CN105750984A - Adjustable clamping mechanism, numerical control machining equipment and use method - Google Patents

Abstract

The invention discloses an adjustable clamping mechanism, numerical control machining equipment and a use method. According to the technical scheme, the adjustable clamping mechanism is characterized in that adjustment can be finished by only driving a longitudinal adjustment part and a transverse adjustment part respectively, the adjustment process is very convenient and simple, and thus the production efficiency is improved greatly; the numerical control machining equipment is characterized in that materials can be precisely clamped by virtue of efficient adjustment in advance of the adjustable clamping mechanism, so that the period of machining of a whole batch of materials can be shortened greatly, and the machining efficiency of the numerical control machining equipment is improved greatly; the use method is characterized in that the positions of an adjustment plate, a receiving part and a clamping cylinder are determined in advance by measuring practical size data of shaft parts to be machined, and thus subsequent processing is smooth, and when transportation and machining of a single batch of shaft parts are implemented by the method, only one-time operation is required in advance, so that the production cycle is shortened greatly, and the machining efficiency is further improved.

Description

A kind of adjustable feeding clip mechanism, numerically controlled processing equipment and using method

Technical field

The present invention relates to numerically controlled processing equipment field, particularly to a kind of adjustable feeding clip mechanism, numerically controlled processing equipment and using method.

Background technology

Along with manufacturing fast development, the application of numerically controlled lathe is more and more general, in order to improve the working (machining) efficiency of numerically controlled lathe, saves manpower, and full-automatic clamping mechanism is widely used on lathe.

At present, notification number is the numerically controlled lathe that the Chinese patent of CN103752861A discloses a kind of threeway full-automatic material-feeding, left part on its workbench is provided with main spindle box, the right side of main spindle box is provided with clamping axle, being additionally provided with promotion device, pay-off and clamping device on lathe, wherein, clamping device includes thin cylinder, jaw, jaw cylinder, thin cylinder is fixed in the push pedal promoting device by fixed mount, and jaw is located at bottom thin cylinder；During work, pay-off put into by workpiece, then through being pushed in clamping device, is sent on main spindle box through clamping device and is processed in the clamping axle of right side, it is achieved that the full-automatic material-feeding of workpiece.

But, during work can there is certain problem in above-mentioned clamping device: one, is subject to the axial workpiece of different batches, and its radius size is all inconsistent；Its two, clamping device install or long-time use after all can there is deviation；When clamping device gripping material is sent to clamping axle, its position degree requires higher, if workpiece is not aligned with clamping axle on jaw, workpiece cannot be automatically loaded in clamping axle and be processed further, and traditional clamping device position adjustments typically requires the clamping device more renewed and completes, regulate work very loaded down with trivial details, be unfavorable for improving production efficiency.

Summary of the invention

For the deficiency that prior art exists, first purpose of the present invention is in that to provide a kind of adjustable feeding clip mechanism, and it has can promote the feature regulating efficiency.

The above-mentioned technical purpose of the present invention has the technical scheme that a kind of adjustable feeding clip mechanism, including base, described base is provided with material folding cylinder, the outfan of described material folding cylinder is provided with the clamping part for clamping material, described base is provided with for regulating vertical adjustment portion that material folding cylinder moves up and down, for regulating the lateral adjustments portion that material folding cylinder moves left and right, in being distributed up and down between described vertical adjustment portion and lateral adjustments portion.

By technique scheme, at the beginning of using this type of feeding clip mechanism, just need to carry out the adjustment of initial position, namely regulate the position up and down of material folding cylinder, in order to the clamping part of material folding cylinder can precisely clamp axial workpiece；

Actual adjustment process: by controlling the vertically upper and lower adjustment effect in vertical adjustment portion, make the position of clamping part obtain vertically upper and lower position and move；It addition, the horizontal left and right adjusting in conjunction with lateral adjustments portion is moved, the position that the position of clamping part obtains laterally left and right is made to move；In conjunction with above-mentioned two adjustment action, clamping part motion direction on locus can be made to be adjusted fully, to adapt to the clamping work of different batches workpiece；

Compared to the adjustment of tradition feeding clip mechanism, only need to by driving vertical adjustment portion and lateral adjustments portion can complete to regulate work respectively in above-mentioned adjustable feeding clip mechanism adjustment process, it is very easy that it regulates process, and significantly improves production efficiency.

Preferably, described vertical adjustment portion includes being positioned on base regulating tank, it is connected to material folding cylinder lateral wall and is arranged in regulating bearing pin, being rotationally connected with chassis outer side wall and be threadedly connected to the adjusting screw rod regulating bearing pin of regulating tank.

By technique scheme, operator only need to rotate adjusting screw rod, and the rotation of adjusting screw rod can directly drive and regulate bearing pin moving up and down in regulating tank, it is achieved the up-down adjustment of final material folding cylinder.

Preferably, described lateral adjustments portion includes being fixed on the conflict block of chassis outer side wall, being fixed on material folding cylinder lateral wall and be positioned at the regulating block of conflict block both sides, all threaded on each regulating block have adjusting bolt, described adjusting bolt end pushes against on conflict block, described adjustment bearing pin away between end and the material folding cylinder lateral wall of adjusting screw rod for being rotatably connected.

Pass through technique scheme, when needs regulate material folding cylinder right position, only need to by rotating two adjusting bolts laying respectively at conflict block, whole material folding cylinder can be driven to rotate around the shaft core regulating bearing pin, now just material clamping part just can realize swinging, and then determines the particular location of material clamping part；

Coordinate adjustment effect by vertical adjustment portion and lateral adjustments portion, the cylinder that stroke is shorter and price is relatively low can be used to meet existing production requirement.

Second purpose of the present invention is in that to provide a kind of numerically controlled processing equipment, and it has the characteristic promoting working (machining) efficiency.

The above-mentioned technical purpose of the present invention has the technical scheme that a kind of numerically controlled processing equipment, including frame, described frame is provided with materials transport mechanism, above-mentioned adjustable feeding clip mechanism, materiel machining mechanism, driving mechanism, adjustable feeding clip mechanism sliding is connected to frame, and described driving mechanism drives the reciprocal sliding motion of adjustable clamping device between materiel machining mechanism and materials transport mechanism.

Pass through technique scheme, for the material of different batches, adjustable feeding clip mechanism can be adjusted by high efficiency in advance, completes the accurate material folding action to material, considerably reduce the process-cycle of whole batches, significantly improve the working (machining) efficiency of numerically controlled processing equipment.

Preferably, described materials transport mechanism includes transport unit, described transport unit includes transmission support, described transmission support is provided with transmission wheels and drive division, described transmission wheels are arranged with conveyer belt, described drive division drives and transmits wheels action and then drive conveyer belt, and the zone face of described conveyer belt is provided with some location groups transmitting direction arrangement along conveyer belt, and each location group is equipped with the locating notch for supporting axial workpiece.

Pass through technique scheme, operator can directly be placed on axial workpiece on the locating notch of location group, now, axial workpiece will directly be positioned breach and be positioned, in transmitting procedure, even if certain shaking force occurs conveyer belt, axial workpiece is without occurring dislocation to rotate, thus ensureing arrangement and the processing of follow-up axial workpiece.

Preferably, described transmission support is provided with two, two ends of described transmission wheels are rotatably connected respectively on two transmission supports, preset clearance is left between described conveyer belt side and transmission support, it is provided with adjustable plate in described preset clearance, regulates screw, described adjustment screw thread is connected to transmission support, and adjusting screw rod end is rotatably connected in adjustable plate.

By technique scheme, firstly, since the length of the axial workpiece of different batches all differs, all most suitable position can be kept to be able to make the axial workpiece of different length be placed on the position in the group of location；Secondly, even the axial workpiece of same batch needs to keep end to flush too；Therefore, operator are by rotating adjusting screw rod, can realize regulating distance between adjustable plate and conveyer belt side, the replacement of each product, only need to regulate the distance between Primary regulation plate and conveyer belt side, put all can using adjustable plate as reference for the axial workpiece of same batch afterwards, it is resisted against adjustable plate lateral wall to put, end to ensure same batch of axial workpiece that operator place all keeps flushing, it is beneficial to arrangement and the processing of later stage axial workpiece, above-mentioned put in process, operator's range estimation need not be relied solely on judge, considerably reduce the fatigue strength of operator, improve efficiency of transmission.

Preferably, described materials transport mechanism also includes being positioned at transport unit side and transmitting the splicing portion of complete material for catching transport unit, slip base that described splicing portion includes being positioned in frame, sliding are connected to the splicing platform of slip base, it is inclined to set between glide direction and the transmission direction of conveyer belt of described splicing platform, described splicing platform is provided with the first limiting section for limiting splicing platform slip locations, and described splicing platform is provided with the splicing breach for catching material near the end of transmission support.

Pass through technique scheme, material is from after conveyer belt transports out, can directly drop in splicing breach and be supported on splicing platform, and it is directed to the material of different batches, especially during axial workpiece, the axial workpiece length scale of different batches is all inconsistent, therefore, by in advance the axial workpiece of this batch being judged, the best filling position to axial workpiece is realized then through regulating splicing platform slip locations, owing to being inclined to set between glide direction and the transmission direction of conveyer belt of splicing platform, when splicing platform sliding, can directly play the contact position regulating splicing breach with axial workpiece, afterwards again through the position-limiting action of the first limiting section, the position making splicing platform is fixed, and then ensure the stability of strutting system to different length axial workpiece.

Preferably, the upper table surface sliding of described splicing platform is connected to and pushes against block, described in push against and be set in parallel between block glide direction and the direction of transfer of conveyer belt, described in push against block and be provided with the second limiting section for limiting splicing platform slip locations.

Pass through technique scheme, difference due to production batch, the diameter of the axial workpiece fallen also can change, therefore, by regulating the longitudinal separation pushing against block, adapt to the current interval of dropping producing axial workpiece so that splicing portion is formed, and the second limiting section can fix the position of splicing platform, in use procedure, it is prevented that push against block generation accidental movement, affect splicing.

3rd purpose of the present invention is in that to provide a kind of as above-mentioned numerically controlled processing equipment using method, and it has the characteristic of energy improving production efficiency.

The above-mentioned technical purpose of the present invention has the technical scheme that a kind of as above-mentioned numerically controlled processing equipment using method, comprises the following steps:

Step one, the radial dimension of Parts Measurement and axial length size；

Step 2, radial dimension and axial length size according to the axial workpiece measured in step one move left and right splicing platform position, unscrew the first limiting section and the second limiting section, make the right position of splicing platform and push against block front and back position and adjust to the correct position axial workpiece stably to catch on conveyer belt；

Step 3, complete according to splicing platform adjustment in step 2 after the position at place, turning adjusting screw and then adjust the distance between adjustable plate and conveyer belt edge；

Step 4, axial workpiece are positioned in splicing breach, and are regulated the vertical direction height of material folding cylinder and the horizontal direction distance of lateral adjustments portion adjustment material folding cylinder by vertical adjustment portion, to promote the clamping part of material folding cylinder can be clamped to axial workpiece smoothly；

Step 5, the end of multiple axial workpieces is resisted against adjustable plate and it is positioned on the locating notch of location group successively, conveyer belt is successively in single axial workpiece transmission to the splicing breach in splicing portion, driving mechanism drives adjustable feeding clip mechanism horizontal sliding to splicing portion, and clamp axial workpiece, rear drive mechanism reverse push move adjustable feeding clip mechanism and slide onto materiel machining mechanism, the countershaft class part of materiel machining mechanism carry out after a step processing.

Pass through technique scheme, in advance by measuring the actual size data of axial workpiece to be processed, determine the position of the material clamping part of adjustable plate, splicing portion and material folding cylinder, make following process process more smooth, the axial workpiece transport of single batch and processing, adopt above-mentioned using method to be operated, it is only necessary to prior disposable operation, just its production cycle can be greatly shortened, and then promote its working (machining) efficiency.

Preferably, in step 4, the lateral adjustments of material folding cylinder and vertical adjustment are to complete through the following steps:

A, vertical adjustment step: by positive and negative rotation adjusting screw rod, drive and regulate bearing pin along regulating tank up and down motion, and then regulate the position on material folding cylinder vertical direction；

Lateral adjustments step: by rotating forward the adjusting bolt being located therein on one piece of regulating block, meanwhile reversely rotate the adjusting bolt being positioned on another block regulating block, material folding cylinder is subject to the extruding force effect of adjusting bolt and lateral adjustments occurs, and make material folding cylinder rotate along the shaft core regulating bearing pin, until regulating to correct position；

B, fixing step: rotate two adjusting bolts laid respectively on regulating block simultaneously, until the end of two adjusting bolts pushes against in conflict block simultaneously, and make the position of material folding cylinder be fixed.

By technique scheme, the method for one, vertical adjustment and lateral adjustments all have employed the mode that bolt drives, not only reduce the difficulty of adjustment, and save the manufacturing cost of such process equipment；

Two, lateral adjustments and vertical adjustment cooperate, and in vertical adjustment process, can effectively regulate the up and down motion of material folding cylinder；Especially, in lateral adjustments process, drive material folding cylinder to rotate along the shaft core regulating bearing pin by rotating two adjusting bolts, cause the material clamping part of material folding cylinder to swing；Above-mentioned using method, can use cheap and that stroke is shorter material folding cylinder to meet the demand of processing.

Accompanying drawing explanation

Fig. 1 is the structural representation of embodiment one；

Fig. 2 is the part sectioned view one of embodiment one；

Fig. 3 is the partial enlarged drawing of A in Fig. 2；

Fig. 4 is the part sectioned view two of embodiment one；

Fig. 5 is the partial enlarged drawing of B in Fig. 4；

Fig. 6 is the structural representation one of embodiment two；

Fig. 7 is the structural representation two of embodiment two；

Fig. 8 is materials transport mechanism structural representation one；

Fig. 9 is materials transport mechanism structural representation two；

Figure 10 is the partial enlarged drawing of C in Fig. 9；

Figure 11 is the partial enlarged drawing of D in Fig. 9；

Figure 12 is materials transport mechanism part sectioned view；

Figure 13 is the partial enlarged drawing of E in Figure 12；

Figure 14 is materials transport mechanism structural representation three；

Figure 15 is the partial enlarged drawing of F in Figure 14.

Accompanying drawing labelling: 1, base；2, material folding cylinder；3, clamping part；4, vertical adjustment portion；41, regulating tank；42, bearing pin is regulated；43, adjusting screw rod；5, lateral adjustments portion；51, conflict block；52, regulating block；53, adjusting bolt；6, materials transport mechanism；61, transport unit；611, transmission support；612, wheels are transmitted；613, drive division；7, conveyer belt；8, location group；9, locating notch；10, preset clearance；11, adjustable plate；12, screw is regulated；13, splicing portion；131, slip base；132, splicing platform；133, the first limiting section；14, splicing breach；15, the second limiting section；16, materiel machining mechanism；17, driving mechanism；18, block is pushed against；19, frame；20, slippage slot；21, slipping block.

Detailed description of the invention

Below in conjunction with accompanying drawing, the present invention is described in further detail.

Embodiment one, shown in Figure 1, a kind of adjustable feeding clip mechanism, including base 1, this base 1 lateral wall is provided with material folding cylinder 2, material folding cylinder 2 is connected to external gas source, the outfan of this material folding cylinder 2 is provided with the clamping part 3 for clamping material, this clamping part 3 can be selected for Pneumatic clamping jaw and is connected to external gas source, this base 1 is provided with for regulating vertical adjustment portion 4 that material folding cylinder 2 moves up and down, for regulating the lateral adjustments portion 5 that material folding cylinder 2 moves left and right, in being distributed up and down between this vertical adjustment portion 4 and lateral adjustments portion 5.

Shown in Fig. 1, Fig. 2, Fig. 3 and Fig. 5, regulating tank 41 that this vertical adjustment portion 4 includes being positioned on base 1, it is connected to material folding cylinder 2 lateral wall and is arranged in regulating bearing pin 42, being vertically rotationally connected with base 1 lateral wall and be threadedly connected to the adjusting screw rod 43 regulating bearing pin 42 of regulating tank 41, regulating tank 41 in the vertical direction can give to regulate the adjustment space that bearing pin 42 is enough, adjusting screw rod 43, in rotary course, can directly drive adjustment bearing pin 42 to move up and down in regulating tank 41.

Shown in Fig. 1 and Fig. 4, this lateral adjustments portion 5 includes being fixed on the base 1 conflict block 51, two near the lateral wall of clamping part 3 and is individually fixed in material folding cylinder 2 lateral wall and is positioned at the regulating block 52 of conflict block 51 both sides, all threaded on each regulating block 52 have adjusting bolt 53, in being arranged concentrically between two adjusting bolts 53, and the axle center of two adjusting bolts 53 is all in being horizontally disposed with, this adjusting bolt 53 end pushes against on conflict block 51 lateral wall, this adjustment bearing pin 42 away between end and material folding cylinder 2 lateral wall of adjusting screw rod 43 for being rotatably connected.

It addition, lateral adjustments portion 5 is positioned at the side near clamping part 3, the vertical adjustment portion 4, this position limits, and lateral adjustments portion 5 can make the swing of clamping part 3 sensitiveer, and then can effectively promote the adjustment efficiency of material folding cylinder 2.

When needing to regulate adjustable feeding clip mechanism,

Embodiment two, shown in Fig. 6 and Fig. 7, a kind of numerically controlled processing equipment, including frame 19, this frame 19 is provided with materials transport mechanism 6, adjustable feeding clip mechanism in embodiment one, materiel machining mechanism 16, driving mechanism 17, adjustable feeding clip mechanism horizontal sliding is connected to frame 19, this driving mechanism 17 drives the reciprocal sliding motion of adjustable clamping device between materiel machining mechanism 16 and materials transport mechanism 6, wherein, driving mechanism 17 adopts cylinder, the telescopic direction of this driving mechanism 17 is consistent with the glide direction of adjustable clamping device, materials transport mechanism 6 and materiel machining mechanism 16 lay respectively at two limit sliding end positions of adjustable clamping device.

Shown in Fig. 8 and Fig. 9, this materials transport mechanism 6 includes transport unit 61, this transport unit 61 includes transmission support 611, this transmission support 611 is provided with transmission wheels 612 and drive division 613, being arranged with conveyer belt 7 on these transmission wheels 612, this drive division 613 drives and transmits wheels 612 action and then drive conveyer belt 7 to move.

Shown in Fig. 9 and Figure 11, the zone face of this conveyer belt 7 is provided with some location groups 8 transmitting direction arrangement along conveyer belt 7, each location group 8 is equipped with the locating notch 9 for supporting axial workpiece, each location group 8 includes two locating pieces, two locating pieces lay respectively near conveyer belt 7 band edge side, locating notch 9 is arc notch, and the opening up setting of breach.

Additionally, shown in Figure 14 and Figure 15, this transmission support 611 is provided with two, two ends of these transmission wheels 612 are rotatably connected respectively on two transmission supports 611, preset clearance 10 is left between this conveyer belt 7 side and transmission support 611, it is provided with adjustable plate 11 in this preset clearance 10, regulate screw 12, this adjustment screw 12 is threadedly connected to transmission support 611, and adjusting screw rod 43 end is rotatably connected in adjustable plate 11, the quantity of adjustment screw 12 is provided with two and two adjustment screws 12 and lays respectively at adjustable plate 11 near two end positions transmitting wheels 612.

nullReferring to 8、Shown in Fig. 9 and Figure 10，This materials transport mechanism 6 also includes being positioned at transport unit 61 side and transmitting the splicing portion 13 of complete material for catching transport unit 61，This splicing portion 13 includes the slip base 131 being positioned in frame 19、Sliding is connected to the splicing platform 132 of slip base 131，It is inclined to set between glide direction and the transmission direction of conveyer belt 7 of this splicing platform 132，This splicing platform 132 is provided with the first limiting section 133 for limiting splicing platform 132 slip locations，First limiting section 133 can be selected for bolt，Shown in Figure 13，Slip base 131 is provided with mean for the slippage slot 20 of splicing platform 132 sliding，Slipping block 21 it is provided with in slippage slot 20，First limiting section 133 is arranged in splicing platform 132 and is threadedly connected to slipping block 21，This splicing platform 132 is provided with the splicing breach 14 for catching material near the end of transmission support 611.

Shown in Figure 10, Figure 12 and Figure 13, the upper table surface sliding of this splicing platform 132 is connected to and pushes against block 18, this pushes against and is set in parallel between the direction of transfer of block 18 glide direction and conveyer belt 7, this pushes against block 18 and is provided with the second limiting section 15 for limiting splicing platform 132 slip locations, second limiting section 15 can be selected for bolt, and the second limiting section 15 is threadedly connected to and pushes against block 18 and be connected on splicing platform 132.

Embodiment three, a kind of numerically controlled processing equipment in embodiment two using method, comprise the following steps:

In step one, use slide gauge that radial dimension and the axial length size of axial workpiece are measured, and be recorded；

In step 2, move left and right splicing platform 132 position according to radial dimension and the axial length size of the axial workpiece measured in step one, actual set-up procedure: the radial dimension according to axial workpiece, unscrew the second limiting section 15, make to push against block 18 and carry out sliding along splicing platform 132 upper table surface, until the size of splicing breach 14 adapts to the radial dimension of this batch of axial workpiece, then tighten the second limiting section 15, make to push against block 18 and be fixed；

Unscrew the first limiting section 133 afterwards again, make the right position of splicing platform 132 and push against block 18 front and back position and adjust to correct position stably to catch the axial workpiece on conveyer belt 7, then tightening the first limiting section 133 again, it is achieved whole splicing portion 13 fixing；

The position at place after having adjusted in step 3, according to splicing platform 132 in step 2, turning adjusting screw 12 and then the distance between adjustment adjustable plate 11 and conveyer belt 7 edge, it is desirable to make adjustable plate 11 flush near the sidewall of conveyer belt 7 and the upright side walls of splicing platform 132；

In step 4, axial workpiece be positioned in splicing breach 14, and regulate the vertical direction height of material folding cylinder 2 by vertical adjustment portion 4 and lateral adjustments portion 5 regulates the horizontal direction distance of material folding cylinder 2, to promote the clamping part 3 of material folding cylinder 2 can be clamped to axial workpiece smoothly；

In step 5, it is resisted against adjustable plate 11 and is positioned on the locating notch 9 of location group 8 successively the end of multiple axial workpieces, conveyer belt 7 is successively in single axial workpiece transmission to the splicing breach 14 in splicing portion 13, driving mechanism 17 drives adjustable feeding clip mechanism horizontal sliding to splicing portion 13, and clamp axial workpiece, rear drive mechanism 17 reversely promote adjustable clamp material mechanism to slide onto materiel machining mechanism 16, materiel machining mechanism 16 axial workpiece is carried out after a step processing.

It addition, in step 4, the lateral adjustments of material folding cylinder 2 and vertical adjustment are to complete through the following steps:

A, vertical adjustment step: by positive and negative rotation adjusting screw rod 43, drive adjustment bearing pin 42 to move up and down along regulating tank 41, and then regulate the position on material folding cylinder 2 vertical direction；

Lateral adjustments step: by rotating forward the adjusting bolt 53 being located therein on one piece of regulating block 52, meanwhile reversely rotate the adjusting bolt 53 being positioned on another block regulating block 52, material folding cylinder 2 is subject to the extruding force effect of adjusting bolt 53 and lateral adjustments occurs, and make material folding cylinder 2 rotate along the shaft core regulating bearing pin 42, until regulating to correct position；

B, fixing step: rotate two adjusting bolts laid respectively on regulating block 52 53 simultaneously, until the end of two adjusting bolts 53 pushes against in conflict block 51 simultaneously, and make the position of material folding cylinder 2 be fixed.

The above is only the exemplary embodiment of the present invention, and not for limiting the scope of the invention, protection scope of the present invention is determined by appended claim.

Claims (10)

1. an adjustable feeding clip mechanism, including base (1), described base (1) is provided with material folding cylinder (2), the outfan of described material folding cylinder (2) is provided with the clamping part (3) for clamping material, it is characterized in that: described base (1) is provided with for regulating vertical adjustment portion (4) that material folding cylinder (2) moves up and down, being used for regulating the lateral adjustments portion (5) that material folding cylinder (2) moves left and right, in being distributed up and down between described vertical adjustment portion (4) and lateral adjustments portion (5).

2. the adjustable feeding clip mechanism of one according to claim 1, is characterized in that: regulating tank (41) that described vertical adjustment portion (4) includes being positioned on base (1), is connected to material folding cylinder (2) lateral wall and is arranged in the adjustment bearing pin (42) of regulating tank (41), is rotationally connected with base (1) lateral wall and is threadedly connected to the adjusting screw rod (43) regulating bearing pin (42).

3. the adjustable feeding clip mechanism of one according to claim 2, it is characterized in that: described lateral adjustments portion (5) includes being fixed on the conflict block (51) of base (1) lateral wall, it is fixed on material folding cylinder (2) lateral wall and is positioned at the regulating block (52) of conflict block (51) both sides, all threaded on each regulating block (52) have adjusting bolt (53), described adjusting bolt (53) end pushes against on conflict block (51), described adjustment bearing pin (42) away between end and material folding cylinder (2) lateral wall of adjusting screw rod (43) for being rotatably connected.

4. a numerically controlled processing equipment, including frame (19), it is characterized in that: described frame (19) is provided with materials transport mechanism (6), the adjustable feeding clip mechanism as described in claim 1-3 any one, materiel machining mechanism (16), driving mechanism (17), adjustable feeding clip mechanism sliding is connected to frame (19), and described driving mechanism (17) drives the reciprocal sliding motion of adjustable clamping device between materiel machining mechanism (16) and materials transport mechanism (6).

5. a kind of numerically controlled processing equipment according to claim 4, it is characterized in that: described materials transport mechanism (6) includes transport unit (61), described transport unit (61) includes transmission support (611), described transmission support (611) is provided with transmission wheels (612) and drive division (613), described transmission wheels (612) are arranged with conveyer belt (7), described drive division (613) drives and transmits wheels (612) action and then drive conveyer belt (7) motion, the zone face of described conveyer belt (7) is provided with some location groups (8) transmitting direction arrangement along conveyer belt (7), each location group (8) is equipped with the locating notch (9) for supporting axial workpiece.

6. a kind of numerically controlled processing equipment according to claim 5, it is characterized in that: described transmission support (611) is provided with two, two ends of described transmission wheels (612) are rotatably connected respectively on two transmission supports (611), preset clearance (10) is left between described conveyer belt (7) side and transmission support (611), adjustable plate (11) it is provided with in described preset clearance (10), regulate screw (12), described adjustment screw (12) is threadedly connected to transmission support (611), and adjusting screw rod (43) end is rotatably connected in adjustable plate (11).

7. a kind of numerically controlled processing equipment according to claim 6, it is characterized in that: described materials transport mechanism (6) also includes being positioned at transport unit (61) side and being used for catching transport unit (61) transmitting the splicing portion (13) of complete material, described splicing portion (13) includes the slip base (131) being positioned in frame (19), sliding is connected to the splicing platform (132) of slip base (131), it is inclined to set between glide direction and the transmission direction of conveyer belt (7) of described splicing platform (132), described splicing platform (132) is provided with the first limiting section (133) for limiting splicing platform (132) slip locations, described splicing platform (132) is provided with the splicing breach (14) for catching material near the end of transmission support (611).

8. a kind of numerically controlled processing equipment according to claim 7, it is characterized in that: the upper table surface sliding of described splicing platform (132) is connected to and pushes against block (18), be set in parallel between the described direction of transfer pushing against block (18) glide direction and conveyer belt (7), described in push against block (18) and be provided with the second limiting section (15) for limiting splicing platform (132) slip locations.

9. a using method for numerically controlled processing equipment as claimed in claim 8, comprises the following steps:

Step one, the radial dimension of Parts Measurement and axial length size；

Step 2, radial dimension and axial length size according to the axial workpiece measured in step one move left and right splicing platform (132) position, unscrew the first limiting section (133) and the second limiting section (15), make the right position of splicing platform (132) and push against block (18) front and back position and adjust to correct position stably to catch the axial workpiece on conveyer belt (7)；

Step 3, adjusted according to splicing platform (132) in step 2 after the position at place, turning adjusting screw (12) and then adjust the distance between adjustable plate (11) and conveyer belt (7) edge；

Step 4, axial workpiece are positioned in splicing breach (14), and the vertical direction height of material folding cylinder (2) and the horizontal direction distance of lateral adjustments portion (5) adjustment material folding cylinder (2) is regulated by vertical adjustment portion (4), to promote the clamping part (3) of material folding cylinder (2) that axial workpiece can be clamped to smoothly；

Step 5, successively the end of multiple axial workpieces it is resisted against adjustable plate (11) and is positioned on the locating notch (9) of location group (8), conveyer belt (7) is successively in single axial workpiece transmission to the splicing breach (14) of splicing portion (13), driving mechanism (17) drives adjustable feeding clip mechanism horizontal sliding to splicing portion (13), and clamp axial workpiece, rear drive mechanism (17) reversely promote adjustable clamp material mechanism to slide onto materiel machining mechanism (16), after axial workpiece is carried out by materiel machining mechanism (16), a step is processed.

10. a kind of using method according to claim 9, is characterized in that: in step 4, and the lateral adjustments of material folding cylinder (2) and vertical adjustment are to complete through the following steps:

A, vertical adjustment step: by positive and negative rotation adjusting screw rod (43), drive and regulate bearing pin (42) along regulating tank (41) up and down motion, and then regulate the position on material folding cylinder (2) vertical direction；

Lateral adjustments step: by rotating forward the adjusting bolt (53) being located therein on one piece of regulating block (52), meanwhile reversely rotate the adjusting bolt (53) being positioned on another block regulating block (52), material folding cylinder (2) is subject to the extruding force effect of adjusting bolt (53) and lateral adjustments occurs, and make material folding cylinder (2) rotate along the shaft core regulating bearing pin (42), until regulating to correct position；

B, fixing step: rotate two adjusting bolts (53) laid respectively on regulating block (52) simultaneously, until the end of two adjusting bolts (53) pushes against in conflict block (51) simultaneously, and the position of material folding cylinder (2) is made to be fixed.