CN207432393U - A kind of wooden qin lattice machine of numerical control - Google Patents

Abstract

The utility model is related to a kind of wooden qin lattice machine of numerical control, including：The wooden qin lattice processing assembly of workbench and setting on the table, wooden qin lattice processing assembly include：X-axis sliding module, Y-axis sliding module, Z axis sliding module, workpiece fixed module and the cutting module being electrically connected respectively with control circuit board, wherein, workpiece fixed module is fixed in X-axis sliding module, and the workpiece to be processed that workpiece fixed module clamps is sent to X-axis predetermined position by X-axis sliding module under the control of control circuit board；Cutting module is arranged in Z axis sliding module, and Z axis sliding module is vertically set in Y-axis sliding module；Y-axis sliding module is vertically arranged with X-axis sliding module, and Y-axis sliding module controls cutting stroke of the workpiece to be processed in Y-axis, and Z axis sliding module is used to control cutting depth of the workpiece to be processed on Z axis.The technical solution of the utility model can reduce the fault in production rate of wooden qin lattice, realize the batch standardized production of wooden qin lattice.

Description

A kind of wooden qin lattice machine of numerical control

Technical field

The utility model is related to numerical controlled machinery technical field of processing equipment, and in particular to a kind of wooden qin lattice machine of numerical control.

Background technology

Member unit of mouth organ Professional Committee of Chinese musical instruments association, the wooden qin lattice of none member unit production now, reason It is to need manually to clamp workpiece to be processed, is processed on mechanical driving device, due to manual operation, high failure rate, Precision is not enough, loss is big, security is poor, maintenance of equipment is difficult.

Utility model content

In view of this, the purpose of the utility model is to overcome the deficiencies in the prior art, provide a kind of numerical control wooden qin lattice Machine reduces the fault in production rate of wooden qin lattice, realizes the batch standardized production of wooden qin lattice.

In order to achieve the above object, the utility model adopts the following technical solution：

A kind of wooden qin lattice machine of numerical control, including：Workbench and the wooden qin lattice processing assembly being arranged on the workbench, Wherein, it is provided with control circuit board in the workbench；

The wooden qin lattice processing assembly includes：X-axis sliding module, the Y-axis being electrically connected respectively with the control circuit board Sliding module, Z axis sliding module, workpiece fixed module and cutting module, wherein,

The workpiece fixed module is fixed in X-axis sliding module, and the X-axis sliding module is used in the control circuit The workpiece to be processed that the workpiece fixed module clamps is sent to X-axis predetermined position under the control of plate；The cutting module is set It puts in Z axis sliding module, the Z axis sliding module is vertically set in the Y-axis sliding module；The Y-axis sliding module It being vertically arranged with the X-axis sliding module, the Y-axis sliding module is used to control cutting stroke of the workpiece to be processed in Y-axis, The Z axis sliding module is used to control cutting depth of the workpiece to be processed on Z axis.

Preferably, the wooden qin lattice machine of the numerical control, further includes：User's input and output module, user's input and output mould Group includes stent and is embedded touch-screen on the bracket, and the touch-screen is electrically connected with the control circuit board.

Preferably, the X-axis sliding module, Y-axis sliding module are identical with Z axis sliding module structure, all include：Slide and Driving motor, wherein, screw is equipped in the slide, the screw is fixed on the output shaft of the driving motor；The silk Through there is sliding block on bar, the sliding block is equipped with pallet；

The workpiece fixed module is fixed on the pallet of X-axis sliding module, and the Z axis sliding module is fixed on Y-axis cunning On the pallet of dynamic model group, the cutting module is fixed on the pallet of Z axis sliding module.

Preferably, the X-axis sliding module, Y-axis sliding module and Z axis sliding module, also all include：Slide cushion block, institute It states slide cushion block to be arranged under slide, for buffering the vibrations generated during the driving motor work.

Preferably, the X-axis sliding module and Y-axis sliding module, also all include：Slide dust excluding plate, the pallet are U-shaped Type；

The workpiece fixed module is fixed at the rim openings of U-shaped pallet of X-axis sliding module；The workpiece is fixed Gap formed on the bottom of module and the bottom of the U-shaped pallet of X-axis sliding module, and the slide dust excluding plate of X-axis sliding module is from institute It states after gap passes through, is covered on the slide of X-axis sliding module；

The Z axis sliding module is fixed at the rim openings of U-shaped pallet of Y-axis sliding module；The Z axis sliding die Gap formed on the bottom of group and the bottom of the U-shaped pallet of Y-axis sliding module, and the slide dust excluding plate of Y-axis sliding module is from described After gap passes through, it is covered on the slide of Y-axis sliding module.

Preferably, the Z axis sliding module, further includes：Supporting plate, riser and rear bearing sheet, wherein,

The pallets level is fixed at the rim openings of U-shaped pallet of Y-axis sliding module, and the riser is vertically arranged On the supporting plate；The riser and supporting plate are used to fix the slide and screw of Z axis sliding module；The rear bearing sheet is vertically set It puts on the supporting plate, at the same it is vertical with the riser, and the rear bearing sheet is used to carry for the slide and screw of Z axis sliding module For Auxiliary support.

Preferably, the cutting module includes：Spindle motor and drawing near is sequentially sleeved at the spindle motor output Cutting cover, cutting blade, cutting blade installing plate, motor mounting plate and belt pulley on axis, wherein, the spindle motor is used to control The rotary speed of the cutting blade；The cutting blade is saw blade or blade.

Preferably, the workpiece fixed module includes：Fixture installing plate, clamp bottom board, left cylinder, right cylinder, left catch With right catch, wherein,

The fixture installing plate is horizontally fixed at the rim openings of U-shaped pallet of X-axis sliding module；The fixture bottom Plate is arranged on the fixture installing plate；The left catch and right catch interval pre-determined distance, are arranged on the clamp bottom board； The left cylinder and right cylinder are also spaced pre-determined distance, are oppositely arranged respectively with the left catch and right catch, the left cylinder It is used under the action of control circuit board with right cylinder, is moved on clamp bottom board to the direction of right baffle-plate and right shell body, with folder Tight workpiece to be processed.

Preferably, the workbench includes：Skeleton main body and the preceding sealing plate being coated on outside the skeleton main body, rear sealing plate, Upper sealing plate, lower sealing plate, left sealing plate and right sealing plate, wherein, it is equipped with intermediate bulkhead in the skeleton main body, the intermediate bulkhead is by bone Frame body is divided into two sections in left and right, and the control circuit board is provided in one of section, and on the rear sealing plate in the section Equipped with suction inlet.

Preferably, respectively there are one universal wheels for installation at four angles of the bottom of the workbench.

The utility model uses above technical scheme, at least possesses following advantageous effect：

As shown from the above technical solution, the wooden qin lattice machine of this numerical control provided by the utility model, workpiece fixed module are consolidated It is scheduled in X-axis sliding module, X-axis sliding module can clamp workpiece fixed module under the control of control circuit board to be added Work workpiece is sent to X-axis predetermined position；Cutting module is arranged in Z axis sliding module, and Z axis sliding module is vertically set on Y-axis In sliding module；Y-axis sliding module is vertically arranged with X-axis sliding module, and Y-axis sliding module can control workpiece to be processed in Y Cutting stroke on axis, Z axis sliding module can control cutting depth of the workpiece to be processed on Z axis.Compared with prior art, originally The wooden qin lattice machine of this numerical control that utility model provides, can be realized as in the case of need not manually being participated in due to process Accurate processing of the workpiece to be processed in X, Y, Z axis can reduce the fault in production rate of wooden qin lattice, can improve production effect Rate realizes the batch standardized production of wooden qin lattice.Further, since in the process of entire wooden qin lattice, it need not be artificial It participates in, safe, user experience is high.

Description of the drawings

It in order to illustrate the embodiment of the utility model or the technical proposal in the existing technology more clearly, below will be to embodiment Or attached drawing needed to be used in the description of the prior art is briefly described, it should be apparent that, the accompanying drawings in the following description is only It is some embodiments of the utility model, for those of ordinary skill in the art, in the premise not made the creative labor Under, it can also be obtained according to these attached drawings other attached drawings.

Fig. 1 is a kind of overall structure diagram for the wooden qin lattice machine of numerical control that one embodiment of the utility model provides；

Fig. 2 is a kind of the quick-fried of the wooden qin lattice processing assembly for the wooden qin lattice machine of numerical control that one embodiment of the utility model provides Fried figure；

Fig. 3 is a kind of explosive view of the workbench for the wooden qin lattice machine of numerical control that one embodiment of the utility model provides.

Specific embodiment

It, below will be to the technology of the utility model to make the purpose of this utility model, technical solution and advantage clearer Scheme is described in detail.Obviously, the described embodiments are only a part of the embodiments of the utility model rather than whole Embodiment.Based on the embodiment in the utility model, those of ordinary skill in the art are not before creative work is made Obtained all other embodiment is put, belongs to the scope that the utility model is protected.

Below by drawings and examples, the technical solution of the utility model is described in further detail.

Referring to Fig. 1, a kind of wooden qin lattice machine of numerical control of one embodiment of the utility model offer, including：Workbench 1 and setting Wooden qin lattice processing assembly on the workbench 1, wherein,

Control circuit board 11 is provided in the workbench 1；The wooden qin lattice processing assembly includes：Respectively with the control X-axis sliding module 2, Y-axis sliding module 3, Z axis sliding module 4, workpiece fixed module 5 and the cutting mould of circuit board electrical connection processed Group 6, wherein,

The workpiece fixed module is fixed in X-axis sliding module, and the X-axis sliding module is used in the control circuit The workpiece to be processed that the workpiece fixed module clamps is sent to X-axis predetermined position under the control of plate；The cutting module is set It puts in Z axis sliding module, the Z axis sliding module is vertically set in the Y-axis sliding module；The Y-axis sliding module It being vertically arranged with the X-axis sliding module, the Y-axis sliding module is used to control cutting stroke of the workpiece to be processed in Y-axis, The Z axis sliding module is used to control cutting depth of the workpiece to be processed on Z axis.

As shown from the above technical solution, the wooden qin lattice machine of this numerical control provided by the utility model, workpiece fixed module are consolidated It is scheduled in X-axis sliding module, X-axis sliding module can clamp workpiece fixed module under the control of control circuit board to be added Work workpiece is sent to X-axis predetermined position；Cutting module is arranged in Z axis sliding module, and Z axis sliding module is vertically set on Y-axis In sliding module；Y-axis sliding module is vertically arranged with X-axis sliding module, and Y-axis sliding module can control workpiece to be processed in Y Cutting stroke on axis, Z axis sliding module can control cutting depth of the workpiece to be processed on Z axis.Compared with prior art, originally The wooden qin lattice machine of this numerical control that utility model provides, can be realized as in the case of need not manually being participated in due to process Accurate processing of the workpiece to be processed in X, Y, Z axis can reduce the fault in production rate of wooden qin lattice, can improve production effect Rate realizes the batch standardized production of wooden qin lattice.Further, since in the process of entire wooden qin lattice, it need not be artificial It participates in, safe, user experience is high.

Preferably, the wooden qin lattice machine of the numerical control, further includes：User's input and output module 7, user's input and output mould Group 7 includes stent 71 and the touch-screen 72 being embedded on the stent 71, the touch-screen 72 and 11 electricity of control circuit board Connection.

It is understood that user can set X-axis sliding module, Y-axis sliding module, Z axis sliding die by touch-screen The operating parameter of group, while work pieces process effect can also be checked by touch-screen.

Referring to Fig. 2, it is preferable that the X-axis sliding module 2, Y-axis sliding module 3 are identical with 4 structure of Z axis sliding module, all Including：Slide 8 and driving motor 9, wherein, screw 81 is equipped in the slide 8, the screw 81 is fixed on the driving motor On 9 output shaft；Through there is sliding block 82 on the screw 81, the sliding block 82 is equipped with pallet 83；

The workpiece fixed module 5 is fixed on the pallet of X-axis sliding module 2, and the Z axis sliding module 4 is fixed on Y-axis On the pallet of sliding module 3, the cutting module 6 is fixed on the pallet of Z axis sliding module 4.

Preferably, the X-axis sliding module 2, Y-axis sliding module 3 and Z axis sliding module 4, also all include：Slide cushion block 84, the slide cushion block 84 is arranged under slide 8, for buffering the vibrations generated when the driving motor 9 works.

Preferably, the X-axis sliding module 2 and Y-axis sliding module 3, also all include：Slide dust excluding plate 85, the pallet 83 be U-shaped；

The workpiece fixed module 5 is fixed at the rim openings of U-shaped pallet of X-axis sliding module 2；The workpiece is consolidated Gap, the slide dust excluding plate of X-axis sliding module 2 are formed on the bottom of cover half group 5 and the bottom of the U-shaped pallet of X-axis sliding module 2 After being passed through from the gap, it is covered on the slide of X-axis sliding module 2；

The Z axis sliding module 4 is fixed at the rim openings of U-shaped pallet of Y-axis sliding module 3；The Z axis slides Gap formed on the bottom of module 4 and the bottom of the U-shaped pallet of Y-axis sliding module 3, the slide dust excluding plate of Y-axis sliding module 3 from After the gap passes through, it is covered on the slide of Y-axis sliding module 3.

It is understood that slide dust excluding plate plays an important role of dustproof and waterproof.U-shaped pallet moves under the drive of sliding block When, slide dust excluding plate is motionless, and the workpiece fixed module or Z axis sliding module being fixed on U-shaped pallet are movements 's.

Preferably, the Z axis sliding module 4, further includes：Supporting plate 41, riser 42 and rear bearing sheet 43, wherein,

The supporting plate 41 is horizontally fixed at the rim openings of U-shaped pallet of Y-axis sliding module 3, and the riser 42 hangs down It is directly arranged on the supporting plate 41；The riser 42 and supporting plate 41 are used to fix the slide and screw of Z axis sliding module 4；It is described Rear bearing sheet 43 is vertically set on the supporting plate 41, while vertical with the riser 42, and the rear bearing sheet 43 is used for as Z axis The slide and screw of sliding module 4 provide Auxiliary support.

Preferably, the cutting module 6 includes：It spindle motor 61 and draws near and is sequentially sleeved at the spindle motor 61 Cutting cover 62, cutting blade 63, cutting blade installing plate 64, motor mounting plate 65 and belt pulley 66 on output shaft, wherein, the master Spindle motor 61 is used to control the rotary speed of the cutting blade 63；The cutting blade 63 is saw blade or blade.

Preferably, motor gasket 67 on motor mounting plate 65 is installed, is generated for buffering when spindle motor 61 works Vibrations.

Preferably, 61 output shaft of spindle motor is parallel with X-axis slide rail.

Preferably, the workpiece fixed module 5 includes：Fixture installing plate 51, clamp bottom board 52, left cylinder 53, right cylinder 54th, left catch 55 and right catch 56, wherein,

The fixture installing plate 51 is horizontally fixed at the rim openings of U-shaped pallet of X-axis sliding module 2；The folder Tool bottom plate 52 is arranged on the fixture installing plate 51；The left catch 55 and right catch 56 are spaced pre-determined distance, are arranged on institute It states on clamp bottom board 52；The left cylinder 53 and right cylinder 54 are also spaced pre-determined distance, respectively with the left catch 55 and right gear Piece 56 is oppositely arranged, and the left cylinder 53 and right cylinder 54 are used under the action of control circuit board 11, on clamp bottom board 52 It is moved to the direction of right baffle-plate 55 and right shell body 56, to clamp workpiece to be processed.

It should be understood that this structure of this workpiece fixed module provided by the utility model, determines work to be processed Part can be lain in a horizontal plane on clamp bottom board, can also be vertically disposed on clamp bottom board.In addition, for different-thickness, difference The workpiece to be processed of size can revise X, Y, Z axis parameter by touch-screen and carry out machining, disclosure satisfy that different size work The process requirements of part, it is applied widely.

Referring to Fig. 3, it is preferable that the workbench 1 includes：Skeleton main body 12 and before being coated on outside the skeleton main body 12 Sealing plate 13, rear sealing plate 14, upper sealing plate 15, lower sealing plate 16, left sealing plate 17 and right sealing plate 18, wherein, it is set in the skeleton main body 12 There is intermediate bulkhead 19, skeleton main body 12 is divided to control two sections, is provided in one of section by the intermediate bulkhead 19 The control circuit board 11, and the rear sealing plate 14 in the section is equipped with suction inlet 20.

Preferably, the workbench 1 is cuboid or square, and only after being installed equipped with the section of control circuit board 11 Sealing plate.The benefit so set is can to save material, reduces cost.

Preferably, respectively there are one universal wheels 10 for installation at four angles of the bottom of the workbench 1.

The above is only specific embodiment of the present utility model, but the scope of protection of the utility model is not limited to In this, in the technical scope that any one skilled in the art discloses in the utility model, variation can be readily occurred in Or replace, it should be covered within the scope of the utility model.Therefore, the scope of protection of the utility model should be with the power Subject to the protection domain of profit requirement.Term " first ", " second " are only used for description purpose, and it is not intended that instruction or hint phase To importance.Term " multiple " refers to two or more, unless otherwise restricted clearly.

Claims (10)

1. a kind of wooden qin lattice machine of numerical control, which is characterized in that including：Workbench and the wooden qin lattice being arranged on the workbench Processing assembly, wherein, it is provided with control circuit board in the workbench；

The wooden qin lattice processing assembly includes：X-axis sliding module, the Y-axis being electrically connected respectively with the control circuit board are slided Module, Z axis sliding module, workpiece fixed module and cutting module, wherein,

The workpiece fixed module is fixed in X-axis sliding module, and the X-axis sliding module is used in the control circuit board The workpiece to be processed that the workpiece fixed module clamps is sent to X-axis predetermined position under control；The cutting module is arranged on Z In axis sliding module, the Z axis sliding module is vertically set in the Y-axis sliding module；The Y-axis sliding module with it is described X-axis sliding module is vertically arranged, and the Y-axis sliding module is used to control cutting stroke of the workpiece to be processed in Y-axis, the Z Axis sliding module is used to control cutting depth of the workpiece to be processed on Z axis.

2. the wooden qin lattice machine of numerical control according to claim 1, which is characterized in that further include：User's input and output module, institute Stating user's input and output module includes stent and is embedded touch-screen on the bracket, the touch-screen and the control circuit Plate is electrically connected.

3. the wooden qin lattice machine of numerical control according to claim 1, which is characterized in that the X-axis sliding module, Y-axis sliding die Group is identical with Z axis sliding module structure, all includes：Slide and driving motor, wherein, screw, the silk are equipped in the slide Bar is fixed on the output shaft of the driving motor；Through there is sliding block on the screw, the sliding block is equipped with pallet；

The workpiece fixed module is fixed on the pallet of X-axis sliding module, and the Z axis sliding module is fixed on Y-axis sliding die On the pallet of group, the cutting module is fixed on the pallet of Z axis sliding module.

4. the wooden qin lattice machine of numerical control according to claim 3, which is characterized in that the X-axis sliding module, Y-axis sliding die Group and Z axis sliding module, also all include：Slide cushion block, the slide cushion block are arranged under slide, for buffering the driving electricity The vibrations that machine generates when working.

5. the wooden qin lattice machine of numerical control according to claim 4, which is characterized in that the X-axis sliding module and Y-axis sliding die Group also all includes：Slide dust excluding plate, the pallet are U-shaped；

The workpiece fixed module is fixed at the rim openings of U-shaped pallet of X-axis sliding module；The workpiece fixed module Bottom and the bottom of U-shaped pallet of X-axis sliding module form gap, the slide dust excluding plate of X-axis sliding module is from the sky After gap passes through, it is covered on the slide of X-axis sliding module；

The Z axis sliding module is fixed at the rim openings of U-shaped pallet of Y-axis sliding module；The Z axis sliding module Gap formed on the bottom of the U-shaped pallet of bottom and Y-axis sliding module, and the slide dust excluding plate of Y-axis sliding module is from the gap After passing through, it is covered on the slide of Y-axis sliding module.

6. the wooden qin lattice machine of numerical control according to claim 5, which is characterized in that the Z axis sliding module further includes：Support Plate, riser and rear bearing sheet, wherein,

The pallets level is fixed at the rim openings of U-shaped pallet of Y-axis sliding module, and the riser is vertically set on institute It states on supporting plate；The riser and supporting plate are used to fix the slide and screw of Z axis sliding module；The rear bearing sheet is vertically set on On the supporting plate, at the same it is vertical with the riser, and the rear bearing sheet is used to provide for the slide and screw of Z axis sliding module auxiliary Help support.

7. the wooden qin lattice machine of numerical control according to claim 6, which is characterized in that the cutting module includes：Spindle motor And the cutting cover being sequentially sleeved on the spindle motor output shaft that draws near, cutting blade, cutting blade installing plate, motor installation Plate and belt pulley, wherein, the spindle motor is used to control the rotary speed of the cutting blade；The cutting blade is saw blade or knife Piece.

8. the wooden qin lattice machine of numerical control according to claim 7, which is characterized in that the workpiece fixed module includes：Fixture Installing plate, clamp bottom board, left cylinder, right cylinder, left catch and right catch, wherein,

The fixture installing plate is horizontally fixed at the rim openings of U-shaped pallet of X-axis sliding module；The clamp bottom board is set It puts on the fixture installing plate；The left catch and right catch interval pre-determined distance, are arranged on the clamp bottom board；It is described Left cylinder and right cylinder are also spaced pre-determined distance, are oppositely arranged respectively with the left catch and right catch, the left cylinder and the right side Cylinder is used under the action of control circuit board, is moved on clamp bottom board to the direction of right baffle-plate and right shell body, is treated with clamping Workpieces processing.

9. the wooden qin lattice machine of numerical control according to claim 1, which is characterized in that the workbench includes：Skeleton main body and Preceding sealing plate, rear sealing plate, upper sealing plate, lower sealing plate, left sealing plate and the right sealing plate being coated on outside the skeleton main body, wherein, the bone Intermediate bulkhead is equipped in frame body, skeleton main body is divided into two sections in left and right, is set in one of section by the intermediate bulkhead The control circuit board is equipped with, and the rear sealing plate in the section is equipped with suction inlet.

10. the wooden qin lattice machine of numerical control according to claim 9, which is characterized in that four angles of the bottom of the workbench There are one universal wheels for each installation.