CN204414237U - Automatic die cutter - Google Patents

Abstract

The utility model discloses a kind of automatic die cutter, comprise frame and rotary wire spool, frame is fixed a band to band transfer module, band to band transfer module utilize keeper be formed with transmission channel, frame is also fixed with the upper glue roller contacted with each other and lower rubber roller, and two rubber rolls utilize frictional force by FFC by extracting out in wire spool and entering transmission channel.The first cylinder on sliding support and the position of the second cylinder corresponding with the position of pressure-bearing platform and mould respectively, and order about lower lock block respectively and press down and cutting knife incision.Frame is also provided with drive pulley and follower belt, drive pulley under the ordering about of the second motor rotation and by cut-off FFC extract out deliver in aggregate pipe.Control cabinet is electrically connected to realize Automated condtrol with each cylinder and motor.Compared with the mode manually cut, this automatic die cutter can significantly improve and cut efficiency, is conducive to realizing the production automation further.

Description

Automatic die cutter

Technical field

The utility model relates to a kind of flexible flat cable production equipment, particularly relates to a kind of automatic die cutter.

Background technology

Flexible flat cable (FFC) is Connection Element conventional in the electronic equipment such as liquid crystal display, LCD TV, and its ultra-thin thickness and soft deformable characteristic have been coincide the day by day compact trend of the volume of electronic equipment well.The finished product of flexible flat cable is rendered as sandwich construction and includes PTE (thermoplastic polyester) adhesive film, conductor layer, insulating barrier, screen layer (aluminium foil) and strengthen the sandwich constructions such as version on cross section, and when producing flexible flat cable, its sandwich construction point multiple step is fitted and is formed in different operation, because of FFC need with LCD TV circuit matching connection, and two ends size has rigorous, therefore die-cut secondary operations is carried out to matching feature district, FFC two ends, to guarantee to mate reliability with LCD TV.Traditional production process is that base material (by front operation output) is cut into monomer; again the aluminium foil of entire volume adhesive tape-like is also cut into monomer; then rely on and fit on base material monomer after one by one the protective layer of aluminium foil monomer being torn by hand; then artificial Punching Technology; this mode of production automaticity is low, inefficiency.Prior art has occurred automatically to be cut into monomer by entire volume trimming.If still use and manually carry out die-cut, still there is the problem in efficiency and qualification rate undoubtedly.

Therefore, be necessary to provide a kind of automatic die cutter that can cut FFC semi-finished product.

Utility model content

The purpose of this utility model is to provide a kind of automatic die cutter that can cut FFC semi-finished product.

To achieve these goals, the utility model provides a kind of automatic die cutter, comprises push cylinder, the second motor, aggregate pipe and control cabinet on frame, wire spool, band to band transfer module, two keepers, upper glue roller, lower rubber roller, the first motor, sliding support, pressure-bearing platform, mould, the first cylinder, the first fixed head, lower lock block, camera, the second cylinder, the second fixed head, cutting knife, pressing plate, drive pulley, follower belt, two.One end of described frame is fixed with a cantilever, described wire spool is articulated in described cantilever, described band to band transfer module is fixed in described frame and described band to band transfer module comprises front shoe and rear fixed plate, two round bars are fixed with between described front shoe and rear fixed plate, described keeper is sheathed on round bar described in two, and keeper described in two between described front shoe and rear fixed plate in arranged in parallel, form and the transmission channel of both ends open corresponding with described wire spool described in two between keeper.Described upper glue roller and lower rubber roller are articulated between described front shoe and rear fixed plate up and down accordingly, described upper glue roller is corresponding with described transmission channel with the contact position of lower rubber roller, and described first motor is fixed on described front shoe and orders about described lower rubber roller and rotates.Described sliding support is arranged in described frame along the direction perpendicular to described transmission channel slidably, described pressure-bearing platform and described mould are adjacent to the lower end being arranged at described sliding support, and the end face of described pressure-bearing platform and described mould is all lower than described transmission channel, described sliding support slidably reciprocates and makes described pressure-bearing platform and described mould alternately corresponding to the exit of described transmission channel, and the end face of described mould offers the forming tank inserted for described cutting knife.Described first cylinder is fixed on described sliding support upper end and is positioned at above described pressure-bearing platform, the piston rod of described first cylinder is towards downward-extension also fixing described first fixed head, described lower lock block to be positioned at below described first fixed head and to be connected with described first fixed head by two head rods, described head rod overcoat has the first spring, the two ends of described first spring respectively elasticity are resisted against described first fixed head and described lower lock block, and described first cylinder orders about described lower lock block elasticity and compresses on described pressure-bearing platform.Described camera to be fixed on described sliding support and the camera lens of described camera towards described pressure-bearing platform.Described second cylinder is fixed on described sliding support upper end and is positioned at the top of described mould, the piston rod of described second cylinder is towards downward-extension also fixing described second fixed head, described cutting knife is fixed on the bottom surface of described second fixed head, described pressing plate to be positioned at below described second fixed head and to be connected with described second fixed head by two the second connecting rods, described second connecting rod overcoat has the second spring, the two ends of described second spring respectively elasticity are resisted against described second fixed head and described pressing plate, described cutting knife is through described pressing plate corresponding with described forming tank, described second cylinder orders about described pressing plate and is pressed onto on described mould.Described frame is also fixed with two relative installing plates, installing plate described in two is positioned at the side that described sliding support deviates from described band to band transfer module, described drive pulley to be arranged at described in two between installing plate, described second motor is fixed on described installing plate and orders about described drive pulley and rotates, described in two, upper push cylinder is individually fixed in installing plate described in two, described in two, the piston rod of upper push cylinder arranges upward and is fixed with a gripper shoe respectively, and described follower belt to be arranged at described in two between gripper shoe.Described aggregate pipe is fixed on described frame and is positioned at the side that described drive pulley deviates from described sliding support, and described aggregate pipe has opening up storage tank, and one end of described aggregate pipe and height corresponding with described drive pulley is lower than described drive pulley.Described control cabinet is fixed on described frame and is electrically connected with described first motor, the first cylinder, camera, the second cylinder, upper push cylinder and the second motor.

Compared with prior art, described upper glue roller is make use of and lower rubber roller pulls half FFC due to the utility model, and utilize described lower lock block by the termination compacting of FFC, recycle described cutting knife with coordinating of the forming tank on described mould, FFC to be cut off, FFC after cut-out passes out in described aggregate pipe by two belt clamping movements again, compared with the mode manually cut, this automatic die cutter can significantly improve and cut efficiency, is conducive to realizing the production automation further.In die-cut process, described camera detects the position of FFC at any time and feeds back signal to described control cabinet, when deviation appears in the position of described FFC, described control cabinet controls described sliding support and makes corresponding adjustment, guarantees that described cutting knife can cut off FFC all the time exactly.

Preferably, described cantilever is provided with the 3rd motor, described 3rd motor orders about described wire spool and rotates.

Preferably, described in keeper described in one and two, round bar is fixed, keeper described in another slides and is arranged at described round bar, and slide be arranged at described round bar described keeper on to be threaded two knobs, knob described in two is resisted against round bar described in two after running through described keeper respectively.

Preferably, the lower end of keeper described in two offers the groove arranged in opposite directions respectively, and described groove extends along the length direction of described keeper, forms described transmission channel between relative described groove.

Particularly, the domes that keeper described in each includes two elongate configuration and is connected to described in two between elongate configuration, described domes stride across described upper glue roller, described groove and described transmission channel are divided into two sections by described upper glue roller and lower rubber roller, and entrance and the outlet of described transmission channel lay respectively at the both sides of described upper glue roller and lower rubber roller.

Preferably, slide up and down to respectively be provided with a slide block in described front shoe and rear fixed plate, the two ends of described upper glue roller are articulated in slide block described in two respectively, described front shoe and rear fixed plate are fixed with lower air cylinder respectively, descend the piston rod of air cylinder respectively to downward-extension described in two and fix with slide block described in two.

Accompanying drawing explanation

Fig. 1 is the stereogram of the utility model automatic die cutter.

Fig. 2 is the stereogram in Fig. 1 after automatic die cutter hidden parts parts.

Fig. 3 is the stereogram of another angle of the utility model automatic die cutter.

Fig. 4 is the stereogram in Fig. 3 after automatic die cutter hidden parts parts.

Fig. 5 is the stereogram in Fig. 4 after automatic die cutter hidden parts parts.

Fig. 6 is the structural representation of pressure-bearing platform and mould upper part in automatic die cutter.

Detailed description of the invention

Below in conjunction with the Figure of description provided, description is made to preferred embodiment of the present utility model.

Shown in composition graphs 1 to Fig. 6, disclose a kind of automatic die cutter in the present embodiment, comprise push cylinder 121, second motor 122, aggregate pipe 123 and control cabinet 124 on frame 101, wire spool 102, band to band transfer module 103, two keeper 104, upper glue roller 105, lower rubber roller 106, first motor 107, sliding support 108, pressure-bearing platform 109, mould 110, first cylinder 111, first fixed head 112, lower lock block 113, camera 114, second cylinder 115, second fixed head 116, cutting knife 117, pressing plate 118, drive pulley 119, follower belt 120, two.

One end of frame 101 is fixed with a cantilever 125, frame 101 is fixed in one end of cantilever 125, the other end of cantilever 125 stretches out outside frame 101, wire spool 102 is articulated in cantilever 125 and stretches out this one end outside frame 101, this one end of cantilever 125 is also fixed with the 3rd motor the 126, three motor 126 and orders about wire spool 102 and rotate.

Band to band transfer module 103 is fixed on the position near cantilever 125 in frame 101, some vertical rods be supported in frame 101 are had bottom band to band transfer module 103, band to band transfer module 103 comprises spaced front shoe 127 and rear fixed plate 128, two round bars 129 are fixed with between front shoe 127 and rear fixed plate 128, round bar 129 is vertical with front shoe 127 and rear fixed plate 128, is also parallel to the pivot center of wire spool 102.

Upper glue roller 105 and lower rubber roller about 106 are arranged at front shoe 127 and rear fixed plate 128 one end away from wire spool 102 accordingly, concrete, the two ends of lower rubber roller 106 are articulated in front shoe 127 and rear fixed plate 128 respectively, first motor 107 is fixed on front shoe 127 and orders about lower rubber roller 106 and rotates, slide up and down to respectively be provided with a slide block 130 in front shoe 127 and rear fixed plate 128, the two ends of upper glue roller 105 are articulated in two slide blocks 130 respectively, front shoe 127 and rear fixed plate 128 are fixed with lower air cylinder 131 respectively, the piston rod of twice air cylinders 131 is respectively to downward-extension and fix with two slide blocks 130.The pushing tow of lower air cylinder 131 makes upper glue roller 105 keep and lower rubber roller 106 close contact, thus FFC firmly can be clamped.Instantly, when the piston rod of air cylinder 131 is retracted on the net, drive and upper glue roller 105 moves and departs from lower rubber roller 106.

The domes that every certain outer member 104 comprises two elongate configuration and is connected between two elongate configuration, domes stride across upper glue roller 105 makes the two ends of determining outer member 104 lay respectively at the both sides of upper glue roller 105.Determine outer member 104 to be positioned at the part of upper glue roller 105 near the side of wire spool 102 and to be sheathed on two round bars 129, namely outer member 104 is determined perpendicular to round bar 129, concrete, two determine one in outer member 104 and round bar 129 is fixed, and another to determine outer member 104 be arranged on round bar 129 slidably, two knobs 132, two knob 132 that this certain outer member 104 has been threaded run through determine outer member 104 after be resisted against two round bars 129 respectively.

Two determine outer member 104 in arranged in parallel between front shoe 127 and rear fixed plate 128, and two determine the and transmission channel 133 of both ends open corresponding with the outlet direction of wire spool 102 of formation between outer member 104.Concrete, two determine the lower end that outer member 104 is positioned at the part of upper glue roller 105 both sides offers the groove 134 arranged in opposite directions respectively, and groove 134, along the length direction extension determining outer member 104, forms transmission channel 133 between relative groove 134.Groove 134 and transmission channel 133 are divided into two sections with lower rubber roller 106 by upper glue roller 105, namely entrance and the outlet of transmission channel 133 lay respectively at the both sides of upper glue roller 105 and lower rubber roller 106, and upper glue roller 105 is corresponding with transmission channel 133 with the contact position of lower rubber roller 106, namely same level position is in, the FFC stretched in leading portion by transmission channel 133 can enter between two rubber rolls, can again enter the back segment of transmission channel 133 from the FFC stretched out between two rubber rolls.

Sliding support 108 is arranged in frame 101 along the direction perpendicular to transmission channel 133 slidably, the entirety of sliding support 108 is roughly in " C " shape, its lower end has the flat board fixed for pressure-bearing platform 109 and mould 110, and the slip of this flat board is arranged on the slide rail of setting in frame 101.Sliding support 108 can adopt screw-nut structure to drive, namely motor is set in frame 101 inside and drives screw turns, and the nut being placed on leading screw is fixed on the flat board bottom described sliding support 108, described sliding support 108 during electric machine rotation, just can be driven to slide.

Pressure-bearing platform 109 and mould 110 are adjacent on the flat board of the lower end being arranged at sliding support 108, and the end face of pressure-bearing platform 109 and mould 110 is all lower than transmission channel 133.Sliding support 108 slidably reciprocates and makes pressure-bearing platform 109 and mould 110 alternately corresponding to the exit of transmission channel 133, when sliding support 108 slide into comparatively rear end (before rear fixed plate orientation be cross reference) time, described pressure-bearing platform 109 is corresponding with the outlet of described transmission channel 133, when sliding support 108 slide into comparatively front end time, described mould 110 is corresponding with the outlet of described transmission channel 133.

Pressure-bearing platform 109, first cylinder 111, first fixed head 112 and lower lock block 113 can be considered as an independent assembly, and described mould 110, second cylinder 15, second fixed head 116, cutting knife 117 and pressing plate 118 be considered as an independent assembly.Below the structure of these two assemblies is introduced respectively.

First cylinder 111 is fixed on sliding support 108 upper end and is positioned at above pressure-bearing platform 109, the piston rod of the first cylinder 111 is towards downward-extension and fix the first fixed head 112, lower lock block 113 to be positioned at below the first fixed head 112 and to be connected with the first fixed head 112 by two head rods 135, head rod 135 overcoat has the first spring 136, the two ends of the first spring 136 respectively elasticity are resisted against the first fixed head 112 and order about lower lock block 113 elasticity with lower lock block 113, first cylinder 111 and compress on pressure-bearing platform 109.Not the relation be fixedly connected with between lower lock block 113 with the first fixed head 112, but lower lock block 113 can be driven to rise when the first fixed head 112 rises, and after lower lock block 113 is supported pressure-bearing platform 109 and stopped, first fixed head 112 can also move relative to lower lock block 113, therefore can make compressing as elasticity compresses and non-rigidly compress of lower lock block 113 pairs of pressure-bearing platforms 109, avoid damaging parts.First fixed head 112 can realize like this with the annexation of lower lock block 113: offer two through holes in the upper end of the lower lock block 113 of " Z " shape, radially be expanded to larger than through hole after the lower end of two head rods 135 is passed down through through hole again, therefore up through hole can not be departed from, and lower lock block 113 can be made to follow on the first fixed head 112 move, lower lock block 113 stops rear head rod 135 to continue across through hole making the first fixed head 112 can also continue to move down simultaneously.Also above-mentioned annexation object can be realized in other way between certain first fixed head 112 and lower lock block 113.

The end face of mould 110 offers the forming tank 137 inserted for cutting knife 117, the shape of this forming tank 137 is determined according to the shape of the end of required FFC, after FFC adhesive tape to be pressed into forming tank 137 and to cut off by cutting knife 117, the shape of its fracture is the shape of the end of required FFC just.Mould 110 is removably mounted on sliding support 108, by more mold exchange 110, this bicker can be made to be used in the FFC of different specification size.Second cylinder 15 is fixed on sliding support 108 upper end and is positioned at the top of mould 110, the piston rod of the second cylinder 15 is towards downward-extension and fix the second fixed head 116, cutting knife 117 is fixed on the bottom surface of the second fixed head 116, pressing plate 118 to be positioned at below the second fixed head 116 and to be connected with the second fixed head 116 by two the second connecting rods 138, second connecting rod 138 overcoat has the second spring 139, the two ends of the second spring 139 respectively elasticity are resisted against the second fixed head 116 and pressing plate 118, cutting knife 117 is corresponding to forming tank 137 pressing plate 118, second cylinder 15 orders about pressing plate 118 and is pressed onto on mould 110.Second fixed head 116 and the relation of pressing plate 118 duplicate in the first fixed head 112 and the relation of lower lock block 113, make pressing plate 118 flexibly can compress the end face of mould 110.

Camera 114 is fixed on sliding support 108, and its fixed position is relative with the fixed position of the first cylinder 111, and the camera lens of camera 114 is towards pressure-bearing platform 109.When FFC stretch out transmission channel 133 outlet and be pressed down block 113 be pressed on pressure-bearing platform 109 time, camera 114 can take the position obtaining now FFC.

Frame 101 is also fixed with two relative installing plates 140, two installing plates 140 are positioned at the side that sliding support 108 deviates from band to band transfer module 103, drive pulley 119 is arranged between two installing plates 140, second motor 122 is fixed on installing plate 140 and orders about drive pulley 119 and rotates, on two, push cylinder 121 is individually fixed in two installing plates 140, on two, the piston rod of push cylinder 121 arranges upward and is fixed with the gripper shoe 141 of a T-shaped respectively, and follower belt 120 is arranged between two gripper shoes 141.When piston rod stretches out, follower belt 120 departs from drive pulley 119, FFC and can pass from interval between the two, and when piston rod is retracted, follower belt 120 contacts drive pulley 119, under the ordering about of the second motor 122, can pull FFC.

Aggregate pipe 123 is fixed on frame 101 and is positioned at the side that drive pulley 119 deviates from sliding support 108, aggregate pipe 123 is inclined to set and has opening up storage tank 142, one end that aggregate pipe 123 is higher corresponding with drive pulley 119 and height lower than drive pulley 119.

Control cabinet 124 is fixed on frame 101 and is electrically connected with the first motor 107, second motor 122, the 3rd motor 126, first cylinder 111, second cylinder 15, lower air cylinder 131, upper push cylinder 121 and camera 114.

When carrying out die-cut operation, the FFC of entire volume is put in wire spool 102, extracting its termination out determines between outer member 104 by the entrance insertion two of transmission channel 133, and be inserted between upper glue roller 105 and lower rubber roller 106, then automatic die cutter is started, first motor 107 orders about lower rubber roller 106 and rotates and pull FFC, FFC is made to reach on pressure-bearing platform 109 by the outlet of transmission channel 133, then the first cylinder 111 depress lower lock block 113, lower lock block 113 by the termination compacting of FFC on pressure-bearing platform 109, prevent the termination of FFC from tilting, the position signalling of FFC is passed to control cabinet 124 by camera 114 simultaneously.After completing pressing action, the piston rod of the first cylinder 111 is retracted, control cabinet 124 controls sliding support 108 forward slip according to the position signalling of FFC makes FFC aim at the forming tank 137 on mould 110 to suitable distance, then the second cylinder 15 stretches out, pressing plate 118 is pressed onto the end face of mould 110 and is compressed by FFC and can not be shifted, cutting knife 117 continues across pressing plate 118 and is insert molded in groove 137, is cut off by FFC.After completing die-cut action, two belt laminatings are by cut-off FFC clamping, and the second motor 122 startup is ordered about drive pulley 119 and rotated to drive FFC to enter in the storage tank 142 of aggregate pipe 123.

Compared with prior art, the utility model automatic die cutter can significantly improve and cut efficiency, is conducive to realizing the production automation further.

It should be noted that, for realizing the necessary kind of sensor of action control and setting position thereof, be that those skilled in the art can learn voluntarily according to the function of content disclosed in the present embodiment and required realization, therefore describe in the present embodiment.

Above disclosedly be only preferred embodiments of the present utility model, its effect facilitates those skilled in the art to understand and implements according to this, certainly the interest field of the utility model can not be limited with this, therefore according to the equivalent variations that the utility model claim is done, the scope that the utility model is contained still is belonged to.

Claims (6)

1. an automatic die cutter, is characterized in that: comprise push cylinder, the second motor, aggregate pipe and control cabinet on frame, wire spool, band to band transfer module, two keepers, upper glue roller, lower rubber roller, the first motor, sliding support, pressure-bearing platform, mould, the first cylinder, the first fixed head, lower lock block, camera, the second cylinder, the second fixed head, cutting knife, pressing plate, drive pulley, follower belt, two;

One end of described frame is fixed with a cantilever, described wire spool is articulated in described cantilever, described band to band transfer module is fixed in described frame and described band to band transfer module comprises front shoe and rear fixed plate, two round bars are fixed with between described front shoe and rear fixed plate, described keeper is sheathed on round bar described in two, and keeper described in two between described front shoe and rear fixed plate in arranged in parallel, form and the transmission channel of both ends open corresponding with described wire spool described in two between keeper

Described upper glue roller and lower rubber roller are articulated between described front shoe and rear fixed plate up and down accordingly, and described upper glue roller is corresponding with described transmission channel with the contact position of lower rubber roller, and described first motor is fixed on described front shoe and orders about described lower rubber roller and rotates,

Described sliding support is arranged in described frame along the direction perpendicular to described transmission channel slidably, described pressure-bearing platform and described mould are adjacent to the lower end being arranged at described sliding support, and the end face of described pressure-bearing platform and described mould is all lower than described transmission channel, described sliding support slidably reciprocates and makes described pressure-bearing platform and described mould alternately corresponding to the exit of described transmission channel, the end face of described mould offers the forming tank inserted for described cutting knife

Described first cylinder is fixed on described sliding support upper end and is positioned at above described pressure-bearing platform, the piston rod of described first cylinder is towards downward-extension also fixing described first fixed head, described lower lock block to be positioned at below described first fixed head and to be connected with described first fixed head by two head rods, described head rod overcoat has the first spring, the two ends of described first spring respectively elasticity are resisted against described first fixed head and described lower lock block, described first cylinder orders about described lower lock block elasticity and compresses on described pressure-bearing platform

Described camera to be fixed on described sliding support and the camera lens of described camera towards described pressure-bearing platform,

Described second cylinder is fixed on described sliding support upper end and is positioned at the top of described mould, the piston rod of described second cylinder is towards downward-extension also fixing described second fixed head, described cutting knife is fixed on the bottom surface of described second fixed head, described pressing plate to be positioned at below described second fixed head and to be connected with described second fixed head by two the second connecting rods, described second connecting rod overcoat has the second spring, the two ends of described second spring respectively elasticity are resisted against described second fixed head and described pressing plate, described cutting knife is through described pressing plate corresponding with described forming tank, described second cylinder orders about described pressing plate and is pressed onto on described mould,

Described frame is also fixed with two relative installing plates, installing plate described in two is positioned at the side that described sliding support deviates from described band to band transfer module, described drive pulley to be arranged at described in two between installing plate, described second motor is fixed on described installing plate and orders about described drive pulley and rotates, described in two, upper push cylinder is individually fixed in installing plate described in two, described in two, the piston rod of upper push cylinder arranges upward and is fixed with a gripper shoe respectively, and described follower belt to be arranged at described in two between gripper shoe

Described aggregate pipe is fixed on described frame and is positioned at the side that described drive pulley deviates from described sliding support, and described aggregate pipe has opening up storage tank, one end of described aggregate pipe and height corresponding with described drive pulley lower than described drive pulley,

Described control cabinet is fixed on described frame and is electrically connected with described first motor, the first cylinder, camera, the second cylinder, upper push cylinder and the second motor.

2. automatic die cutter as claimed in claim 1, is characterized in that: described cantilever is provided with the 3rd motor, and described 3rd motor orders about described wire spool and rotates.

3. automatic die cutter as claimed in claim 1, it is characterized in that: described in keeper described in one and two, round bar is fixed, keeper described in another slides and is arranged at described round bar, and slide be arranged at described round bar described keeper on to be threaded two knobs, knob described in two is resisted against round bar described in two after running through described keeper respectively.

4. automatic die cutter as claimed in claim 1, it is characterized in that: the lower end of keeper described in two offers the groove arranged in opposite directions respectively, described groove extends along the length direction of described keeper, forms described transmission channel between relative described groove.

5. automatic die cutter as claimed in claim 4, it is characterized in that: the domes that keeper described in each includes two elongate configuration and is connected to described in two between elongate configuration, described domes stride across described upper glue roller, described groove and described transmission channel are divided into two sections by described upper glue roller and lower rubber roller, and entrance and the outlet of described transmission channel lay respectively at the both sides of described upper glue roller and lower rubber roller.

6. automatic die cutter as claimed in claim 1, it is characterized in that: slide up and down to respectively be provided with a slide block in described front shoe and rear fixed plate, the two ends of described upper glue roller are articulated in slide block described in two respectively, described front shoe and rear fixed plate are fixed with lower air cylinder respectively, descend the piston rod of air cylinder respectively to downward-extension described in two and fix with slide block described in two.