taken out on slide block and is connected with driven unit, described driven unit driving side is taken out slide block and is done sliding motion along slider guide portion, it is characterized in that: also comprise the ejection piece of ejecting product, eject guide part, described ejection piece with eject guide part slippage and be connected, described side is taken out in slide block slipping and is driven ejection piece along ejecting guide part sliding motion.

By adopting technique scheme, it can be arranged on separately in solid plate that slide block is taken out in side, or core or die cavity are taken out slide block by several sides and are spliced, utilize driven unit driving side to take out slide block to move along slider guide portion when the demoulding, make side take out distance between part shaping on slide block and product from, drive ejection piece to slide along ejecting guide part simultaneously, slip side's demoulding outgoing direction of ejection piece is identical, in the process of tiltedly loosing core, product is departed from from mould, can realize loosing core and ejecting two actions simultaneously, the time of the demoulding can be greatly reduced, this ejecting mechanism is compared and the structure of original ejector retainner plate, eliminate top board, the parts such as thimble, the mold materials of nearly 25% ~ 40% can be saved, owing to eliminating the structure of top board, the distance of mould on die sinking direction also reduces greatly, thus greatly reduce die cost, simplify the structure.

The utility model is set to further: described side is taken out slide block and is provided with driving chute, and described ejection piece is slidably arranged on and drives in chute.

By adopting technique scheme, the glide direction of taking out slide block owing to ejecting direction and side tilts mutually, ensure that the driving ejection piece motion that slide block can be stable in motion process is taken out in side, the preferred structure adopting driving chute, conveniently process, drive chute to be opened in the bottom that slide block is taken out in side, and carry out spacing by press strip and limited block to ejection piece, the stability that slide block is connected is taken out in guarantee ejection piece and side.

The utility model is set to further: described ejection piece and side are taken out to be provided with between slide block and ejection piece is released the spring driving chute.

By adopting technique scheme, owing to certainly existing gap between guide post and ejection piece, spring being set and can eliminating gap between ejection piece and guide post, while ejecting product, the main fuse of core can be close to.

The utility model is set to further: described slider guide portion is Angle Pin, and the described guide part that ejects is guide post, and the length direction of guide post is identical with stripping direction.

By adopting technique scheme, slider guide portion can adopt the structure of slide rail, considers from the angle of cost, and Angle Pin, guide post, as spare part in common use, can greatly reduce mould production cost, and the difficulty of Mould Machining.

A kind of mould being equipped with above-mentioned ejecting mechanism, comprise dynamic model, cover half, dynamic model comprises moving platen, it is characterized in that: the ejecting mechanism of described mould is positioned on dynamic model, described slider guide portion is arranged on dynamic model, slide block is taken out in described side several, and several sides are taken out slide block in solid plate, are spliced to form core or die cavity.

By adopting technique scheme, after product is shaping in a mold, when mould is opened, product can be stayed on dynamic model, therefore the ejecting mechanism of mould is arranged on dynamic model, the core of dynamic model or die cavity are taken out slide block by several sides and are spliced, utilize driven unit driving side to take out slide block to move along slider guide portion when the demoulding, make sides adjacent take out distance between slide block from, drive ejection piece to slide along ejecting guide part simultaneously, the glide direction of ejection piece is with to eject direction identical, thus product is departed from from mould, this ejecting mechanism is compared and the structure of existing ejector retainner plate, eliminate top board, the parts such as thimble, the mold materials of nearly 25% ~ 40% can be saved, owing to eliminating the structure of top board, the distance of mould on die sinking direction also reduces greatly, thus greatly reduce die cost, simplify the structure, slide block locating slot is provided with in solid plate, the sidewall of slide block locating slot is preferably obliquely installed, the sidewall that slide block is taken out in side is also obliquely installed and abuts with the sidewall of slide block locating slot, when matched moulds, slide block is taken out in side can be slipped into slide block locating slot along Angle Pin, in order to save material, the degree of depth of slide block locating slot is less than side and takes out slide block thickness.

The utility model is set to further: described actuator is hydraulic cylinder, and hydraulic cylinder and side are taken out slide block and be fixedly connected with, and the driving shaft of hydraulic cylinder abuts with moving platen.

By adopting technique scheme, the course of work of hydraulic cylinder is comparatively stable, and bearing capacity is strong, is applicable to the mould that volume is larger, the telescopic direction of Driven by Hydraulic Cylinder axle is parallel with Angle Pin, certainly, wherein hydraulic cylinder also can be fixed on moving platen, takes out slide block movement by drive shaft side, consider the overall volume of mould, and installation difficulty, preferably hydraulic cylinder is fixed on side and takes out on slide block, the glide direction that slide block is taken out in best driving shaft and side is parallel.

The utility model is set to further: be provided with the angled-lift splits that oblique slip realizes side core-pulling in the solid plate of cover half, be provided with spring angled-lift splits being pushed to dynamic model between described angled-lift splits and solid plate.

By adopting technique scheme, solid plate is provided with the I-shaped groove of inclination, angled-lift splits is fixed with the I bar be slidably matched with I-shaped groove, the length very that such I bar just can do, and angled-lift splits itself is relatively also larger, therefore only needs to set out the holddown groove coordinated with I bar, just engaging can be completed, I bar longer like this and longer groove fit, can stablize and effectively make angled-lift splits skid off, the instability that can not cause because I bar length is too short.

The utility model is set to further: angled-lift splits and side are taken out slide block and be provided with the guiding drag hook mutually fastened.

By adopting technique scheme, guiding drag hook can play the effect of a guiding, at dynamic model when matched moulds, in order to cost-saving, the drives structure that angled-lift splits is not additionally arranged, and guiding drag hook is set, by dynamic model and cover half close to each other, drive angled-lift splits to push back in solid plate, ensure that side is taken out between slide block and angled-lift splits relatively stable, prevent the situation of dislocation.

The utility model is set to further: some sides take out slide block or some angled-lift splitses can be spliced into die cavity, taken out in die cavity that slide block or angled-lift splits be spliced into by described side and be provided with inner sleeve, inner sleeve is made up of some mold inserts, and slide block or angled-lift splits are taken out for removably connecting in mold insert and side.

By adopting technique scheme, needing the internal diameter regulating die cavity, only by adding that an inner sleeve just can complete, namely every side to be taken out on slide block or angled-lift splits and corresponding is added lastblock mold insert, and again need not make a secondary mould again, and the inwall of mold insert and die cavity is provided with groove, mold insert fixed block is provided with in groove, mold insert fixed block connects mold insert and die cavity inwall, and the structure of mold insert fixed block may be used for the location of mold insert, increases mold insert and installs the precision after on die cavity.

The utility model is set to further: dynamic model is provided with side core-pulling mechanism, described side core-pulling mechanism includes slanted kicking block, tilted footstock, the main fuse of slide block, described tilted footstock and the main fuse of slide block are fixed, and described tilted footstock is provided with the slide rail of inclination, and slanted kicking block is connected by slide rail slippage with tilted footstock.

By adopting technique scheme, due to when injection molding pipe part, between side and main body, have a fillet, need when side is taken out to utilize spring directly to be ejected by slanted kicking block, extracted out by core-pulling mechanism subsequently, what utilize slanted kicking block and spring coordinates the production requirement that can realize loosing core fast.

Accompanying drawing explanation

Fig. 1 is the structural representation of the utility model mould;

Fig. 2 is the explosive view of the utility model mould;

Fig. 3 is the partial sectional view of the utility model mould;

Fig. 4 is the enlarged drawing that in Fig. 3, I goes out;

Fig. 5 is the structural representation of moving platen;

Fig. 6 is the structural representation of the utility model ejecting mechanism;

Fig. 7 is the enlarged drawing that in Fig. 3, J goes out;

Fig. 8 is the structural representation of cover half in the utility model mould;

Fig. 9 is the location drawing one of drag hook in folding mold process;

Figure 10 is the location drawing two of drag hook in folding mold process;

Figure 11 is the location drawing three of drag hook in folding mold process;

Figure 12 is the enlarged drawing that in Fig. 3, K goes out;

Figure 13 is the structural scheme of mechanism of the main fuse of slide block in side core-pulling mechanism;

Figure 14 is the structural representation of the utility model dynamic model;

Figure 15 is the schematic diagram that the utility model inner sleeve is exchanged;

Figure 16 is the structural representation of the machinable product of the utility model mould.

Reference numeral: 1, cover half; 11, solid plate; 12, angled-lift splits; 13, I bar; 2, dynamic model; 21, moving platen; 22, slide block is taken out in side; 221, chute is driven; 222, press strip, 223, limited block; 224, rectangular channel; 225, driving member; 23, Angle Pin fixed block; 231, Angle Pin; 232, locating slot; 24, angled slide block; 241, by splenium; 242, extension block; 25, guide post; 26, slide block locating slot; 3, side core-pulling mechanism; 31, the main fuse of slide block; 32, tilted footstock; 33, slanted kicking block; 331, fillet forming part; 34, slide block holder; 4, driven unit; 41, hydraulic cylinder; 42, driving shaft; 5, lead drag hook; 6, inner sleeve; 61, mold insert; 62, mold insert fixed block; 7, the main fuse of core; 8, product; 81, convex tendon; 82, fillet.

Detailed description of the invention

Referring to figs. 1 through Figure 16, the utility model mould and ejecting mechanism embodiment are described further.

A kind of ejecting mechanism, comprise side and take out slide block 22, take out with side the side that slide block 22 slippage is connected and take out slide block 22 guide part, side is taken out slide block 22 guide part and is obliquely installed, side is taken out on slide block 22 and is connected with driven unit 4, described driven unit 4 driving side takes out slide block 22 sliding motion, also comprise the ejection piece of ejecting product 8, eject guide part, this enforcement of ejection piece adopts the structure of angled slide block 24, angled slide block 24 with eject guide part slippage and be connected, side is taken out in slide block 22 slipping and is driven angled slide block 24 and eject guide part sliding motion, take out in the process of slide block 22 side core-pulling in side, angled slide block 24 is driven to move to stripping direction.

The mode that mould applications side is taken out is more, the utility model preferably adopts the mode of Angle Pin 231, Angle Pin 231 is fixed on moving platen 21, Angle Pin 231 is fed through side and takes out slide block 22, side is taken out slide block 22 and is realized side by driven unit 4 and take out slide block 22 sliding motion on Angle Pin 231, driven unit 4 can be hydraulic cylinder, cylinder, also mould open/close mold process can be utilized, realize side by the transmission of motion to take out slide block 22 and move, the present embodiment is in order to make mechanism more simple, reliably, the structure of preferred employing hydraulic cylinder 41, hydraulic cylinder 41 and side are taken out slide block 22 and are fixedly connected with, the telescopic direction of the driving shaft 42 of hydraulic cylinder 41 is parallel to each other with Angle Pin 231 and abuts with moving platen 21.It is more that mode is taken out in the side that the utility model comprises, if just simple modifying to the mode of side core-pulling, falls into protection domain of the present utility model.

Moving platen 21 is also provided with the guide post 25 slided for angled slide block 24, the length direction of guide post 25 is identical with die sinking direction, and what ensure angled slide block 24 ejects direction, and the mode of guiding is more, and it will not go into details for the utility model.As shown in Figure 4, angled slide block 24 is close to core, side is taken out slide block 22 and is provided with driving chute 221, when slide block 22 side core-pulling is taken out and along Angle Pin 231 oblique movement in side, drive chute 221 that angled slide block 24 can be driven to ejecting direction motion, simultaneously ejection slider can stretch out in driving chute 221, but can not completely from disengaging in driving chute 221, and wherein side is taken out the move distance of slide block 22 on die sinking direction and equaled the move distance of angled slide block 24 on die sinking direction.In order to easy to process, drive chute 221 to be opened in the bottom that slide block 22 is taken out in side, and undertaken spacing by press strip 222 and limited block 223, drive when processing chute 221 directly to mill out.

Slide block locating slot 26 is provided with in solid plate 11, the sidewall of slide block locating slot 26 is preferably obliquely installed, the sidewall that slide block 22 is taken out in side is also obliquely installed and abuts with the sidewall of slide block locating slot 26, when matched moulds, slide block 22 is taken out in side can be slipped into slide block locating slot 26 along Angle Pin 231, in order to save material, the degree of depth of slide block locating slot 26 is less than side and takes out slide block 22 thickness.

Slide block 22 is taken out in side in the utility model, angled-lift splits 12 is preferably set to 4, certain 1, 2, 3, 4, 5 ... individually all belong to protection domain of the present utility model, in order to save the production cost of mould further, 4 sides take out in slide block 22 wherein two be connected with driven unit 4, the setting of slide block 22 diagonal angle is taken out in two sides with driven unit 4, have the side of driven unit 4 to take out slide block 22 and adjacent side to take out between slide block 22 and be provided with driving member 225, driving member 225 is rectangular in cross-section bar blocks, driving member 225 and a sides adjacent side of taking out in slide block 22 are taken out slide block 22 and are fixed, and be inserted into another side and take out in the rectangular channel 224 of slide block 22 and to be slidably connected with it, when driven unit 4 works time, ensure that 4 sides are taken out slide block 22 and can be synchronized with the movement.

As shown in Figure 6, drive chute 221 in inverted T-shaped, the both sides of angled slide block 24 are provided with by splenium 241, press strip 222 be fixed on drive in chute 221 and be pressed in angled slide block 24 by splenium 241 place, realize sliding, in order to the connective stability of angled slide block 24, the bottom that slide block 22 is taken out in side is provided with limited block 223 mounting groove, limited block 223 to be fixed in this groove and to be connected to the bottom surface of angled slide block 24, angled slide block 24 is installed, dismantles, changes conveniently.In order to ensure close contact between angled slide block 24 and core, spring is provided with between the bottom of angled slide block 24 and driving chute 221, in the process of the demoulding, by spring, angled slide block 24 is pressed to core, ensure that angled slide block 24 effectively contacts with product 8, the bottom of angled slide block 24 is also provided with extension block 242, guide post 25 passed extension block 242, and run through angled slide block 24, be provided with the locating slot 232 that shape matches with extension block 242 in the Angle Pin fixed block 23 of Angle Pin 231, ensure the positional precision after angled slide block 24 reset.

Such as at processing product 8 as described in Figure 16, product is hollow structure, and the outer surface of product 8 also has perpendicular to the ring-type convex tendon 81 on stripping direction, in order to ensure product 8 demoulding smoothly, now, the die cavity of dynamic model 2 can be taken out slide block 22 by some pieces of sides and is spliced, when the demoulding, slide block 22 is taken out under the effect of driven unit 4 simultaneously along Angle Pin 231 slippage in each side, realizes the demoulding.Slide block 22 is taken out while motion in side, angled slide block 24 is driven to move, wherein angled slide block 24 is close to the main fuse 7 of core on dynamic model 2, the upper surface of angled slide block 24 abuts product 8, is ejected by the product 8 after shaping, complete the demoulding from the main fuse 7 of core, side is taken out in the process of the core that slide block 22 is tiltedly taken out, also there is ejecting product, realize the demoulding, greatly can increase the production efficiency of mould.In processing instances as plastics as described in Figure 16, the distance on its stripping direction is comparatively large, and the mode according to thimble top board ejects, and the distance of mould on stripping direction will inevitably be made to increase, increase the volume of mould, thus can be higher to the parameter request of injection machine.And adopt ejecting mechanism disclosed in the utility model, eliminate the ejector pin retaining plate in thimble top board structure, push pedal, thimble, and connect the cushion block etc. of dynamic model 2 seat board and moving platen 21, save the material of 25% to 40%, and mould volume is less, higher with the adaptability of injection machine, thickness under original dynamic model 2 is 450mm or more than 450mm, but can 120mm ~ 130mm be narrowed down to after improving now, for mold integral size, there is revolutionary minimizing, and do not affect the effect of the demoulding.

Cover half 1 in the utility model also can realize side core-pulling, die cavity on cover half 1 is spliced by several angled-lift splitses 12 and about cover half 1 piece of tilt slide, also there is the convex tendon 81 perpendicular to stripping direction on the surface be positioned on cover half 1 as fruit product 8, just realizes the demoulding by some angled-lift splits 12 tilt slide.Be provided with spring between bottom angled-lift splits 12 and solid plate 11, when die sinking, angled-lift splits 12 is skidded off in solid plate 11 automatically by the elastic force of spring, prevents product 8 from interfering with the die cavity on cover half 1.

Angled-lift splits 12 is provided with towards the end face of dynamic model 2 and dynamic model 2 the guiding drag hook 5 cooperatively interacted, as shown in Figure 8, drag hook is obliquely installed, in the process of mould die sinking matched moulds, guiding drag hook 5 play the guiding role, during die sinking, angled-lift splits 12 can be driven to skid off from solid plate 11, and the drag hook 5 that leads when matched moulds can drive angled-lift splits 12 to be accurately slipped in solid plate 11, guiding drag hook 5 is set, effectively can ensures stability, reliability that side core-pulling mechanism 3 works.In die sinking matched moulds process, the position of drag hook is as shown in Fig. 7,8,9,10,11.

The salary bill 13 being fixed with and sliding for angled-lift splits 12 is provided with in solid plate 11, angled-lift splits 12 is provided with salary bill 13 to the groove coordinated, be fixed on angled-lift splits 12 by salary bill 13, and groove is arranged in solid plate 11 accordingly, the length very that salary bill 13 just can do, and angled-lift splits 12 itself is relative also larger, therefore only need to set out the groove coordinated with salary bill 13, just engaging can be completed, salary bill 13 longer like this and longer groove fit, can stablize effectively to drive and skid off, the instability that can not cause because salary bill 13 length is too short.

Some sides are taken out slide block 22 and are spliced into die cavity, some angled-lift splitses 12 are spliced into die cavity, side is taken out the die cavity inwall that slide block 22 or angled-lift splits 12 be spliced into and is provided with the inner sleeve 6 removably connected, inner sleeve 6 is Split type structure, be made up of several mold inserts 61, mold insert 61 and die cavity inwall are equipped with holddown groove, mold insert fixed block 62 is provided with in holddown groove, mold insert fixed block 62 connects mold insert 61 and die cavity inwall, when the size of product 8 changes, as long as add inner sleeve 6 on die cavity, and do not need production mould again, it is for fixing with each sliding block inclined slide block 12 that split is arranged.

As Fig. 2, 12, shown in 13, dynamic model 2 is provided with side core-pulling mechanism 3, side core-pulling mechanism 3 includes slanted kicking block 33, tilted footstock 32, the main fuse 31 of slide block, the main fuse 31 of slide block is arranged on side and takes out in the groove that slide block 22 is spliced into, when product 8 demoulding, the main fuse 31 of slide block moves with slide block, the afterbody of the main fuse 31 of slide block is fixed with slide block holder 34, slide block holder 34 is provided with the T-slot along offering on stripping direction, moving platen 21 is fixed with the cylinder driving the main fuse 31 of slide block to extract out, cylinder axis is provided with the drive block of T-shaped, when the main fuse 31 of slide block with side take out slide block 22 move time, the T-slot inner slide of drive block in slide block holder 34 of T-shaped, and then ensure the main fuse 31 of driving slide block that cylinder can be stable.

Tilted footstock 32 is fixed with the main fuse 31 of slide block, tilted footstock 32 is provided with the slide rail of inclination, slanted kicking block 33 is connected by slide rail slippage with tilted footstock 32, slanted kicking block 33 for shaped article 8 inside fillet 82(as shown in figure 16), as the K place in Fig. 3, when product 8 is shaping complete after, the main fuse 31 of the slide block of side core-pulling mechanism 3 by extracting out under the driving of cylinder or oil cylinder in product 8, in the process of extracting out, slanted kicking block 33 is under the driving of spring, slide obliquely along tilted footstock 32 slide rail, conveniently the fillet forming part 331 on slanted kicking block 33 is extracted out from product 8 inside, by cooperatively interacting of slanted kicking block 33 and tilted footstock 32, realize shaping at the inner fillet of product 8 82, and without the need to post-production.

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

Claims (10)

1. an ejecting mechanism, comprise side to take out slide block, take out the slider guide portion that slide block slippage is connected with side, slider guide portion is obliquely installed, side is taken out on slide block and is connected with driven unit, described driven unit driving side is taken out slide block and is done sliding motion along slider guide portion, it is characterized in that: also comprise the ejection piece of ejecting product, eject guide part, described ejection piece with eject guide part slippage and be connected, described side is taken out in slide block slipping and is driven ejection piece along ejecting guide part sliding motion.

2. ejecting mechanism according to claim 1, is characterized in that, described side is taken out slide block and is provided with driving chute, and described ejection piece is slidably arranged on and drives in chute.

3. ejecting mechanism according to claim 1, is characterized in that: described ejection piece and side are taken out to be provided with between slide block and ejection piece is released the spring driving chute.

4. ejecting mechanism according to claim 2, is characterized in that: described slider guide portion is Angle Pin, and the described guide part that ejects is guide post, and the length direction of guide post is identical with stripping direction.

5. one kind is equipped with the mould of the ejecting mechanism described in Claims 1-4, comprise dynamic model, cover half, dynamic model comprises moving platen, it is characterized in that: the ejecting mechanism of described mould is positioned on dynamic model, described slider guide portion is arranged on dynamic model, slide block is taken out in described side several, and several sides are taken out slide block in solid plate, are spliced to form core or die cavity.

6. mould according to claim 5, is characterized in that: described actuator is hydraulic cylinder, and hydraulic cylinder and side are taken out slide block and be fixedly connected with, and the driving shaft of hydraulic cylinder abuts with moving platen.

7. mould according to claim 5, is characterized in that: be provided with the angled-lift splits that oblique slip realizes side core-pulling in the solid plate of cover half, be provided with spring angled-lift splits being pushed to dynamic model between described angled-lift splits and solid plate.

8. mould according to claim 7, is characterized in that: angled-lift splits and side are taken out slide block and be provided with the guiding drag hook mutually fastened.

9. mould according to claim 8, it is characterized in that: some sides take out slide block or some angled-lift splitses can be spliced into die cavity, taken out in die cavity that slide block or angled-lift splits be spliced into by described side and be provided with inner sleeve, inner sleeve is made up of some mold inserts, and slide block or angled-lift splits are taken out for removably connecting in mold insert and side.

10. mould according to claim 5, it is characterized in that: dynamic model is provided with side core-pulling mechanism, described side core-pulling mechanism includes slanted kicking block, tilted footstock, the main fuse of slide block, described tilted footstock and the main fuse of slide block are fixed, described tilted footstock is provided with the slide rail of inclination, and slanted kicking block is connected by slide rail slippage with tilted footstock.