CN2593989Y - Flutes milling apparatus - Google Patents

Abstract

The utility model relates to a slot milling machine. The utility model is proposed in order to provide a milling device which has the advantages of high machining efficiency, flexible operation and convenient use. The utility model comprises a machine table, holding structures, a slot milling mechanism and a power structure, wherein, the holding structures are arranged at both sides of the machine table and can clamp machined articles, the slot milling mechanism is arranged between the holding structures, and the power structure linked with the slot milling mechanism to do reciprocating motion. The slot milling mechanism is provided with a plurality of slide seats and a milling cutter group, wherein, the slide seats can carry out angle adjustment, the milling cutter group is arranged on the slide seats and can independently adjusts the front position, the back position, the upper position and the lower position of the milling cutter group. The milling cutter group is provided with a cutting tool power source, and both sides of the cutting tool power source are provided with cutting tools. The power structure is eccentrically pivoted with a coupled rod, and the other end of the coupled rod is pivoted to the slide seats in order to drive the slide seats to do the front and the back reciprocating motion.

Description

Slotter

Technical field

The utility model belongs to milling device, particularly a kind of slotter.

Background technology

General wood substrates carry out each other and establish when connecting, be connecting airtight property and the aesthetic property of stressing joining place, so all can set out trip and tongue-and-groove desiring to mill respectively on two base materials of winding each other, embed in the tongue-and-groove on another base material with a base material upper trip, reach closely affixed effect.

Tradition is milled the single tongue-and-groove moulding that the slotter of establishing tongue-and-groove can only be made one-sided or bilateral, therefore, the efficient of moulding tongue-and-groove is unclear, especially when must milling, machined object sets out number during many tongue-and-grooves, the not good situation of the efficient of deriving because of artificial, waste of time is more obvious, and if can not effectively improve working (machining) efficiency, not only causes dealer's cost burden, also directly influence the competitiveness that it is survived in industry, thereby be subject to superseded destiny.

Known slotter is milling when establishing tongue-and-groove, because tongue-and-groove is an elongate slot, and cutter itself is and maintains static, and therefore, must utilize the base material displacement, can mill out microscler groove milling.So, the workman must change substrate location constantly milling when establishing tongue-and-groove, and change each time move after, must be fixed again, cause and mill the inconvenience of establishing the processing tongue-and-groove, and have a strong impact on efficient simultaneously, can stand repeatedly the action that move the location to highly skilled person though add the adjustment of base material displacement, seem and drive a light carriage on a familiar road, but quite puzzlement concerning the green hand, and be difficult to control, cause quite inconvenience in the operation.

Summary of the invention

The purpose of this utility model provides a kind of working (machining) efficiency height, flexible operation, slotter easy to use.

But the utility model comprises board, be built in the clamp structure of board both sides clamping machined object, be installed in the dynamic structure that groove milling mechanism between the clamp structure and interlock groove milling mechanism move back and forth; Groove milling mechanism has number and can make the slide of angle adjustment and be mounted on to adjust independently on the slide that it is forward and backward, the milling cutter group of upper and lower position; The milling cutter group has the cutter power source that both sides are provided with cutter; The dynamic structure off-centre trace that is pivoted, the trace other end and slide articulate that slide is forward and backward to move back and forth to drive.

Wherein:

Clamp structure comprises platform, is locked on the setting shape follow block of platform front and back ends, with suitable spacing be incorporated into platform one side several plates, be connected with the button section of establishing in each plate top, be fixed in each plate outside upright pneumatic cylinder, be fixedly arranged on plate and extend horizontal gas cylinder pressure on the plate body.

Slide respectively and wear connecting rod in several slides both sides of groove milling mechanism; Two groups slide respectively be arranged in a left side, in two connecting rod pivots of two slide both sides be connected in and be positioned at the shoring on the seat of below; Shore a front side and be installed with tooth bar, and be provided with in its bottom Slide Group and be fixed in locating piece on the board, on locating piece, be pivoted and be fixedly arranged on the screw rod of the corresponding and engagement of the tooth bar of shoring a front side.

Slide respectively and wear connecting rod in several slides both sides of groove milling mechanism; Two groups of two connecting rod other ends that are arranged in left and right two slide both sides that slide respectively are connected with the two adjustment seats that Slide Group is located on the lateral brace of board front and back respectively; The lateral brace medial surface sets firmly guide rail before and after the board, sets firmly tooth bar on guide rail; Adjust the seat side and be provided with guide groove corresponding with board pillar medial surface upper rail and that Slide Group is established, and a side group is provided with clamp holder in guide groove, spiral shell is established and is run through the locking part of adjusting seat on the clamp holder; Adjust the screw rod of laterally be pivoted in the seat and engagement corresponding with lateral brace upper rack before and after the board.

The slide upper surface is installed with plate body, and sets firmly tooth bar in plate body end face central authorities; Milling cutter group with cutter power source comprises milling cutter seat, clamp holder, is hubbed at the screw rod of milling cutter seat bottom; Milling cutter seat bottom is provided with corresponding and Slide Group and is located at guide groove on the plate body; Clamp holder is mounted on a side in the milling cutter seat guide groove, and spiral shell is established the locking part that runs through milling cutter seat on it; Screw rod and the corresponding and engagement of plate body end face central authorities tooth bar.

Milling cutter group with cutter power source comprises that milling cutter seat, clamp holder reach the screw rod that uprightly is hubbed on the milling cutter seat; The milling cutter seat side is provided with upright dovetail groove; Cutter power source side sets firmly dovetail slide block corresponding with milling cutter seat side upright dovetail groove and that Slide Group is established, is provided with and the corresponding also screw of spiral shell group of screw rod that uprightly is hubbed on the milling cutter seat in the dovetail slide block; Clamp holder is mounted on a side in the upright dovetail groove of milling cutter seat, and spiral shell is established the locking part that runs through milling cutter seat on it.

Cross bar is set up on the lateral brace top before and after the board, and the cross bar below sets firmly two connecting rods, and the sheathed upper saddle that slides on two connecting rods, sets firmly the cutter power source that both sides are provided with cutter on upper saddle; Upper saddle articulates with the eccentric trace other end that is hubbed at dynamic structure.

Dynamic structure comprise the tool power output shaft power source, be mounted on two groups of decelerators having the lateral dynamics output shaft on the power output shaft respectively, be mounted on off-centre adjustment group and trace on the two lateral dynamics output shafts respectively; Eccentric adjustment group comprises the rotating disc that is fixedly arranged on the lateral dynamics output shaft, can adjust and be mounted on the rotating disc to change the adjustment slide block of eccentric throw; The rotating disc of interlock leverage through adjusting slide block and eccentric adjustment group that off-centre is hubbed between dynamic structure and the slide articulates.

The adjustment dish is provided with chute; Adjust slide block one side and form slide rail corresponding with adjustment dish chute and that Slide Group is established; Adjust slide block and be provided with screw identical with the slide rail moving direction and spiral shell group adjustment bolt; The adjustment bolt of spiral shell group in the screw of adjusting slide block is positioned at the chute of rotating disc.

Adjust slide block and extend the cross bar that group is established the pivot piece; The pivot piece other end vertically extends folder and establishes the fixedly clamping cover of trace.

But since the utility model comprise board, be built in board both sides clamping machined object clamp structure, be installed in the dynamic structure that groove milling mechanism between the clamp structure and interlock groove milling mechanism move back and forth; Groove milling mechanism has number and can make the slide of angle adjustment and be mounted on to adjust independently on the slide that it is forward and backward, the milling cutter group of upper and lower position; The milling cutter group has the cutter power source that both sides are provided with cutter; The dynamic structure off-centre trace that is pivoted, the trace other end and slide articulate that slide is forward and backward to move back and forth to drive.When desire begins machined object milling tongue-and-groove, must look the moulding of machined object earlier and suitably adjust the angle of inclination of each slide of groove milling mechanism and forward and backward, the upper and lower position of milling cutter group; Then, with clamp structure machined object is put the clip location; Adjust the dynamic structure off-centre trace that is pivoted, use and adjust each slide and move back and forth stroke, and drive the forward and backward within the specific limits displacement of each slide synchronously, with the tongue-and-groove of the corresponding length of milling.Be the slide of several adjustable tilt angles of mat and be mounted on each slide can forward and backward, upper and lower adjustment position the milling cutter group, can be applicable to the machined object processing of various different shaping curves, scope of application broadness; After the position adjustment of each slide is fixing, just can repeatedly carry out the milling tongue-and-groove at the identical machined object of moulding curve, therefore, process operation is quite easily convenient; Operating flexibility is quite good; When carrying out the milling tongue-and-groove, processed system is established by folder and is fixed on the board, and grooving tool moves and carries out milling, drives cutter by dynamic structure simultaneously and is the fixed displacement distance, therefore, can simplify the groove milling work flow, raises the efficiency, and reduces waste of manpower resource; Not only working (machining) efficiency height, and flexible operation, easy to use, thus reach the purpose of this utility model.

Description of drawings

Fig. 1, be the utility model structural representation stereogram.

Fig. 2, be the utility model structural representation side view.

Fig. 3, be the utility model sectional structure diagrammatic side view.

Fig. 4, be A portion partial enlarged drawing among Fig. 3.

Fig. 5, be among Fig. 4 B to view.

Fig. 6, be among Fig. 4 C to view.

Fig. 7, be the utility model partial structurtes diagrammatic top view.

Fig. 8, be another partial structurtes diagrammatic top view of the utility model.

Fig. 9, be D-D cutaway view among Fig. 4.

Figure 10, be among Fig. 3 E-E to cutaway view.

Figure 11, be the utility model interlinked mechanism structural representation side view.

Figure 12, be the utility model interlinked mechanism broken section structural representation side view.

Figure 13, be the utility model interlinked mechanism structural representation front view.

Figure 14, be the utility model interlinked mechanism structural representation vertical view.

Figure 15, be that the utility model adjusts grooving tool translocation distance molar behavior schematic diagram.

Figure 16, be that the utility model adjusts grooving tool translocation distance activities schematic diagram.

Figure 17, be the utility model user mode schematic diagram.

Figure 18, be the utility model user mode schematic diagram.

The specific embodiment

As Fig. 1, Fig. 2, shown in Figure 3, the utility model comprises board 1, is built in the clamp structure 2 of board 1 both sides and is positioned at the groove milling mechanism 3 of board 1 one ends and the dynamic structure 4 that interlock groove milling mechanism 3 moves back and forth.

As Fig. 3, shown in Figure 10, board 1 forward and backward side sets firmly pillar 11 respectively, and sets firmly dovetail slide 12 in pillar 11 medial surfaces, sets firmly tooth bar 13 on dovetail slide 12; Cross bar 14 is set up on two pillars, 11 tops, and cross bar 14 belows set firmly two connecting rods 15, and the sheathed upper saddle 16 that slides on two connecting rods 15, sets firmly the cutter power source 17 that both sides are provided with cutter 171 on upper saddle 16.

As shown in Figure 1 and Figure 2, clamp structure 2 comprise platform 21, be locked on platform 21 front and back ends setting shape follow block 22, with suitable spacing be incorporated into platform 21 1 sides several plates 23, be connected with the button section of establishing 24 in each plate 23 tops, be fixed in each plate 23 outside upright pneumatic cylinder 25, be fixedly arranged on plate 23 and extend horizontal gas cylinder pressure 27 on the plate body 26.

As shown in Figure 1, during use, by follow block 22, the button section of establishing 24, uprightly the restriction of the force-output shaft 271 of pneumatic cylinder 25 force-output shafts 251 and horizontal gas cylinder pressure 27 compresses, so that machined object 5 is gripped.

As Fig. 4, shown in Figure 5, groove milling mechanism 3 comprises three slides 31 that left, center, right are provided with, be mounted on the slide 31 one group or two groups of milling cutter groups 32, two respectively adjusts seat 33, shores seat 34 and is fixedly arranged on supporting seat 35 on the board 1.

Slide 31 both sides slide respectively and wear connecting rod 311, be fixedly arranged on slide 31 upper surfaces dovetail plate body 312, be fixedly arranged on the tooth bar 313 of dovetail plate body 312 end face central authorities.

As Fig. 4, Fig. 5, shown in Figure 6, milling cutter group 32 comprises milling cutter seat 321, dovetail clamp holder 323, is hubbed at the screw rod 3212 of milling cutter seat 321 bottoms, cutter power source 324, uprightly be hubbed at the screw rod 3214 on the milling cutter seat 321, the clamp holder 325 in parallelogram cross section.

Milling cutter seat 321 bottoms are provided with corresponding and Slide Group and are located at dovetail groove 3211 on the dovetail plate body 312, and its side is provided with upright dovetail groove 3213.

Dovetail clamp holder 323 is mounted on a side in milling cutter seat 321 dovetail grooves 3211, and spiral shell is established the locking part 322 that runs through milling cutter seat 321 on it.

Screw rod 3212 and the tooth bar 313 corresponding and engagements of dovetail plate body 312 end faces central authorities.

Cutter power source 324 sides set firmly dovetail slide block 3241 corresponding with milling cutter seat 321 side upright dovetail grooves 3213 and that Slide Group is established, in dovetail slide block 3241 be provided with uprightly be hubbed at milling cutter seat 321 on the screws 3242 of the corresponding and spiral shell group of screw rod 3214.The two ends of cutter power source 324 are respectively equipped with the cutter 3243 that is subjected to its interlock.

Clamp holder 325 is mounted on a side in the milling cutter seat 321 upright dovetail grooves 3213, and spiral shell is established the locking part 326 that runs through milling cutter seat 321 on it.

As Fig. 1, Fig. 3, shown in Figure 9, adjust seat 33 sides and be provided with dovetail groove 331 corresponding with dovetail slide 12 on board 1 pillar 11 medial surfaces and that Slide Group is established, and a side group is provided with clamp holder 332 in dovetail groove 331, and spiral shell is established and run through the locking part 333 of adjusting seat 33 on the clamp holder 332.Adjust the screw rod 334 of laterally be pivoted in the seat 33 and engagement corresponding with the forward and backward lateral brace of board 1 11 upper racks 13.

As shown in Figure 4, shore seat 34 front sides and be installed with tooth bar 341, and be provided with in its bottom Slide Group and be fixed in locating piece 342 on the board 1, on locating piece 342, be pivoted and be fixedly arranged on the screw rods 342 that the tooth bar 341 of shoring seat 34 front sides is corresponding and mesh.

As Figure 11, Figure 12, Figure 13, shown in Figure 14, dynamic structure 4 comprise tool power output shaft 411 power source 41, be mounted on two groups of decelerators 42 having lateral dynamics output shaft 421 on the power output shaft 411 respectively, be mounted on off-centre adjustment group 43 and trace 44,45 on the two lateral dynamics output shafts 421 respectively.

Eccentric adjustment group 43 comprises rotating disc 431, adjustment slide block 432, adjustment bolt 433 and the pivot piece 434 that is fixedly arranged on the lateral dynamics output shaft 421.

As shown in figure 14, adjustment dish 431 is provided with T shape chute 4311.

Adjust slide block 432 1 sides and form T shape slide rail 4321 corresponding with T shape chute 4311 on the adjustment dish 431 and that Slide Group is established, its opposite side extends the cross bar 4323 that end is provided with screw thread 4325, organizes on cross bar 4323 and is provided with boundary sheet 4324; Adjusting slide block 432 is provided with and the identical screw 4322 of T shape slide rail 4321 moving directions; Adjust bolt 433 spiral shell groups in the screw 4322 of adjusting slide block 432 and be positioned at the T shape chute 4311 of rotating disc 432.

Pivot piece 434 1 ends are provided with correspondence and are hubbed at the pivot hole of adjusting on slide block 432 cross bars 4,323 4341, and its other end vertically extends folder and establishes the fixedly clamping cover 4342 of trace 44; Pivot piece 434 is pivoted and adjusts on slide block 432 cross bars 4323, and nut 4326 location of mat screw lock on cross bar 4323 end thread 4325.

During assembling, milling cutter seat 321 is located on the dovetail plate body 312 with its bottom dovetail groove 3211 Slide Groups; Milling cutter seat 321 by the screw rod 3212 of its bottom of rotation and tooth bar 313 engagement of dovetail plate body 312 end face central authorities along dovetail plate body 312 forward and backward slide displacements; Be located at locking part 322 on the dovetail clamp holder 323 by screwing spiral shell, dovetail clamp holder 323 is risen and urgent being pressed against on the dovetail plate body 312, use milling cutter seat 321 secure on dovetail plate body 312; Cutter power source 324 is located at locking part 326 on the clamp holder 325 with pushing tow clamp holder 325 urgent being pressed against on the dovetail slide block 3241 by screwing spiral shell, uses cutter power source 324 secure on milling cutter seat 321; Adjusting seat 33 Slide Groups is located on the board 1 forward and backward pillar 11 inboard dovetail slides 12; Adjust seat 33 and laterally be hubbed at the screw rod 334 of its inside and 13 engagements of pillar 11 dovetail slides 12 place's tooth bars along dovetail slide 12 upper and lower slide displacements by rotation; Adjust seat 33 and be located at locking part 333 on the clamp holder 332, make clamp holder 332 pushing tow clamp holders 332 urgent being pressed against on the dovetail slide 12, will adjust 33 secure on the dovetail slide 12 of pillar 11 by screwing spiral shell; Shore seat 34 Slide Groups and be located on the locating piece 342, shore seat 34 and be hubbed on the locating piece 342 by rotation and be fixedly arranged on screw rod 343 relative positioning pieces 342 upper and lower the moving of shoring 341 engagements of seat 34 front side tooth bars; As Fig. 4, shown in Figure 7, two groups slide respectively be arranged in a left side, in two connecting rods, 311 pivots of two slides, 31 both sides be connected in and be positioned at the shoring on the seat 34 of below, two groups slide respectively be arranged in, two connecting rods, 311 pivots of right two slides 31 both sides be connected under being positioned at supporting seat 35 on, and constitute fixed pivot; Two groups of two connecting rods, 311 other ends of being arranged in left and right two slides 31 both sides of sliding respectively are located at two on the board 1 forward and backward lateral brace 11 with Slide Group respectively and are adjusted seat 33 and be connected; Dynamic structure 4 is established three slides, 31 pivot joints of the other end that is fixed in the trace 44 on the pivot piece 434 clampings cover 4342 and groove milling mechanism 3 with folder, with the forward and backward within the specific limits displacement of synchronous drive three slides 31; And establish an end that is fixed in the trace 44 on the pivot piece 4 34 clampings cover 4342 with folder and articulate with upper saddle 16, with the 16 forward and backward displacements of drive upper saddle.

When desire begins machined object milling tongue-and-groove,, must look the moulding of machined object earlier and suitably adjust the angle of inclination of groove milling mechanism 3 each slide 31 and forward and backward, the upper and lower position of milling cutter group 32 as Figure 17, shown in Figure 180.

Adjust the position of seat 33:

Laterally be hubbed at its screw rods 334 inner and 13 engagements of pillar 11 dovetail slides 12 place's tooth bars by rotation, make adjust seat 33 along dovetail slide 12 upper and lower slide displacements to the precalculated position, be located at locking part 333 on the clamp holder 332 by screwing spiral shell, make clamp holder 332 pushing tow clamp holders 332 urgent being pressed against on the dovetail slide 12, will adjust seat 33 secure on the dovetail slide 12 of pillar 11.

The position of seat 34 is shored in adjustment:

Be hubbed on the locating piece 342 and be fixedly arranged on the screw rod 343 relative positioning pieces 342 upper and lower precalculated positions that move to of shoring 341 engagements of seat 34 front side tooth bars by rotation.

So, just by the position of adjusting seat 33 and shoring seat 34 height, adjust pivot be connected in shore seat 34 tops slide respectively for two groups be arranged in a left side, in two connecting rods 311 of two slides, 31 both sides and an end slide respectively and be arranged in two connecting rods, 311 height and positions of left and right two slides 31 both sides with two groups that adjust that seat 33 pivots connect, reach and adjust height and the inclination angle that slip cap is located at three groups of slides 31 on the connecting rod 311.

Adjust the position of milling cutter group 32:

Screw rod 3212 by tooth bar 313 engagement of rotary milling tools seat 321 bottoms and dovetail plate body 312 end face central authorities, make milling cutter seat 321 along dovetail plate body 312 forward and backward slide displacements, after milling cutter group 32 being adjusted to appropriate location, be located at locking part 322 on the dovetail clamp holder 323 by screwing spiral shell, make the dovetail clamp holder 323 urgent dovetail plate bodys 312 that are pressed against, use milling cutter seat 321 secure on dovetail plate body 312; At last, by rotation uprightly be hubbed on the milling cutter seat 321 and with cutter power source 324 dovetail slide blocks 3241 on the screw rod 3214 that is spirally connected of screw 3242, make cutter power source 324 with its side dovetail slide block 3241 along the milling cutter seat 321 side upright dovetail grooves 3213 upper and lower appropriate locations that move to, screw spiral shell and be located at locking part 326 on the clamp holder 325, use adjusted cutter power source 324 secure on milling cutter seat 321 with pushing tow clamp holder 325 urgent being pressed against on the dovetail slide block 3241.

Then, machined object 5 is placed on the platform 21, and utilize the clip of replacing of forward and backward follow block 22, the button section of establishing 24, upright pneumatic cylinder 25 force-output shafts 251 and horizontal gas cylinder pressure 27 force-output shafts 271, machined object 5 clips are located.

Again slide rail 4321 correspondences of the adjustment slide block 432 of the off-centre adjustment group 43 of dynamic structure 4 are inserted in the T shape chute 4311 of rotating disc 431, and on pivot hole 4341 sheathed adjustment slide block 432 cross bars 4323 with pivot piece 434, and nut 4326 location of mat screw lock on cross bar 4323 end thread 4325, so that being mounted on, pivot piece 434 adjusts slide block 432; The clamping cover 4342 interior clampings that trace 44,45 is arranged in are located, promptly can press from both sides three slides, 31 pivot joints of establishing the other end that is fixed in the trace 44 on the pivot piece 434 clampings cover 4342 and groove milling mechanism 3, with the forward and backward within the specific limits displacement of synchronous drive three slides 31; Establish the end and the upper saddle 16 that are fixed in the trace 44 on the pivot piece 434 clampings cover 4342 with folder and articulate, to drive upper saddle 16 forward and backward displacements.So, but the power source 41 of dynamic structure 4 just three slides 31 of interlock groove milling mechanism 3 fix a cutting tool 3232 and upper saddle 16 fix a cutting tool and 171 on machined object 5, mill out microscler tongue-and-groove.

As Figure 15, shown in Figure 16, when the power source 41 of dynamic structure 4 starts, power source 41 is through power output shaft 411 gearing speed-reducers 42, and drive rotating disc 431 rotations of eccentric adjustment group 43 through the lateral dynamics output shaft 421 of decelerator 42, and by adjusting the eccentric distance of bolt 433 adjustment slide blocks 432 on rotating disc 431, to adjust and three slides 31 of trace 44,45 pivot joints and the reciprocating motion stroke of upper saddle 16, with the tongue-and-groove of the corresponding length of milling.

As mentioned above, the utlity model has following effect:

1, except the upper saddle that is provided with level, more cooperate the slide of several adjustable tilt angles and group to establish Milling cutter group that can forward and backward, upper and lower adjustment position on each slide, therefore, the utility model can be applicable to The machined object processing of various different shaping curves, scope of application broadness.

2, after the position adjustment of each slide is fixed, just can repeatedly advance for the identical machined object of moulding curve Row milling tongue-and-groove, therefore, process operation is quite easily convenient.

3, can organize according to circumstances on each slide and establish one or two milling cutter group, simultaneously the inclination angle of each slide Forward and backward, the upper and lower position of degree and milling cutter group all can independently be adjusted, and therefore, operating flexibility is quite good.

4, simultaneously groove milling of bilateral multiaxis design is adopted by the utility model system, therefore, and the tongue-and-groove of each machined object The time of the required cost of moulding is shorter, thereby can increase work efficiency, and increases the competitiveness of industry.

5, the utility model is when carrying out the milling tongue-and-groove, and processed system is sandwiched to be fixed on the board, and Grooving tool moves and carries out milling, is the fixed displacement distance by dynamic structure band cutter simultaneously, therefore, and can Simplify the groove milling work flow, raise the efficiency, reduce the waste of human resources.

When 6, wish changed the length size of milling tongue-and-groove, the rotation that only need to carry out bolt was to adjust slide block The position gets final product, so, quite simple and easy in operation, convenient, even if be that the green hand also can be at short notice ripe Practice left-hand seat.

The position after but 7 fixed adjustment slide blocks are adjusted, therefore, the fixing length size of milling tongue-and-groove, Make the tongue-and-groove on each machined object possess good precision.

Claims (10)

1, a kind of slotter, it comprises board; It is characterized in that the dynamic structure that but the clamp structure of clamping machined object is set up in described board both sides, installing groove milling mechanism and interlock groove milling mechanism move back and forth between clamp structure; Groove milling mechanism has number and can make the slide of angle adjustment and be mounted on to adjust independently on the slide that it is forward and backward, the milling cutter group of upper and lower position; The milling cutter group has the cutter power source that both sides are provided with cutter; The dynamic structure off-centre trace that is pivoted, the trace other end and slide articulate that slide is forward and backward to move back and forth to drive.

2, slotter according to claim 1, it is characterized in that described clamp structure comprise platform, be locked on the platform front and back ends setting shape follow block, with suitable spacing be incorporated into platform one side several plates, be connected with the button section of establishing in each plate top, be fixed in each plate outside upright pneumatic cylinder, be fixedly arranged on plate and extend horizontal gas cylinder pressure on the plate body.

3, slotter according to claim 1, slide respectively and wear connecting rod in the several slides both sides that it is characterized in that described groove milling mechanism; Two groups slide respectively be arranged in a left side, in two connecting rod pivots of two slide both sides be connected in and be positioned at the shoring on the seat of below; Shore a front side and be installed with tooth bar, and be provided with in its bottom Slide Group and be fixed in locating piece on the board, on locating piece, be pivoted and be fixedly arranged on the screw rod of the corresponding and engagement of the tooth bar of shoring a front side.

4, slotter according to claim 1, slide respectively and wear connecting rod in the several slides both sides that it is characterized in that described groove milling mechanism; Two groups of two connecting rod other ends that are arranged in left and right two slide both sides that slide respectively are connected with the two adjustment seats that Slide Group is located on the lateral brace of board front and back respectively; The lateral brace medial surface sets firmly guide rail before and after the board, sets firmly tooth bar on guide rail; Adjust the seat side and be provided with guide groove corresponding with board pillar medial surface upper rail and that Slide Group is established, and a side group is provided with clamp holder in guide groove, spiral shell is established and is run through the locking part of adjusting seat on the clamp holder; Adjust the screw rod of laterally be pivoted in the seat and engagement corresponding with lateral brace upper rack before and after the board.

5, slotter according to claim 1 is characterized in that described slide upper surface is installed with plate body, and sets firmly tooth bar in plate body end face central authorities; Milling cutter group with cutter power source comprises milling cutter seat, clamp holder, is hubbed at the screw rod of milling cutter seat bottom; Milling cutter seat bottom is provided with corresponding and Slide Group and is located at guide groove on the plate body; Clamp holder is mounted on a side in the milling cutter seat guide groove, and spiral shell is established the locking part that runs through milling cutter seat on it; Screw rod and the corresponding and engagement of plate body end face central authorities tooth bar.

6, slotter according to claim 1 is characterized in that described milling cutter group with cutter power source comprises that milling cutter seat, clamp holder reach the screw rod that uprightly is hubbed on the milling cutter seat; The milling cutter seat side is provided with upright dovetail groove; Cutter power source side sets firmly dovetail slide block corresponding with milling cutter seat side upright dovetail groove and that Slide Group is established, is provided with and the corresponding also screw of spiral shell group of screw rod that uprightly is hubbed on the milling cutter seat in the dovetail slide block; Clamp holder is mounted on a side in the upright dovetail groove of milling cutter seat, and spiral shell is established the locking part that runs through milling cutter seat on it.

7, slotter according to claim 1, it is characterized in that described board before and after the lateral brace top set up cross bar, the cross bar below sets firmly two connecting rods, and the sheathed upper saddle that slides on two connecting rods, sets firmly the cutter power source that both sides are provided with cutter on upper saddle; Upper saddle articulates with the eccentric trace other end that is hubbed at dynamic structure.

8, slotter according to claim 1, it is characterized in that described dynamic structure comprise the tool power output shaft power source, be mounted on two groups of decelerators having the lateral dynamics output shaft on the power output shaft respectively, be mounted on off-centre adjustment group and trace on the two lateral dynamics output shafts respectively; Eccentric adjustment group comprises the rotating disc that is fixedly arranged on the lateral dynamics output shaft, can adjust and be mounted on the rotating disc to change the adjustment slide block of eccentric throw; The rotating disc of interlock leverage through adjusting slide block and eccentric adjustment group that off-centre is hubbed between dynamic structure and the slide articulates.

9, slotter according to claim 8 is characterized in that described adjustment dish is provided with chute; Adjust slide block one side and form slide rail corresponding with adjustment dish chute and that Slide Group is established; Adjust slide block and be provided with screw identical with the slide rail moving direction and spiral shell group adjustment bolt; The adjustment bolt of spiral shell group in the screw of adjusting slide block is positioned at the chute of rotating disc.

10, slotter according to claim 8 is characterized in that described adjustment slide block extends the cross bar that group is established the pivot piece; The pivot piece other end vertically extends folder and establishes the fixedly clamping cover of trace.

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