CN116442303B

CN116442303B - High-precision automatic filling quantitative conveying device

Info

Publication number: CN116442303B
Application number: CN202310700464.2A
Authority: CN
Inventors: 黄娟平; 丁伟; 潘晓益; 王炜
Original assignee: Changzhou Tiansheng Zijin Automation Equipment Co ltd
Current assignee: Changzhou Tiansheng Zijin Automation Equipment Co ltd
Priority date: 2023-06-14
Filing date: 2023-06-14
Publication date: 2023-09-08
Anticipated expiration: 2043-06-14
Also published as: CN116442303A

Abstract

The invention provides a high-precision automatic filling quantitative conveying device, which relates to the technical field of silica gel treatment and comprises the following components: the conveying device comprises a base, wherein a conveying frame is fixedly arranged at the top of the base, a rotating roller is rotatably arranged at the top of the conveying frame, two groups of conveying belts are rotatably arranged outside the rotating roller, and plastic clamps are fixedly arranged on adjacent sides of the two groups of conveying belts; the front side bottom of the glue cutting main frame is fixed in the middle of the rear side of the base; the conveying roller and the cutting roller are arranged, a mechanized function of precise quantitative conveying is provided, the driven gear B at the lower side drives the linkage shaft C to rotate when rotating, the linkage shaft C is matched with the bevel gear to drive the linkage shaft A, the linkage shaft B and the driven gear A to rotate, the driven gear A drives the conveying roller and the cutting roller to synchronously rotate, the cutting roller rotates for two weeks when the driven gear B rotates for one circle, precise quantitative conveying is realized, and the problem that the existing packaging device lacks the function of the mechanized precise quantitative conveying is solved.

Description

High-precision automatic filling quantitative conveying device

Technical Field

The invention relates to the technical field of silica gel treatment, in particular to a high-precision automatic filling quantitative conveying device.

Background

The traditional organic silica gel is mainly applied to sealing, bonding, lubrication, coating, surface activity, demolding, defoaming, foam inhibition, waterproofing, dampproofing, inert filling and the like, and the product is mainly transported and sold in a sealing and wrapping mode and is generally sealed by a plastic bag.

The packaging devices currently in use have the following drawbacks:

1. the currently used packaging device mainly adopts a sensor to perform fixed-point cutting, the sensing effect of the sensor has deviation, the accuracy of each conveying is difficult to ensure, and the function of mechanical accurate quantitative conveying is lacking;

2. lack of a drive structure for intermittent controlled cutting;

3. the function of automatically conveying and feeding the packaging bags is lacking.

Disclosure of Invention

In view of the above, the present invention provides a high-precision automatic loading and quantitative conveying device, which has an alignment card, and can conveniently assemble a cutting roller and an inner tube shaft, and maintain alignment and installation of the cutting roller and the inner tube shaft.

The invention provides a high-precision automatic filling quantitative conveying device, which specifically comprises: the plastic clamp is characterized by comprising a base, wherein four groups of conveying frames are fixedly arranged at the top of the base, four groups of rotating rollers are rotatably arranged between the conveying frames at two sides, two groups of conveying belts are rotatably arranged outside the rotating rollers, and plastic clamps are fixedly arranged at adjacent sides of the two groups of conveying belts; the front side bottom of the glue cutting main frame is fixed in the middle of the rear side of the base; the number of the channel rotating frames is two, and the two groups of the channel rotating frames are fixedly arranged at two ends of the front side of the glue cutting main frame; the number of the cutting rollers is two, flange structures are arranged at two ends of the cutting rollers, an inner pipe shaft is fixedly arranged in the cutting rollers, alignment cards are integrally arranged outside the inner pipe shaft, and the alignment cards are anastomotic and fixed in the cutting rollers; the two sides of the inner tube shaft are rotatably arranged between the two side channel rotating frames in cooperation with the airtight bearings; the air telescopic rod C is fixedly arranged in the middle of the front side of the rubber cutting main frame; the air telescopic rod C is connected with the channel rotating frame through a pipeline; the number of the air telescopic rods D is two, and the two groups of air telescopic rods D are fixedly arranged on two sides of the front end of the glue cutting main frame; the driving wheel is rotatably arranged above the front side of the adhesive cutting main frame; the transmission motor is fixedly arranged at the rear side of the glue cutting main frame in cooperation with the bracket; the linkage shaft C is rotatably arranged at the rear side of the adhesive cutting main frame, and driven gears B are fixedly arranged at the rear end of the linkage shaft C and the rear end of the rotating shaft of the driving wheel.

Optionally, the base further includes: the air telescopic rod A is fixedly arranged above the rear end of the left rear side conveying frame, the telescopic end of the air telescopic rod A is fixedly provided with a pushing rack, the gas telescopic rods A are communicated with the gas paths of the two groups of gas telescopic rods D, and the volumes of the two groups of gas telescopic rods D are the same as the volumes of the gas telescopic rods A; the inner ratchet gear is fixedly arranged at the rear end of the rotating shaft of the left lower rotating roller, the pushing rack is meshed with the inner ratchet gear, and the inner ratchet gear rotates when the pushing rack ascends.

Optionally, the main frame of cutting glue includes: two groups of film holders are integrally arranged on two sides of the top of the film cutting main frame; the rear side of the main glue cutting frame is rotatably provided with a linkage shaft A; the linkage shaft A and the linkage shaft C are in bevel gear transmission connection; the left side of the main frame is rotatably provided with a linkage shaft B, and the linkage shaft A is in transmission connection with the bevel gear.

Optionally, the channel rotating frame comprises: the middle of the top of the channel rotating frame is fixedly provided with a convex frame; two groups of conveying rollers are rotatably arranged between the convex frames at two sides and meshed with gears arranged outside the two groups of inner pipe shafts; the outer part of the conveying roller is provided with a flange structure; the side transmission frame is fixedly arranged at the top of the left passage rotating frame, a driven gear A is rotatably arranged at one side of the side transmission frame, an external gear of the conveying roller is meshed with the driven gear A, a rotating shaft of the driven gear A is in bevel gear transmission connection with a linkage shaft B, and the driven gear A rotates for two weeks when the linkage shaft C rotates for one circle; the lower driven gear B drives the linkage shaft C to rotate when rotating, the linkage shaft C is matched with the bevel gear to drive the linkage shaft A to rotate, the linkage shaft A is matched with the bevel gear to drive the linkage shaft B to rotate, the linkage shaft B is matched with the bevel gear to drive the driven gear A to rotate, and the driven gear A drives the conveying roller and the cutting roller to synchronously rotate.

Optionally, the cutting roller further includes: three groups of air telescopic rods B are fixedly arranged on one side of the inner pipe shaft, and guide plates are fixedly arranged at the telescopic ends of the air telescopic rods B; the rubber cutter is arranged in the cutting roller in a sliding way, one side of the rubber cutter, which is positioned in the cutting roller, is of a sliding groove structure, and the guide piece slides in the sliding groove structure; the upper driven gear B drives the driving wheel and the eccentric rod to rotate when rotating, the eccentric rod contacts the connecting plate and presses the connecting plate downwards, the pile is triggered to squeeze the air telescopic rod C, air in the air telescopic rod C is input into the channel rotating frame and then is input into the inner pipe shaft, the air telescopic rod B is propped open, the rubber cutting knife is pushed outwards, and the rubber cutting knives on two sides are close.

Optionally, the air telescopic rod D includes: the telescopic ends of the two groups of gas telescopic rods D are fixedly provided with connecting plates, and triggering piles are fixedly arranged at the bottoms of the middle parts of the connecting plates; the telescopic end of the air telescopic rod C is sleeved with a spring, and the bottom end of the triggering pile is contacted with the top of the air telescopic rod C.

Optionally, the driving wheel includes: the front end of the driving wheel is fixedly provided with an eccentric rod which can be contacted with the connecting plate.

Optionally, the transmission motor includes: the intermittent gear is fixedly arranged at the shaft end of the transmission motor, the intermittent gear is of a half-gear structure, the upper side and the lower side of the intermittent gear are respectively and intermittently meshed with the two groups of driven gears B, and the number of teeth of the intermittent gear is the same as that of the driven gears B.

The beneficial effects are as follows:

1. set up the conveying roller and cut the roller, provided mechanized accurate ration transport's function, downside driven gear B drives universal driving shaft C rotatory when rotatory, universal driving shaft C cooperates the bevel gear to drive universal driving shaft A, universal driving shaft B and driven gear A rotatory, driven gear A drives conveying roller and cuts roller synchronous revolution, cuts roller rotation two week when driven gear B is rotatory a week, conveying roller and cuts the conveying efficiency of roller unanimous, and then guarantees that the conveying speed of silica gel keeps balanced, realizes accurate ration transport.

2. The intermittent gear is arranged, a driving structure for intermittent control cutting is provided, the intermittent gear is driven by the driving motor to rotate, the upper driven gear B and the lower driven gear B are driven by the intermittent gear to rotate in an intermittent mode, the driving wheel and the eccentric rod are driven to rotate when the upper driven gear B rotates, the connecting plate is pressed downwards, the pile is triggered to input air in the air telescopic rod C into the channel rotating frame, then the air telescopic rod B is stretched in the inner pipe shaft, two sides of the air telescopic rod B are close to each other, silica gel is cut off, then the silica gel falls into the packaging bag, filling is achieved, packaging can be completed by sealing of the sealing machine, operation is simple and labor-saving, and the trouble of manual feeding is omitted.

3. The inner ratchet gear is arranged, the function of automatically conveying and feeding the packaging bag is provided, when the pushing rack ascends, the inner ratchet gear is driven to rotate, the inner ratchet gear drives the rotating roller to rotate, the rotating roller drives the conveying belt to rotate, the packaging bag is fed forward to a station, the packaging bag is automatically aligned with the bottom position of the silica gel, and accordingly follow-up continuous filling is facilitated.

Drawings

Fig. 1 shows a schematic perspective view of an operating state according to an embodiment of the present invention;

FIG. 2 illustrates an operating condition isometric architecture schematic according to an embodiment of the present invention;

fig. 3 is a schematic perspective view showing a material removing state according to an embodiment of the present invention;

FIG. 4 shows a schematic diagram of a material removal status axis measurement structure according to an embodiment of the present invention;

FIG. 5 shows a schematic view of the drive of a cutter roll according to an embodiment of the present invention;

FIG. 6 shows a schematic diagram of an assembled construction of a cutter roll according to an embodiment of the present invention;

FIG. 7 is a schematic perspective view showing the structure of an inner tube shaft according to an embodiment of the present invention;

fig. 8 shows an a partial enlarged structural schematic diagram according to an embodiment of the present invention.

List of reference numerals

1. A base; 101. a carriage; 102. a rotating roller; 103. a conveyor belt; 104. an air telescopic rod A; 105. pushing the rack; 106. an inner ratchet gear; 2. cutting a main adhesive frame; 201. a film holder; 202. a linkage shaft A; 203. a linkage shaft B; 3. a channel rotating frame; 301. a convex frame; 302. a conveying roller; 303. a side transmission frame; 304. a driven gear A; 4. a cutting roller; 401. an inner tube shaft; 402. aligning the card; 403. an air telescopic rod B; 404. a guide piece; 405. a rubber cutter; 5. an air telescopic rod C; 6. an air telescopic rod D; 601. a connecting plate; 602. triggering the pile; 7. a driving wheel; 701. an eccentric rod; 8. a drive motor; 801. an intermittent gear; 9. a linkage shaft C; 10. and a driven gear B.

Detailed Description

In order to make the objects, aspects and advantages of the technical solution of the present invention more clear, the technical solution of the embodiment of the present invention will be clearly and completely described below with reference to the accompanying drawings of the specific embodiment of the present invention.

Examples: please refer to fig. 1 to 8:

the invention provides a high-precision automatic filling quantitative conveying device, which comprises: the base 1, the top of the base 1 is fixedly provided with four groups of conveying frames 101, four groups of rotating rollers 102 are rotatably arranged between the conveying frames 101 at two sides, two groups of conveying belts 103 are rotatably arranged outside the rotating rollers 102, and plastic clamps are fixedly arranged at adjacent sides of the two groups of conveying belts 103; the glue cutting main frame 2, wherein the bottom of the front side of the glue cutting main frame 2 is fixed in the middle of the rear side of the base 1; the number of the channel rotating frames 3 is two, and the two groups of the channel rotating frames 3 are fixedly arranged at the two ends of the front side of the main glue cutting frame 2; the number of the cutting rollers 4 is two, flange structures are arranged at two ends of the cutting rollers 4, an inner pipe shaft 401 is fixedly arranged in the cutting rollers 4, an alignment card 402 is integrally arranged outside the inner pipe shaft 401, and the alignment card 402 is anastomotic and fixed in the cutting rollers 4; the two sides of the inner tube shaft 401 are rotatably arranged between the two side channel rotating frames 3 in cooperation with airtight bearings; the air telescopic rod C5 is fixedly arranged in the middle of the front side of the main glue cutting frame 2; the air telescopic rod C5 is connected with the channel rotating frame 3 through a pipeline; the number of the air telescopic rods D6 is two, and the two groups of air telescopic rods D6 are fixedly arranged on two sides of the front end of the glue cutting main frame 2; the driving wheel 7 is rotatably arranged above the front side of the main adhesive cutting frame 2; the transmission motor 8 is fixedly arranged at the rear side of the main glue cutting frame 2 in cooperation with the bracket; the linkage shaft C9 is rotatably arranged at the rear side of the main glue cutting frame 2, and driven gears B10 are fixedly arranged at the rear end of the linkage shaft C9 and the rear end of the rotating shaft of the driving wheel 7; the rotating shafts of the linkage shaft C9 and the driving wheel 7 are controlled by adopting shaft band-type brakes, and the linkage shaft C9 and the driving wheel 7 can be stopped in time when in transmission contact.

Wherein, base 1 still includes: an air telescopic rod A104 is fixedly arranged above the rear end of the left rear side conveying frame 101, an advancing rack 105 is fixedly arranged at the telescopic end of the air telescopic rod A104, the gas telescopic rods A104 are communicated with the gas paths of the two groups of gas telescopic rods D6, and the volumes of the two groups of gas telescopic rods D6 are the same as the volume of the gas telescopic rods A104; an inner ratchet gear 106, the rear end of the rotating shaft of the left lower rotating roller 102 is fixedly provided with the inner ratchet gear 106, the pushing rack 105 is meshed with the inner ratchet gear 106, and the inner ratchet gear 106 rotates when the pushing rack 105 ascends; when the pushing rack 105 rises, the inner ratchet gear 106 is driven to rotate, and then the inner ratchet gear 106 drives the rotary roller 102 to rotate, and the rotary roller 102 drives the conveying belt 103 to rotate.

Wherein, cut gluey body frame 2 includes: the film frame 201, two groups of film frames 201 are integrally arranged on two sides of the top of the film cutting main frame 2; the linkage shaft A202 is rotatably arranged at the rear side of the main glue cutting frame 2; the linkage shaft A202 is in transmission connection with the bevel gear arranged on the linkage shaft C9; the linkage shaft B203 is rotatably arranged on the left side of the main adhesive cutting frame 2, and the linkage shaft A202 and the linkage shaft B203 are in transmission connection through bevel gears.

Wherein, passageway revolving rack 3 is including: the convex frames 301 are fixedly arranged in the middle of the top of the channel rotating frame 3; the conveying rollers 302, two groups of conveying rollers 302 are rotatably arranged between the convex frames 301 at two sides, and gears are arranged outside the two groups of conveying rollers 302 and the two groups of inner pipe shafts 401 to be meshed; the outer peripheral flange structure of the conveying roller 302; the side transmission frame 303 is fixedly arranged at the top of the left channel rotating frame 3, a driven gear A304 is rotatably arranged at one side of the side transmission frame 303, an external gear of the conveying roller 302 is meshed with the driven gear A304, a rotating shaft of the driven gear A304 is in bevel gear transmission connection with a linkage shaft B203, and the driven gear A304 rotates for two weeks when the linkage shaft C9 rotates for one circle; when the driven gear B10 at the lower side rotates, the linkage shaft C9 is driven to rotate, the linkage shaft C9 is matched with a bevel gear to drive the linkage shaft A202 to rotate, the linkage shaft A202 is matched with the bevel gear to drive the linkage shaft B203 to rotate, the linkage shaft B203 is matched with the bevel gear to drive the driven gear A304 to rotate, and the driven gear A304 drives the conveying roller 302 and the cutting roller 4 to synchronously rotate.

Wherein, cutting roller 4 still includes: three groups of gas telescopic rods B403 are fixedly arranged on one side of the inner pipe shaft 401, and guide plates 404 are fixedly arranged at telescopic ends of the gas telescopic rods B403; the rubber cutter 405 is arranged in the cutting roller 4 in a sliding manner, one side of the rubber cutter 405 positioned in the cutting roller 4 is of a chute structure, and the guide piece 404 slides in the chute structure; when the upper driven gear B10 rotates, the driving wheel 7 and the eccentric rod 701 are driven to rotate, the eccentric rod 701 contacts the connecting plate 601 and presses the connecting plate 601 downwards, the triggering pile 602 presses the air telescopic rod C5, air in the air telescopic rod C5 is input into the channel rotating frame 3 and then is input into the inner pipe shaft 401, the air telescopic rod B403 is spread, the rubber cutting knife 405 is pushed outwards, and the rubber cutting knives 405 on two sides are close.

Wherein, the gas telescopic link D6 is including: the connecting plate 601, the telescopic ends of the two groups of gas telescopic rods D6 are fixedly provided with the connecting plate 601, and the middle bottom of the connecting plate 601 is fixedly provided with the triggering pile 602; the telescopic end of the air telescopic rod C5 is sleeved with a spring, and the bottom end of the triggering pile 602 is contacted with the top of the air telescopic rod C5.

Wherein, drive wheel 7 includes: the front end of the driving wheel 7 is fixedly provided with an eccentric rod 701, and the eccentric rod 701 can contact the connection plate 601.

Wherein, drive motor 8 includes: the intermittent gear 801 is fixedly arranged at the shaft end of the transmission motor 8, the intermittent gear 801 is of a half-gear structure, the upper side and the lower side of the intermittent gear 801 are respectively and intermittently meshed with the two groups of driven gears B10, and the number of teeth of the intermittent gear 801 is the same as that of the driven gears B10.

Specific use and action of the embodiment: in the present invention, in use, a roll of silica gel is mounted in the film holder 201, and a silica gel film is passed through the gap between the conveying roller 302 and the cutter roller 4; a wrap-bag is arranged in the middle plastic clamp of the conveying belt 103, and the wrap-bag is opened by the plastic clamps at two sides;

starting a transmission motor 8 to drive an intermittent gear 801 to rotate, wherein the intermittent gear 801 intermittently drives an upper driven gear B10 and a lower driven gear B10 to rotate;

the lower driven gear B10 drives the linkage shaft C9 to rotate when rotating, the linkage shaft C9 is matched with a bevel gear to drive the linkage shaft A202 to rotate, the linkage shaft A202 is matched with the bevel gear to drive the linkage shaft B203 to rotate, the linkage shaft B203 is matched with the bevel gear to drive the driven gear A304 to rotate, the driven gear A304 drives the conveying roller 302 and the cutting roller 4 to synchronously rotate, the cutting roller 4 rotates for two weeks when the driven gear B10 rotates for one circle, the conveying efficiency of the conveying roller 302 is consistent with that of the cutting roller 4, the conveying speed of silica gel is further guaranteed to be balanced, and quantitative conveying is realized;

when the conveying roller 302 finishes conveying a section of silica gel, the two side rubber cutters 405 are aligned; the upper driven gear B10 drives the driving wheel 7 and the eccentric rod 701 to rotate when rotating, the eccentric rod 701 contacts the connecting plate 601 and presses the connecting plate 601 downwards, so that the triggering pile 602 extrudes the air telescopic rod C5, air in the air telescopic rod C5 is input into the channel rotating frame 3 and then is input into the inner pipe shaft 401, the air telescopic rod B403 is propped open, the rubber cutting knife 405 is pushed outwards, the rubber cutting knives 405 at two sides are closed, so that silica gel is cut off, then the silica gel falls into a packaging bag, automatic filling is realized, packaging can be completed by sealing by using a sealing machine, the operation is simple and labor-saving, and the trouble of manual feeding is saved; in the process, the connecting plate 601 presses the air telescopic rod D6, air in the air telescopic rod D6 is input into the air telescopic rod A104, and the air telescopic rod A104 stretches and drives the pushing rack 105 to descend; after the eccentric rod 701 is reset, the spring outside the air telescopic rod C5 is reset, so that the connecting plate 601 is rebounded, and meanwhile, the rack 105 is pushed to ascend;

when the pushing rack 105 ascends, the inner ratchet gear 106 is driven to rotate, the inner ratchet gear 106 drives the rotary roller 102 to rotate, the rotary roller 102 drives the conveying belt 103 to rotate, and the packaging bag is fed forward to a station, so that the packaging bag is automatically aligned with the bottom position of the silica gel, and subsequent packaging is facilitated; when the pusher rack 105 descends, the inner ratchet gear 106 idles, and the roller 102 does not rotate.

Claims

1. A high precision automatic loading and quantifying conveyor, comprising: the device comprises a base (1), wherein four groups of conveying frames (101) are fixedly arranged at the top of the base (1), four groups of rotating rollers (102) are rotatably arranged between the conveying frames (101) at two sides, two groups of conveying belts (103) are rotatably arranged outside the rotating rollers (102), and plastic clamps are fixedly arranged on adjacent sides of the two groups of conveying belts (103); the glue cutting main frame (2), wherein the bottom of the front side of the glue cutting main frame (2) is fixed in the middle of the rear side of the base (1); the main frame (2) for cutting the adhesive comprises: the film frame (201) is integrally arranged on two sides of the top of the film cutting main frame (2); the linkage shaft A (202) is rotatably arranged at the rear side of the main glue cutting frame (2); the linkage shaft A (202) is in transmission connection with the bevel gear of the linkage shaft C (9); the left side of the main glue cutting frame (2) is rotatably provided with a linkage shaft B (203), and the linkage shaft A (202) is in transmission connection with the bevel gear arranged on the linkage shaft B (203); the number of the channel rotating frames (3) is two, and the two groups of the channel rotating frames (3) are fixedly arranged at two ends of the front side of the glue cutting main frame (2); the channel rotating frame (3) comprises: the convex frames (301) are fixedly arranged in the middle of the top of the channel rotating frame (3); two groups of conveying rollers (302) are rotatably arranged between the two side convex frames (301), and gears are arranged outside the two groups of conveying rollers (302) and the two groups of inner tube shafts (401) to be meshed; a flange structure is arranged outside the conveying roller (302); the side transmission frame (303), the side transmission frame (303) is fixedly arranged at the top of the left channel rotating frame (3), a driven gear A (304) is rotatably arranged at one side of the side transmission frame (303), an external gear of the conveying roller (302) is meshed with the driven gear A (304), and a rotating shaft of the driven gear A (304) is in bevel gear transmission connection with the linkage shaft B (203); the cutting machine comprises cutting rollers (4), wherein the number of the cutting rollers (4) is two, flange structures are arranged at two ends of the cutting rollers (4), an inner pipe shaft (401) is fixedly arranged in the cutting rollers (4), an alignment card (402) is integrally arranged outside the inner pipe shaft (401), and the alignment card (402) is anastomotic and fixed in the cutting rollers (4); the cutting roller (4) further comprises: three groups of air telescopic rods B (403) are fixedly arranged on one side of the inner pipe shaft (401), and guide plates (404) are fixedly arranged at the telescopic ends of the air telescopic rods B (403); the rubber cutting knife (405) is arranged in the cutting roller (4) in a sliding way, one side of the rubber cutting knife (405) positioned in the cutting roller (4) is of a sliding groove structure, and the guide piece (404) slides in the sliding groove structure; the two sides of the inner tube shaft (401) are rotatably arranged between the two side channel rotating frames (3) in cooperation with airtight bearings; the air telescopic rod C (5) is fixedly arranged in the middle of the front side of the rubber cutting main frame (2); the air telescopic rod C (5) is connected with the channel rotating frame (3) through a pipeline; the number of the air telescopic rods D (6) is two, and the two groups of the air telescopic rods D (6) are fixedly arranged on two sides of the front end of the rubber cutting main frame (2); the air telescopic rod D (6) comprises: the connecting plates (601) are fixedly arranged at the telescopic ends of the two groups of gas telescopic rods D (6), and triggering piles (602) are fixedly arranged at the bottoms of the middle parts of the connecting plates (601); a spring is sleeved outside the telescopic end of the air telescopic rod C (5), and the bottom end of the triggering pile (602) is contacted with the top of the air telescopic rod C (5); the driving wheel (7) is rotatably arranged above the front side of the main glue cutting frame (2); the transmission motor (8) is fixedly arranged at the rear side of the glue cutting main frame (2) in cooperation with the bracket; the linkage shaft C (9), the said linkage shaft C (9) rotates and sets up in the rear side of the main frame (2) of cutting glue, the rear end of the linkage shaft C (9) and rear end of spindle of the driving wheel (7) are all fixed with the driven gear B (10); the transmission motor (8) comprises: the intermittent gear (801), the axle head of the drive motor (8) is fixedly provided with the intermittent gear (801), the intermittent gear (801) is of a half-gear structure, and the upper side and the lower side of the intermittent gear (801) are respectively engaged with the two groups of driven gears B (10) intermittently.

2. A high precision automatic loading and metering conveyor as claimed in claim 1, wherein said base (1) further comprises:

the device comprises an air telescopic rod A (104), wherein the air telescopic rod A (104) is fixedly arranged above the rear end of a left rear conveying frame (101), a pushing rack (105) is fixedly arranged at the telescopic end of the air telescopic rod A (104), the air telescopic rod A (104) is communicated with two groups of air telescopic rods D (6) through air paths, and the volumes of the two groups of air telescopic rods D (6) are the same as the volume of the air telescopic rod A (104);

an inner ratchet gear (106), the inner ratchet gear (106) is fixedly arranged at the rear end of the rotating shaft of the left lower rotating roller (102), the pushing rack (105) is meshed with the inner ratchet gear (106), and the inner ratchet gear (106) rotates when the pushing rack (105) ascends.

3. A high-precision automatic loading and metering conveyer as claimed in claim 1, wherein the driven gear a (304) rotates two times when the linkage shaft C (9) rotates one time.

4. A high precision automatic loading and metering conveyor as claimed in claim 1, wherein said drive wheel (7) comprises:

the eccentric rod (701), the front end of the driving wheel (7) is fixedly provided with the eccentric rod (701), and the eccentric rod (701) can contact the connecting plate (601).

5. A high-precision automatic loading and metering conveyer as claimed in claim 1, wherein the number of teeth of the intermittent gear (801) is the same as that of the driven gear B (10).