CN110315135A - A kind of aluminium alloy production technology equipment - Google Patents

Abstract

The invention discloses a kind of aluminium alloy production technology equipment, including aluminium sheet cutting box, the cutting room of connection free surrounding space on the right side of a left hand end wall and lower end wall is provided in the aluminium sheet cutting box, a transport establishment is provided in the cutting room, it is driven in the transport establishment by belt friction, is provided with a transverse cutting mechanism on the right side of the transport establishment；Present apparatus structure is simple, can automation to the aluminium alloy plate of manufacture realize it is longitudinal sectional with it is crosscutting, it is set to meet the applicable specification of aluminium alloys for auto body plate, reduce subsequent job step, and adjust automatically cutting position and underproof aluminium alloy plate can be separated when positional shift occurs for aluminium alloy plate, while improving product quality, strengthen the stability of device, and whole device linkage is higher, integrated automation degree is higher, high production efficiency.

Description

A kind of aluminium alloy production technology equipment

Technical field

The present invention relates to aluminium alloy production technical field, specially a kind of aluminium alloy production technology equipment.

Background technique

Aluminium alloy plate is a kind of industrial building materials, is answered extensively because good collision performance and light material is possessed For in various instruments, middle-to-high end car vehicle body to be there are many being manufactured with aluminium alloy, in the production process to the rule of aluminium alloy Required by lattice have, and existing aluminium alloy plate process equipment largely only has one of crosscutting or longitudinal sectional function, and closes in aluminium Manpower regulation is needed when golden plate shifts and can not automate adjusting, needs worker to observe in real time, device stability and automation Degree is not high.

Summary of the invention

It is mentioned above in the background art to solve the purpose of the present invention is to provide a kind of aluminium alloy production technology equipment Problem.

To achieve the above object, the invention provides the following technical scheme: a kind of aluminium alloy production technology equipment, including aluminium sheet Cutting box is provided with the cutting room of connection free surrounding space on the right side of a left hand end wall and lower end wall, institute in the aluminium sheet cutting box It states and is provided with a transport establishment in cutting room, be driven in the transport establishment by belt friction, the transport establishment includes Motor, aligns wheel and aluminium alloy plate are transported, the transport motor works as device partial power source drive device, by described The frictional drive of upper and lower sides aligns wheel can drive the aluminium alloy plate to move right, and the transport establishment further includes sector gear, A transverse cutting mechanism is provided on the right side of the transport establishment, the transverse cutting mechanism includes limit rotating disk and starting block, the aluminium alloy Plate can push the starting block to rotate clockwise when moving right, so that the limit rotating disk be made to move downward and the sector Wheel engagement, the transverse cutting mechanism further includes brace, revolving knife and tool apron, can cooperate with the tool apron when revolving knife declines from And cut off the aluminium alloy plate, the rotation of the brace can drive the revolving knife to move repeatedly up and down, the transverse cutting mechanism Further include mobile bevel gear, drive rod and positioning bevel gear, is provided with a longitudinal sectional mechanism on the upside of the transport establishment, it is described longitudinal sectional Mechanism includes arc block, drive shaft and longitudinal knife, and when the aluminium alloy plate shifts, the longitudinal knife can not cut described Aluminium alloy plate, to make the arc block rotate counterclockwise reset, to move after driving the driving axial, the slitter Structure further includes half gear, rack bar and pull lever, and the drive shaft can drive half gear to move to backward and the rack gear Bar engagement, so that the drive rod rotates counterclockwise, pushes the mobile bevel gear to the left so that the pull lever be driven to decline Move to and engaged with the positioning bevel gear, the longitudinal sectional mechanism further include elevating lever, cam, corner block, stop slot with it is rectangular Block, the elevating lever can drive the cam to rotate, the side can be only pushed when the cam turns an angle when rising Shape block moves backward, so that it is stuck in next blocking slot to drive the corner block to enter.

Preferably, the transport establishment includes drive pulley, there are four defeated for the cutting room aft bulkhead rotation connection Send axis, the conveying axis is fixedly connected with a belt pulley for feeding foil on the conveying axis, passes through skin between the belt pulley for feeding foil of the upside two It with frictional drive, is driven between the belt pulley for feeding foil of the downside two also by belt friction, is provided with one on front side of the belt pulley for feeding foil The aligns wheel being fixedly connected with the conveying axis, the lower right side conveying shaft rear end has been connected by power a rear end and the cutting is empty Between the transport motor that is fixedly connected of aft bulkhead, one is provided between the belt pulley for feeding foil and aligns wheel and is fixedly connected with the conveying axis Output pulley, frictional drive has an aluminium alloy plate, the cutting room aft bulkhead rotation connection between the upper and lower sides aligns wheel There is a pulley shaft, a transmission belt connecting by belt with the output pulley frictional drive is fixedly connected on the pulley shaft Wheel, the drive pulley rear side are provided with a sector gear being fixedly connected with the pulley shaft.

Preferably, the longitudinal sectional mechanism includes cam, lower end wall connection institute is provided in the cutting room upper end wall The shifting chute of cutting room is stated, there are five the blocking slot of equidistantly distributed, the blocking slot lower end walls for setting in the shifting chute It is connected to the shifting chute, a lower end is slidably connected in the shifting chute through the shifting chute lower end wall and is located at the cutting T-bar in space is provided with the elastic groove that a upper end wall is connected to the shifting chute, the elasticity in the T-bar upper surface Slot lower end wall is fixedly connected with an elastomeric spring, and the elastomeric spring upper end is fixedly connected with a upper end on the shifting chute End wall and the corner block being located in the blocking slot, the T-bar lower end is fixedly connected with a displaced block, sets in the displaced block It is equipped with the displacement slot that a left hand end wall is connected to the cutting room, the aluminium alloy plate right end runs through the displacement slot, the shifting Position block upper surface is symmetrically fixedly connected there are four square block centered on T-bar, and the cutting room aft bulkhead is interior to be arranged There is a front bulkhead to be connected to the lifting groove of the cutting room, a front end is slidably connected in the lifting groove through the lifting groove Front bulkhead and the elevator being located in the cutting room, in the lifting groove elevator lower end surface be fixedly connected with a lower end with The lifting spring that the lifting groove lower end wall is fixedly connected；

Wherein, elevator left side is fixedly connected with a supporting block in the cutting room, and the supporting block upper surface left side is solid Surely it is connected with an elevating lever, the supporting block lower end surface is fixedly connected with a pull lever, and the cutting room upper end wall is fixed to be connected It is connected to a rack bar, the elevator front end face is fixedly connected with a longitudinal sectional motor, and the longitudinal sectional motor front end face is connected by power There is a line shaft, be provided with a drive shaft on front side of the line shaft, aft bulkhead connection is provided in the drive shaft rear end face The square groove of the cutting room, the line shaft front end is through the square groove aft bulkhead and is located in the square groove, the power Axis front end is fixedly connected with the adjustable spring that a front end is fixedly connected with the square groove front bulkhead, is fixedly connected in the drive shaft There is half gear, is provided with a threaded block being fixedly connected with the drive shaft on front side of half gear, it is described to move slot upper end The slot that moves that a upper end wall is connected to the cutting room is provided in face, described move slidably connects a upper end through institute in slot The bar that moves for moving slot upper end wall is stated, is threadedly engaged on the threaded block and is connected with a round block, the round block outer end face is fixed to be connected Be connected to nine longitudinal knives, be provided with an arc groove in the round block, it is described move bar upper end through the arc groove lower end wall and In the arc groove, the bar upper end of moving is fixedly connected with an arc block being slidably connected with the arc groove, described Arc block right side is fixedly connected with an arc spring being fixedly connected with the arc groove right end wall, the cutting room rear end Wall is fixedly connected with a force-bearing piece, and the force-bearing piece left side is rotatably connected to a load axis, is fixedly connected on the load axis There is a load gear, load axis left end is fixedly connected with a cam.

Preferably, the transverse cutting mechanism includes torsion shaft, front bulkhead company is provided in the cutting room aft bulkhead Lead to the translot of the cutting room, the translot right end wall is fixedly connected with a crossed strip, and the crossed strip left end is fixed The lateral blocks being slidably connected with the translot are connected with, the lateral blocks front end is through the translot front bulkhead and is located at described In cutting room, the lateral blocks front end face is rotatably connected to a torsion shaft, and the lateral blocks are provided with the torsion between centers One torsion spring (not shown) is fixedly connected with a limit rotating disk in the torsion shaft, is provided with one on front side of the limit rotating disk The brace being fixedly connected with the torsion shaft is provided with a front bulkhead in the cutting room aft bulkhead and is connected to the cutting room Vertical slot, slidably connect in the vertical slot front end through the vertical slot front bulkhead and be located at it is vertical in the cutting room Block, what vertical block upper surface bilateral symmetry was fixedly connected with that a upper end is fixedly connected with the vertical slot upper end wall in the vertical slot erects Straight spring, the vertical block front end are fixedly connected with a revolving knife, and end wall is symmetrically fixedly connected with one before and after the cutting room Tool apron；

Wherein, the cutting room aft bulkhead is rotatably connected to an instruction axis, the instruction axis and the cutting room aft bulkhead Between be provided with a torsion spring (not shown), be fixedly connected with opening between described two tool aprons on the instruction axis Motion block, the instruction axis are fixedly connected with the lateral blocks right side by horizontal lanyard, the cutting room aft bulkhead rotation It is connected with a swinging axle, is provided between the swinging axle and the cutting room aft bulkhead torsion spring (not shown), it is described A line wheel is fixedly connected on swinging axle, the line wheel is fixedly connected with the pull lever lower end surface by long rope, the line Wheel front side is provided with a drive rod being fixedly connected with the swinging axle, is provided with a front bulkhead in the cutting room aft bulkhead It is connected to the elastic force slot of the cutting room, the elastic force slot right end wall is fixedly connected with an elastic spring, and the elastic spring is left End is fixedly connected with an elastic force block being slidably connected with the elastic force slot, and the elastic force front of the slot wall is run through in elastic force block front end And be located in the cutting room, elastic force block left side is rotatably connected to an axis of elasticity, the axis of elasticity in the cutting room On be fixedly connected with an elastic force friction pulley, a mobile bevel gear is fixedly connected on the left of the axis of elasticity, after the cutting room End wall is rotatably connected to a discharge axis, and a side-friction wheel, the side-friction wheel front side are fixedly connected on the discharge axis It is provided with a positioning bevel gear being fixedly connected with the discharge axis.

Detailed description of the invention

Below with reference to Fig. 1-6, the present invention is described in detail, wherein for sake of convenience, now to hereafter described orientation Provide as follows: hereafter described front-rear direction up and down is consistent with the front-rear direction up and down of Fig. 1 projection relation itself.

Fig. 1 is the schematic view of the front view of aluminium alloys for auto body plate preparation facilities entirety complete section of the present invention；

Fig. 2 is drive shaft enlarged structure schematic diagram in aluminium alloys for auto body plate preparation facilities of the present invention；

Fig. 3 is that upside aligns wheel overlooks schematic cross-sectional view in aluminium alloys for auto body plate preparation facilities of the present invention；

Fig. 4 is downside aligns wheel overlooking structure diagram in aluminium alloys for auto body plate preparation facilities of the present invention；

Fig. 5 is that drive shaft overlooks schematic cross-sectional view in aluminium alloys for auto body plate preparation facilities of the present invention；

Fig. 6 is T-bar left view schematic cross-sectional view in aluminium alloys for auto body plate preparation facilities of the present invention.

Specific embodiment

All features disclosed in this specification or disclosed all methods or in the process the step of, in addition to mutually exclusive Feature and/or step other than, can combine in any way.

Any feature disclosed in this specification (including any accessory claim, abstract and attached drawing), except non-specifically chatting It states, can be replaced by other alternative features that are equivalent or have similar purpose.That is, unless specifically stated, each feature is only It is an example in a series of equivalent or similar characteristics.

Please refer to Fig. 1-6, a kind of embodiment provided by the invention: a kind of aluminium alloy production technology equipment, including aluminium sheet are cut Case 100 is cut, the cutting room of connection free surrounding space on the right side of a left hand end wall and lower end wall is provided in the aluminium sheet cutting box 100 101, it is provided with a transport establishment 180 in the cutting room 101, passes through belt friction transmission, institute in the transport establishment 180 Stating transport establishment 180 includes transport motor 172, aligns wheel 102 and aluminium alloy plate 104, and the transport motor 172 is used as device portion The work of sub-power source drive device, by the frictional drive of the upper and lower sides aligns wheel 102, can drive the aluminium alloy plate 104 It moves right, the transport establishment 180 further includes sector gear 148, is provided with a transverse cutting mechanism on the right side of the transport establishment 180 182, the transverse cutting mechanism 182 includes limit rotating disk 147 and starting block 127, and the aluminium alloy plate 104 can push when moving right The starting block 127 rotates clockwise, and engages so that the limit rotating disk 147 be made to move downward with the sector gear 148, institute Stating transverse cutting mechanism 182 further includes brace 122, revolving knife 126 and tool apron 128, and the revolving knife 126 can be with the tool apron when declining To cut off the aluminium alloy plate 104, the rotation of the brace 122 can drive about 126 revolving knife repeatedly for 128 cooperations Movement, the transverse cutting mechanism 182 further include mobile bevel gear 136, drive rod 139 and positioning bevel gear 130, the transport establishment 180 upsides are provided with a longitudinal sectional mechanism 181, and the longitudinal sectional mechanism 181 includes arc block 156, drive shaft 121 and longitudinal knife 154, When the aluminium alloy plate 104 shifts, the longitudinal knife 154 can not cut the aluminium alloy plate 104, to make the arc Shape block 156 rotates counterclockwise reset, so that the drive shaft 121 be driven to move backward, the longitudinal sectional mechanism 181 further includes half tooth Wheel 171, rack bar 119 and pull lever 163, the drive shaft 121 can drive half gear 171 to move to backward and the tooth Bar 119 engages, so that the pull lever 163 be driven to decline, so that the drive rod 139 rotates counterclockwise, pushes the shifting Dynamic bevel gear 136 is moved downward to the positioning bevel gear 130 and is engaged, the longitudinal sectional mechanism 181 further include elevating lever 107, Cam 116, corner block 113 stop slot 114 and square block 109, and the elevating lever 107 can drive 116 turns of the cam when rising It is dynamic, only the square block 109 can be pushed to move backward when the cam 116 turns an angle, to drive the triangle Block 113 enters stuck in next blocking slot 114.

Valuably, the transport establishment 180 includes drive pulley 149, and 101 aft bulkhead of cutting room is rotatably connected to Four conveying axis 103, the conveying axis 103 are fixedly connected with a belt pulley for feeding foil 164, the upside two on the conveying axis 103 It is driven between a belt pulley for feeding foil 164 by belt friction, is driven between the belt pulley for feeding foil 164 of the downside two also by belt friction, An aligns wheel 102 being fixedly connected with the conveying axis 103, the lower right side conveying are provided on front side of the belt pulley for feeding foil 164 103 rear end of axis is connected by power the transport motor 172 that a rear end is fixedly connected with 101 aft bulkhead of cutting room, described defeated An output pulley 165 being fixedly connected with the conveying axis 103, the upper and lower sides are provided between feed roller 164 and aligns wheel 102 102 frictional drives of aligns wheel have an aluminium alloy plate 104, and 101 aft bulkhead of cutting room is rotatably connected to a pulley shaft 150, a transmission belt connecting by belt with 165 frictional drive of output pulley is fixedly connected on the pulley shaft 150 149 are taken turns, is provided with a sector gear 148 being fixedly connected with the pulley shaft 150 on rear side of the drive pulley 149.

Valuably, the longitudinal sectional mechanism 181 includes cam 116, is provided with lower end wall in 101 upper end wall of cutting room It is connected to the shifting chute 111 of the cutting room 101, there are five the blocking slots of equidistantly distributed for setting in the shifting chute 111 114,114 lower end wall of blocking slot is connected to the shifting chute 111, slidably connects a lower end in the shifting chute 111 and runs through 111 lower end wall of shifting chute and the T-bar 110 being located in the cutting room 101, setting in 110 upper surface of T-bar There is a upper end wall to be connected to the elastic groove 112 of the shifting chute 111,112 lower end wall of elastic groove is fixedly connected with an elastic bullet Spring 115,115 upper end of elastomeric spring are fixedly connected with a upper end through 111 upper end wall of shifting chute and are located at the resistance Corner block 113 in retaining groove 114,110 lower end of T-bar are fixedly connected with a displaced block 106, set in the displaced block 106 It is equipped with the displacement slot 105 that a left hand end wall is connected to the cutting room 101,104 right end of the aluminium alloy plate runs through the displacement Slot 105,106 upper surface of displaced block is symmetrically fixedly connected there are four square block 109 centered on T-bar 110, described The lifting groove 120 that a front bulkhead is connected to the cutting room 101, the lifting groove 120 are provided in 101 aft bulkhead of cutting room The elevator 167 that a front end is run through 120 front bulkhead of lifting groove and is located in the cutting room 101 is inside slidably connected, 167 lower end surface of elevator is fixedly connected with what a lower end was fixedly connected with 120 lower end wall of lifting groove in the lifting groove 120 Lifting spring 162；

Wherein, 167 left side of elevator is fixedly connected with a supporting block 153, the supporting block 153 in the cutting room 101 It is fixedly connected with an elevating lever 107 on the left of upper surface, 153 lower end surface of supporting block is fixedly connected with a pull lever 163, described 101 upper end wall of cutting room is fixedly connected with a rack bar 119, and 167 front end face of elevator is fixedly connected with a longitudinal sectional electricity Machine 168, longitudinal sectional 168 front end face of motor have been connected by power a line shaft 169, have been provided with a drive on front side of the line shaft 169 Moving axis 121 is provided with the square groove 166 that an aft bulkhead is connected to the cutting room 101 in 121 rear end face of drive shaft, described 169 front end of line shaft is through 166 aft bulkhead of square groove and is located in the square groove 166, and 169 front end of line shaft is fixed to be connected It is connected to the adjustable spring 170 that a front end is fixedly connected with 166 front bulkhead of square groove, is fixedly connected in the drive shaft 121 Half gear 171 is provided with a threaded block 159 being fixedly connected with the drive shaft 121 on front side of half gear 171, described Move be provided with that a upper end wall is connected to the cutting room 101 in 161 upper surface of slot move slot 161, it is described to move in slot 161 Slidably connect a upper end through it is described move 161 upper end wall of slot move bar 158, the company of being threadedly engaged on the threaded block 159 It is connected to a round block 160,160 outer end face of round block is fixedly connected with nine longitudinal knives 154, is provided with one in the round block 160 Arc groove 155, it is described to move 158 upper end of bar through 155 lower end wall of arc groove and be located in the arc groove 155, it is described It moves 158 upper end of bar and is fixedly connected with an arc block 156 being slidably connected with the arc groove 155,156 right end of arc block Face is fixedly connected with an arc spring 157 being fixedly connected with the 155 right end wall of arc groove, 101 rear end of cutting room Wall is fixedly connected with a force-bearing piece 173, and 173 left side of force-bearing piece is rotatably connected to a load axis 117, the load axis A load gear 118 is fixedly connected on 117,117 left end of load axis is fixedly connected with a cam 116.

Valuably, the transverse cutting mechanism 182 includes torsion shaft 146, before being provided with one in 101 aft bulkhead of cutting room End wall is connected to the translot 144 of the cutting room 101, and the 144 right end wall of translot is fixedly connected with a crossed strip 143, institute It states 143 left end of crossed strip and is fixedly connected with the lateral blocks 174 being slidably connected with the translot 144, before the lateral blocks 174 End is through 144 front bulkhead of translot and is located in the cutting room 101, and 174 front end face of lateral blocks is rotatably connected to One torsion shaft 146 is provided with a torsion spring (not shown), the torsion shaft between the lateral blocks 174 and the torsion shaft 146 It is fixedly connected with a limit rotating disk 147 on 146, one and the fixed company of the torsion shaft 146 are provided on front side of the limit rotating disk 147 The brace 122 connect is provided with the vertical slot that a front bulkhead is connected to the cutting room 101 in 101 aft bulkhead of cutting room 123, a front end is slidably connected in the vertical slot 123 through 123 front bulkhead of vertical slot and is located in the cutting room 101 Vertical block 125, vertical 125 upper surface of block bilateral symmetry is fixedly connected with a upper end and the vertical slot 123 in the vertical slot 123 The uprighting spring 124 that upper end wall is fixedly connected, vertical 125 front end of block are fixedly connected with a revolving knife 126, and the cutting is empty Between 101 front and back end walls be symmetrically fixedly connected with a tool apron 128；

Wherein, 101 aft bulkhead of cutting room is rotatably connected to an instruction axis 138, and the instruction axis 138 and the cutting are empty Between be provided with a torsion spring (not shown) between 101 aft bulkheads, be fixedly connected on the instruction axis 138 one be located at it is described two Starting block 127 between the tool apron 128, the instruction axis 138 are solid by horizontal lanyard 142 with 174 right side of lateral blocks Fixed connection, 101 aft bulkhead of cutting room are rotatably connected to a swinging axle 140, the swinging axle 140 and the cutting room It is provided between 101 aft bulkheads a torsion spring (not shown), a line wheel 141, the line is fixedly connected on the swinging axle 140 Wheel 141 with 163 lower end surface of pull lever pass through long rope 145 be fixedly connected, be provided on front side of the line wheel 141 one with it is described The drive rod 139 that swinging axle 140 is fixedly connected is provided in 101 aft bulkhead of cutting room described in front bulkhead connection and cuts The elastic force slot 132 in space 101 is cut, the 132 right end wall of elastic force slot is fixedly connected with an elastic spring 133, the elastic spring 133 left ends are fixedly connected with an elastic force block 134 being slidably connected with the elastic force slot 132, and institute is run through in 134 front end of elastic force block It states 132 front bulkhead of elastic force slot and is located in the cutting room 101,134 left side of elastic force block rotates in the cutting room 101 It is connected with an axis of elasticity 131, an elastic force friction pulley 135,131 left side of axis of elasticity are fixedly connected on the axis of elasticity 131 It is fixedly connected with a mobile bevel gear 136,101 aft bulkhead of cutting room is rotatably connected to a discharge axis 137, the discharge It is fixedly connected with a side-friction wheel 129 on axis 137, one and the discharge axis 137 are provided on front side of the side-friction wheel 129 The positioning bevel gear 130 being fixedly connected.

In the following, applicant will refer to attached drawing 1-6 and a kind of aluminium alloy production technology equipment of the application described above Concrete composition introduce a kind of application method of aluminium alloy production technology equipment of the application in detail: firstly, in original state When, the longitudinal sectional motor 168 is closed with the transport motor 172, and the elastomeric spring 115 is in the crossed strip 143 Compressive state, the torsion spring, the lifting spring 162 and the arc spring 157 are in normal condition；

In use, the starting transport motor 172, drives the conveying axis 103 to rotate, to drive the output pulley 165 It is rotated with the aligns wheel 102, by the frictional drive of belt, drives all aligns wheels 102 and 103 turns of the conveying axis It is dynamic, by the rotation of the aligns wheel 102, drives the aluminium alloy plate 104 to move right to 154 position of longitudinal knife, open The longitudinal sectional motor 168 is moved, the line shaft 169 is driven to rotate, so that the drive shaft 121 is driven to rotate, the drive shaft 121 drive the round block 160 to rotate, effect of the arc spring 157 in the longitudinal knife 154 and the aluminium alloy plate 104 It is compressed under power, 104 redundance of aluminium alloy plate described in 154 circumgyration incision of longitudinal knife, when the aluminium alloy plate 104 moves When to the starting block 127,127 clockwise oscillation of starting block is pushed, torsion spring is pressed on the instruction axis 138 Contracting, the horizontal lanyard 142 are relaxed, and the crossed strip 143 resets to the left, so that the limit rotating disk 147 and the fan Shape gear 148 engages, and is driven by belt friction, and the output pulley 165 drives the drive pulley 149 to rotate, thus band It moves the pulley shaft 150 to rotate, the pulley shaft 150 drives the sector gear 148 to rotate, and passes through the sector gear 148 With the engaged transmission of the limit rotating disk 147, the limit rotating disk 147 is driven to rotate, to drive 146 turns of the torsion shaft Dynamic, torsion spring is compressed in the limit rotating disk 147, and the torsion shaft 146 drives the brace 122 to rotate, described in pushing Revolving knife 126, the uprighting spring 124 are stretched, and the revolving knife 126 is moved downward to be stopped by the tool apron 128, the fan After shape gear 148 is moved out the engagement of the limit rotating disk 147, the revolving knife 126 resets upwards, thus to the aluminium Alloy sheets 104 are cut at equal intervals, and these aluminum alloy plates are discharged from right side, when the aluminium alloy plate 104 is sent out When raw offset, the longitudinal knife 154 can not cut the aluminium alloy plate 104, and the arc spring 157 resets to the left, Drive the drive shaft 121 to rotate, the drive shaft 121 drives threaded block 159 to rotate, by the threaded block 159 with it is described The engaged transmission of round block 160 drives the drive shaft 121 to move backward, the drive shaft 121 drive half gear 171 to After move to 119 position of engagement of rack bar, so that half gear 171 be driven to rise, the lifting spring 162 is drawn It stretches, half gear 171 drives the elevating lever 107 to rise, and the elevating lever 107 rises to be nibbled with the load gear 118 It closes, so that the load gear 118 be driven to rotate, the load gear 118 drives the load axis 117 to rotate, the load Axis 117 drives one circle of the rotation of cam 116, so that the square block 109 be pushed to move a distance, the corner block backward 113 are detached from intermediate blocking slot 114 and stop to be blocked in slot 114 on rear side of entering, and the displaced block 106 is with the square block 109 move backward, so that the aluminium alloy plate 104 is driven to move backward, so that the aluminium alloy plate 104 is in normal position, Meanwhile half gear 171 drives the elevator 167 to rise, so that the pull lever 163 is driven to rise, the pull lever 163 pull the long rope 145, so that the line wheel 141 rotates counterclockwise, to push the mobile bevel gear 136 to the left It moves to and is engaged with the positioning bevel gear 130, the aluminium alloy plate 104 drives the side-friction wheel 129 to rotate, thus band It moves the discharge axis 137 to rotate, the discharge axis 137 drives the positioning bevel gear 130 to rotate, and passes through the positioning bevel gear 130 with the engaged transmission of the mobile bevel gear 136, the mobile rotation of bevel gear 136 is driven, to drive the axis of elasticity 131 rotations, the axis of elasticity 131 drive the elastic force friction pulley 135 to rotate, in the past by the aluminium alloy plate of this portion not pair The rotation of half gear 171 is discharged to the engagement for being detached from the rack bar 119, so that the longitudinal knife 154 moves downward again in side Position continues to cut 104 redundance of aluminium alloy plate, and device resets.

The beneficial effects of the present invention are: present apparatus structure is simple, the aluminium alloy plate to manufacture that can be automated is realized longitudinal sectional With it is crosscutting, so that it is met the applicable specification of aluminium alloys for auto body plate, reduce subsequent job step, and position occurs in aluminium alloy plate Adjust automatically cutting position and underproof aluminium alloy plate can be separated when setting offset, while improving product quality, be reinforced The stability of device, and whole device linkage is higher, integrated automation degree is higher, high production efficiency.

The above, the specific embodiment only invented, but invent protection scope be not limited thereto, it is any without The change or replacement that creative work is expected are crossed, should all be covered within the protection scope of invention.Therefore, the protection scope of invention It should be determined by the scope of protection defined in the claims.

Claims (4)

1. a kind of aluminium alloy production technology equipment, including aluminium sheet cutting box, it is characterised in that: be provided in the aluminium sheet cutting box It is connected to the cutting room of free surrounding space on the right side of one left hand end wall and lower end wall, is provided with a transport establishment in the cutting room, It is driven in the transport establishment by belt friction, the transport establishment includes transporting motor, aligns wheel and aluminium alloy plate, described It transports motor to work as device partial power source drive device, by the frictional drive of the upper and lower sides aligns wheel, can drive The aluminium alloy plate moves right, and the transport establishment further includes sector gear, and it is crosscutting to be provided with one on the right side of the transport establishment Mechanism, the transverse cutting mechanism include limit rotating disk and starting block, and the starting block can be pushed when the aluminium alloy plate moves right It rotates clockwise, is engaged so that the limit rotating disk be made to move downward with the sector gear, the transverse cutting mechanism further includes oblique Bar, revolving knife and tool apron can cooperate when the revolving knife declines with the tool apron to cut off the aluminium alloy plate, described oblique The rotation of bar can drive the revolving knife to move repeatedly up and down, and the transverse cutting mechanism further includes mobile bevel gear, drive rod and determines Position bevel gear, is provided with a longitudinal sectional mechanism on the upside of the transport establishment, the longitudinal sectional mechanism include arc block, drive shaft with it is longitudinal sectional Knife, when the aluminium alloy plate shifts, the longitudinal knife can not cut the aluminium alloy plate, to keep the arc block inverse Hour hands rotation resets, to move after driving the driving axial, the longitudinal sectional mechanism further includes half gear, rack bar and pulling Bar, the drive shaft can drive half gear to move to backward and engage with the rack bar, to drive under the pull lever Drop pushes the mobile bevel gear to move downward to the positioning bevel gear and engages so that the drive rod rotates counterclockwise, The longitudinal sectional mechanism further includes elevating lever, cam, corner block, stops slot and square block, and the elevating lever can drive institute when rising Cam rotation is stated, only the square block can be pushed to move backward when the cam turns an angle, to drive described three Hornblock enters stuck in next blocking slot.

2. a kind of aluminium alloy production technology equipment according to claim 1, wherein the transport establishment includes transmission belt Wheel, cutting room aft bulkhead rotation connection is there are four conveying axis, the conveying axis, is fixedly connected with one on the conveying axis Belt pulley for feeding foil is driven between the belt pulley for feeding foil of the upside two by belt friction, between the belt pulley for feeding foil of the downside two also by Belt friction transmission, the belt pulley for feeding foil front side are provided with an aligns wheel being fixedly connected with the conveying axis, the lower right side Conveying shaft rear end is connected by power the transport motor that a rear end is fixedly connected with the cutting room aft bulkhead, the belt pulley for feeding foil An output pulley being fixedly connected with the conveying axis is provided between aligns wheel, there is frictional drive between the upper and lower sides aligns wheel One aluminium alloy plate, the cutting room aft bulkhead are rotatably connected to a pulley shaft, are fixedly connected with one on the pulley shaft and pass through The drive pulley that belt is connect with the output pulley frictional drive, the drive pulley rear side are provided with one and the pulley shaft The sector gear being fixedly connected.

3. a kind of aluminium alloy production technology equipment according to claim 1, wherein the longitudinal sectional mechanism includes cam, institute It states and is provided with the shifting chute that lower end wall is connected to the cutting room in cutting room upper end wall, in the shifting chute there are five settings The blocking slot of equidistantly distributed, the blocking slot lower end wall are connected to the shifting chute, slidably connect in the shifting chute End is provided on one in the shifting chute lower end wall and the T-bar in the cutting room, the T-bar upper surface End wall is connected to the elastic groove of the shifting chute, and the elastic groove lower end wall is fixedly connected with an elastomeric spring, the elastomeric spring Upper end is fixedly connected with a upper end through the shifting chute upper end wall and is located at the corner block stopped in slot, the T-bar Lower end is fixedly connected with a displaced block, and the displacement slot that a left hand end wall is connected to the cutting room is provided in the displaced block, The aluminium alloy plate right end runs through the displacement slot, and the displaced block upper surface is symmetrically fixedly connected centered on T-bar There are four square block, it is provided with the lifting groove that a front bulkhead is connected to the cutting room in the cutting room aft bulkhead, it is described The elevator that a front end is run through the lifting groove front bulkhead and is located in the cutting room is slidably connected in lifting groove, it is described Elevator lower end surface is fixedly connected with the lifting spring that a lower end is fixedly connected with the lifting groove lower end wall in lifting groove；

Wherein, elevator left side is fixedly connected with a supporting block in the cutting room, and the supporting block upper surface left side is solid Surely it is connected with an elevating lever, the supporting block lower end surface is fixedly connected with a pull lever, and the cutting room upper end wall is fixed to be connected It is connected to a rack bar, the elevator front end face is fixedly connected with a longitudinal sectional motor, and the longitudinal sectional motor front end face is connected by power There is a line shaft, be provided with a drive shaft on front side of the line shaft, aft bulkhead connection is provided in the drive shaft rear end face The square groove of the cutting room, the line shaft front end is through the square groove aft bulkhead and is located in the square groove, the power Axis front end is fixedly connected with the adjustable spring that a front end is fixedly connected with the square groove front bulkhead, is fixedly connected in the drive shaft There is half gear, is provided with a threaded block being fixedly connected with the drive shaft on front side of half gear, it is described to move slot upper end The slot that moves that a upper end wall is connected to the cutting room is provided in face, described move slidably connects a upper end through institute in slot The bar that moves for moving slot upper end wall is stated, is threadedly engaged on the threaded block and is connected with a round block, the round block outer end face is fixed to be connected Be connected to nine longitudinal knives, be provided with an arc groove in the round block, it is described move bar upper end through the arc groove lower end wall and In the arc groove, the bar upper end of moving is fixedly connected with an arc block being slidably connected with the arc groove, described Arc block right side is fixedly connected with an arc spring being fixedly connected with the arc groove right end wall, the cutting room rear end Wall is fixedly connected with a force-bearing piece, and the force-bearing piece left side is rotatably connected to a load axis, is fixedly connected on the load axis There is a load gear, load axis left end is fixedly connected with a cam.

4. a kind of aluminium alloy production technology equipment according to claim 1, wherein the transverse cutting mechanism includes torsion shaft, The translot that a front bulkhead is connected to the cutting room is provided in the cutting room aft bulkhead, the translot right end wall is fixed to be connected It is connected to a crossed strip, the crossed strip left end is fixedly connected with the lateral blocks being slidably connected with the translot, the cross Through the translot front bulkhead and it is located in the cutting room to block front end, the lateral blocks front end face is rotatably connected to a torsion Power axis, the lateral blocks and the torsion between centers are provided with a torsion spring (not shown), are fixedly connected in the torsion shaft One limit rotating disk, limit rotating disk front side are provided with a brace being fixedly connected with the torsion shaft, after the cutting room It is provided with the vertical slot that a front bulkhead is connected to the cutting room in end wall, a front end is slidably connected in the vertical slot through described Vertical slot front bulkhead and the vertical block being located in the cutting room, vertical block upper surface bilateral symmetry is fixedly connected in the vertical slot The uprighting spring for having a upper end to be fixedly connected with the vertical slot upper end wall, the vertical block front end are fixedly connected with a revolving knife, End wall is symmetrically fixedly connected with a tool apron before and after the cutting room；

Wherein, the cutting room aft bulkhead is rotatably connected to an instruction axis, the instruction axis and the cutting room aft bulkhead Between be provided with a torsion spring (not shown), be fixedly connected with opening between described two tool aprons on the instruction axis Motion block, the instruction axis are fixedly connected with the lateral blocks right side by horizontal lanyard, the cutting room aft bulkhead rotation It is connected with a swinging axle, is provided between the swinging axle and the cutting room aft bulkhead torsion spring (not shown), it is described A line wheel is fixedly connected on swinging axle, the line wheel is fixedly connected with the pull lever lower end surface by long rope, the line Wheel front side is provided with a drive rod being fixedly connected with the swinging axle, is provided with a front bulkhead in the cutting room aft bulkhead It is connected to the elastic force slot of the cutting room, the elastic force slot right end wall is fixedly connected with an elastic spring, and the elastic spring is left End is fixedly connected with an elastic force block being slidably connected with the elastic force slot, and the elastic force front of the slot wall is run through in elastic force block front end And be located in the cutting room, elastic force block left side is rotatably connected to an axis of elasticity, the axis of elasticity in the cutting room On be fixedly connected with an elastic force friction pulley, a mobile bevel gear is fixedly connected on the left of the axis of elasticity, after the cutting room End wall is rotatably connected to a discharge axis, and a side-friction wheel, the side-friction wheel front side are fixedly connected on the discharge axis It is provided with a positioning bevel gear being fixedly connected with the discharge axis.