CN208485297U - A kind of automatic loading and unloading device of Ceramic manufacturing - Google Patents

Abstract

The utility model discloses a kind of automatic loading and unloading devices of Ceramic manufacturing, including feeding material component, item grabbing assembly, material tray lifting component and straight line mould group, item grabbing assembly is installed in straight line mould group, the front of straight line mould group is arranged in feeding material component, the side of feeding material component is arranged in material tray lifting component, and the lower section of item grabbing assembly is arranged in.The utility model structure is simple, item grabbing assembly grabs material, material is delivered on feeding material component by straight line mould group, material is delivered to next station by feeding material component, and the product completed the process is conveyed and is resetted, item grabbing assembly grabs the product completed the process, and it is delivered in material tray lifting component by straight line mould group, the automatic loading/unloading of ceramic material is realized with this, greatly improve work efficiency the production efficiency with product, the time that the consumption and artificial loading and unloading for reducing labour are wasted, simultaneously, reduce the damage that artificial loading and unloading cause product, the normal quality of product is effectively ensured.

Description

A kind of automatic loading and unloading device of Ceramic manufacturing

Technical field

The utility model relates to ceramic processing technique fields, more specifically, be related to a kind of Ceramic manufacturing it is automatic on Blanking device.

Background technique

It is needed during Ceramic manufacturing by multiple steps ability final moldings, it is therefore desirable to constantly ceramics be carried out Blanking, clamping, however, in existing lathe Ceramic manufacturing, mostly using the artificial clamping for carrying out loading and unloading, artificial loading and unloading work To make low efficiency, causes labour's consumption big, cost consumption is big, and during artificial loading and unloading, it is easy that product is caused to damage, Influence the quality of production of product.

Utility model content

The purpose of the utility model is to overcome drawbacks described above in the prior art, and providing one kind can be realized ceramic material Automatic loading/unloading, improve working efficiency and production efficiency, reduce labour's consumption, the ceramics of the quality of production are effectively ensured The automatic loading and unloading device of processing.

To achieve the above object, the utility model provides a kind of automatic loading and unloading device of Ceramic manufacturing, including rack, Feeding material component, item grabbing assembly, material tray lifting component and straight line mould group, the feeding material component, item grabbing assembly and charging tray Lifting assembly is installed on the rack, and the item grabbing assembly is installed in straight line mould group, and the feeding material component is arranged straight The front of line mould group, the side of feeding material component is arranged in the material tray lifting component, and the lower section of item grabbing assembly is arranged in, The item grabbing assembly includes the first driving cylinder and crawl sucker, and the crawl sucker is respectively installed in sucker fixed plate Left and right ends, the first driving cylinder and sucker fixed plate are sequentially connected, and grab so that crawl sucker be driven to pump Material is taken, the first driving cylinder is installed in straight line mould group by air cylinder fixed plate, and can be moved along XY axis direction, Crawl sucker is driven to move along XY axis direction with this.

Preferably, the feeding material component includes upper and lower flitch and the second driving cylinder, the setting of flitch up and down exists Above front end of rack, the second driving cylinder installing on the rack, and is sequentially connected with upper and lower flitch, to drive loading and unloading The front-rear reciprocation movement of plate.

Preferably, the flitch up and down is respectively arranged with feeding end and discharging end, orientation angle is provided on discharging end.

Preferably, the feeding material component further includes guide post, the guide post is separately positioned on flitch lower end up and down The left and right sides on.

Preferably, the material tray lifting component includes upper flitch, blanking plate, slide assemblies, transport mechanism and third Drive cylinder, the slide assemblies are respectively installed on the one side of rack, the upper flitch and blanking plate respectively with it is corresponding Slide assemblies are slidably connected, and the transport mechanism is arranged between slide assemblies, and the side of the transport mechanism and upper flitch pass Dynamic connection, the other side and blanking plate transmission connect, and the third driving cylinder installing on the rack, and is driven with transport mechanism and connects It connects, so that transport mechanism be driven to rotate, drives upper flitch to move upwards with this, blanking plate moves downward.

Preferably, being respectively arranged with several limited posts on the upper flitch, blanking plate.

Preferably, the transport mechanism includes feed belt and transmission wheel, the transmission wheel is installed by fixed plate On the rack, the feed belt is set in transmission wheel, and the side of the feed belt and upper flitch are sequentially connected, the other side It is sequentially connected with blanking plate, the third driving cylinder and feed belt are sequentially connected, to drive feed belt in transmission wheel On rotation, drive upper flitch to walk about upwards with this, blanking plate is walked about downwards.

Preferably, the straight line mould group includes longitudinal delivery mechanism and cross drive mechanism, the longitudinal direction conveyer Structure is installed in above rack, and the cross drive mechanism is installed on longitudinal delivery mechanism, and can be with respect to longitudinal delivery mechanism before After move, the item grabbing assembly is installed in cross drive mechanism, and can relatively transverse transport mechanism side-to-side movement.

Preferably, the longitudinal delivery mechanism includes that the first sliding rail, the first sliding block and 4 wheel driven are taken offence cylinder, first is sliding Rail is installed on the rack, and first sliding block is slidably connected with the first sliding rail, and the cross drive mechanism is installed in the first sliding block On, take offence cylinder and the first sliding block of the 4 wheel driven is sequentially connected, so that moving forward and backward for the first sliding block of driving, drives transverse direction with this Transport mechanism moves forward and backward.

Preferably, the cross drive mechanism includes the second sliding rail, the second sliding block and the 5th driving cylinder, described the Two sliding rails are installed on the first sliding block, and second sliding block is slidably connected with the second sliding rail, the 5th driving cylinder and second Sliding block transmission connection, thus side-to-side movement of the second sliding block of driving on the second sliding rail.

Compared with prior art, the utility model has the beneficial effects that:

The utility model structure is simple, including feeding material component, item grabbing assembly, material tray lifting component and straight line mould group, Item grabbing assembly is installed in straight line mould group, and the front of straight line mould group is arranged in feeding material component, and the setting of material tray lifting component exists The side of feeding material component, and the lower section of item grabbing assembly is set, item grabbing assembly grabs the object in material tray lifting component Material, is delivered on feeding material component, material is delivered to next processing stations and is added by feeding material component by material by straight line mould group Work, and the product completed the process is conveyed and is resetted, item grabbing assembly grabs the product completed the process, and will by straight line mould group The product completed the process is delivered in material tray lifting component, and the automatic loading/unloading of ceramic material is realized with this, substantially increases work Make the production efficiency of efficiency and product, and reduce the consumption of labour, reduces the time that artificial loading and unloading are wasted, meanwhile, The damage that artificial loading and unloading cause product is reduced, the normal quality of product is effectively ensured.

Detailed description of the invention

In order to illustrate the embodiment of the utility model or the technical proposal in the existing technology more clearly, below will be to embodiment Or attached drawing needed to be used in the description of the prior art is briefly described, it should be apparent that, the accompanying drawings in the following description is this Some embodiments of utility model, for those of ordinary skill in the art, without creative efforts, also Other drawings may be obtained according to these drawings without any creative labor.

Fig. 1 is a kind of overall structure diagram of the automatic loading and unloading device of Ceramic manufacturing provided by the utility model；

Fig. 2 is a kind of structural representation of another angle of the automatic loading and unloading device of Ceramic manufacturing provided by the utility model Figure；

Fig. 3 is that the structure of the feeding material component in a kind of automatic loading and unloading device of Ceramic manufacturing provided by the utility model is shown It is intended to；

Fig. 4 is the knot of the item grabbing assembly in a kind of automatic loading and unloading device of Ceramic manufacturing provided by the utility model Structure schematic diagram；

Fig. 5 is the knot of the material tray lifting component in a kind of automatic loading and unloading device of Ceramic manufacturing provided by the utility model Structure schematic diagram.

Specific embodiment

It is practical new below in conjunction with this to keep the objectives, technical solutions, and advantages of the embodiments of the present invention clearer Attached drawing in type embodiment, the technical scheme in the utility model embodiment is clearly and completely described, it is clear that is retouched The embodiment stated is the utility model a part of the embodiment, instead of all the embodiments.Based on the implementation in the utility model Example, every other embodiment obtained by those of ordinary skill in the art without making creative efforts belong to The range of the utility model protection.

Fig. 1 and Fig. 2 are please referred to, the embodiments of the present invention provide a kind of automatic loading and unloading device of Ceramic manufacturing, Including feeding material component 2, item grabbing assembly 3, material tray lifting component 4 and straight line mould group 5, item grabbing assembly 3 is installed in straight line In mould group 5, the front of straight line mould group 5 is arranged in feeding material component 2, and the side of feeding material component 2 is arranged in material tray lifting component 4, and The lower section of item grabbing assembly 3 is set, the present embodiment is described in detail with reference to the accompanying drawing.

As depicted in figs. 1 and 2, feeding material component 2, material tray lifting component 4 and straight line mould group 5 are installed on the rack, item Grabbing assembly 3 is installed in straight line mould group 5, and the front of straight line mould group 5 is arranged in feeding material component 2, and the setting of material tray lifting component 4 exists The side of feeding material component 2, and the lower section of item grabbing assembly 3 is set, item grabbing assembly 3 grabs in material tray lifting component 4 Material, material is delivered on feeding material component 2 by straight line mould group 5, material is delivered to next processing stations by feeding material component 2 It is processed, and the product completed the process is conveyed and is resetted, item grabbing assembly 3 grabs the product completed the process, and by straight The product completed the process is delivered in material tray lifting component 4 by line mould group 5, the automatic loading/unloading of ceramic material is realized with this, greatly The production efficiency with product is improved work efficiency greatly, and reduces the consumption of labour, reduces what artificial loading and unloading were wasted Time, meanwhile, the damage that artificial loading and unloading cause product is reduced, the normal quality of product is effectively ensured.

Wherein, as shown in figure 4, item grabbing assembly 3 includes the first driving cylinder 31 and crawl sucker 32, sucker 32 is grabbed The left and right ends of sucker fixed plate 33 are respectively installed in, the first driving cylinder 31 and sucker fixed plate 33 are sequentially connected, to drive Dynamic pumping for sucker 32 of crawl grabs material, and the first driving cylinder 31 is installed in straight line mould by air cylinder fixed plate 34 It in group 5, and can be moved along XY axis direction, drive crawl sucker 32 to move along XY axis direction with this, the first driving cylinder 31 Driving crawl sucker 32 moves downward, and grabs material, realizes automatically grabbing for material with this, realize automatically delivering for material.

As shown in figure 3, feeding material component 2 includes upper and lower flitch 21 and the second driving cylinder 22, upper and lower flitch 21 is arranged in machine Above 1 front end of frame, the second driving cylinder 22 is installed in rack 1, and is sequentially connected with upper and lower flitch 21, to drive loading and unloading The front-rear reciprocation movement of plate 21, second driving cylinder 22 drive up and down flitch 21 travel forward material to be processed is delivered to it is next Station, and the product completed the process is conveyed and is resetted, that realizes material is delivered to next station automatically, effectively increases production effect Rate reduces the investment of labour.

Preferably, flitch 21 is respectively arranged with feeding end 211 and discharging end 212 up and down, it is fixed to be provided on discharging end 212 Parallactic angle 213 grabs sucker 32 for material to be processed and is placed in feeding end 211, and the product completed the process is placed in discharging end 212, passes through The setting of orientation angle 213 enables product to be placed exactly in discharging end 212, product is effectively prevent to occur in placement process Offset, guarantees the orderly efficient transmission of product.

Preferably, feeding material component 2 further includes guide post 23, guide post 23 is separately positioned on the left and right of upper and lower 21 lower end of flitch On two sides, by the setting of guide post 21, be effectively ensured that upper and lower flitch 21 is stable to move forward and backward, avoid up and down flitch 21 exist It shifts in motion process, the conveying of product is effectively ensured.

As shown in figure 5, material tray lifting component 4 includes upper flitch 41, blanking plate 42, slide assemblies 43,44 and of transport mechanism Third drives cylinder 45, and slide assemblies 43 are respectively installed on the one side of rack 1, upper flitch 41 and blanking plate 42 respectively with phase The slide assemblies 43 answered are slidably connected, and transport mechanism 44 is arranged between slide assemblies 43, the side of transport mechanism 44 and feeding Plate 41 is sequentially connected, and the other side and blanking plate 42 are sequentially connected, and third driving cylinder 45 is installed in rack 1, and and conveyer Structure 44 is sequentially connected, so that transport mechanism 44 be driven to rotate, drives upper flitch 41 to move upwards with this, and blanking plate 42 is downward Movement, wherein transport mechanism 44 includes feed belt 441 and transmission wheel 442, and transmission wheel 442 is installed in machine by fixed plate 443 On frame 1, feed belt 441 is set in transmission wheel 442, and the side of feed belt 441 and upper flitch 41 are sequentially connected, the other end It is sequentially connected with blanking plate 42, third drives cylinder 45 and feed belt 441 to be sequentially connected, so that feed belt 441 be driven to exist Rotation in transmission wheel 442 drives upper flitch 41 to go on upwards with this, and blanking plate 42 is walked about downwards, when putting in upper flitch 41 The material for setting disk is whole after processing is completed, and item grabbing assembly 3 grabs holding tray superposition and is placed on the holding tray of blanking plate 42, Third driving cylinder 45 drives feed belt 441 to rotate, and blanking plate 42 is driven to move downward the height of a holding tray, on Flitch 41 moves upwards the height of a holding tray, realizes that the automatic packaging of material is collected with this, avoids after processing is completed in addition Product is collected, is greatly improved work efficiency and production efficiency.

Preferably, upper flitch 41 and blanking plate 42 are respectively arranged with several limited posts 46, by the setting of limited post 46, By holding tray fixed placement in upper flitch 41 and blanking plate 42, holding tray is avoided to shift in the equipment course of work, shadow Ring the conveying of material.

As depicted in figs. 1 and 2, straight line mould group 5 includes longitudinal delivery mechanism 51 and cross drive mechanism 52, longitudinal driver Structure 51 is installed in the top of rack 1, and cross drive mechanism 52 is installed on longitudinal delivery mechanism 51, and can relatively longitudinal conveyer Structure 51 moves forward and backward, and item grabbing assembly 3 is installed in cross drive mechanism 52, and can relatively transverse transport mechanism 52 or so Movement, wherein longitudinal delivery mechanism 51 includes that the first sliding rail 511, the first sliding block 512 and 4 wheel driven are taken offence cylinder 513, the first sliding rail 511 are installed in rack 1, and the first sliding block 512 is slidably connected with the first sliding rail 511, and it is sliding that cross drive mechanism 52 is installed in first Block 512, take offence cylinder 513 and the first sliding block 512 of 4 wheel driven is sequentially connected, so that the first sliding block 512 of driving moves forward and backward, with This drives cross drive mechanism 52 to move forward and backward, and cross drive mechanism 52 includes the second sliding rail 521, second sliding block 522 and the Five driving cylinders 523, the second sliding rail 521 are installed on the first sliding block 512, and the second sliding block 522 and the sliding of the second sliding rail 521 connect It connects, the 5th driving cylinder 523 and the second sliding block 522 are sequentially connected, so that the second sliding block 522 of driving is on the second sliding rail 521 Side-to-side movement drives the first sliding block 512 to move forward and backward, drives the front and back of item grabbing assembly 3 by 4 wheel driven cylinder 513 of taking offence Movement, the 5th driving cylinder 523 drive the side-to-side movement of the second sliding block 522, drive the side-to-side movement of item grabbing assembly 3, with This realizes that item grabbing assembly 3 along the movement of XY axis direction, is realized that material is delivered to corresponding position automatically with this, is effectively ensured The effective of material conveys.

When equipment is run, the holding tray equipped with material to be processed is placed in upper flitch 41, will be used to place processing The holding tray of the product of completion is placed on blanking plate 42,4 wheel driven take offence cylinder 513 drive 3 side-to-side movement of item grabbing assembly, 5th driving cylinder 523 drives item grabbing assembly 3 to move forward and backward, and reaches the top of material to be processed, the first driving cylinder 31 Driving crawl sucker 32 moves downward, and after grabbing material, the first driving cylinder 31 resets, and then, 4 wheel driven is taken offence cylinder 513 and the Five driving cylinders 523 continue that item grabbing assembly 3 is driven to move along XY axis, reach the top of flitch 21 up and down, the first driving gas The driving crawl sucker 32 of cylinder 31 moves downward, and material is placed in the feeding end 211 of upper and lower flitch 21, and the first driving cylinder 31 is multiple Position, then, the second driving cylinder 22 drive upper and lower flitch 21 to travel forward, and material to be processed is sent into next station and is added Work, and the product completed the process is placed in the discharging end 212 of upper and lower flitch 21, the second driving cylinder 22, which resets to drive, to be completed the process Product reset, 4 wheel driven take offence cylinder 513 and the 5th driving cylinder 523 drive item grabbing assembly 3 reach discharging end 212 it is upper Side, the first driving driving crawl sucker 32 of cylinder 31 move downward, and grab the product completed the process, the first driving cylinder 31 is multiple Position, then, 4 wheel driven take offence cylinder 513 and the 5th driving cylinder 523 drive item grabbing assembly 3 moved along XY axis, reach blanking The top of holding tray on plate 42, the first driving driving crawl sucker 32 of cylinder 31 move downward, the product completed the process are put Enter in the holding tray on blanking plate 42, first driving cylinder 31 reset, 4 wheel driven take offence cylinder 513 and the 5th driving cylinder 523 according to Secondary reset drives item grabbing assembly 3 to reset, and constantly back and forth carries out automatic loading/unloading to material with this.

In addition, after the materiel machining to be processed in upper flitch 41 is fully completed, 4 wheel driven cylinder 513 and the 5th of taking offence is driven Cylinder 523 of taking offence driving item grabbing assembly 3 is moved along XY axis, reaches the top of the holding tray of upper flitch 41, the first driving cylinder 31 driving crawl suckers 32 move downward, and grab holding tray, and the first driving cylinder 31 resets, and 4 wheel driven is taken offence cylinder 513 and the 5th Driving cylinder 523 drives item grabbing assembly 3 to move along XY axis, reaches the top of the holding tray of blanking plate 42, the first driving gas Cylinder 31 moves downward, and holding tray superposition is placed on the holding tray of blanking plate 42, and the first driving cylinder 31 resets, the 4th driving Cylinder 513 and the 5th driving cylinder 523 successively reset, and then, third driving cylinder 45 drives feed belt 441 to rotate, Blanking plate 42 is driven to move downward the height of a holding tray, upper flitch 41 moves upwards the height of a holding tray, not with this Break and move back and forth, until 41 item of upper flitch is whole after processing is completed, third drives cylinder 45 to reset, so that upper flitch 41 is under Flitch 42 resets, and so far completes complete movement.

In conclusion the utility model structure is simple, including feeding material component 2, item grabbing assembly 3, material tray lifting component 4 With straight line mould group 5, item grabbing assembly 3 is installed in straight line mould group 5, and the front of straight line mould group 5 is arranged in feeding material component 2, material The side of feeding material component 2 is arranged in disk lifting assembly 4, and the lower section of item grabbing assembly 3 is arranged in, and item grabbing assembly 3 is grabbed Material is delivered on feeding material component 2 by the material in feeding disk lifting assembly 4 by straight line mould group 5, and feeding material component 2 is by material It is delivered to next processing stations to be processed, and the product completed the process is conveyed and is resetted, the crawl of item grabbing assembly 3 processes At product, and the product completed the process is delivered in material tray lifting component 4 by straight line mould group 5, ceramic object is realized with this The automatic loading/unloading of material greatly improves work efficiency the production efficiency with product, and reduces the consumption of labour, reduces people The time that work loading and unloading are wasted, meanwhile, the damage that artificial loading and unloading cause product is reduced, the normal matter of product is effectively ensured Amount.

Above-described embodiment is the preferable embodiment of the utility model, but the embodiments of the present invention is not by above-mentioned The limitation of embodiment, it is made under other any spiritual essence and principles without departing from the utility model to change, modify, replacing In generation, simplifies combination, should be equivalent substitute mode, is included within the protection scope of the utility model.

Claims (10)

1. a kind of automatic loading and unloading device of Ceramic manufacturing, including rack (1), it is characterised in that: further include feeding material component (2), Item grabbing assembly (3), material tray lifting component (4) and straight line mould group (5), the feeding material component (2), item grabbing assembly (3) It is installed on rack (1) with material tray lifting component (4), the item grabbing assembly (3) is installed in straight line mould group (5), institute Feeding material component (2) setting is stated in the front of straight line mould group (5), the material tray lifting component (4) is arranged the one of feeding material component (2) Side, and be arranged in the lower section of item grabbing assembly (3), the item grabbing assembly (3) includes the first driving cylinder (31) and grabs It takes sucker (32), crawl sucker (32) is respectively installed in the left and right ends of sucker fixed plate (33), the first driving gas Cylinder (31) and sucker fixed plate (33) are sequentially connected, so that driving crawl sucker (32) to pump grabs material, it is described First driving cylinder (31) is installed in straight line mould group (5) by air cylinder fixed plate (34), and can be moved along XY axis direction, Crawl sucker (32) is driven to move along XY axis direction with this.

2. a kind of automatic loading and unloading device of Ceramic manufacturing according to claim 1, it is characterised in that: the feeding material component It (2) include upper and lower flitch (21) and the second driving cylinder (22), the flitch (21) up and down is arranged above rack (1) front end, Second driving cylinder (22) is installed on rack (1), and is sequentially connected with upper and lower flitch (21), to drive flitch up and down (21) front-rear reciprocation movement.

3. a kind of automatic loading and unloading device of Ceramic manufacturing according to claim 2, it is characterised in that: the flitch up and down (21) it is respectively arranged with feeding end (211) and discharging end (212), orientation angle (213) are provided on discharging end.

4. a kind of automatic loading and unloading device of Ceramic manufacturing according to claim 2, it is characterised in that: the feeding material component It (2) further include guide post (23), the guide post (23) is separately positioned on the left and right sides of flitch (21) lower end up and down.

5. a kind of automatic loading and unloading device of Ceramic manufacturing according to claim 1, it is characterised in that: the material tray lifting Component (4) includes that upper flitch (41), blanking plate (42), slide assemblies (43), transport mechanism (44) and third drive cylinder (45), The slide assemblies (43) are respectively installed on the one side of rack (1), the upper flitch (41) and blanking plate (42) respectively with Corresponding slide assemblies (43) are slidably connected, and the transport mechanism (44) is arranged between slide assemblies (43), the conveyer The side and upper flitch (41) of structure (44) are sequentially connected, and the other side and blanking plate (42) transmission connect, and the third drives cylinder (45) it is installed on rack (1), and is sequentially connected with transport mechanism (44), so that transport mechanism (44) is driven to rotate, with This drives upper flitch (41) to move upwards, and blanking plate (42) moves downward.

6. a kind of automatic loading and unloading device of Ceramic manufacturing according to claim 5, it is characterised in that: the upper flitch (41), several limited posts (46) are respectively arranged on blanking plate (42).

7. a kind of automatic loading and unloading device of Ceramic manufacturing according to claim 5, it is characterised in that: the transport mechanism It (44) include feed belt (441) and transmission wheel (442), the transmission wheel (442) is installed in rack by fixed plate (443) (1) on, the feed belt (441) is set on transmission wheel (442), the side of the feed belt (441) and upper flitch (41) it is sequentially connected, the other side and blanking plate (42) are sequentially connected, and third driving cylinder (45) and feed belt (441) passes Dynamic connection, to drive rotation of the feed belt (441) on transmission wheel (442), drives upper flitch (41) to walk about upwards with this, Blanking plate (42) is walked about downwards.

8. a kind of automatic loading and unloading device of Ceramic manufacturing according to claim 1, it is characterised in that: the straight line mould group It (5) include longitudinal delivery mechanism (51) and cross drive mechanism (52), the longitudinal delivery mechanism (51) is installed on rack (1) Side, the cross drive mechanism (52) are installed on longitudinal delivery mechanism (51), and can be with respect to before and after longitudinal delivery mechanism (51) Movement, the item grabbing assembly (3) are installed on cross drive mechanism (52), and can relatively transverse transport mechanism (52) left and right Movement.

9. a kind of automatic loading and unloading device of Ceramic manufacturing according to claim 8, it is characterised in that: longitudinal transmission Mechanism (51) includes that the first sliding rail (511), the first sliding block (512) and 4 wheel driven are taken offence cylinder (513), the first sliding rail (511) installing On rack (1), first sliding block (512) is slidably connected with the first sliding rail (511), cross drive mechanism (52) installing On the first sliding block (512), take offence cylinder (513) and the first sliding block (512) of the 4 wheel driven are sequentially connected, so that driving first is sliding Block (512) move forward and backward, and drive moving forward and backward for cross drive mechanism (52) with this.

10. a kind of automatic loading and unloading device of Ceramic manufacturing according to claim 9, it is characterised in that: described laterally to pass Sending mechanism (52) includes the second sliding rail (521), the second sliding block (522) and the 5th driving cylinder (523), second sliding rail (521) it being installed on the first sliding block (512), second sliding block (522) is slidably connected with the second sliding rail (521), and the described 5th Cylinder (523) and the second sliding block (522) are driven to be sequentially connected, so that driving the second sliding block (522) is on the second sliding rail (521) Side-to-side movement.