CN204796614U - Bevel device and have shaved noodle equipment of this bevel device - Google Patents

Abstract

The utility model provides a bevel device and have shaved noodle equipment of this bevel device. The bevel device includes electronic slip table, slip subassembly and wrong knife tackle spare. The slip subassembly is installed on electronic slip table with sliding, and the slip direction of electronic slip table is perpendicular with the slip direction of slip subassembly, and it includes the sliding block. One side of sliding block is equipped with first dog, and the opposite side is equipped with the second dog. Wrong knife tackle spare is including being located two terminal first wrong sword spare and the wrong sword spares of second on the electronic slip table respectively. This first wrong sword spare is used for to pushing away this first dog to force this sliding block to be used for to pushing away this second dog in order to force this sliding block to this default distance of one side slip who is close to this first wrong sword spare, in order to realize wrong sword to one side slip default distance who keeps away from this first wrong sword spare, wrong sword spare of this second. The utility model discloses a mode bevel that the straight line fed, and realize wrong sword for the middle thick both sides of face leaf of cutting out are thin, and the bevel is fast and bevel in -process noise is less.

Description

Bevel device and there is the dough cutting device of this bevel device

Technical field

The utility model relates to a kind of cooking apparatus, particularly relate to a kind of can straight line bevel bevel device and there is the dough cutting device of this bevel device.

Background technology

Along with the raising of people's living standard, the science of people to diet is paid attention to more, and wheaten food, because of distinctive nutrition and the feature being easy to digestion, is subject to liking of more and more people.The kind of wheaten food and way are a lot, and wherein plande noodles are with the local flavor of its uniqueness, the shape that middle webbing is thin, strength road, smooth mouthfeel and dark liking by people in all parts of the country.But make plande noodles and need professional cooks, and cook need pay the wages of great number, cost is higher.

Through finding plande noodles Investigation on plant on present market, there is following drawback in existing dough cutting device: the track of bevel is camber line, plande noodles both sides unbalance stress, and face is easily broken; Face embryo does not carry out plastotype, and the face cut out is different in size; The noodles cut out fully do not show the characteristic of plande noodles, and mouthfeel is not good; Bevel noise is larger.

Utility model content

In view of this, the dough cutting device a kind of bevel device being provided and there is this bevel device is necessary, to solve the problem.

The utility model provides a kind of bevel device.This bevel device comprises electronic slide unit, slide assemblies and wrong knife assembly.This electronic slide unit comprises slide unit assembly, and this slide unit assembly for reciprocatingly sliding on this electronic slide unit.This slide assemblies is installed on this slide unit assembly slidably, the glide direction of the glide direction of this slide assemblies and this slide unit assembly is perpendicular, this slide assemblies comprises sliding shoe, and the relative both sides of this sliding shoe are provided with the first block and the second block, and this sliding shoe is for installing a dough knife.This wrong knife assembly comprises the first wrong knife and the second wrong knife, this first wrong knife and this second wrong knife lay respectively on two ends of this electronic slide unit, and being positioned at the relative both sides of this electronic slide unit, this first wrong knife is to should first gear block, and this second wrong knife is to should second gear block.This first wrong knife is used for pushing this first block, to force this sliding shoe to Slideslip one predeterminable range away from this first wrong knife, this second wrong knife for pushing this second block to force this sliding shoe near this predeterminable range of a Slideslip of this first wrong knife, to realize wrong cutter.

Further, this first wrong knife is provided with the first support division, and this second wrong knife is provided with the second support division, and this first support division is used for pushing this first block, and this second support division is used for pushing the second block.

Further, this sliding shoe is provided with a slide body, this slide body is provided with the first spacing hole and the second spacing hole in the side of this first block contiguous, in this second block contiguous opposite side on be also provided with the first spacing hole and the second spacing hole, this slide assemblies also comprises two locating parts, this two locating part can be sticked in the first spacing hole of this first block contiguous and the second spacing hole of this second block contiguous respectively, or is sticked in the second spacing hole of this first block contiguous and the first spacing hole of this second block contiguous.

Further, this slide assemblies also comprises back-up block, this back-up block is between this fixed block and sliding shoe, this back-up block comprises the first support member and the second support member, the two ends of this slide body are each passed through this first support member and this second support member, and this first support member and this second support member are for supporting this slide body.

Further, this slide assemblies also comprises fixed block, and this fixed block is fixed on this slide unit assembly, and this sliding shoe is located on this fixed block slidably, and the glide direction of relative this fixed block of this sliding shoe is perpendicular to the glide direction of this slide unit assembly.

Further, this slide assemblies also comprises back-up block, this back-up block is between this fixed block and sliding shoe, this back-up block comprises the first support member and the second support member, this first support member this first block contiguous and be positioned at the side that this first block deviates from this second block, this second support member this second block contiguous and be positioned at the side that this second block deviates from this first block, the two ends of this slide body are each passed through this first support member and this second support member, and described two locating parts are separately positioned on this first support member and the second support member.

The utility model also provides a kind of dough cutting device.This dough cutting device comprises support cabinet, pushing surface device and bevel device, and this pushing surface device and bevel device are installed on this support cashier's office in a shop, and this face block in order to place the face block of preset shape, and is pushed to a predeterminated position for cutting by this pushing surface device.This bevel device comprises electronic slide unit, slide assemblies and wrong knife assembly.This electronic slide unit comprises slide unit assembly, and this slide unit assembly for reciprocatingly sliding on this electronic slide unit.This slide assemblies is installed on this slide unit assembly slidably, the glide direction of the glide direction of this slide assemblies and this slide unit assembly is perpendicular, this slide assemblies comprises sliding shoe, and the relative both sides of this sliding shoe are provided with the first block and the second block, and this sliding shoe is for installing a dough knife.This wrong knife assembly comprises the first wrong knife and the second wrong knife, this first wrong knife and this second wrong knife lay respectively on two ends of this electronic slide unit, and being positioned at the relative both sides of this electronic slide unit, this first wrong knife is to should first gear block, and this second wrong knife is to should second gear block.This first wrong knife is used for pushing this first block, to force this sliding shoe to Slideslip one predeterminable range away from this first wrong knife, this second wrong knife for pushing this second block to force this sliding shoe near this predeterminable range of a Slideslip of this first wrong knife, to realize wrong cutter.

Further, this first wrong knife is provided with the first support division, and this second wrong knife is provided with the second support division, and this first support division is used for pushing this first block, and this second support division is used for pushing the second block.

Further, this sliding shoe is provided with a slide body, this slide body is provided with the first spacing hole and the second spacing hole in the side of this first block contiguous, in this second block contiguous opposite side on be also provided with the first spacing hole and the second spacing hole, this slide assemblies also comprises two locating parts, this two locating part can be sticked in the first spacing hole of this first block contiguous and the second spacing hole of this second block contiguous respectively, or is sticked in the second spacing hole of this first block contiguous and the first spacing hole of this second block contiguous.

Further, this dough cutting device also comprises protective cover, and this protective cover is fixed on this pushing surface device, and covers on this pushing surface device and bevel device to block and to protect this pushing surface device and bevel device.

The dough cutting device of the utility model, traditional dough cutting device has carried out innovative design, adopts the mode bevel of straight line, makes the face length degree that cuts out identical; Adopt wrong knife assembly, wrong cutter about making dough knife, when avoiding bevel, cut out the situation in half bar face.Bevel speed fast and in bevel process noise less.

Accompanying drawing explanation

Fig. 1 is the perspective view being provided with the dough cutting device of protective cover in the utility model one embodiment.

Fig. 2 is the perspective view that the dough cutting device of Fig. 1 removes protective cover.

Fig. 3 is the dough cutting device decomposed schematic diagram of Fig. 2.

Fig. 4 is the perspective view of the device of pushing surface shown in Fig. 3.

Fig. 5 is the device of pushing surface shown in Fig. 4 decomposing schematic representation in one direction.

Fig. 6 is the device of pushing surface shown in Fig. 4 decomposing schematic representation in the other directions.

Fig. 7 is the decomposing schematic representation of Fig. 6 face block putting part.

Fig. 8 is Fig. 6 subelement perspective view in the other directions.

Fig. 9 is the perspective view of the device of bevel shown in Fig. 3.

Figure 10 is the decomposed schematic diagram of the device of bevel shown in Fig. 9.

Figure 11 is the enlarged diagram of slide assemblies shown in Figure 10.

Main element symbol description

Dough cutting device	100
		Support cabinet	10
Supporting surface	12
		Support	14
Cable-through hole	16
		Resettlement section	142
Pushing surface device	20
		First gripper shoe	21
Run through groove	212
		Slot	214
Face block collecting shell	22
		Base plate	222
Host cavity	224
		First housing snap close	226227
Second housing	228
		Second runs through groove	229
Bracing frame	23
		First fixed head	231
First through hole	2311
		Second fixed head	233
Second through hole	2331
		Third through-hole	2333
Side plate	235
		Chute	2351
Accommodation space	237
		Load carrier	24
Bearing support	241
		Connecting plate	2411
Stiffener	2413
		Loading plate	243
Driving mechanism	25
		Actuator	251、333
Drive link	253
		Transmission component	255
First drive pulley	2551
		Second drive pulley	2553
Belt	2555
		Sliding panel	257
Hole	2571
		Hold-doun nut	259
Sensing component	26
		First sensor	261
Second sensor	263
		Guide	27
Guide rail	271
		Sliding shoe	273
Bevel device	30
		Electronic slide unit	310
Second gripper shoe	31
		Guidance set	32
First guide	321
		First guide rail	3211
Second guide	322
		Second guide rail	3221
Driven unit	33
		First keyset	331
Second keyset	332
		First transmission component	34
First belt wheel	341
		Second belt wheel	342
First belt	343
		Second transmission component	35
3rd belt wheel	351
		4th belt wheel	352
Second belt	353
		Slide unit assembly	36
First holder	361
		First guide groove	3611
Wear groove	3612
		First holding tank	3613
Second holder	362
		Second guide groove	3621
Second holding tank	3622
		Slide assemblies	37
Fixed block	371
		Slide rail	3711
Sliding shoe	372
		Slide body	3720
Chute	3721
		First block	3722
Second block	3723
		First spacing hole	3724
Second spacing hole	3725
		Back-up block	373
First support member	3731
		Second support member	3732
Locating part	374
		Inductive component	38
First sensing unit	381
		Second sensing unit	382
3rd sensing unit	383
		Induction pieces	384
Wrong knife assembly	39
		First wrong knife	391
First support division	3910
		Second wrong knife	392
Second support division	3920
		Protective cover	40
Clamping device	50
		Face block	200
Dough knife	300

Following detailed description of the invention will further illustrate the utility model in conjunction with above-mentioned accompanying drawing.

Detailed description of the invention

Please refer to Fig. 1, dough cutting device 100 comprises support cabinet 10, pushing surface device 20, bevel device 30, protective cover 40 and clamping device 50.

Please also refer to Fig. 2, support cabinet 10 inside and be provided with controller (not shown), for controlling the motion of this pushing surface device 20 and bevel device 30.Please also refer to Fig. 3, support cabinet 10 and also comprise a supporting surface 12 and and be positioned at support 14 on this supporting surface 12.A resettlement section 142 is formed between this support 14 and this supporting surface 12.The supporting surface 12 of this support cabinet 10 is also provided with the cable-through hole 16 supplying the control circuit of this pushing surface device 20 and bevel device 30 to pass.

Pushing surface device 20 and bevel device 30 are installed on this support 14, this pushing surface device 20 this supporting surface 12 relative to this bevel device 30 is obliquely installed, and this pushing surface device 20 part are placed in this resettlement section 142.The control circuit of pushing surface device 20 and bevel device 30 is electrically connected with the controller in this support cabinet 10 by this cable-through hole 16.Pushing surface device 20 has been rubbed in order to placement and has been shaped to the face block 200 of preset shape, and this face block 200 is pushed to predeterminated position.Bevel device 30 is installed a dough knife 300.Bevel device 30 can drive dough knife 300 to cut the face block 200 be placed on pushing surface device 20, and the face leaf cut is dished out to a precalculated position with parabolical form and boiled face to wait for.On the first gripper shoe 21 that protective cover 40 is fixed on this pushing surface device 20 and support 14; and to cover on this pushing surface device 20 and bevel device 30 with partial occlusion and protect this pushing surface device 20 and bevel device 30, and this dough knife 300 is made to expose to facilitate dishing out of bevel and face leaf.Can understand, the shape of protective cover 40 can actually according to the shape of this pushing surface device 20 and this bevel device 30 be arranged.Clamping device 50 passes this protective cover 40 and is fixed in this first gripper shoe 21, and clamping device 50 is out of shape for the face-piece of anti-thrust surface device 20.

Please also refer to Fig. 4, Fig. 5 and Fig. 6, pushing surface device 20 also comprises face block collecting shell 22, bracing frame 23, load carrier 24, driving mechanism 25, sensing component 26 and guide 27.Driving mechanism 25 is positioned at this first gripper shoe 21 and accommodates the side of shell 22 away from this face block and be installed on this bracing frame 23.Driving mechanism 25 is connected with this load carrier 24, moves reciprocatingly in face block collecting shell 22 to promote this load carrier 24.This sensing component 26 is for controlling the motion of driving mechanism 25, and this guide 27 is for the motion of the load carrier 24 relative support frame 23 that leads.

First gripper shoe 21 is roughly rectangle tabular, and its two ends are fixed on this support 14 obliquely, and this supporting surface 12 is obliquely installed relatively.First gripper shoe 21 is provided with first of a bar shaped and runs through groove 212 and be positioned at this first slot 214 running through the relative both sides of groove 212 with two.

Face block collecting shell 22 is removably fixed on the side of this first gripper shoe 21.Particularly, face block collecting shell 22 comprises base plate 222, and the two ends of this base plate 222 are housed in this slot 214 and this face block collecting shell 22 is removably fixed in this first gripper shoe 21.Block collecting shell 22 in face is also provided with a host cavity 224.This host cavity 224 is for accommodating this face block 200.In present embodiment, please also refer to Fig. 7, this face block collecting shell 22 also comprises the first housing 226 and the second housing 228.Together with being screwed between this base plate 222 with this first housing 226, mutually being fastened by snap close 227 again between this first housing 226 and second housing 228 and be removably fixed together, this base plate 222, between this first housing 226 and second housing 228, thus defining one for accommodating the host cavity 224 of face block 200.Can understand, the middle part of this base plate 222 is provided with one second and runs through groove 229, this second run through groove 229 can for the partially passing through of this load carrier 24.

Bracing frame 23 is fixed on the side of this first gripper shoe 21 away from this face block collecting shell 22.Particularly, this bracing frame 23 comprises the first fixed head 231 be fixed in this first gripper shoe 21, second fixed head 233 parallel with this first fixed head 231, and connects this first fixed head 231 and this second fixed head 233 and be parallel to each other two side plates 235.These two side plates 235 are parallel to each other, and are vertically fixed on the two ends of this first fixed head 231 and the second fixed head 233 respectively, make between these the first fixed head 231, second fixed head 233 and two these side plates 235 around formation one accommodation space 237.

Please also refer to Fig. 8, the first fixed head 231 is provided with the first through hole 2311.Second fixed head 233 is provided with the second through hole 2331 and third through-hole 2333.Two side plates 235 are respectively equipped with chute 2351, and the bearing of trend of this chute 2351 is perpendicular to this first gripper shoe 21.

Load carrier 24 comprises bearing support 241 and loading plate 243, this loading plate 243 can run through groove 229 through second of this base plate 222 and be contained in the host cavity 224 of this face block collecting shell 22, one end of this bearing support 241 is connected with this loading plate 243, and the other end runs through to close on this side plate 235 after groove 212 and parallel with this side plate 235 and establish through this.Particularly, in the present embodiment, this bearing support 241 comprises two connecting plates 2411 and two stiffeners 2413, these two connecting plates 2411 are parallel to each other, and be vertically fixed on the side of this loading plate 243, and be positioned at the both sides of this bracing frame 23, and every a plate 2411 and this side plate 235 are close to and are parallel to each other.Each stiffener 2413 is connected to the side that this loading plate 243 and this connecting plate 2411 deviate from this side plate 235, plays the effect of reinforcing this load carrier 24.This connecting plate 2411 is parallel with this side plate 235, this stiffener 2413 shape triangular in shape.Can understand, in other embodiments, this stiffener 2413 can be other shape.

Driving mechanism 25 is positioned at this first gripper shoe 21 and accommodates the side of shell 22 away from this face block and be fixed on this bracing frame 23.Driving mechanism 25 is also connected on this load carrier 24.This driving mechanism 25 can promote this load carrier 24 and in this host cavity 224, move reciprocatingly to promote the face block 200 be contained in this host cavity 224 move.

This driving mechanism 25 comprises actuator 251, drive link 253, transmission component 255, sliding panel 257 and hold-doun nut 259.Power is passed to drive link 253 by transmission component 255 by this actuator 251, and the sliding panel 257 that described drive link 253 drives this hold-doun nut 259 to be connected pumps.

This actuator 251 is fixed on this second fixed head 233, and towards the side away from this first gripper shoe 21, and this actuator 251 is a motor.In other embodiments, this actuator 251 can be a hydraulic means.

This transmission component 255 is fixed on this second fixed head 233 side away from this first gripper shoe 21.Particularly, please also refer to Fig. 8, this transmission component 255 comprises the first drive pulley 2551, second drive pulley 2553 and belt 2555.The output shaft of this actuator 251 by near the side of this first gripper shoe 21 through after the second through hole 2331, affixed with the central shaft of this first drive pulley 2551, the central shaft of this second drive pulley 2553 and one is by affixed through the drive link 253 of this third through-hole 2333 near the side of this first gripper shoe 21, belt 2555 is set around on this first drive pulley 2551 and the second drive pulley 2553, and the output shaft of this actuator 251 and the central axis of the first drive pulley 2551, second drive pulley 2553 and drive link 253 are parallel to each other.Described belt 2555 is gear band, and it is made up of polyurethane.

This drive link 253 connects this transmission component 255 and this sliding panel 257.In the present embodiment, this drive link 253 is a drive lead screw, and it is contained in this accommodation space 237, and one end of this drive link 253 is fixed on the central shaft of this second drive pulley 2553, and the other end is rotationally connected with on this first fixed head 231.Can understand, when this actuator 251 is hydraulic means, this drive link 253 also push rod, this push rod is connected to and stretches on the connecting plate 2411 of this accommodation space 237, and then promotes this load carrier 24 and move.

This sliding panel 257 and the first fixed head 231 and the second fixed head 233 are parallel to each other, and being contained in this accommodation space 237, the side of this sliding panel 257 is fixedly connected with through the one end deviating from loading plate 243 after this chute 2351 with the connecting plate 2411 of this bearing support 241.This sliding panel 257 is provided with hole 2571.This hold-doun nut 259 is fixed in this hole 2571, and this drive link 253 passes this hold-doun nut 259 and is threaded with this hold-doun nut 259.

This drive link 253 is threaded with the hold-doun nut 259 in this hole 2571.Described drive link 253 rotates under the second drive pulley 2553 drives, because this drive link 253 is threaded with this hold-doun nut 259, and this hold-doun nut 259 cannot rotate, thus drive link 253 relative to the sliding panel 257 that this hold-doun nut 259 is connected is forced to pump.And then the motion of this actuator 251 drives this load carrier 24 to move reciprocatingly in this host cavity 224.In the present embodiment, the other end of this drive link 253 is also fixed on this first fixed head 231.

Can understand, if this actuator 251 can directly be fixed on this drive link 253, then this transmission component 255 can omit, now, the output shaft of this actuator 251 is parallel to each other with the central axis of this drive link 253 and overlaps, and the outputting power of this actuator 251 can be directly transmitted on this drive link 253.

Can understand, if this drive link 253 can directly be threadedly connected on this sliding panel 257, then this hold-doun nut 259 can omit, now, this drive link 253 can directly pass this hole 2571 and be threadedly connected on this hole 2571, and the power of this drive link 253 can be directly sent on this sliding panel 257.

Can understand, if this drive link 253 can be directly connected on the connecting plate 2411 of this bearing support 241, then this sliding panel 257 also can omit, now, this connecting plate 2411 can pass this bracing frame 23 and stretch into this accommodation space 237, make this drive link 253 connect the connecting plate 2411 of this actuator 251 and this load carrier 24, the power of this drive link 253 just can directly be sent on this connecting plate 2411, thus drives this load carrier 24 to move.

This sensing component 26 comprises the first sensor 261 and the second sensor 263, this first sensor 261 be positioned at wherein side plate 235 near the side of this first gripper shoe 21, this second sensor 263 is positioned at this side plate 235 one end away from this first gripper shoe 21, to sense the motion of this sliding panel 257, when this sliding panel 257 moves to the position near this first sensor 261, this first sensor 261 sends the first control signal, this actuator 251 is when receiving this first control signal, control this actuator 251 to start to rotate in the opposite direction, move to the direction away from this first gripper shoe 21 to drive this sliding panel 257, when this sliding panel 257 moves to the position near this second sensor 263, this second sensor 263 sends the second control signal, this actuator 251 is when receiving this second control signal, control this actuator 251 to stop operating.

This guide 27 is arranged on wherein on side plate 235, it comprise guide rail 271 with can the sliding shoe 273 that slides of relative this guide rail 271, this guide rail 271 is fixed on this side plate 235, this sliding shoe 273 is fixed on this connecting plate 2411 and this sliding panel 257, to lead to the motion of this sliding panel 257 and this loading plate 243.

This pushing surface device 20 is when assembling, first sliding panel 257 is assembled in bracing frame 23, this sliding panel 257 can be slided in chute 2351, hold-doun nut 259 is fixed in the hole 2571 on this sliding panel 257, drive link 253 is contained in accommodation space 237, make being threadedly connected on this hold-doun nut 259 of drive link 253, and its one end is rotationally connected with on this first fixed head 231, the other end is through this third through-hole 2333; Actuator 251 to be contained in accommodation space 237 and to be fixed on the second fixed head 233; Transmission component 255 is fixed on the side that the second fixed head 233 deviates from accommodation space 237, make the first drive pulley 2551 affixed with the output shaft of actuator 251, second drive pulley 2553 is affixed with drive link 253, and belt 2555 is set around on this first drive pulley 2551 and the second drive pulley 2553; Guide rail 271 being fixed on side plate 235 deviates from the side of accommodation space 237; Bracing frame 23 is fixed on the side of this first gripper shoe 21; The connecting plate 2411 of load carrier 24 is run through groove 212 from the opposite side of the first gripper shoe 21 through running through groove 229 and first through second successively, and affixed with sliding panel 257, make load carrier 24 be positioned at the both sides of the first gripper shoe 21; Sliding shoe 273 is fixed on sliding panel 257 and connecting plate 2411, and makes sliding shoe 273 be sheathed on guide rail 271 slidably; Face block collecting shell 22 is removably fixed on the first gripper shoe 21 deviate from the side of bracing frame 23, makes in the host cavity 224 of the face that is partially housed in block collecting shell 22 of loading plate 243 and bearing support 241.

Please also refer to Fig. 9 and Figure 10, this bevel device 30 comprises electronic slide unit 310, slide assemblies 37 and wrong knife assembly 39.Wherein, this electronic slide unit 310 comprises the second gripper shoe 31, guidance set 32, driven unit 33, first transmission component 34, second transmission component 35, slide unit assembly 36 and inductive component 38.

This guidance set 32 comprises the first guide 321 and two the second guides 322.This first guide 321 is fixedly arranged on the side of this second gripper shoe 31, and projection first guide rail 3211 on this first guide 321, the guide direction of this first guide rail 3211 is parallel to the length direction of this second gripper shoe 31.These two the second guides 322 are fixedly arranged in this second gripper shoe 31, and each this second guide 322 is positioned at this first guide 321 side along its length.Each this second guide 322 is convexly equipped with the second guide rail 3221, and the guide direction of this second guide rail 3221 is parallel to the guide direction of this first guide rail 3211.Can understand, in other embodiments, if this first guide 321 can play good guide effect, then these two the second guides 322 can omit.Can understand, in other embodiments, the quantity of the second guide 322, not by the restriction of present embodiment, can be arranged according to actual needs.

This driven unit 33 is fixed in this second gripper shoe 31, and is positioned at one end of this first guide 321.Particularly, this driven unit 33 comprises the first keyset 331, second keyset 332 and actuator 333.This first keyset 331 fit this first guide 321 one end and be vertically fixed in this second gripper shoe 31, this second keyset 332 is vertically fixed on this first keyset 331 and deviates from the side of this first guide 321, this actuator 333 is fixed on the side of this second keyset 332 this first keyset 331 contiguous, and the direction of the output shaft of this actuator 333 is perpendicular to this second keyset 332.

This first transmission component 34 is fixed on the side that this second keyset 332 deviates from this actuator 333.Particularly, this first transmission component 34 comprises the first belt wheel 341, second belt wheel 342 and the first belt 343.This first belt wheel 341 is positioned at the side that this second keyset 332 deviates from this actuator 333, and the output shaft of the central shaft of this first belt wheel 341 and this actuator 333 is affixed.This second belt wheel 342 is positioned at the side that this second keyset 332 deviates from this actuator 333, and the rotating shaft of the rotating shaft of this second belt wheel 342 and this first belt wheel 341 is parallel to each other.This first belt 343 is set around on this first belt wheel 341 and this second belt wheel 342.Described first belt 343 is gear band, and it is made up of polyurethane.

This second transmission component 35 comprises the 3rd belt wheel 351, the 4th belt wheel 352 and the second belt 353.One end of 3rd belt wheel 351 is affixed with the central shaft of this second belt wheel 342 through this second keyset 332 by its central shaft.4th belt wheel 352 is positioned at the other end of this second guide 322 and is fixed in this second gripper shoe 31, and the central axis of the central axis of the 4th belt wheel 352 and the 3rd belt wheel 351 is parallel to each other.This second belt 353 is positioned at the top of this first guide 321.This second belt 353 is sheathed on the 3rd belt wheel 351 and the 4th belt wheel 352, and the direction of transfer of this second belt 353 is parallel to the guide direction of this first guide 321.Described second belt 353 is gear band, and it is made up of polyurethane.Can understand, if this actuator 333 can be directly connected on the 3rd belt wheel 351 of this second transmission component 35, then the first transmission component 34 can omit, now, the output shaft of this actuator 333 is directly fixed on the central shaft of the 3rd belt wheel 351, and the central shaft of the output shaft of this actuator 333 and the 3rd belt wheel 351 overlaps.

This slide unit assembly 36 is located on this first guide 321 slidably, and for clamping this second belt 353.Particularly, this slide unit assembly 36 comprises the first holder 361 and the second holder 362.This first holder 361 is located on this first guide 321 slidably.The lower surface of this first holder 361 is provided with the first guide groove 3611 adapted with the shape of the first guide rail 3211 of this first guide 321.The lower surface of this first holder 361 is also provided with for this second belt 353 near this first guide 321 partially pass through wear groove 3612.The upper surface of this first holder 361 is also provided with the first holding tank 3613.This second holder 362 is fixedly arranged on this first holder 361.Particularly, the lower surface of this second holder 362 is to being respectively equipped with the second guide groove 3621 adapted adapted with the shape of these two the second guide rails 3221 by two the second guide rails 3221.Each this second guide groove 3621 and this second guide rail 3221 cooperatively interact and this slide unit assembly 36 can better be slided on this first guide 321 and the second guide 322.This second holder 362 is also provided with the second holding tank 3622 near the side of this first holder 361, a space can passed for the first half of the second belt 353 is formed between this second holding tank 3622 and this first holding tank 3613, this second belt 353 passes this space and is clamped, and makes the motion of this second belt 353 that this slide unit assembly 36 can be driven to move together.

This inductive component 38 comprises the first sensing unit 381, second sensing unit 382 and the 3rd sensing unit 383.This first sensing unit 381 is positioned at the side of this first guide 321 and the position of this driven unit 33 close, 3rd sensing unit 383 is positioned at the side of this first guide 321 and deviates from the position of this driven unit 33, and the second sensing unit 382 is between the first sensing unit 381 and the 3rd sensing unit 383.This first sensing unit 381, second sensing unit 382 and the 3rd sensing unit 383 are positioned at the homonymy of this first guide 321, and are all fixed in this second gripper shoe 31.

This inductive component 38 also comprises an induction pieces 384, this induction pieces 384 is installed in the side of this second holder 362 near this first sensing unit 381, second sensing unit 382 and the 3rd sensing unit 383, this induction pieces 384 in order to respond to this slide unit assembly 36 and whether this slide assemblies 37 moves to this first sensing unit 381, this second sensing unit 382 or the 3rd sensing unit 383 place, with determine whether to need this slide unit assembly 36 and this slide assemblies 37 to move to and return initial point or exceed whole go out normal range of movement.

This slide assemblies 37 is installed on this electronic slide unit 310.Please also refer to Figure 11, particularly, this slide assemblies 37 is installed on this second holder 362.This slide assemblies 37 comprises fixed block 371, sliding shoe 372, back-up block 373 and two locating parts 374.

This fixed block 371 is fixed on this second holder 362.This sliding shoe 372 is located on this fixed block 371 slidably.This fixed block 371 is provided with a slide rail 3711.

This sliding shoe 372 comprises a slide body 3720 and is positioned at the chute 3721 of this slide body 3720 near this fixed block 371 side.Dough knife 300 is installed in this slide body 3720.This chute 3721 cooperatively interacts with this slide rail 3711 and this sliding shoe 372 is located on this slide rail 3711 slidably, and the glide direction of this sliding shoe 372 this fixed block 371 relative is perpendicular to the glide direction of this slide unit assembly 36 this guidance set 32 relative.This sliding shoe 372 also comprises the first block 3722 of the side being positioned at this slide body 3720 and is positioned at second block 3723 of opposite side of this slide body 3720, and this first block 3722 is positioned at the relative two ends of this slide body 3720 with this second block 3723.Slide body 3720 side of adjacent first block 3722 is provided with the first spacing hole 3724 and the second spacing hole 3725, the opposite side of the slide body 3720 of adjacent second block 3723 is also provided with the first spacing hole 3724 and the second spacing hole 3725.Described first spacing hole 3724 and the second spacing hole 3725 lay respectively at one end that this slide body 3720 deviates from this first block 3722 and the second block 3723.Centre-to-centre spacing between each the first spacing hole 3724 and second spacing hole 3725 of correspondence equals the half of the blade (not shown) of this dough knife 300, the i.e. distance of half blade, in this enforcement side, for convenience of description, the distance of this half blade is referred to as predeterminable range.

This back-up block 373 is between this fixed block 371 and sliding shoe 372, and it comprises the first support member 3731 and the second support member 3732.This first support member 3731 this first block 3722 contiguous and be positioned at the side that this first block 3722 deviates from this second block 3723.This second support member 3732 this second block 3723 contiguous and be positioned at the side that this second block 3723 deviates from this first block 3722.The two ends of this slide body 3720 are each passed through this first support member 3731 and this second support member 3732.Each locating part 374 can be installed in this first support member 3731 and this second support member 3732 elastic rolling respectively, and respectively to should the first spacing hole 3724 and the second spacing hole 3725.This locating part 374 flexiblely can stretch into this first spacing hole 3724 or skids off from this first spacing hole 3724 and slip in this second spacing hole 3725, or skids off in this second spacing hole 3725 and slip into this first spacing hole 3724.In the present embodiment, this locating part 374 is for being fixed on the bulb plunger in this first support member 3731 or this second support member 3732.

Can understand, can only be coordinated by a locating part 374 and one group of first spacing hole 3724 and the second spacing hole 3725.

Can understand, if this sliding shoe 372 directly can be located at the side that this second holder 362 deviates from this first holder 361 slidably, then this fixed block 371 can omit.

Can understand, in other embodiments, the kind of drive of this electronic slide unit 310 also can be screw rod transmission mode.

This wrong knife assembly 39 comprises the first wrong knife 391 and the second wrong knife 392.This first wrong knife 391 and this second wrong knife 392 lay respectively on two ends of this electronic slide unit 310, and are positioned at the both sides of this electronic slide unit 310.In the present embodiment, this first wrong knife 391 and this second wrong knife 392 lay respectively on two ends of this first guide 321, and are positioned at the relative both sides of this first guide 321, and are fixed in this second gripper shoe 31.This first wrong knife 391 is to should first gear block 3722, and this second wrong knife 392 is to should second gear block 3723.This first wrong knife 391 is provided with the first support division 3910, and this second wrong knife 392 is provided with the second support division 3920.In the present embodiment, this first support division 3910 and the second support division 3920 can be rolling bearing or other rolling member.

During initial position, locating part 374 on this first support member 3731 be contained in this first block 3722 adjacent the first spacing hole 3724, second spacing hole 3725 or between this first spacing hole 3724 and second spacing hole 3725, in the second spacing hole 3725, first spacing hole 3724 that the locating part 374 on this second support member 3732 is contained in this second block 3723 adjacent or between this second spacing hole 3725 and first spacing hole 3724.

To rotate along a direction when this actuator 333 and drive this slide unit assembly 36 and slide assemblies 37 to move and move to from the side away from this actuator 333 near this actuator 333, and this induction pieces 384 is when sensing this second sensing unit 382, send the first induced signal, this actuator 333 continues to move near the direction of this actuator 333 according to this this slide unit assembly 36 of the first induced signal deceleration and slide assemblies 37, and this induction pieces 384 is when sensing this first sensing unit 381, send the second induced signal, this actuator 333 drives this slide unit assembly 36 and this slide assemblies 37 to return initial point according to this second induced signal, until the first block 3722 of this slide assemblies 37 collides with the first support division 3910 of this first wrong knife 391, this first support division 3910 makes this first block 3722 be subject to a thrust of the tangential direction of the contact point perpendicular to this first support division 3910, this actuator 333 drives this slide assemblies 37 to slide along the first guide 321 near the direction of this actuator 333, simultaneously above-mentioned thrust is ordered about this sliding shoe 372 and is slided to the direction away from this first support member 3731, the locating part 374 of this first block 3722 adjacent is skidded off from the second spacing hole 3725 Elastic of correspondence, or slide from the position between this first spacing hole 3724 and this second spacing hole 3725, and continue to drive this sliding shoe 372 to slide to the direction away from this first support member 3731, stretch in the first corresponding spacing hole 3724 until this locating part 374 is flexible, and the locating part 374 of this second block 3723 adjacent is skidded off from the first spacing hole 3724 Elastic of correspondence, or slide from the position between this first spacing hole 3724 and this second spacing hole 3725, and continue to drive this sliding shoe 372 to slide to the direction away from this first support member 3731, stretch in the second corresponding spacing hole 3725 until this locating part 374 is flexible.So far, this first wrong knife 391 forces this sliding shoe 372 and installing dough knife 300 thereon to complete once wrong cutter.Next this actuator 333 reverses according to pulse signal and drives this slide unit assembly 36 and this slide assemblies 37 to move to the side certain distance away from this actuator 333 from the side near this actuator 333, until when the second block 3723 of this slide assemblies 37 pushes the second support division 3920 of this second wrong knife 392, this second support division 3920 makes this second block 3723 be subject to a thrust of the tangential direction of the contact point perpendicular to this second support division 3920, this actuator 333 drives this slide assemblies 37 to slide along the first guide 321 to the direction away from this actuator 333, above-mentioned thrust drives this sliding shoe 372 to slide to the direction away from this second support member 3732 simultaneously, locating part 374 on this second support member 3732 adjacent is skidded off from the second spacing hole 3725 Elastic of this second block 3723 adjacent, and continue to drive this sliding shoe 372 to slide to the direction away from this second support member 3732, stretch in the first spacing hole 3724 of this second block 3723 adjacent until this locating part 374 is flexible, so far, this second wrong knife 392 forces this sliding shoe 372 and installing dough knife 300 thereon to complete once wrong cutter, now, the actuator 251 of pushing surface device 20 starts to drive this face block 200 to decline certain distance downwards, this actuator 333 rotates forward according to pulse signal and drives this slide unit assembly 36 and this slide assemblies 37 to stop after the lateral movement certain distance near this actuator 333 subsequently, next this face block 200 is driven upwards after rising certain distance until the actuator 251 of this pushing surface device 20, this actuator 333 reverses according to pulse signal and stops after driving this slide unit assembly 36 and this slide assemblies 37 to move predeterminable range to the side away from this actuator 333, next the actuator 251 until this pushing surface device 20 drives this face block 200 after downward decline certain distance, this actuator 333 rotates forward according to pulse signal and drives this slide unit assembly 36 and this slide assemblies 37 to the lateral movement certain distance near this actuator 333, until the first block 3722 of this slide assemblies 37 pushes the first support division 3910 of this first wrong knife 391, and so forth, on the convex epirelief each cutter of dough knife 300 all being cut stay at a upper cutter.

During use, when loading plate 243 arrives the least significant end of face block collecting shell 22, open face block collecting shell 22, face block 200 is placed on loading plate 243, install face block collecting shell 22; Press start button, actuator 251 starts to rotate forward, under the transmission of transmission component 255 and drive link 253, power is reached on hold-doun nut 259, sliding panel 257 is made to start to move in a stepping manner to the direction near the first gripper shoe 21, a stop motion during predeterminable range and this loading plate 243 often moves upward.This actuator 333 starts, and by the first transmission component 34 and the second transmission component 35 and then drive dough knife 300 to carry out reciprocal bevel, after often cutting an aspect, this actuator 333 is by stop motion.This actuator 251 again starts to start and drives this loading plate 243 first to move downward stop motion after a setpoint distance.When this actuator 333 starts again, and when driving dough knife 300 to start bevel, this actuator 251 again starts to start and drives this loading plate 243 to move upward stop motion after a setpoint distance again, and so forth, when loading plate 243 moves to the top of face block collecting shell 22, this first sensor 261 sends the first control signal, this actuator 251 is when receiving this first control signal, control this actuator 251 to start to rotate in the opposite direction, move to the direction away from this first gripper shoe 21 to drive this sliding panel 257 and load carrier 24, when this sliding panel 257 moves to the position near this second sensor 263, this second sensor 263 sends the second control signal, this actuator 251 is when receiving this second control signal, control this actuator 251 to stop operating.

The dough cutting device of the utility model, carries out plastotype process by face embryo, and adopts the mode bevel of straight line, makes the face leaf length that cuts out identical; Panel in a stepwise manner on push away, make the face leaf thickness that cuts out even, width is consistent; Adopt wrong knife assembly, wrong cutter about making dough knife, make the leaf thick middle both sides, face that cut out thin, and when avoiding bevel, cut out the situation in half bar face.Bevel speed is fast, can reach 20 ~ 60 cuttves/min; In bevel process, noise is less.

Be appreciated that for the person of ordinary skill of the art, respective shapes distortion can be made according to technical conceive of the present utility model, and all these change the protection domain that all should belong to the utility model claim with distortion.

Claims (9)

1. a bevel device, comprising:

Electronic slide unit, this electronic slide unit comprises slide unit assembly, and this slide unit assembly for reciprocatingly sliding on this electronic slide unit;

Slide assemblies, this slide assemblies is installed on this slide unit assembly slidably, the glide direction of the glide direction of this slide assemblies and this slide unit assembly is perpendicular, this slide assemblies comprises sliding shoe, the relative both sides of this sliding shoe are provided with the first block and the second block, and this sliding shoe is for installing a dough knife; With

Wrong knife assembly, this wrong knife assembly comprises the first wrong knife and the second wrong knife, this first wrong knife and this second wrong knife lay respectively on two ends of this electronic slide unit, and be positioned at the relative both sides of this electronic slide unit, this first wrong knife is to should first gear block, and this second wrong knife is to should second gear block;

This first wrong knife is used for pushing this first block, to force this sliding shoe to Slideslip one predeterminable range away from this first wrong knife, this second wrong knife for pushing this second block to force this sliding shoe near this predeterminable range of a Slideslip of this first wrong knife, to realize wrong cutter.

2. bevel device as claimed in claim 1, it is characterized in that: this first wrong knife is provided with the first support division, this second wrong knife is provided with the second support division, and this first support division is used for pushing this first block, and this second support division is used for pushing the second block.

3. bevel device as claimed in claim 2, it is characterized in that: this sliding shoe is provided with a slide body, this slide body is provided with the first spacing hole and the second spacing hole in the side of this first block contiguous, in this second block contiguous opposite side on be also provided with the first spacing hole and the second spacing hole, this slide assemblies also comprises two locating parts, this two locating part can be sticked in the first spacing hole of this first block contiguous and the second spacing hole of this second block contiguous respectively, or be sticked in the second spacing hole of this first block contiguous and the first spacing hole of this second block contiguous.

4. bevel device as claimed in claim 3, it is characterized in that: this slide assemblies also comprises fixed block, this fixed block is fixed on this slide unit assembly, and this sliding shoe is located on this fixed block slidably, and the glide direction of relative this fixed block of this sliding shoe is perpendicular to the glide direction of this slide unit assembly.

5. bevel device as claimed in claim 4, it is characterized in that: this slide assemblies also comprises back-up block, this back-up block is between this fixed block and sliding shoe, this back-up block comprises the first support member and the second support member, the two ends of this slide body are each passed through this first support member and this second support member, and described two locating parts are separately positioned on this first support member and the second support member.

6. a dough cutting device, comprise and support cabinet, pushing surface device and bevel device, this pushing surface device and bevel device are installed on this support cashier's office in a shop, and this pushing surface device is in order to place the face block of preset shape, and this face block is pushed to a predeterminated position for cutting, this bevel device comprises:

Electronic slide unit, this electronic slide unit comprises slide unit assembly, and this slide unit assembly for reciprocatingly sliding on this electronic slide unit;

Slide assemblies, this slide assemblies is installed on this slide unit assembly slidably, the glide direction of the glide direction of this slide assemblies and this slide unit assembly is perpendicular, this slide assemblies comprises sliding shoe, the relative both sides of this sliding shoe are provided with the first block and the second block, and this sliding shoe is for installing a dough knife; With

Wrong knife assembly, this wrong knife assembly comprises the first wrong knife and the second wrong knife, this first wrong knife and this second wrong knife lay respectively on two ends of this electronic slide unit, and be positioned at the relative both sides of this electronic slide unit, this first wrong knife is to should first gear block, and this second wrong knife is to should second gear block;

This first wrong knife is used for pushing this first block, to force this sliding shoe to Slideslip one predeterminable range away from this first wrong knife, this second wrong knife for pushing this second block to force this sliding shoe near this predeterminable range of a Slideslip of this first wrong knife, to realize wrong cutter.

7. dough cutting device as claimed in claim 6, it is characterized in that: this first wrong knife is provided with the first support division, this second wrong knife is provided with the second support division, and this first support division is used for pushing this first block, and this second support division is used for pushing the second block.

8. dough cutting device as claimed in claim 7, it is characterized in that: this sliding shoe is provided with a slide body, this slide body is provided with the first spacing hole and the second spacing hole in the side of this first block contiguous, in this second block contiguous opposite side on be also provided with the first spacing hole and the second spacing hole, this slide assemblies also comprises two locating parts, this two locating part can be sticked in the first spacing hole of this first block contiguous and the second spacing hole of this second block contiguous respectively, or be sticked in the second spacing hole of this first block contiguous and the first spacing hole of this second block contiguous.

9. dough cutting device as claimed in claim 6, it is characterized in that: this dough cutting device also comprises protective cover, this protective cover is fixed on this pushing surface device, and covers on this pushing surface device and bevel device to block and to protect this pushing surface device and bevel device.