CN112897013B

CN112897013B - Intermittent guide mechanism for conveying products with high accuracy

Info

Publication number: CN112897013B
Application number: CN202110095651.3A
Authority: CN
Inventors: 莫康康
Original assignee: Yiwu Ziyu Creative Design Co ltd
Current assignee: Yiwu Ziyu Creative Design Co ltd
Priority date: 2021-01-25
Filing date: 2021-01-25
Publication date: 2023-12-29
Anticipated expiration: 2041-01-25
Also published as: CN112897013A

Abstract

The invention discloses an intermittent guide mechanism for conveying products, which is high in accuracy and comprises a limiting clamping plate, a supporting mechanism, a guide mechanism, a transmission mechanism, a pressing clamping plate, a supporting plate and supporting legs, wherein the upper end surface of the supporting plate is symmetrically and fixedly connected with the limiting clamping plate for limiting. According to the invention, the transmission mechanism and the guide mechanism are arranged, when products or workpieces are precisely guided, the connecting motor can drive the transmission clamping plate to intermittently move back and forth outside the supporting clamping seat through the rotating shaft plate, meanwhile, the transmission clamping plate can drive the supporting connecting plate and the connecting deflector rod to perform back and forth displacement on two sides of the positioning support plate through the limiting sliding shaft, and when transmission is performed, the supporting shaft can provide enough limiting basis for the connecting deflector rod, so that the guide chute is improved to shift the conveying belt to the front part, the accuracy of displacement is improved, and the intermittent conveying efficiency of the device to the products or the workpieces is improved to the greatest extent.

Description

Intermittent guide mechanism for conveying products with high accuracy

Technical Field

The invention relates to the technical field of mechanical equipment, in particular to an intermittent guide mechanism for conveying products, which is high in accuracy.

Background

The intermittent guiding mechanism for product conveying can conduct stable guiding and conveying operation on various products and workpieces with fixed structures, so that conveyed products and workpieces can be accurately conveyed on the device, the subsequent guiding efficiency of the products and the workpieces is improved,

however, in the conventional product guiding mechanism for machining, the guiding precision of the product guiding mechanism is insufficient in the intermittent guiding and conveying process, so that the product with a fixed size is easy to limit in conveying, and the subsequent conveying efficiency of a workpiece or a product is reduced, so that the intermittent guiding mechanism for conveying the product with high precision is urgently needed to solve the problems.

Disclosure of Invention

The invention aims to provide an intermittent guide mechanism for conveying products with high accuracy so as to solve the problems in the prior art.

In order to achieve the above purpose, the present invention provides the following technical solutions: an intermittent guiding mechanism with high precision for product conveying comprises a limiting clamping plate, a supporting mechanism, a guiding mechanism, a transmission mechanism, a pressing clamping plate, a supporting plate and supporting legs,

the upper end face of the supporting plate is symmetrically and fixedly connected with a limiting clamping plate used for limiting, the inner end face of the limiting clamping plate is rotationally clamped with a supporting mechanism used for transmission, the outer end faces of the two groups of supporting mechanisms are in sliding sleeve joint with a guiding mechanism used for limiting, the upper end face of the supporting plate is symmetrically and fixedly connected with a pressing clamping plate used for supporting near the limiting clamping plate, the lower end face of the supporting plate is symmetrically and fixedly connected with supporting legs used for supporting near the end head, the inner end face of the supporting plate is fixedly connected with a transmission mechanism used for limiting near the middle part,

the supporting mechanism comprises a guide roller, a positioning clamping groove, a grid baffle plate and a limiting clamping shaft,

the center of the inner end face of the guide roller is provided with a positioning clamping groove, grid baffles are symmetrically and fixedly arranged on the side end face of the guide roller, and a limiting clamping shaft is fixedly connected to the center of the side end face of the grid baffles.

Preferably, the guiding mechanism comprises a conveying belt, connecting grooves, guiding sliding grooves and positioning supporting plates, wherein the outer end faces of the conveying belt are uniformly provided with the connecting grooves used for limiting at equal intervals, the positioning supporting plates are fixedly connected with the center of the inner end faces of the conveying belt, and the guiding sliding grooves used for guiding are uniformly provided with the inner end faces of the positioning supporting plates at equal intervals.

Preferably, the drive mechanism includes support cassette, connecting chute, fixed slide, connecting motor, installation extension board, positioning baffle, connection clamping shaft, upset cardboard, supporting shoe, spring plate, pivot board, transmission cardboard, spacing sliding shaft, positioning chute, back shaft and connection driving lever, the connecting chute that is used for spacing is seted up to the interior terminal surface of support cassette, and is located the interior terminal surface sliding joint of connecting chute has the fixed slide that is used for the support, the interior terminal surface symmetry rotation joint of fixed slide has the connection clamping shaft that is used for the direction, and is located the outer terminal surface symmetry rotation joint of connection clamping shaft has two sets of upset cardboards, the lower terminal surface rotation of upset cardboard is connected with the supporting shoe, the lower terminal surface of supporting shoe evenly equidistance fixedly connected with three sets of connection driving levers that are used for the direction, the interior terminal surface of fixed slide is just fixedly connected with the back shaft, and is located the up end symmetry fixedly connected with positioning baffle of fixed slide, the lower terminal surface symmetry fixedly connected with two sets of spring plates that are used for elastic buffer, the side terminal surface of connection sliding plate link through the motor is equipped with two sets of rotation clamping plates that are close to the transmission end surface of the connecting end face of the support motor, the end surface is located the fixed connection clamping plate is located the transmission end face of the fixed connection clamping plate that is located the end of the support motor.

Preferably, the locating support plate is matched with the locating clamping groove, the guiding mechanism is matched with the locating clamping groove through the locating support plate and then is in sliding clamping connection with the outer end face of the supporting mechanism, the upper end face of the locating support plate is in sliding connection with the inner end face of the pressing clamping plate, the two pressing clamping plates can ensure the tightness of the bottom of the conveying belt, the bottom conveying belt is further guaranteed to be in flat condition in displacement, accordingly, the follow-up connection of the deflector rod and the guiding sliding groove is facilitated, and the stability of transmission is improved.

Preferably, the width of the guide sliding groove is the same as the diameter of the connecting poking rod, the guide sliding groove is opposite to the connecting poking rod, the supporting block is matched with the guide sliding groove through the connecting poking rod so as to drive the guide mechanism to slide, the guide sliding groove is arranged at an inclined angle, the connecting poking rod can be conveniently connected to move forward through the guide sliding groove when being laterally displaced, and meanwhile, the guide sliding groove is opposite to the connecting poking rod, so that the accuracy of the subsequent connecting poking rod in positioning can be effectively improved.

Preferably, the spring plate includes the fixed spring that is used for supporting and fixed connection at the limit baffle of fixed spring bottom, just limit baffle's bottom is laminated mutually with the top of supporting shoe, when connecting the driving lever and carrying out the return stroke, the supporting shoe can be under the top of connecting the driving lever when passing through the location extension board, upper portion displacement, and the spring plate can guarantee the stability of supporting shoe this moment, and after the locating extension board, the spring plate can provide sufficient elasticity simultaneously for the supporting shoe resets.

Preferably, the diameter of the limiting sliding shaft is the same as the width of the positioning sliding groove, the supporting shaft is in fit and movable connection with the outer end face of the supporting block, and the supporting shaft can support the side wall of the supporting block, so that the follow-up connection shifting lever can conveniently drive the bottom of the transmission mechanism to accurately displace through the guiding sliding groove, and the follow-up guiding precision of products and workpieces is improved.

Preferably, the side end face of the supporting clamping seat deviates from the center of the positioning sliding groove, is fixedly connected with a supporting connecting plate, the upper end face of the supporting connecting plate is elastically clamped with an inserting clamping shaft through a spring ring, when the conveying belt slides at the bottom of the transmission mechanism, the spring ring can provide enough elastic force for the inserting clamping shaft, so that the positioning support plate can be limited through the lower part of the inserting clamping shaft, limiting is prevented, driving stability is improved, meanwhile, when the connecting deflector rod returns, the inserting clamping shaft can limit the guiding sliding groove, and the connecting deflector rod does not have support of the supporting shaft, and returning stability of the connecting deflector rod can be improved.

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

1. according to the invention, the transmission mechanism and the guide mechanism are arranged, when products or workpieces are precisely guided, the connecting motor can drive the transmission clamping plate to intermittently move back and forth outside the supporting clamping seat through the rotating shaft plate, meanwhile, the transmission clamping plate can drive the supporting connecting plate and the connecting deflector rod to perform back and forth displacement on two sides of the positioning support plate through the limiting sliding shaft, when transmission is performed, the supporting shaft can provide enough limiting basis for the connecting deflector rod, so that the guide chute shifts the conveying belt to the front part, the accuracy of displacement is improved, meanwhile, the conveying belt can be kept stable through the cooperation of the connecting deflector rod, the overturning clamping plate and the spring plate during return, the follow-up transmission stability is improved, and the intermittent conveying efficiency of the device to products or workpieces is improved to the greatest extent.

2. According to the invention, the guide mechanism is arranged, the guide chute is arranged at an inclined angle and can be matched with the connecting deflector rod, so that the efficiency of driving and displacing the conveying belt is improved, and meanwhile, the connecting chute can separate the upper part of the conveying belt, so that the positioning accuracy of various products and workpieces is improved.

Drawings

FIG. 1 is a schematic diagram of the main structure of the present invention;

FIG. 2 is a side view of the body of the present invention;

FIG. 3 is a front elevational view of the body of the present invention;

FIG. 4 is a cross-sectional view taken along the main body elevation A-A of the present invention;

FIG. 5 is an enlarged view of a portion of the body I of the present invention;

FIG. 6 is a schematic view of a supporting mechanism according to the present invention;

FIG. 7 is a schematic view of a guiding mechanism according to the present invention;

FIG. 8 is a schematic diagram of a transmission mechanism according to the present invention;

FIG. 9 is an enlarged view of part of the transmission mechanism II of the present invention;

FIG. 10 is a side view of the transmission of the present invention;

FIG. 11 is a front view of the transmission of the present invention;

FIG. 12 is a front view C-C cross-section of the transmission of the present invention;

fig. 13 is a schematic structural view of a second embodiment of the transmission mechanism of the present invention.

In the figure: 1-limit clamping plate, 2-supporting mechanism, 3-guiding mechanism, 4-driving mechanism, 5-pressfitting clamping plate, 6-supporting plate, 7-supporting leg, 21-guiding roller, 22-positioning clamping groove, 23-check baffle, 24-limit clamping shaft, 31-conveying belt, 32-connecting groove, 33-guiding sliding groove, 34-positioning support plate, 41-supporting clamping seat, 42-connecting sliding groove, 43-fixed sliding plate, 44-connecting motor, 45-mounting support plate, 46-positioning baffle, 47-connecting clamping shaft, 48-turnover clamping plate, 49-supporting block, 410-spring plate, 411-rotating shaft plate, 412-driving clamping plate, 413-limit sliding shaft, 414-positioning sliding groove, 415-supporting shaft, 416-connecting deflector rod, 417-spring ring, 418-inserting clamping shaft and 419-supporting connecting plate.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-12, an embodiment of the present invention is provided: an intermittent guiding mechanism with high precision for product conveying comprises a limiting clamping plate 1, a supporting mechanism 2, a guiding mechanism 3, a transmission mechanism 4, a pressing clamping plate 5, a supporting plate 6 and supporting legs 7,

the upper end surface of the supporting plate 6 is symmetrically and fixedly connected with a limiting clamping plate 1 for limiting, the inner end surface of the limiting clamping plate 1 is rotationally clamped with a supporting mechanism 2 for driving, the outer end surfaces of the two groups of supporting mechanisms 2 are slidably sleeved with a guiding mechanism 3 for limiting, the upper end surface of the supporting plate 6 is symmetrically and fixedly connected with a pressing clamping plate 5 for supporting near the limiting clamping plate 1, the lower end surface of the supporting plate 6 is symmetrically and fixedly connected with supporting legs 7 for supporting near the end head, the inner end surface of the supporting plate 6 is fixedly connected with a driving mechanism 4 for limiting near the middle part,

the supporting mechanism 2 comprises a guide roller 21, a positioning clamping groove 22, a grid baffle 23 and a limiting clamping shaft 24,

the center of the inner end surface of the guide roller 21 is provided with a positioning clamping groove 22, grid baffles 23 are symmetrically and fixedly arranged on the side end surfaces of the guide roller 21, and a limiting clamping shaft 24 is fixedly connected to the center of the side end surfaces of the grid baffles 23.

The guide mechanism 3 comprises a conveying belt 31, connecting grooves 32, guide sliding grooves 33 and positioning support plates 34, wherein the connecting grooves 32 used for limiting are uniformly formed in the outer end face of the conveying belt 31 at equal intervals, the positioning support plates 34 are fixedly connected to the center of the inner end face of the conveying belt 31, and the guide sliding grooves 33 used for guiding are uniformly formed in the inner end face of the positioning support plates 34 at equal intervals.

The transmission mechanism 4 comprises a supporting clamping seat 41, a connecting sliding groove 42, a fixed sliding plate 43, a connecting motor 44, a mounting support plate 45, a positioning baffle 46, a connecting clamping shaft 47, a turnover clamping plate 48, a supporting block 49, a spring plate 410, a rotating shaft plate 411, a transmission clamping plate 412, a limiting sliding shaft 413, a positioning sliding groove 414, a supporting shaft 415 and a connecting deflector rod 416, wherein the inner end surface of the supporting clamping seat 41 is provided with the connecting sliding groove 42 used for limiting, the inner end surface of the connecting sliding groove 42 is in sliding clamping connection with the fixed sliding plate 43 used for supporting, the inner end surface of the fixed sliding plate 43 is symmetrically and rotationally clamped with the connecting clamping shaft 47 used for guiding, the outer end surface of the connecting clamping shaft 47 is symmetrically and rotationally clamped with two groups of turnover clamping plates 48, the lower end surface of the turnover clamping plate 48 is rotationally connected with the supporting block 49, the lower end surface of the supporting block 49 is uniformly and equidistantly fixedly connected with three groups of connecting deflector rods 416 used for guiding, the inner end surface of the fixed sliding plate 43 is fixedly connected with a supporting shaft 415 just opposite to the supporting block 49, the upper end surface of the fixed sliding plate 43 is symmetrically and fixedly provided with a positioning baffle 46, the lower end surface of the positioning baffle 46 is symmetrically and fixedly connected with two groups of spring plates 410 for elastic buffering, the side end surface of the connecting chute 42 penetrates through the inner wall of the fixed sliding plate 43 and is provided with a positioning chute 414, the side end surface of the supporting block 49 is directly opposite to the positioning chute 414 and is fixedly connected with a limiting sliding shaft 413, the end head of the rear end surface of the supporting clamping seat 41 is fixedly provided with a connecting motor 44 for transmission, the front end surface of the connecting motor 44 is fixedly connected with a rotating shaft plate 411, the outer end surface of the rotating shaft plate 411 is close to the end head and is rotationally clamped with a transmission clamping plate 412, the other end of the transmission clamping plate 412 is rotationally clamped with the limiting sliding shaft 413, the lower end surface of the supporting clamping seat 41 is symmetrically and fixedly provided with a mounting support plate 45 for supporting.

The positioning support plate 34 is matched with the positioning clamping groove 22, the guide mechanism 3 is matched with the positioning clamping groove 22 through the positioning support plate 34 so as to be in sliding joint with the outer end face of the support mechanism 2, the upper end face of the positioning support plate 34 is in fitting sliding connection with the inner end face of the pressing clamping plate 5, the two groups of pressing clamping plates 5 can ensure the tightness of the bottom fitting support plate 6 of the conveying belt 31, the flatness of the bottom conveying belt 31 in displacement is further ensured, the follow-up connection of the deflector rod 416 and the guide sliding groove 33 is facilitated, and the stability of transmission is improved.

The width of the guide sliding groove 33 is the same as the diameter of the connection deflector rod 416, the guide sliding groove 33 is opposite to the connection deflector rod 416, the supporting block 49 is matched with the guide sliding groove 33 through the connection deflector rod 416 so as to drive the guide mechanism 3 to slide, the guide sliding groove 33 is arranged in an inclined angle, the connection deflector rod 416 can be conveniently and transversely displaced, the conveying belt 31 can be driven to be forwards displaced through the guide sliding groove 33, meanwhile, the guide sliding groove 33 is opposite to the connection deflector rod 416, and the accuracy of the subsequent connection deflector rod 416 in positioning can be effectively improved.

The spring plate 410 includes the fixed spring that is used for supporting and fixed connection at the limit baffle of fixed spring bottom, and limit baffle's bottom is laminated with the top of supporting shoe 49 mutually, and when connecting driving lever 416 and carrying out the return stroke, supporting shoe 49 can be under the top of connecting driving lever 416 when passing through location extension board 34, upper portion displacement, and the stability of supporting shoe 49 can be guaranteed to spring plate 410 this moment, and after the location extension board 34 was passed through simultaneously, spring plate 410 can provide enough elasticity for supporting shoe 49 resets.

The diameter of the limiting sliding shaft 413 is the same as the width of the positioning sliding groove 414, the supporting shaft 415 is in fit and movable connection with the outer end face of the supporting block 49, and the supporting shaft 415 can support the side wall of the supporting block 49, so that the follow-up connection shifting lever 416 can conveniently drive the conveying belt 31 to accurately displace at the bottom of the transmission mechanism 4 through the guiding sliding groove 33, and the follow-up precision of guiding products and workpieces is improved.

On the basis of the first embodiment, as shown in fig. 13, a second embodiment of the present invention is: the side end face of the supporting clamping seat 41 deviates from the center of the positioning sliding groove 414 and is fixedly connected with a supporting connecting plate 419, the upper end face of the supporting connecting plate 419 is elastically and slidably clamped with an inserting clamping shaft 418 through a spring ring 417, when the conveying belt 31 slides at the bottom of the transmission mechanism 4, the spring ring 417 can provide enough elastic force for the inserting clamping shaft 418, so that the positioning support plate 34 can pass through the lower part of the inserting clamping shaft 418 to prevent limit, the transmission stability is improved, meanwhile, when the connecting deflector 416 returns, the inserting clamping shaft 418 can limit the guiding sliding groove 33, and the connecting deflector 416 does not have the support of the supporting shaft 415, and the return stability of the connecting deflector 416 can be improved.

Working principle: as shown in fig. 1 and 2, when in use, a user can position the device below an external discharge port or a conveying mechanism, thereby facilitating the subsequent accurate guiding conveying operation for various products or workpieces,

when guiding, as shown in fig. 1, 8, 9, 10 and 12, a user can start the connecting motor 44 through the external control mechanism, at this time, the connecting motor 44 can drive the rotating shaft plate 411 to rotate, when the rotating shaft plate 411 rotates, the rotating shaft plate 411 can rotate through circumference, so that the transmission clamping plate 412 circularly moves back and forth outside the supporting clamping seat 41, at this time, the transmission clamping plate 412 can drive the limiting sliding shaft 413 to perform limiting sliding in the positioning sliding groove 414 during the circular displacement, thereby facilitating the subsequent supply of sufficient power to the guiding mechanism 3 for conveying, improving the stability of transmission,

in the initial state, the rotating shaft plate 411 and the transmission clamping plate 412 are in a straightening state, at the moment, the connecting deflector rod 416 at the bottom of the supporting block 49 is positioned at the other side of the connecting groove 32 in the guide mechanism 3, when the rotating shaft plate 411 drives the limiting sliding shaft 413 to displace inwards through the transmission clamping plate 412, at the moment, three groups of connecting deflector rods 416 can be directly positioned at the position of the guide chute 33 in the positioning support plate 34 when displacing inwards, because the guide chute 33 is in an inclined state, when the three groups of connecting deflector rods 416 displace inwards, the conveying belt 31 can be driven to displace to one end through driving the guide chute 33, meanwhile, the supporting shaft 415 can limit the rear part of the supporting block 49, so that the stability of the conveying belt 31 driven by the connecting deflector rod 416 is improved, the distance of the three groups of connecting deflector rods 416 driving the positioning support plate 34 to displace through the guide chute 33 is just equal to the distance between the two groups of connecting grooves 32, thereby facilitating accurate positioning and conveying of products and external workpieces, improving the efficiency of conveying and guiding products,

as shown in fig. 9, 10 and 12, when the connection motor 44 drives the rotating shaft plate 411 to coincide with the transmission clamping plate 412, the supporting block 49 is displaced to the limit position inside at this time, the connection motor 44 can drive the rotating shaft plate 411 to continue to rotate, at this time, the rotating shaft plate 411 can drive the limit sliding shaft 413 to recover through the transmission clamping plate 412, during return, the inserting clamping shaft 418 can be clamped at the top of the guide chute 33 under the elastic pressing of the spring ring 417, at this time, the conveying belt 31 is in a static state, when the connection deflector 416 touches the positioning support plate 34 outside the conveying belt 31, as the other side of the supporting block 49 is not provided with the supporting shaft 415, at this time, the connection deflector 416 can drive the supporting block 49 to move upwards through the rotation limit of the connection clamping shaft 47 and the turnover clamping plate 48 under the limit of the positioning support plate 34, further, the recovery of the conveying belt 31 is prevented from occurring from the top of the positioning support plate 34, the stability of the circular displacement is improved, at this time, after the connection deflector 416 slides to the other side, the original elastic support of the supporting block 49 returns to the position of the plurality of groups of spring plates 410, the subsequent transmission stability is improved.

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

Claims

1. High intermittent type nature guiding mechanism for product transportation of precision, its characterized in that: comprises a limiting clamping plate (1), a supporting mechanism (2), a guiding mechanism (3), a transmission mechanism (4), a pressing clamping plate (5), a supporting plate (6) and supporting legs (7),

the upper end face of the supporting plate (6) is symmetrically and fixedly connected with a limiting clamping plate (1) used for limiting, the inner end face of the limiting clamping plate (1) is rotationally clamped with a supporting mechanism (2) used for transmission, the outer end faces of the two groups of supporting mechanisms (2) are in sliding sleeve joint with a guiding mechanism (3) used for limiting, the upper end face of the supporting plate (6) is symmetrically and fixedly connected with a pressing clamping plate (5) used for supporting, the lower end face of the supporting plate (6) is symmetrically and fixedly connected with supporting legs (7) used for supporting, the inner end face of the supporting plate (6) is fixedly connected with a transmission mechanism (4) used for limiting near the middle part,

the supporting mechanism (2) comprises a guide roller (21), a positioning clamping groove (22), a grid baffle plate (23) and a limiting clamping shaft (24),

a positioning clamping groove (22) is formed in the center of the inner end surface of the guide roller (21), grid baffles (23) are symmetrically and fixedly arranged on the side end surfaces of the guide roller (21), and a limiting clamping shaft (24) is fixedly connected to the center of the side end surfaces of the grid baffles (23);

the transmission mechanism (4) comprises a supporting clamping seat (41), a connecting sliding groove (42), a fixed sliding plate (43), a connecting motor (44), a mounting support plate (45), a positioning baffle plate (46), a connecting clamping shaft (47), a turnover clamping plate (48), a supporting block (49), a spring plate (410), a rotating shaft plate (411), a transmission clamping plate (412), a limiting sliding shaft (413), a positioning sliding groove (414), a supporting shaft (415) and a connecting deflector rod (416), wherein the inner end surface of the supporting clamping seat (41) is provided with the connecting sliding groove (42) used for limiting, the inner end surface sliding clamping of the connecting sliding groove (42) is provided with the fixed sliding plate (43) used for supporting, the inner end surface symmetrical rotation clamping of the fixed sliding plate (43) is provided with the connecting clamping shaft (47) used for guiding, the outer end surface symmetrical rotation clamping of the connecting clamping shaft (47) is provided with two groups of turnover clamping plates (48), the lower end surface of the turnover clamping plate (48) is rotationally connected with the supporting block (49), the lower end surface of the supporting block (49) is uniformly and fixedly connected with three groups of connecting rods (416) used for guiding, the inner end surface sliding plate (43) is provided with the fixed sliding plate (43) positioned on the fixed sliding plate (46) at the fixed sliding plate (46), the lower end face of the positioning baffle plate (46) is symmetrically and fixedly connected with two groups of spring plates (410) used for elastic buffering, a positioning chute (414) is formed in the inner wall of the connecting chute (42) through fixed sliding plate (43), a limiting sliding shaft (413) is fixedly connected to the position, right to the positioning chute (414), of the side end face of the supporting block (49), a connecting motor (44) used for transmission is fixedly arranged at the end of the rear end face of the supporting clamping seat (41), a rotating shaft plate (411) is fixedly connected to the front end face of the connecting motor (44), a transmission clamping plate (412) is rotatably clamped at the position, close to the end, of the outer end face of the rotating shaft plate (411), the other end of the transmission clamping plate (412) is rotatably clamped with the limiting sliding shaft (413), and a mounting supporting plate (45) used for supporting is symmetrically and fixedly arranged at the lower end face of the supporting clamping seat (41).

The guide mechanism (3) comprises a conveying belt (31), connecting grooves (32), guide sliding grooves (33) and positioning support plates (34), wherein the connecting grooves (32) used for limiting are uniformly formed in the outer end face of the conveying belt (31) at equal intervals, the positioning support plates (34) are fixedly connected to the center of the inner end face of the conveying belt (31), and the guide sliding grooves (33) used for guiding are uniformly formed in the inner end face of the positioning support plates (34) at equal intervals;

the width of the guide sliding groove (33) is the same as the diameter of the connecting deflector rod (416), the guide sliding groove (33) is opposite to the connecting deflector rod (416), the supporting block (49) is matched with the guide sliding groove (33) through the connecting deflector rod (416) so as to drive the guide mechanism (3) to slide, and the guide sliding groove (33) is arranged at an inclined angle.

2. The intermittent guide mechanism for conveying products with high precision according to claim 1, wherein: the positioning support plate (34) is matched with the positioning clamping groove (22), the guide mechanism (3) is matched with the positioning clamping groove (22) through the positioning support plate (34) so as to be in sliding clamping connection with the outer end face of the support mechanism (2), and the upper end face of the positioning support plate (34) is in fitting sliding connection with the inner end face of the pressing clamping plate (5).

3. The intermittent guide mechanism for conveying products with high precision according to claim 1, wherein: the spring plate (410) comprises a fixed spring for supporting and a limit baffle fixedly connected to the bottom of the fixed spring, and the bottom of the limit baffle is attached to the top of the supporting block (49).

4. The intermittent guide mechanism for conveying products with high precision according to claim 1, wherein: the diameter of the limiting sliding shaft (413) is the same as the width of the positioning sliding groove (414), and the supporting shaft (415) is in fit and movable connection with the outer end face of the supporting block (49).

5. The intermittent guide mechanism for conveying products with high precision according to claim 1, wherein: the side end face of the supporting clamping seat (41) is fixedly connected with a supporting connecting plate (419) at the center of the position, away from the positioning sliding groove (414), and the upper end face of the supporting connecting plate (419) is elastically and slidably clamped with a plug-in clamping shaft (418) through a spring ring (417).