阅读说明：本技术 一种非标方形导管具有折角控制检测的加工生产设备 (Processing production equipment with bevel control detection function for non-standard square catheter ) 是由 谢满和 蔡文珍 陈春苗 于 2021-07-26 设计创作，主要内容包括：本发明公开了一种非标方形导管具有折角控制检测的加工生产设备,包括底部支架,所述底部支架的顶部端面螺栓固定安装有送料组件,所述夹持组件的顶部螺栓固定设置有折弯组件,本发明通过将送料组件和操作台分别设置于定位传送组件两端,通过送料组件的设置,便于对导管进行间隙传送,同时通过定位传动组件的设置,便于对导管起到固定夹持定向传送的作用,通过将夹持组件和折弯组件的设置,便于根据导管尺寸进行自动调节对导管起到固定夹持的同时通过折弯有的移动对导管进行折弯,同时通过限位块的设置,便于对导管折弯角度进行限位固定,从而避免操作员手动折弯时导管角度不同意且折弯时的费时费力,从而有利于对导管起到折弯同一控制的作用。(The invention discloses processing and production equipment with a function of angle control detection for a non-standard square conduit, which comprises a bottom bracket, wherein a feeding assembly is fixedly arranged on the top end surface of the bottom bracket through a bolt, a bending assembly is fixedly arranged on the top of a clamping assembly through a bolt, the feeding assembly and an operation table are respectively arranged at two ends of a positioning and conveying assembly, the conduit is conveniently conveyed in a clearance manner through the arrangement of the feeding assembly, the conduit is conveniently and fixedly clamped and directionally conveyed through the arrangement of a positioning and transmission assembly, the conduit is conveniently bent through the movement of bending while the conduit is fixedly clamped through automatic adjustment according to the size of the conduit through the arrangement of the clamping assembly and the bending assembly, and the bending angle of the conduit is conveniently limited and fixed through the arrangement of a limiting block, so that the condition that the conduit is not coincident in angle when an operator manually bends and time and labor are wasted when the conduit is bent is avoided, thereby being beneficial to playing the same control function of bending the conduit.)

1. The utility model provides a processing production facility that square pipe of non-standard has dog-ear control to detect, includes bottom support (1), its characterized in that: the top end face bolt fixed mounting of bottom support (1) has pay-off subassembly (2), and the left side bottom discharge gate of pay-off subassembly (2) is connected with location conveying subassembly (3), the one side export of location conveying subassembly (3) is connected with the terminal surface of operation panel (4), and the bottom pillar bolt fixed connection of operation panel (4) in the top end face of supporting machine case (7), the inner chamber middle part block fixed mounting of supporting machine case (7) has centre gripping subassembly (8), the top bolt fixation of centre gripping subassembly (8) is provided with bending assembly (9).

2. The processing and production equipment with bevel control detection for the non-standard square catheter according to claim 1, is characterized in that: the casing main part inner chamber right side of pay-off subassembly (2) is provided with feeding storehouse (201), and the casing inner chamber bottom bolt fixed mounting of the below pay-off subassembly (2) in feeding storehouse (201) has single-shaft pneumatic cylinder (202), the left side piston rod tip bolt fixedly connected with propelling movement piece (203) of single-shaft pneumatic cylinder (202), and the fixed outrigger (204) that is provided with of block on the piston rod of the right side single-shaft pneumatic cylinder (202) of propelling movement piece (203), the right side block fixedly connected with damping spring (205) of outrigger (204), and the top welded fastening of outrigger (204) is in the bottom of branch flitch (206).

3. The processing and production equipment with bevel control detection for the non-standard square catheter as claimed in claim 2, wherein: feeding storehouse (201) and unipolar pneumatic cylinder (202) are the symmetry from top to bottom and set up in the casing inner chamber right side of pay-off subassembly (2), and the kerve in feeding storehouse (201) is high inclined structure in the right side of the left end, the left side bottom discharge gate in feeding storehouse (201) is connected with the casing left side baffle box of pay-off subassembly (2), and the discharge gate height is identical with square pipe maximum dimension, be welded fastening connection between the top end face of propelling movement piece (203) and the bottom end face left side of branch flitch (206), its branch flitch (206) both sides are provided with the spacing slider embedding and set up in the horizontal spout of pay-off subassembly (2) casing inside wall.

4. The processing and production equipment with bevel control detection for the non-standard square catheter according to claim 1, is characterized in that: a driving motor (301) is fixedly installed in an inner cavity of a shell of the positioning and conveying assembly (3) through bolts, a transmission shaft (302) is fixedly installed at the output end of the driving motor (301) in a clamping mode, a transmission slide block (303) is connected to a shaft body of the transmission shaft (302) in a threaded meshing mode, two sides of the transmission slide block (303) are embedded into sliding grooves of a limiting slide seat (304) in a sliding mode, a stabilizing rod (305) transversely penetrates through the inner cavity of the limiting slide seat (304), a synchronous slide block (306) is fixedly connected to the top end face of the transmission slide block (303) in a welding mode, driven slide blocks (307) are symmetrically connected to sliding grooves of two sides of the synchronous slide block (306) in an embedded mode, a rotating motor (308) is fixedly connected to the right side of the top of the driven slide block (307) through bolts, and a transmission wheel (309) is fixedly installed at the output end of the top of the rotating motor (308) in a clamping mode, and a positioning shaft (3010) is fixedly arranged on the right side of the top end face of the driven sliding block (307) in a staggered mode through bolts.

5. The manufacturing equipment with bevel control detection for the non-standard square catheter as claimed in claim 4, wherein: drive slider (303) are five equidistances and set up on transmission shaft (302), and all transversely turn between the thread groove of threaded hole and transmission shaft (302) of the inner chamber central line of drive slider (303) be connected for thread engagement, the both sides of drive slider (303) are provided with slider embedding sliding connection in the inboard spout of spacing slide (304), synchronous slider (306) are trapezium structure and set up and be connected for welded fastening between the top terminal surface of drive slider (303), and the both sides bottom of synchronous slider (306) is provided with "L" shape recess, with mesh mutually between the left side tip "L" line slider of driven slider (307), the top terminal surface of location conveying subassembly (3) is provided with the guiding gutter, and drive wheel (309) and location axle (3010) are the symmetry and set up in location conveying subassembly (3) guiding gutter both sides in a staggered manner, drive wheel (309) and location axle (3010) are through synchronous slider (306) and drive slider (303) and drive slider (304) An openable and closable structure is formed between the motors (301).

6. The processing and production equipment with bevel control detection for the non-standard square catheter according to claim 1, is characterized in that: the right side terminal surface of operation panel (4) and location conveying subassembly (3) guiding gutter inside groove bottom are on same water flat line, and the left side of operation panel (4) is the semicircle right side and is square structure, and the left side semicircle bottom of its operation panel (4) is the free spout of arc society, the left side spout block swing joint of operation panel (4) has stopper (5), and the left side terminal surface of stopper (5) is provided with fixed pin (6), the top terminal surface left side of operation panel (4) is the arc and is provided with the graduation apparatus.

7. The processing and production equipment with bevel control detection for the non-standard square catheter according to claim 1, is characterized in that: the inside block fixed mounting of base of centre gripping subassembly (8) has elevator motor (801), and block fixedly connected with lift axle (802) on elevator motor (801)'s the output, the body of rod top embedding of lift axle (802) sets up in the inner chamber of lift sleeve pipe (803), and the top welded fastening of lift sleeve pipe (803) connects in the bottom terminal surface of supporting lid (804), the outside welded fastening of the bottom lift sleeve pipe (803) of supporting lid (804) is connected with bending column (805), and the bottom terminal surface bolt fixedly connected with telescopic link (806) of bending column (805).

8. The manufacturing equipment with bevel control detection for the non-standard square catheter as claimed in claim 7, wherein: the support cover (804) and the bending column (805) are combined to form a T-shaped structure, the bottom of the bending column (805) penetrates through the operating platform (4) in the middle vertically and is connected with the surface of the support case (7) through a telescopic rod (806), the inner cavity of the bending column (805) is hollowed out, the lifting shaft (802) and the lifting sleeve (803) are vertically arranged in the bending column (805), and the support cover (804) forms a lifting structure through the bending column (805), the telescopic rod (806) and the lifting motor (801).

9. The processing and production equipment with bevel control detection for the non-standard square catheter according to claim 1, is characterized in that: a stepping motor (901) is fixedly mounted in an inner cavity of a base of the bending assembly (9) through bolts, a bending arm (902) is fixedly connected to the top output end of the stepping motor (901) in a clamping mode, and a bending head (903) is fixedly mounted at the bottom of a support of the bending arm (902) through bolts.

10. The manufacturing equipment with bevel control detection for a non-standard square catheter as claimed in claim 9, wherein: the base end part of the bending component (9) is fixedly connected to the center position of the top end face of the supporting cover (804) in a welding mode, the left side of the bending arm (902) is in clamping fixed connection with the output end of the stepping motor (901) in an earring mode, a U-shaped structure is formed between the bending head (903) and the bending arm (902), the bending head (903) of the bending head is located between the operating platform (4) and the supporting cover (804), and the bending head (903) forms a rotatable structure between the bending arm (902) and the stepping motor (901).

Technical Field

The invention relates to the technical field of square catheters, in particular to processing and producing equipment for non-standard square catheters with bevel control detection.

Background

The guide pipe is a tubular body, the wall of the tubular body is provided with the gas measuring hole, the guide pipe is connected in series on a drilled gas drainage pipeline when in use, and the detector of the portable gas drainage comprehensive parameter measuring instrument is directly connected with the measuring hole on the guide pipe when in use, so that the gas drainage condition can be measured at any time and observed.

The secondary pipe of the guide pipe is different from the original pipe in a square structure and is in two sizes, so that when the guide pipe is bent, the size of the clamp needs to be manually adjusted to accord with the size of the sleeve, the clamp needs to be manually opened and closed when the guide pipe is fed and discharged by an operator, meanwhile, the guide pipe is manually bent by the operator in the bending process, the bending angle is not accurate, so that the requirement on the experience of the operator is very high when the guide pipe is bent, time and labor are wasted when the guide pipe is processed in batches, and therefore the processing and production equipment with the corner control detection function for the non-standard square guide pipe is provided.

Disclosure of Invention

The invention aims to provide processing and production equipment for a non-standard square catheter with bevel control detection, and aims to solve the problems that when the catheter is bent, the size of a clamp needs to be manually adjusted to be in accordance with the size of a sleeve, and an operator manually feeds materials in the processing process, so that the clamp needs to be manually opened and closed when the catheter is fed and discharged every time, meanwhile, the operator manually bends in the bending process, the bending angle does not have an accurate standard every time, the experience requirement on the operator is very high in the bending process, time and labor are wasted in batch catheter processing, and the like.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a processing production facility that non-standard square pipe has dog-ear control to detect, includes the bottom support, the top terminal surface bolt fixed mounting of bottom support has the pay-off subassembly, and the left side bottom discharge mouth of pay-off subassembly is connected with location conveying subassembly, one side export of location conveying subassembly is connected with the terminal surface of operation panel, and the bottom pillar bolt fixed connection of operation panel in the top terminal surface of supporting machine case, the inner chamber middle part block fixed mounting of supporting machine case has the centre gripping subassembly, the top bolt fastening of centre gripping subassembly is provided with the subassembly of bending.

Preferably, the casing main part inner chamber right side of pay-off subassembly is provided with the feeding storehouse, and the casing inner chamber bottom bolt fixed mounting of the below pay-off subassembly in feeding storehouse has single-shaft pneumatic cylinder, single-shaft pneumatic cylinder's left side piston rod tip bolt fixedly connected with propelling movement piece, and the fixed outrigger that is provided with of block on the piston rod of the right side single-shaft pneumatic cylinder of propelling movement piece, outrigger's right side block fixedly connected with damping spring, and outrigger's top welded fastening connects in the bottom of branch flitch.

Preferably, feeding storehouse and unipolar pneumatic cylinder are the symmetry from top to bottom and set up in feeding assembly's casing inner chamber right side, and the kerve in feeding storehouse is the high inclined structure in left end right side, the left side bottom discharge mouth in feeding storehouse is connected with feeding assembly's casing left side baffle box, and the discharge gate height is identical with square pipe maximum dimension, be welded fastening connection between the top end face of propelling movement piece and the bottom end face left side of branch flitch, its branch flitch both sides are provided with the embedding of spacing slider and set up in feeding assembly casing inside wall horizontal sliding groove.

Preferably, bolt fixed mounting has driving motor in the casing inner chamber of location conveying subassembly, and block fixed mounting has the transmission shaft on driving motor's the output, threaded engagement is connected with the transmission slider on the axis body of transmission shaft, and the both sides embedding sliding connection of transmission slider is in the spout of spacing slide, transversely run through in the inner chamber of spacing slide and be provided with the stabilizer bar, the synchronous slider of top terminal surface welded fastening of transmission slider, and the both sides spout embedding symmetry sliding connection of synchronous slider have a driven slider, the top right side bolt fixedly connected with rotating electrical machines of driven slider, and the top output of rotating electrical machines goes up block fixed mounting and has the drive wheel, the crisscross bolt fastening in top terminal surface right side of driven slider is provided with the location axle.

Preferably, the transmission slider is five equidistances and sets up on the transmission shaft, and is connected for thread engagement between the thread groove of the equal horizontal turning threaded hole of inner chamber central line of transmission slider and transmission shaft, the both sides of transmission slider are provided with slider embedding sliding connection in the inboard spout of spacing slide, synchronous slider is trapezium structure and sets up and be welded fastening connection between the terminal surface of the top of transmission slider, and is provided with "L" shape recess bottom the both sides of synchronous slider, with the left side tip "L" of driven slider and go between the slider mutually meshing, the top end face of location conveying subassembly is provided with the guiding gutter, and drive wheel and location axle are symmetry crisscross and set up in location conveying subassembly guiding gutter both sides, drive wheel and location axle constitute the structure of can opening and shutting through between synchronous slider and transmission slider and the driving motor.

Preferably, the right side terminal surface and the location conveying subassembly guiding gutter bottom of operation panel are on same water flat line, and the left side of operation panel is the semicircle right side and is square structure, and the left side semicircle bottom of its operation panel is arc society free chute, the left side spout block swing joint of operation panel has the stopper, and the left side terminal surface of stopper is provided with the fixed pin, the top end face left side of operation panel is the arc and is provided with the graduation apparatus.

Preferably, the inside block fixed mounting of base of centre gripping subassembly has elevator motor, and block fixedly connected with lift axle on elevator motor's the output, the body of rod top embedding of lift axle sets up in lift sheathed tube inner chamber, and lift sheathed tube top welded fastening connects in the bottom terminal surface that supports the lid, the outside welded fastening who supports the bottom lift sheathed tube of lid is connected with the post of bending, and the bottom terminal surface bolt fixedly connected with telescopic link of the post of bending.

Preferably, support and make up between the post of bending and be "T" type structure, the bottom of its post of bending is passed the operation panel perpendicularly between two parties and is connected through the telescopic link with the surface that supports quick-witted case, and the inner chamber of the post of bending is the fretwork form, lift axle and lifting support pipe are and set up perpendicularly in the inside of the post of bending, it constitutes liftable structure through bending between post and telescopic link and the elevator motor to support the lid.

Preferably, a stepping motor is fixedly mounted in an inner cavity of the base of the bending assembly through a bolt, a bending arm is fixedly connected to the output end of the top of the stepping motor in a clamping mode, and a bending head is fixedly mounted at the bottom of a support of the bending arm through a bolt.

Preferably, the base end of the bending base is fixedly connected to the middle of the top end face of the supporting cover in a welding mode, the left side of the bending arm is in clamping and fixed connection with the output end of the stepping motor in an ear ring mode, a U-shaped structure is formed between the bending head and the bending arm, the bending head is located between the operating platform and the supporting cover, and the bending head forms a rotatable structure between the bending arm and the stepping motor.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, the feeding assembly and the operation table are respectively arranged at two ends of the positioning and conveying assembly, so that the guide pipe can be conveyed in a clearance manner conveniently through the arrangement of the feeding assembly, meanwhile, the guide pipe can be clamped and conveyed in a fixed and directional manner through the arrangement of the positioning and transmission assembly, the guide pipe can be bent through the movement of bending while the guide pipe is clamped and fixed through automatic adjustment according to the size of the guide pipe, and meanwhile, the bending angle of the guide pipe can be limited and fixed conveniently through the arrangement of the limiting block, so that the condition that the angle of the guide pipe is different when an operator bends manually and the time and labor are wasted during bending are avoided, and the guide pipe can be bent under the same control action.

2. According to the invention, the feeding bin and the single-shaft pneumatic cylinder are arranged on the right side of the inner cavity of the feeding assembly, the guide pipe is conveyed while being guided, and the single-shaft pneumatic cylinder drives the pushing block and drives the material distribution plate to synchronously move to separate the vertically stacked guide pipes by arranging the stabilizing support and the material distribution plate, so that an operator is prevented from walking back and forth to take materials during the machining of the guide pipes, and the automatic feeding effect is favorably realized.

3. According to the invention, the top end surface of the positioning transmission assembly and the discharge port of the feeding assembly are arranged on the same horizontal line, the transmission wheel and the positioning shaft are symmetrically arranged at two sides of the inner groove of the feeding assembly, the guide pipe is clamped and transmitted conveniently through the arrangement of the transmission wheel and the positioning shaft, meanwhile, through the arrangement of the transmission shaft and the transmission slide block, the transmission slide block is driven to reciprocate along the limiting slide seat when the transmission shaft is driven by the driving motor to rotate clockwise and anticlockwise, and through the arrangement of the synchronous slide block and the driven slide block, the synchronous slide block is driven to reciprocate along the limiting slide seat while moving along with the transmission slide block, so that the centering positioning effect on the guide pipes with different sizes is favorably realized.

4. The bending column and the supporting cover are arranged on the end face of the top of the operating platform in a T-shaped structure, the supporting cover is arranged to facilitate the memorability and the fixed support between the bending column and the top of the lifting sleeve, the telescopic rod is arranged to facilitate the support of the bending column, and the lifting sleeve is limited by the welding fixed connection between the bending column and the supporting cover when the lifting shaft and the lifting sleeve are in threaded engagement connection, so that the distance between the supporting cover and the operating platform is adjusted to facilitate the clamping and fixing of the guide pipe.

5. The bottom of the machine shell of the bending component is fixedly connected to the top end face of the supporting cover in a welding mode, so that the bending component is driven to move synchronously when the supporting cover rises, the position of the bending head is kept between the supporting cover and a gap between the supporting cover and an operating platform, and meanwhile, through the arrangement of the stepping motor and the bending arm, the stepping motor drives the bending arm to rotate clockwise while driving the bending arm, the bending head is bent when being in contact with a conduit in the rotating process, the stress and the non-uniformity of the bending angle during manual bending are avoided, and the control effect on the bending angle of the conduit is facilitated.

Drawings

FIG. 1 is a schematic diagram of the front internal structure of a processing and production apparatus with bevel control detection for a non-standard square catheter according to the present invention;

FIG. 2 is a schematic top plan view of a non-standard square pipe with bevel control detection manufacturing equipment according to the present invention;

FIG. 3 is a schematic diagram of the position structure of the internal components of the feeding assembly of the processing and production equipment with bevel control detection for a non-standard square conduit according to the present invention;

FIG. 4 is a schematic diagram of the position structure of the internal components of the positioning and conveying assembly of the processing and production equipment with bevel control detection for a non-standard square catheter according to the present invention;

FIG. 5 is a schematic view of a connection structure of the positions of the transmission sliding block parts of the processing and production equipment with bevel control detection for a non-standard square catheter of the present invention;

FIG. 6 is a schematic structural diagram of an operation table of a processing and manufacturing apparatus with bevel control detection for a non-standard square catheter according to the present invention.

In the figure: 1. a bottom bracket; 2. a feeding assembly; 201. a feeding bin; 202. a single-axis pneumatic cylinder; 203. a pushing block; 204. a stabilizing support; 205. a damping spring; 206. a material distributing plate; 3. positioning the transfer assembly; 301. a drive motor; 302. a drive shaft; 303. a transmission slide block; 304. a limiting sliding seat; 305. a stabilizer bar; 306. a synchronous slide block; 307. a driven slider; 308. a rotating electric machine; 309. a driving wheel; 3010. positioning the shaft; 4. an operation table; 5. a limiting block; 6. a fixing pin; 7. supporting the chassis; 8. a clamping assembly; 801. a lifting motor; 802. a lifting shaft; 803. a lifting sleeve; 804. a support cover; 805. bending the column; 806. a telescopic rod; 9. bending the assembly; 901. a stepping motor; 902. bending the arm; 903. and (6) bending the elbow.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, rather than all embodiments, and all other embodiments obtained by a person of ordinary skill in the art without any creative work based on the embodiments of the present invention belong to the protection scope of the present invention.

Referring to fig. 1-6, the present invention provides a technical solution: a non-standard square catheter has a processing production device for dog-ear control detection, which comprises a bottom bracket 1, a feeding component 2 is fixedly installed on the top end face of the bottom bracket 1 through bolts, a feeding bin 201 is arranged on the right side of the inner cavity of a machine shell main body of the feeding component 2, a single-shaft pneumatic cylinder 202 is fixedly installed on the bottom of the inner cavity of the machine shell of the feeding component 2 below the feeding bin 201 through bolts, a pushing block 203 is fixedly connected to the end portion of a piston rod on the left side of the single-shaft pneumatic cylinder 202 on the left side of the pushing block 203 through bolts, a stabilizing bracket 204 is fixedly arranged on a piston rod of the single-shaft pneumatic cylinder 202 on the right side of the pushing block 203 through clamping, a damping spring 205 is fixedly connected to the right side of the stabilizing bracket 204 through clamping, the top of the stabilizing bracket 204 is fixedly connected to the bottom of a material distributing plate 206 through welding, the feeding bin 201 and the single-shaft pneumatic cylinder 202 are symmetrically arranged on the right side of the inner cavity of the feeding component 2 up and down, and a bottom groove of the feeding bin 201 is of a left-bottom-right high-inclined structure, the left bottom discharge port of the feeding bin 201 is connected with a guide chute on the left side of a machine shell of the feeding assembly 2, the height of the discharge port is matched with the maximum size of a square pipe, the top end face of the pushing block 203 and the left side of the bottom end face of the material distributing plate 206 are fixedly connected by welding, two sides of the material distributing plate 206 are provided with limiting slide blocks which are embedded into a transverse sliding chute on the inner side wall of the machine shell of the feeding assembly 2, the feeding bin 201 and the single-shaft pneumatic cylinder 202 are arranged on the right side of an inner cavity of the feeding assembly 2, the guide pipes can be conveniently conveyed while being guided by the feeding bin 201 and the single-shaft pneumatic cylinder 202, meanwhile, the material distributing plate 206 can be conveniently driven to synchronously move when the pushing block 203 is driven by the single-shaft pneumatic cylinder 202, the vertically overlapped guide pipes are separated, and an operator is prevented from walking back and forth to take materials when the guide pipes are processed, is favorable for playing the role of automatic feeding.

A positioning and conveying component 3 is connected to a discharge port at the bottom of the left side of the feeding component 2, a driving motor 301 is fixedly installed in a casing cavity of the positioning and conveying component 3 through bolts, a transmission shaft 302 is fixedly installed on an output end of the driving motor 301 in a clamping manner, a transmission slider 303 is connected to a shaft body of the transmission shaft 302 in a threaded engagement manner, two sides of the transmission slider 303 are embedded into sliding grooves of a limiting sliding seat 304 in a sliding manner, a stabilizing rod 305 is transversely arranged in the cavity of the limiting sliding seat 304 in a penetrating manner, a synchronous slider 306 is fixedly connected to the top end surface of the transmission slider 303 in a welding manner, driven sliders 307 are symmetrically connected to the sliding grooves on the two sides of the synchronous slider 306 in a sliding manner, a rotating motor 308 is fixedly connected to a bolt at the right side of the top of the driven slider 307, a transmission wheel 309 is fixedly installed on the output end of the top of the rotating motor 308 in a clamping manner, and a positioning shaft 3010 is fixedly arranged on the right side of the top end surface of the driven slider 307 in a staggered bolt manner, the transmission slide block 303 is arranged on the transmission shaft 302 in five equal intervals, a threaded hole is transversely turned on the center line of an inner cavity of the transmission slide block 303 and is connected with a threaded groove of the transmission shaft 302 in a threaded meshing manner, slide blocks embedded into sliding grooves in the inner sides of the limiting slide seats 304 are arranged on the two sides of the transmission slide block 303, the synchronous slide blocks 306 are arranged in a trapezoidal structure and are fixedly connected with the top end face of the transmission slide block 303 in a welding manner, L-shaped grooves are formed in the bottoms of the two sides of the synchronous slide block 306 and are meshed with L-shaped line slide blocks on the left end portion of a driven slide block 307, a flow guide groove is arranged on the top end face of the positioning and conveying assembly 3, the transmission wheel 309 and the positioning shaft 3010 are symmetrically and alternately arranged on the two sides of the flow guide groove of the positioning and conveying assembly 3, the transmission wheel 309 and the positioning shaft 3010 form an openable structure through the synchronous slide block 306, the transmission slide block 303 and the driving motor 301, and the top end face of the positioning shaft 3010 is arranged to form an openable structure through arranging a discharge hole of the positioning and arranging on the feeding assembly 2 The synchronous sliding block 306 and the driven sliding block 307 are arranged on the same horizontal line, the driving wheel 309 and the positioning shaft 3010 are symmetrically arranged on two sides of an inner groove of the feeding assembly 2, the conveying wheel 309 and the positioning shaft 3010 are arranged to facilitate clamping and conveying of the guide pipes, and meanwhile, the driving shaft 302 and the driving sliding block 303 are arranged to facilitate driving of the driving motor 301 to drive the driving shaft 302 to rotate clockwise and anticlockwise and to drive the driving sliding block 303 to reciprocate along the limiting sliding seat 304, and the synchronous sliding block 306 and the driven sliding block 307 are arranged to facilitate driving of the driven sliding block 307 to reciprocate along the limiting sliding seat 304 while the synchronous sliding block 306 moves along with the driving sliding block 303, so that the centering and positioning effects on the guide pipes of different sizes are facilitated.

The outlet of one side of the positioning and conveying component 3 is connected with the end surface of the operation table 4, the end surface of the right side of the operation table 4 and the bottom of the inner groove of the diversion trench of the positioning and conveying component 3 are on the same horizontal line, the left side of the operation table 4 is of a semicircular right side and is of a square structure, the semicircular bottom of the left side of the operation table 4 is of an arc-shaped social free chute, the chute of the left side of the operation table 4 is clamped and movably connected with a limit block 5, the end surface of the left side of the limit block 5 is provided with a fixed pin 6, the left side of the end surface of the top of the operation table 4 is provided with an arc-shaped scale gauge, the setting is used for setting the end surface of the top of the operation table 4 and the bottom of the diversion trench of the positioning and conveying component 3 on the same horizontal line, the pipe can be supported by setting the operation table 4 when being bent, and the limit block 5 and the fixed pin 6 are arranged, so that the limit block 5 can interact along the diversion trench of the left side of the operation table 4, and the guide pipe bending angle can be adjusted and fixed through the dial gauge on the top end surface of the operating platform 4, so that the guide pipe bending angle can be adjusted uniformly.

The bottom pillar bolt of the operating platform 4 is fixedly connected to the top end surface of the supporting case 7, the clamping component 8 is fixedly clamped in the middle of the inner cavity of the supporting case 7, the lifting motor 801 is fixedly clamped in the base of the clamping component 8, the lifting shaft 802 is fixedly clamped on the output end of the lifting motor 801, the top of the rod body of the lifting shaft 802 is embedded in the inner cavity of the lifting sleeve 803, the top of the lifting sleeve 803 is fixedly welded to the bottom end surface of the supporting cover 804, the outer side of the bottom lifting sleeve 803 of the supporting cover 804 is fixedly welded to be connected with the bending pillar 805, the bottom end surface bolt of the bending pillar 805 is fixedly connected with the telescopic rod 806, the supporting cover 804 and the bending pillar 805 are combined to form a T-shaped structure, the bottom of the bending pillar 805 vertically penetrates through the operating platform 4 in the middle to be connected with the surface of the supporting case 7 through the telescopic rod 806, and the inner cavity of the bending pillar 805 is hollowed-out, the lifting shaft 802 and the lifting sleeve 803 are vertically arranged in the bending column 805, the supporting cover 804 is arranged on the top end surface of the operating platform 4 through the bending column 805 and the telescopic rod 806 and the lifting motor 801 to form a lifting structure, the bending column 805 and the supporting cover 804 are arranged to be in a T-shaped structure, the support is arranged through the supporting cover 804, the bending column 805 and the top of the lifting sleeve 803 are conveniently and fixedly supported in a memorability mode, the bending column 805 and the lifting sleeve 803 are supported through the telescopic rod 806, the lifting shaft 802 and the lifting sleeve 803 are connected in a threaded engagement mode, the bending column 805 and the supporting cover 804 are fixedly connected in a welding mode, the lifting sleeve 803 is limited, and therefore the distance between the supporting cover 804 and the operating platform 4 can be adjusted to clamp and fix a guide pipe.

The top of the clamping component 8 is fixedly provided with a bending component 9 by bolts, a stepping motor 901 is fixedly arranged in a base inner cavity of the bending component 9 by bolts, the top output end of the stepping motor 901 is fixedly connected with a bending arm 902 in a clamping manner, the bottom of a bracket of the bending arm 902 is fixedly provided with a bending elbow 903 by bolts, the base end part of the bending component 9 is fixedly connected with the central position of the top end surface of the supporting cover 804 in a welding manner, the left side of the bending arm 902 is in an ear ring shape and is fixedly connected with the output end of the stepping motor 901 in a clamping manner, a U-shaped structure is formed between the bending head 903 and the bending arm 902, the bending head 903 is positioned between the operating platform 4 and the supporting cover 804, the bending head 903 forms a rotatable structure through the bending arm 902 and the stepping motor 901, and the function of the arrangement is realized that the bottom of a machine shell of the bending component 9 is fixedly connected with the top end surface of the supporting cover 804 in a welding manner, thereby be convenient for drive the synchronous motion of subassembly 9 of bending when supporting lid 804 to rise, it is that bend 903 position keeps and supports between lid 804 and the 4 clearances of operation panel, simultaneously through step motor 901 and the setting of the arm 902 of bending, be convenient for step motor 901 drives bend 903 and carries out clockwise rotation when carrying out the drive to the arm 902 of bending, bend 903 and bend it when rotatory in-process and pipe contact at bend, the draft when avoiding artifical manual bending and the angle incoherence of bending, thereby for being favorable to bending the angle to the pipe and playing the control action.

The working principle is as follows: for the processing and production equipment with the bevel angle control detection function for the non-standard square guide pipe, the guide pipe is firstly placed in an inner cavity of a feeding bin 201 in sequence, then slides to the front end of the left side of a pushing block 203 through the inclination angle of the feeding bin 201, then a single-shaft pneumatic cylinder 202 drives the pushing block 203 arranged on a piston rod to move forwards, and separates the superposed guide pipe through a material separating plate 206 while moving, the guide pipe is sent into an inner groove of a positioning transmission assembly 3 one by one in the pushing process, after the guide pipe enters the inner groove, a driving motor 301 drives a transmission shaft 302 to rotate, so that a transmission slide block 303 starts to slide along a limiting slide base 304 through meshing connection between the transmission slide block 303 and the transmission shaft 302, and the synchronous slide block 306 and a driven slide block 307 are meshed while sliding, so that the driven slide block 307 drives a transmission wheel 309 and a positioning shaft 3010 to contract inwards, the guide tube is centered in an inner groove of the positioning and conveying assembly 3, so that the rotating motor 308 drives a driving wheel 309 arranged on the output end to rotate to move the guide tube to the right side of the top end surface of the operating platform 4, when the clamping assembly 8 falls into the inner groove of the positioning and conveying assembly 3, the lifting motor 801 drives the lifting shaft 802 to rotate, the lifting shaft 802 drives the supporting cover 804 to move up and down through the threaded engagement connection with the lifting sleeve 803, so that the guide tube is clamped and fixed when entering the top end surface of the operating platform 4, the position of the limiting block 5 is adjusted through a scale gauge on the operating platform 4 and fixed through the fixing pin 6 before bending, the stepping motor 901 in the manual bending assembly 9 drives the bending arm 902 on the output end to rotate clockwise, so that the bending head 903 rotates along with the bending arm 902 and simultaneously cooperates with the bending column 805 to bend the guide tube, when the bending is finished, the guide pipe is moved out of the operation table 4 through inertia by the high-speed rotation of the conveying wheel 309, so that the whole process of using the processing and production equipment with the bending angle control detection function for the non-standard square guide pipe is finished.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.