阅读说明：本技术 一种建材加工用棒材切槽处理装置 (Bar grooving processing device for building material processing ) 是由 郭铁男 于 2020-12-16 设计创作，主要内容包括：本发明涉及一种棒材切槽装置,更具体的说是一种建材加工用棒材切槽处理装置,包括安装底座、夹紧带动装置、夹紧装置和切槽装置,所述的安装底座的上方固定安装有夹紧带动装置,夹紧带动装置的上方固定安装有夹紧装置,切槽装置固定安装在夹紧带动装置上,本装置能够自动夹紧管材,并能够自动找正管材,节省了大量时间,本装置能够自动调节在棒材上加工槽的位置,灵活性较高,本装置在加工槽后能够自动松开棒材。(The invention relates to a bar grooving device, in particular to a bar grooving processing device for building material processing, which comprises an installation base, a clamping driving device, a clamping device and a grooving device, wherein the clamping driving device is fixedly installed above the installation base, the clamping device is fixedly installed above the clamping driving device, and the grooving device is fixedly installed on the clamping driving device.)

1. The utility model provides a rod grooving processing apparatus for building materials processing, includes installation base (1), presss from both sides tight drive arrangement (2), clamping device (3) and grooving device (4), its characterized in that: the device is characterized in that a clamping driving device (2) is fixedly mounted above the mounting base (1), a clamping device (3) is fixedly mounted above the clamping driving device (2), and a grooving device (4) is fixedly mounted on the clamping driving device (2).

2. The grooving apparatus for bars for building material processing of claim 1, wherein: the clamping driving device (2) comprises an installation frame body (201), a driving mechanism (202) and a fixing mechanism (203), the installation frame body (201) is fixedly installed on an installation base (1), the driving mechanism (202) is installed on the installation base (1), and the fixing mechanism (203) is installed on the driving mechanism (202);

the driving mechanism (202) comprises a power motor A (204), a driving gear A (205), a connecting rack A (206), an incomplete roller (207), a roller fixing frame (208), a driving base (209), a transmission shaft (210), a driving gear B (211), a connecting rack B (212), a gear baffle (213), a sliding support rod (214), a driving X-shaped carriage (215) and a supporting limiting roller (216), wherein the power motor A (204) is fixedly arranged on the mounting base (1), the output end of the power motor A (204) is provided with the driving gear A (205), the driving gear A (205) is fixedly arranged on the driving gear A (205), the driving gear A (205) is meshed with the connecting rack A (206) through teeth, the connecting rack A (206) is slidably arranged on the mounting base (1), the incomplete roller (207) is movably arranged on the connecting rack A (206), an incomplete roller (207) is movably mounted on a roller fixing frame (208), the roller fixing frame (208) is fixedly mounted on a mounting base (1), a driving base (209) is in contact with the driving base (209), a driving gear B (211) is fixedly mounted on a transmission shaft (210), the driving gear B (211) is meshed with a connecting rack B (212) through teeth, a gear baffle (213) is fixedly mounted on the connecting rack B (212), the gear baffle (213) is in contact with the driving gear B (211), the connecting rack B (212) is fixedly mounted on a sliding support rod (214), one end of the sliding support rod (214) is slidably mounted on the driving base (209), the other end of the sliding support rod (214) is fixedly mounted with a driving X-shaped sliding frame (215), the driving X-shaped sliding frame (215) is in contact with a supporting limiting roller (216), and the supporting limiting roller (216) is movably mounted on a mounting frame body (201);

the fixing mechanism (203) comprises a sliding support plate (217), a connecting rod (218) and a fixed support plate (219), wherein the sliding support plate (217) is fixedly arranged on the driving X-shaped sliding frame (215), the connecting rod (218) is fixedly arranged on the sliding support plate (217), and the connecting rod (218) is slidably arranged on the fixed support plate (219).

3. The grooving apparatus for bars for building material processing of claim 1, wherein: (3) including placing dish (301), link (302), sliding bracket (303), tight wheel (304) in top, press from both sides tight carriage (305), limit baffle (306), place on dish (301) fixed mounting have link (302), link (302) fixed mounting is on sliding bracket (303), sliding bracket (303) slidable mounting is on pressing from both sides tight carriage (305), movable mounting has tight wheel (304) in top on sliding bracket (303), limit baffle (306) fixed mounting is on pressing from both sides tight carriage (305).

4. The grooving apparatus for bars for building material processing of claim 1, wherein: the grooving device (4) comprises a fixed support frame (401), an installation vertical plate (402) and a grooving mechanism (403), wherein the installation vertical plate (402) is fixedly installed on the fixed support frame (401), and the grooving mechanism (403) is installed on the installation vertical plate (402);

the grooving mechanism (403) comprises a power motor B (404), a driving screw A (405), an L-shaped frame (406), a guide rod A (407), a power motor C (408), a driving screw B (409), a supporting bottom plate (410), an L-shaped sliding frame (411), a guide rod B (412), a sliding feeding plate (413), a power motor D (414), a feeding wheel (415), a supporting wheel (416) and a saw belt (417), wherein the power motor B (404) is fixedly arranged on the mounting vertical plate (402), the output end of the power motor C (408) is provided with the driving screw A (405), the driving screw A (405) is movably arranged on the mounting vertical plate (402), the driving screw A (405) is provided with the L-shaped frame (406) through threads, the guide rod A (407) is fixedly arranged on the mounting vertical plate (402), the guide rod A (407) is provided with the L-shaped frame (406) in a sliding manner, a power motor C (408) is fixedly installed on the L-shaped frame (406), a driving screw B (409) is installed at the output end of the power motor C (408), the driving screw B (409) is movably installed on a supporting base plate (410), an L-shaped sliding frame (411) is fixedly installed on the supporting base plate (410), the L-shaped sliding frame (411) is contacted with an installation vertical plate (402), the supporting base plate (410) is slidably installed on the installation vertical plate (402), a guide rod B (412) is fixedly installed on the supporting base plate (410), a sliding feeding plate (413) is slidably installed on the guide rod B (412), the sliding feeding plate (413) is installed on the driving screw B (409) through threads, the L-shaped sliding frame (411) is fixedly installed on the sliding feeding plate (413), the sliding feeding plate (413) is slidably installed on the installation vertical plate (402), a power motor D (414) is fixedly installed on the sliding feeding plate (413), the output end of the power motor D (414) is provided with a feeding wheel (415), the feeding wheel (415) and a supporting wheel (416) are movably arranged on a sliding feeding plate (413), and a saw belt (417) is sleeved on the feeding wheel (415) and the supporting wheel (416).

Technical Field

The invention relates to a bar grooving device, in particular to a bar grooving processing device for processing building materials.

Background

In many building materials, the application of rod is very extensive, and the rod is before using, often need process some mounting grooves or constant head tank, and the processing of groove is then very troublesome, and old-fashioned processing method is mostly utilizing milling machine processing, and it is troublesome not only to utilize milling machine processing clamping, still need carry out the alignment to the rod after the clamping, has wasted a large amount of time.

Disclosure of Invention

The invention mainly solves the technical problem of providing a bar grooving processing device for building material processing, 1. the device can automatically clamp a pipe and automatically align the pipe, thereby saving a large amount of time; 2. the device can automatically adjust the position of the processing groove on the bar, and has higher flexibility; 3. the device can automatically loosen the bar after processing the groove.

The purpose of the invention is realized by the following technical scheme:

the utility model provides a rod grooving processing apparatus for building materials processing, includes installation base, presss from both sides tight drive arrangement, clamping device and groover, the top fixed mounting of installation base press from both sides tight drive arrangement, the top fixed mounting who presss from both sides tight drive arrangement has clamping device, groover fixed mounting is on pressing from both sides tight drive arrangement.

As a further optimization of the technical scheme, the bar grooving processing device for processing building materials comprises a clamping driving device and a clamping driving device, wherein the clamping driving device comprises an installation frame body, a driving mechanism and a fixing mechanism, the installation frame body is fixedly installed on an installation base, the driving mechanism is installed on the installation base, and the fixing mechanism is installed on the driving mechanism;

the driving mechanism comprises a power motor A, a driving gear A, a connecting rack A, an incomplete roller, a roller fixing frame, a driving base, a transmission shaft, a driving gear B, a connecting rack B, a gear baffle, a sliding support rod, a driving X-shaped sliding frame and a supporting limiting rod, wherein the power motor A is fixedly arranged on the mounting base, the output end of the power motor A is provided with the driving gear A, the driving gear A is fixedly provided with the transmission shaft, the driving gear A is meshed with the connecting rack A through teeth, the connecting rack A is slidably arranged on the mounting base, the incomplete roller is movably arranged on the connecting rack A, the incomplete roller is movably arranged on the roller fixing frame, the roller fixing frame is fixedly arranged on the mounting base, the driving base is contacted with the driving base, the driving gear B is fixedly arranged on the transmission shaft, and the driving gear B is meshed with, a gear baffle is fixedly arranged on the connecting rack B, the gear baffle is contacted with the driving gear B, the connecting rack B is fixedly arranged on a sliding support rod, one end of the sliding support rod is slidably arranged on the driving base, the other end of the sliding support rod is fixedly provided with a driving X-shaped sliding frame, the driving X-shaped sliding frame is contacted with a supporting and limiting rod, and the supporting and limiting rod is movably arranged on the mounting frame body;

the fixing mechanism comprises a sliding support plate, a connecting rod and a fixed support plate, the sliding support plate is fixedly arranged on the driving X-shaped sliding frame, the connecting rod is fixedly arranged on the sliding support plate, and the connecting rod is slidably arranged on the fixed support plate.

As a further optimization of the technical scheme, the bar grooving processing device for processing the building materials comprises a placing disc, a connecting frame, a sliding support, a jacking wheel, a clamping sliding frame and a limiting baffle, wherein the placing disc is fixedly provided with the connecting frame, the connecting frame is fixedly arranged on the sliding support, the sliding support is slidably arranged on the clamping sliding frame, the jacking wheel is movably arranged on the sliding support, and the limiting baffle is fixedly arranged on the clamping sliding frame. As a further optimization of the technical scheme, the bar grooving device for processing the building materials comprises a fixed support frame, an installation vertical plate and a grooving mechanism, wherein the installation vertical plate is fixedly installed on the fixed support frame, and the grooving mechanism is installed on the installation vertical plate;

the grooving mechanism comprises a power motor B, a driving screw A, L type frame, a guide rod A, a power motor C, a driving screw B, a supporting bottom plate, an L-shaped sliding frame, a guide rod B, a sliding feeding plate, a power motor D, a feeding wheel, a supporting wheel and a saw belt, wherein the power motor B is fixedly arranged on an installation vertical plate, the output end of the power motor C is provided with the driving screw A, the driving screw A is movably arranged on the installation vertical plate, the L-shaped frame is arranged on the driving screw A through threads, the guide rod A is fixedly arranged on the installation vertical plate, the L-shaped frame is slidably arranged on the guide rod A, the power motor C is fixedly arranged on the L-shaped frame, the driving screw B is arranged at the output end of the power motor C, the driving screw B is movably arranged on the supporting bottom plate, the L-shaped sliding frame is fixedly arranged on the supporting bottom plate, the L-shaped sliding frame, the supporting base plate is fixedly provided with a guide rod B, the guide rod B is provided with a sliding feeding plate in a sliding mode, the sliding feeding plate is installed on the driving screw rod B through threads, the sliding feeding plate is provided with an L-shaped sliding frame in a fixed mode, the sliding feeding plate is installed on the installing vertical plate in a sliding mode, the power motor D is fixedly installed on the sliding feeding plate, the output end of the power motor D is provided with a feeding wheel, the feeding wheel and the supporting wheel are movably installed on the sliding feeding plate, and the saw belt is sleeved on the feeding wheel and the supporting wheel.

The bar grooving processing device for processing the building materials has the beneficial effects that:

1. the driving gear A205 rotates and is meshed with the connecting rack A206, so that the connecting rack A206 slides on the mounting base 1, the connecting rack A206 slides on the mounting base 1 to drive the incomplete roller 207 to rotate, the incomplete roller 207 rotates and is contacted with the driving base 209, further, the driving base 209 moves, so that the sliding support rod 214 drives the driving X-shaped sliding rack 215 to slide, and when the driving X-shaped sliding rack 215 slides, the support limiting rod 216 plays a supporting role, and prevents the X-shaped sliding frame 215 from swinging, drives the gear a205 to rotate, the transmission shaft 210 drives the gear B211 to rotate, the gear B211 is driven to rotate and is meshed with the connecting rack B212, further, the sliding support rod 214 moves, so as to play a role in supporting the driving X-shaped sliding frame 215, make the device move more stably, when the X-shaped sliding frame 215 is driven to move, the clamping device 3 is driven to move by the fixing mechanism 203;

2. the placing disc 301 moves to pull the sliding support 303 to slide on the clamping sliding frame 305 through the connecting frame 302, so that the jacking wheel 304 moves longitudinally and generates transverse displacement, the jacking wheel 304 is in contact with the bar, the function of clamping the bar is realized, and the center of the bar can be automatically aligned when the jacking wheel 304 is used for clamping the bar;

3. the power motor B404 drives the driving screw A405 to rotate, the driving screw A405 rotates, the L-shaped frame 406 is driven to slide on the guide rod A407 through threads, the L-shaped frame 406 slides on the guide rod A407 and simultaneously drives the L-shaped sliding frame 411 to slide on the fixed support frame 401, stability is improved, and therefore the cutting depth of the groove is adjusted, the power motor C408 rotates to drive the driving screw B409 to rotate, the driving screw B409 rotates to drive the sliding feed plate 413 to slide on the guide rod B412, and therefore the position of the groove is adjusted, the power motor D414 drives the feed wheel 415 to rotate, the feed wheel 415 rotates to drive the saw belt 417 to rotate on the feed wheel 415 and the support wheel 416, and the saw belt 417 rotates to achieve the function of processing the groove.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic overall perspective view of a grooving apparatus for bars for processing building materials according to the present invention.

Fig. 2 is a schematic view of an overall supplementary three-dimensional structure of the bar grooving apparatus for processing building materials according to the present invention.

Fig. 3 is a schematic perspective view of a clamping driving device 2 of a bar grooving device for processing building materials according to the present invention.

Fig. 4 is a supplementary perspective view of the clamping driving device 2 of the bar grooving apparatus for processing building materials according to the present invention.

Fig. 5 is a schematic perspective view of a driving mechanism 202 of the bar grooving apparatus for processing building materials according to the present invention.

Fig. 6 is a supplementary perspective view of the driving mechanism 202 of the bar grooving apparatus for processing building materials according to the present invention.

Fig. 7 is a supplementary perspective view of the driving mechanism 202 of the bar grooving apparatus for processing building materials according to the present invention.

Fig. 8 is a schematic perspective view of a fixing mechanism 203 of the bar grooving apparatus for processing building materials according to the present invention.

Fig. 9 is a schematic perspective view of a clamping device 3 of the bar grooving apparatus for processing building materials according to the present invention.

Fig. 10 is a schematic perspective view of a grooving apparatus 4 of a grooving apparatus for a bar material for processing a building material according to the present invention.

Fig. 11 is a supplementary perspective view of the grooving apparatus 4 of the bar grooving apparatus for processing building materials according to the present invention.

Fig. 12 is a schematic perspective view of a grooving mechanism 403 of a grooving apparatus for bars for processing building materials according to the present invention.

Fig. 13 is a complementary perspective view of a grooving mechanism 403 of the bar grooving apparatus for processing building materials according to the present invention.

In the figure: installing a base 1; clamping the driving device 2; a mounting frame body 201; a bringing mechanism 202; a fixing mechanism 203; a power motor A204; carrying gear a 205; connecting rack a 206; an incomplete roller 207; a roller holder 208; driving the base 209; a drive shaft 210; the driving gear B211; the connecting rack B212; a gear baffle 213; a sliding strut 214; carrying the X-shaped carriage 215; a support restrictor bar 216; a sliding support plate 217; a connecting rod 218; a fixed support plate 219; a clamping device 3; a placing tray 301; a connecting frame 302; a sliding bracket 303; a jacking wheel 304; a clamp carriage 305; a limit stop 306; a grooving device 4; a fixed support 401; mounting a riser 402; a grooving mechanism 403; a power motor B404; driving screw A405; an L-shaped frame 406; a guide rod A407; a power motor C408; driving a screw B409; a support base plate 410; an L-shaped carriage 411; a guide rod B412; a slide feed plate 413; a power motor D414; a feed wheel 415; a support wheel 416; saw band 417.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The first embodiment is as follows:

the following describes the present embodiment with reference to fig. 1 and 2, and the rod grooving apparatus for processing building materials includes an installation base 1, a clamping driving device 2, a clamping device 3 and a grooving device 4, wherein the clamping driving device 2 is fixedly installed above the installation base 1, the clamping device 3 is fixedly installed above the clamping driving device 2, and the grooving device 4 is fixedly installed on the clamping driving device 2.

The second embodiment is as follows:

the present embodiment is described below with reference to fig. 3, 4, 5, 6, 7, and 8, and the present embodiment further describes the first embodiment, where the clamping driving device 2 includes an installation frame body 201, a driving mechanism 202, and a fixing mechanism 203, the installation frame body 201 is fixedly installed on an installation base 1, the installation base 1 is installed with the driving mechanism 202, and the fixing mechanism 203 is installed on the driving mechanism 202;

the driving mechanism 202 comprises a power motor A204, a driving gear A205, a connecting rack A206, an incomplete roller 207, a roller fixing frame 208, a driving base 209, a transmission shaft 210, a driving gear B211, a connecting rack B212, a gear baffle 213, a sliding support rod 214, a driving X-shaped carriage 215 and a supporting and limiting roller 216, wherein the power motor A204 is fixedly arranged on the mounting base 1, the output end of the power motor A204 is provided with the driving gear A205, the driving gear A205 is fixedly provided with the transmission shaft 210, the driving gear A205 is meshed with the connecting rack A206 through teeth, the connecting rack A206 is slidably arranged on the mounting base 1, the incomplete roller 207 is movably arranged on the connecting rack A206, the incomplete roller 207 is movably arranged on the roller fixing frame 208, the roller fixing frame 208 is fixedly arranged on the mounting base 1, the driving base 209 is contacted with the driving base 209, the driving gear B211 is fixedly arranged on the, the driving gear B211 is meshed with the connecting rack B212 through teeth, a gear baffle 213 is fixedly installed on the connecting rack B212, the gear baffle 213 is contacted with the driving gear B211, the connecting rack B212 is fixedly installed on a sliding support rod 214, one end of the sliding support rod 214 is slidably installed on a driving base 209, the other end of the sliding support rod 214 is fixedly installed with a driving X-shaped sliding frame 215, the driving X-shaped sliding frame 215 is contacted with a supporting and limiting rod 216, and the supporting and limiting rod 216 is movably installed on the installation frame body 201;

the fixing mechanism 203 comprises a sliding support plate 217, a connecting rod 218 and a fixed support plate 219, the sliding support plate 217 is fixedly arranged on the X-shaped carriage 215, the connecting rod 218 is fixedly arranged on the sliding support plate 217, the connecting rod 218 is slidably arranged on the fixed support plate 219, the power motor A204 drives the gear A205 to rotate, the gear A205 is driven to rotate and is meshed with the connecting rack A206, so that the connecting rack A206 slides on the mounting base 1, the connecting rack A206 slides on the mounting base 1 to drive the incomplete roller 207 to rotate, the incomplete roller 207 rotates and is contacted with the driving base 209, so that the driving base 209 moves, the sliding support rod 214 drives the X-shaped carriage 215 to slide, when the X-shaped carriage 215 is driven to slide, the support limiting rod 216 plays a supporting role to prevent the X-shaped carriage 215 from swinging, the gear A205 is driven to rotate, and simultaneously, the transmission shaft 210 drives the gear B211 to rotate, the driving gear B211 rotates and is engaged with the connecting rack B212, and then moves along with the sliding support rod 214, so as to play a role in supporting the driving X-shaped sliding frame 215, so that the device moves more stably, and when the driving X-shaped sliding frame 215 moves, the fixing mechanism 203 drives the clamping device 3 to move.

The third concrete implementation mode:

the following describes the present embodiment with reference to fig. 9, and the present embodiment further describes the first embodiment, where the above-mentioned apparatus 3 includes a placing tray 301, a connecting frame 302, a sliding support 303, a tightening wheel 304, a clamping carriage 305, and a limit baffle 306, the placing tray 301 is fixedly installed with the connecting frame 302, the connecting frame 302 is fixedly installed on the sliding support 303, the sliding support 303 is slidably installed on the clamping carriage 305, the sliding support 303 is movably installed with the tightening wheel 304, the limit baffle 306 is fixedly installed on the clamping carriage 305, the placing tray 301 moves to pull the sliding support 303 to slide on the clamping carriage 305 through the connecting frame 302, so that the tightening wheel 304 generates lateral displacement while moving longitudinally, and the tightening wheel 304 contacts with the rod, thereby achieving the function of clamping the rod, and the center of the rod can be automatically aligned while clamping the rod by using the tightening wheel 304.

The fourth concrete implementation mode:

the present embodiment is described below with reference to fig. 10, 11, 12, and 13, and the present embodiment further describes the first embodiment, in which the grooving apparatus 4 includes a fixed support frame 401, an installation vertical plate 402, and a grooving mechanism 403, the installation vertical plate 402 is fixedly installed on the fixed support frame 401, and the grooving mechanism 403 is installed on the installation vertical plate 402;

the grooving mechanism 403 comprises a power motor B404, a driving screw A405, an L-shaped frame 406, a guide rod A407, a power motor C408, a driving screw B409, a support base plate 410, an L-shaped carriage 411, a guide rod B412, a sliding feed plate 413, a power motor D414, a feed wheel 415, a support wheel 416 and a saw belt 417, wherein the power motor B404 is fixedly arranged on the mounting vertical plate 402, the output end of the power motor C408 is provided with the driving screw A405, the driving screw A405 is movably arranged on the mounting vertical plate 402, the driving screw A405 is provided with the L-shaped frame 406 through threads, the guide rod A407 is fixedly arranged on the mounting vertical plate 402, the L-shaped frame 406 is slidably arranged on the guide rod A407, the power motor C408 is fixedly arranged on the L-shaped frame 406, the output end of the power motor C408 is provided with the driving screw B409, the driving screw B409 is movably arranged on the support base plate 410, the support carriage base plate 410, the L-shaped carriage 411 is contacted with the mounting vertical plate 402, the supporting bottom plate 410 is slidably mounted on the mounting vertical plate 402, the supporting bottom plate 410 is fixedly mounted with a guide rod B412, the guide rod B412 is slidably mounted with a sliding feed plate 413, the sliding feed plate 413 is mounted on a driving screw rod B409 through threads, the sliding feed plate 413 is fixedly mounted with the L-shaped carriage 411, the sliding feed plate 413 is slidably mounted on the mounting vertical plate 402, a power motor D414 is fixedly mounted on the sliding feed plate 413, the output end of the power motor D414 is mounted with a feed wheel 415, the feed wheel 415 and the supporting wheel 416 are movably mounted on the sliding feed plate 413, a saw belt 417 is sleeved on the feed wheel 415 and the supporting wheel 416, the power motor B404 drives the driving screw rod A405 to rotate, the screw rod A405 is driven to rotate, the L-shaped frame 406 is driven to slide on the guide rod A407 through threads, the L-shaped frame 406 slides on the guide rod A407 and simultaneously drives the L, the stability is improved, so that the cutting depth of the groove is adjusted, the power motor C408 rotates to drive the screw rod B409 to rotate, the screw rod B409 is driven to rotate to drive the sliding feeding plate 413 to slide on the guide rod B412, the position of the groove is adjusted, the power motor D414 drives the feeding wheel 415 to rotate, the feeding wheel 415 rotates to drive the saw belt 417 to rotate on the feeding wheel 415 and the supporting wheel 416, and the saw belt 417 rotates to achieve the function of processing the groove.

The invention relates to a bar grooving processing device for processing building materials, which has the working principle that:

the power motor A204 is started, the power motor A204 drives the driving gear A205 to rotate, the driving gear A205 rotates by being meshed with the connecting rack A206, and further the connecting rack A206 slides on the installation base 1, the connecting rack A206 slides on the installation base 1 to drive the incomplete roller 207 to rotate, the incomplete roller 207 rotates by contacting with the driving base 209, and further the driving base 209 moves, so that the X-shaped sliding frame 215 is driven by the sliding support rod 214 to slide, when the X-shaped sliding frame 215 is driven to slide, the supporting and limiting rod 216 plays a supporting role to prevent the X-shaped sliding frame 215 from swinging, the driving gear A205 rotates, simultaneously, the driving gear B211 is driven by the transmission shaft 210 to rotate, the driving gear B211 rotates by being meshed with the connecting rack B212, and further moves along with the sliding support rod 214, thereby playing a role in supporting the X-shaped sliding frame 215, and enabling the device to move more stably, when the X-shaped sliding frame 215, the clamping device 3 is moved by the fixing mechanism 203.

Placing plate 301 and moving and pulling sliding support 303 through link 302 and slide on pressing from both sides tight carriage 305, and then make the tight wheel 304 of top produce lateral displacement in longitudinal movement, and then make the tight wheel 304 of top and the contact of rod, realize the function of pressing from both sides tight rod, adopt the tight wheel 304 of top to press from both sides tight rod simultaneously, can the center of automatic alignment rod.

Starting a power motor B404, driving a screw rod A405 to rotate by the power motor B404, driving the screw rod A405 to rotate, driving an L-shaped frame 406 to slide on a guide rod A407 through threads, driving an L-shaped sliding frame 411 to slide on a fixed supporting frame 401 while the L-shaped frame 406 slides on the guide rod A407, increasing the stability, and thus adjusting the cutting depth of the groove, starting a power motor C408, driving a screw rod B409 to rotate by the power motor C408, driving a sliding feeding plate 413 to slide on the guide rod B412 by the driving of the screw rod B409, and further realizing the adjustment of the position of the groove, starting a power motor D414, driving a feeding wheel 415 to rotate by the power motor D414, driving a saw belt 417 to rotate on the feeding wheel 415 and a supporting wheel 416 by the rotation of the feeding wheel 415, and enabling the saw belt 417 to rotate to function of processing the groove.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.