CN114802920A - A conveyor for gloves production - Google Patents

Abstract

The invention relates to a conveying device for glove production, which comprises a base and a transverse plate which is fixedly arranged on the base through two vertical plates and is parallel to the base, wherein a conveying mechanism for horizontally conveying gloves is also arranged on the base, the conveying mechanism comprises two driving rollers which are rotatably arranged on the base and a conveying belt which is connected with the two driving rollers in a rolling manner, a plurality of rotating seats are arranged on the conveying belt at equal intervals, a sleeve part for sleeving the gloves is fixedly arranged on each rotating seat, a gear is fixedly arranged on each rotating seat, a rack plate which is matched with the gear is movably arranged on one side of the vertical plate, which faces the conveying belt, through a reciprocating driving mechanism, the reciprocating driving mechanism is connected with a power mechanism through the driving mechanism, and finally, the conveying and anti-adhesion processing functions of the gloves are realized, the manpower is saved, the production efficiency of the gloves is greatly improved, and effective guarantee is provided for the production progress of the gloves.

Description

A conveyor for gloves production

Technical Field

The invention relates to the technical field related to production conveying equipment, in particular to a conveying device for glove production.

Background

PVC gloves are adopted polyvinyl chloride, form through special technology, and gloves do not contain the allergen, and no powder, the volume of dusting is low, and ion content is few, does not contain components such as plasticizing agent, ester, silicone oil, has stronger chemical resistance, good flexibility and sense of touch, and it is convenient comfortable to dress, has antistatic performance, can use in dustless environment, characteristics: the composite material has weak acid and alkali resistance, low ion content, good flexibility and touch feeling, and is suitable for the production processes of semiconductors, liquid crystals, hard disks and the like.

In the production and processing of PVC gloves, because the inner surfaces of the gloves are difficult to wear if liquid remains, the upper talcum powder is needed, the talcum powder is an industrial product, is a magnesium silicate salt mineral talcum family talcum powder, and is prepared by crushing, then using hydrochloric acid to treat, washing and drying the magnesium silicate salt mineral family talcum powder which is mainly composed of hydrous magnesium silicate. It is commonly used as filler for plastic and paper products, rubber filler and anti-sticking agent for rubber products, high-grade paint coating and the like.

The gloves of drawing of patterns are generally carried the packing position through conveying equipment and are packed after present gloves production conveying equipment comes out at gloves production, and the conveying equipment of conveying is ordinary conveyer belt device, does not set up dusting device or dusting comprehensive not enough, if directly carry out the operation of vanning, probably leads to bonding each other between the latex gloves, and it is troublesome to bring unnecessary for the follow-up processing of gloves for the production progress of gloves is difficult to obtain the guarantee.

Disclosure of Invention

The invention aims to provide a conveying device for glove production, which solves the problems in the prior art.

In order to achieve the purpose, the invention provides the following technical scheme:

a conveying device for glove production comprises a base and a transverse plate which is fixedly arranged on the base through two vertical plates and is parallel to the base, wherein a conveying mechanism for horizontally conveying gloves is further arranged on the base and comprises two driving rollers rotatably arranged on the base and a conveying belt in rolling connection with the two driving rollers, a plurality of rotating seats are arranged on the conveying belt at equal intervals, a sleeve part for sleeving the gloves is fixedly arranged on each rotating seat, and a gear is fixedly arranged on each rotating seat;

a rack plate matched with the gear is movably arranged on one side, facing the transmission belt, of the vertical plate through a reciprocating driving mechanism, the reciprocating driving mechanism is connected with a power mechanism through a transmission mechanism arranged on the transverse plate, and the power mechanism is arranged on the transverse plate and is also connected with a rotating shaft of one of the driving rollers;

the horizontal plate is further fixedly provided with a cylinder for containing talcum powder, the transmission mechanism is connected with a stirring mechanism arranged in the cylinder, the vertical plate is further fixedly provided with a gas blowing pipe, the gas blowing pipe is connected with a gas pumping mechanism arranged on one side, away from the transmission belt, of the vertical plate, a material feeding pipe for allowing the talcum powder in the cylinder to enter is further arranged on the gas blowing pipe, and a discontinuous conduction mechanism connected with the reciprocating driving mechanism is arranged between the material feeding pipe and the bottom outlet of the cylinder.

As a further scheme of the invention: reciprocating drive mechanism is including installing the riser orientation guide assembly and runner assembly on one side of transmission band, guide assembly with the rack board is connected, just the runner assembly with drive mechanism connects.

As a still further scheme of the invention: the guide assembly comprises a guide plate which is fixedly installed on one side of the conveying belt and is perpendicular to the guide plate and a driven plate which is fixed on the side portion of the rack plate, the rack plate is arranged in the guide plate in a sliding mode, a sliding groove for the driven plate to move is formed in the guide plate, and a groove is formed in the driven plate.

As a still further scheme of the invention: the rotating assembly comprises a cam which is rotatably arranged on the vertical plate and a cylinder which is fixed on one side of the cam, which faces the guide plate, wherein the cylinder extends into the groove on the driven plate, and the rotating shaft of the cam is connected with the transmission mechanism.

As a still further scheme of the invention: power unit installs including rotating incomplete gear, first driven gear and second driven gear on the diaphragm, first driven gear's rotation through first bevel gear group and first drive belt with the rotation axis connection of drive roller, second driven gear's axis of rotation with drive mechanism connects, half for having the tooth setting on the incomplete gear, half is no tooth setting, just still install second driving motor on the diaphragm, second driving motor's output with the rotation axis connection of incomplete gear.

As a still further scheme of the invention: rabbling mechanism installs including rotating on the diaphragm and with it vertically pivot and along the circumference fixed the setting be in many puddlers in the pivot periphery, the pivot with drive mechanism connects, and its with the coincidence of the two the central axis of drum.

As a still further scheme of the invention: the transmission mechanism comprises a transmission shaft which is rotatably arranged on the transverse plate and is vertical to the transverse plate, a second transmission belt which is connected with the transmission shaft and a second driven gear rotating shaft, and a third transmission belt which is connected with the transmission shaft and the rotating shaft, and the transmission shaft is further connected with the rotating shaft of the cam through a second bevel gear set and a fourth transmission belt.

As a still further scheme of the invention: the discontinuous conduction mechanism comprises a conduction plate which is arranged on the vertical plate in a sliding mode and is perpendicular to the vertical plate, the conduction plate is fixedly connected with the driven plate through a connecting column, the conduction plate is in sliding fit with the bottom outlet of the cylinder and the port of the feeding pipe respectively, and a strip-shaped through groove is formed in the conduction plate.

As a still further scheme of the invention: the air pumping mechanism comprises an air pump arranged on one side, deviating from the conveying belt, of the vertical plate and a first driving motor arranged on the side portion of the air pump, the output end of the first driving motor is connected with a driving shaft of the air pump, the air outlet of the air pump is connected with the air blowing pipe, and a filtering device used for filtering dust and foreign matters in air is further arranged on the air inlet of the air pump.

Compared with the prior art, the invention has the beneficial effects that: the glove powder scattering device is novel in design, horizontal conveying and powder scattering functions in the glove processing process are achieved through mutual matching of all mechanisms and parts in the glove powder scattering device, automation of work of the glove powder scattering device is guaranteed due to the fact that a conveying belt is matched with the horizontal conveying process of gloves and the powder scattering process of the gloves, and in the powder scattering process, the reciprocating driving mechanism drives the rack plate to do reciprocating linear motion to enable the gloves to rotate, so that uniformity and comprehensiveness of powder scattering of the gloves are guaranteed.

Drawings

FIG. 1 is a schematic structural view of one embodiment of a conveyor for glove production.

Fig. 2 is a schematic structural view of another angle of one embodiment of the conveying device for glove production.

FIG. 3 is a schematic view of another angle of an embodiment of a conveyor for glove production.

Fig. 4 is an enlarged view of a structure at a in fig. 1.

Fig. 5 is an enlarged view of the structure at B in fig. 3.

Fig. 6 is an exploded view of the reciprocating driving mechanism and the intermittent conduction mechanism in one embodiment of the conveying device for glove production.

In the figure: 1-a base; 2-a drive roller; 3, conveying the belt; 4-standing the plate; 5-a transverse plate; 6-rotating the seat; 7-a kit; 8-gear; 9-rack plate; 10-an air pump; 11-a first drive motor; 12-a filtration device; 13-an air blowing pipe; 14-a cylinder; 15-a conducting plate; 16-a guide plate; 17-a driven plate; 18-a cam; 19-a column; 20-connecting columns; 21-a feeding pipe; 22-a second drive motor; 23-incomplete gear; 24-a first driven gear; 25-a second driven gear; 26-a first bevel gear set; 27-a first drive belt; 28-a drive shaft; 29-a second drive belt; 30-a second bevel gear set; 31-a rotating shaft; 32-a stirring rod; 33-a third drive belt; 34-fourth drive belt.

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, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

In addition, an element described herein as being "secured to" or "disposed on" another element may be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

Referring to fig. 1-6, in an embodiment of the present invention, a conveying device for glove production includes a base 1, and a horizontal plate 5 fixedly mounted on the base 1 through two vertical plates 4 and parallel to the base.

Specifically, the two vertical plates 4 are respectively and fixedly mounted on two sides of the base 1 and are perpendicular to the base 1, and the horizontal plate 5 is fixedly mounted on top ends of the two vertical plates 4.

And the base 1 is also provided with a conveying mechanism for horizontally conveying the gloves. Transport the mechanism and install including rotating two drive rollers 2 and roll connection on the base 1 two the transmission band 3 of drive roller 2, the transmission band 3 goes up the equidistance and is provided with a plurality of rotation seats 6, and every rotate the seat 6 on equal fixed mounting have one be used for the cover to establish the external member 7 of gloves, just fixed mounting has gear 8 on rotating the seat 6, riser 4 orientation be provided with one through reciprocal actuating mechanism activity on one side of transmission band 3 with 8 complex rack plates 9 of gear.

When the power mechanism works, the driving roller 2 is driven to rotate discontinuously, the function of discontinuously transmitting the gloves is realized, when the glove is in a static state (namely after the driving roller 2 stops rotating), the power mechanism drives the transmission mechanism to move, the transmission mechanism can drive the stirring mechanism to move, so that the talcum powder in the cylinder 14 is fully mixed, the uniformity of the talcum powder is enhanced, the smoothness of subsequent powder discharging is ensured, meanwhile, the transmission mechanism can also drive the reciprocating driving mechanism to move, the reciprocating driving mechanism drives the rack plate 9 to do reciprocating linear motion, the rack plate 9 drives the gear 8 to rotate in the motion process, the reciprocating driving mechanism also drives the discontinuous conduction mechanism to move, when the gear 8 drives the glove to rotate, the talcum powder is discharged from the cylinder 14 and blown to the glove in a rotating state through the air pumping mechanism, so that the comprehensiveness of powdering the glove is ensured.

Referring to fig. 4 and 6 again, the reciprocating driving mechanism includes a guiding component and a rotating component mounted on a side of the vertical plate 4 facing the transmission belt 3, the guiding component is connected to the rack plate 9, and the rotating component is connected to the transmission mechanism.

The guide assembly comprises a guide plate 16 which is fixedly installed on one side, facing the conveying belt 3, of the vertical plate 4 and is perpendicular to the vertical plate, and a driven plate 17 fixed on the side portion of the rack plate 9, the rack plate 9 is arranged in the guide plate 16 in a sliding mode, a sliding groove for the driven plate 17 to move is formed in the guide plate 16, and a groove is formed in the driven plate 17.

The rotating assembly comprises a cam 18 rotatably mounted on the vertical plate 4 and a cylinder 19 fixed on one side of the cam 18 facing the guide plate 16, the cylinder 19 extends into the groove on the driven plate 17, and the rotating shaft of the cam 18 is connected with the transmission mechanism.

When the transmission band 3 stops horizontally conveying the gloves, the power mechanism drives the transmission mechanism to move, the transmission mechanism drives the cam 18 to rotate, then the cylinder 19 does circular motion and drives the rack plate 9 to do reciprocating telescopic motion in the guide plate 16 through the driven plate 17, and the rotating seat 6 can drive the gloves to rotate in the process of meshing the rack plate 9 and the gear 8, so that the powder scattering comprehensiveness of the gloves is ensured, and the final effectiveness of anti-adhesion treatment of the gloves is ensured.

The reciprocating driving mechanism is connected with a power mechanism through a transmission mechanism arranged on the transverse plate 5, and the power mechanism is arranged on the transverse plate 5 and is also connected with one rotating shaft of the driving roller 2.

Referring to fig. 2 again, the transmission mechanism includes a transmission shaft 28 rotatably mounted on the transverse plate 5 and perpendicular thereto, a second transmission belt 29 connecting the transmission shaft 28 with the rotating shaft of the second driven gear 25, and a third transmission belt 33 connecting the transmission shaft 28 with the rotating shaft 31, and the transmission shaft 28 is further connected with the rotating shaft of the cam 18 through a second bevel gear set 30 and a fourth transmission belt 34.

It should be noted that the second bevel gear set 30 includes a third bevel gear fixedly mounted on the transmission shaft 28 and a fourth bevel gear rotatably mounted on the transverse plate 5, the third bevel gear is engaged with the fourth bevel gear, and the fourth bevel gear is connected with the rotating shafts of the cams 18 through the fourth transmission belt 34.

During the rotation of the second driven gear 25, the rotation shaft thereof drives the transmission shaft 28 to rotate through the second transmission belt 29, so that the transmission shaft 28 drives the rotation shaft 31 to rotate through the third transmission belt 33, and also drives the cam 18 to rotate through the second bevel gear set 30 and the fourth transmission belt 34, thereby enabling the stirring mechanism, the reciprocating driving mechanism and the intermittent conduction mechanism to work simultaneously, ensuring the motion synchronism of the three mechanisms, and realizing an effective transmission function.

Referring to fig. 3 again, the power mechanism includes a partial gear 23, a first driven gear 24 and a second driven gear 25 rotatably mounted on the transverse plate 5, the rotation of the first driven gear 24 is connected to the rotation shaft of the driving roller 2 through a first bevel gear set 26 and a first transmission belt 27, and the rotation shaft of the second driven gear 25 is connected to the transmission mechanism;

half last for having the tooth setting of incomplete gear 23, half is the setting of no tooth, just still install second driving motor 22 on the diaphragm 5, second driving motor 22's output with incomplete gear 23's rotation axis connection.

In detail, the first bevel gear set 26 includes a first bevel gear fixedly mounted on the rotating shaft of the first driven gear 24 and a second bevel gear rotatably mounted on the base 1, and the first bevel gear is engaged with the second bevel gear, and the first driving belt 27 is used for connecting the rotating shafts of the driving roller 2 and the second bevel gear.

Further, a mounting bracket (not numbered) is fixedly disposed on the transverse plate 5, and the second driving motor 22 is mounted on the transverse plate 5 through the mounting bracket and is located above the incomplete gear 23.

In the working process of the device, the second driving motor 22 drives the incomplete gear 23 to rotate, and in the process that the toothed part on the incomplete gear 23 is meshed with the first driven gear 24, the first driven gear 24 rotates, and the rotating shaft of the first driven gear 24 drives the driving roller 2 to rotate through the first bevel gear set 26 and the first driving belt 27 until the toothed part on the incomplete gear 23 is separated from the first driven gear 24 and is meshed with the second driven gear 25, and then the second driven gear 25 rotates and drives the transmission mechanism to start to move, and the transmission mechanism respectively drives the reciprocating driving mechanism, the intermittent conduction mechanism and the stirring mechanism to move so as to start to scatter powder to the glove.

And a cylinder 14 for containing talcum powder is fixedly arranged on the transverse plate 5, and the transmission mechanism is connected with a stirring mechanism arranged in the cylinder 14.

Referring to fig. 2 again, the stirring mechanism includes a rotating shaft 31 rotatably mounted on the horizontal plate 5 and perpendicular thereto, and a plurality of stirring rods 32 fixedly disposed on the periphery of the rotating shaft 31 along the circumference, wherein the rotating shaft 31 is connected to the transmission mechanism and coincides with the central axes of the cylinder 14 and the rotating shaft.

In the process that the toothed part on the incomplete gear 23 is meshed with the second driven gear 25, the second driven gear 25 rotates, the rotating shaft of the second driven gear drives the transmission mechanism to move, the transmission mechanism drives the rotating shaft 31 to rotate, so that the stirring rod 32 mixes the talcum powder in the cylinder 14, and thus, agglomeration in the talcum powder is eliminated, and the subsequent talcum powder can normally enter the air blowing pipe 13 through the feeding pipe 21 and then be blown to the gloves by the air pumping mechanism.

The vertical plate 4 is also fixedly provided with an air blowing pipe 13, and the air blowing pipe 13 is connected with an air pumping mechanism arranged on one side of the vertical plate 4 departing from the conveying belt 3.

Referring to fig. 2 again, the air pumping mechanism includes an air pump 10 installed on one side of the vertical plate 4 away from the conveyor belt 3, and a first driving motor 11 installed on a side portion of the air pump 10 and having an output end connected to a driving shaft thereof, and an air outlet of the air pump 10 is connected to the air blowing pipe 13.

The air inlet of the air pump 10 is further provided with a filter 12 for filtering dust and foreign matters in the air.

It should be noted that the filter device 12 is provided to prevent the air pump 10 from inadvertently sucking dust or foreign matters in the air and finally blowing the dust or foreign matters to the gloves during operation, which adversely affects the cleanliness of the gloves, and the filter device 12 is an application of the prior art, and therefore, the present application is not described in detail.

A feeding pipe 21 for talc powder in the cylinder 14 to enter is further arranged on the reciprocating mechanism, and an intermittent conduction mechanism connected with the reciprocating driving mechanism is arranged between the feeding pipe 21 and the bottom outlet of the cylinder 14.

Referring to fig. 5 and 6 again, the discontinuous conduction mechanism includes a conduction plate 15 slidably disposed on the vertical plate 4 and perpendicular thereto, the conduction plate 15 is fixedly connected to the driven plate 17 through a connection post 20, the conduction plate 15 is slidably attached to the bottom outlet of the cylinder 14 and the port of the feeding pipe 21, and a strip-shaped through slot is formed in the conduction plate 15.

In the rotating process of the cam 18, the column 19 on the cam can drive the driven plate 17 and the rack plate 9 to do reciprocating linear motion, correspondingly, the driven plate 17 drives the conduction plate 15 to do reciprocating linear motion on the vertical plate 4 through the connecting column 20, and along with the sliding of the conduction plate 15, the talcum powder in the cylinder 14 can fall into the air blowing pipe 13 through the strip-shaped through groove in the conduction plate 15 and the feeding pipe 21 and is blown to the glove by the air pumping mechanism, so that the powder spreading of the glove is completed.

When the glove is used, a proper amount of talcum powder is filled in the cylinder 14, then the power mechanism works to drive the driving roller 2 to rotate discontinuously, so that the glove is conveyed discontinuously in the horizontal direction by the conveying belt 3 (the conveying distance of each time is the distance between the two rotating seats 6), after the glove is static, the power mechanism drives the transmission mechanism to move, the transmission mechanism drives the stirring mechanism to move, and the stirring mechanism mixes and stirs the talcum powder in the cylinder 14, so that the problem that the subsequent talcum powder cannot normally enter the air blowing pipe 13 through the feeding pipe 21 due to agglomeration of the talcum powder in the cylinder 14 is prevented, and the normal falling of the talcum powder in the cylinder 14 is facilitated;

in the moving process of the transmission mechanism, the transmission mechanism also drives the reciprocating driving mechanism to move, the reciprocating driving mechanism drives the rack plate 9 to do reciprocating linear motion (the stroke track of the rack plate is vertical to the vertical plate 4), so that when the rack plate 9 is meshed with the gear 8, the rotating seat 6 drives the gloves to rotate, meanwhile, the reciprocating driving mechanism also drives the discontinuous conduction mechanism to move, the discontinuous conduction mechanism conducts the feed pipe 21 and the bottom outlet of the cylinder 14 for a period of time, therefore, the talcum powder in the cylinder 14 falls into the air blowing pipe 13, the air pumping mechanism pumps air into the air blowing pipe 13, so that the talcum powder in the air blowing pipe 13 is blown onto the gloves, and the problem of adhesion among the gloves in subsequent processing is prevented;

so the circulation is reciprocal, then horizontal transport and dusting function in the gloves course of working have been realized, because the transmission band 3 cooperatees the horizontal transport process of gloves and the dusting process of gloves, the automaticity of device work has been guaranteed, and again because at the in-process of dusting, reciprocal actuating mechanism drive rack plate 9 is reciprocal linear motion, make gloves rotatory, so guaranteed the homogeneity and the wholeness of gloves dusting, finally, through mutually supporting between each mechanism and the part in the device, the transport and the antiseized even processing function of gloves have been realized, the manpower has been saved, the production efficiency of gloves has been promoted greatly, effectively guarantee is provided for the production progress of gloves, therefore, this conveyor is suitable for using widely in the production and processing of gloves.

The working principle of the invention is as follows: in use, a proper amount of talcum powder is filled in the cylinder 14, then the second driving motor 22 drives the incomplete gear 23 to rotate, the first driven gear 24 rotates in the process that the toothed part on the incomplete gear 23 is meshed with the first driven gear 24, the rotating shaft of the first driven gear drives the driving roller 2 to rotate through the first bevel gear set 26 and the first transmission belt 27, so that gloves are horizontally conveyed for a certain distance, then the toothed part on the incomplete gear 23 is separated from the first driven gear 24, the transmission belt 3 stops conveying the gloves, the toothed part on the incomplete gear 23 starts to be meshed with the second driven gear 25, then the second driven gear 25 rotates, the rotating shaft of the second driven gear drives the transmission shaft 28 to rotate through the second transmission belt 29, the transmission shaft 28 drives the rotating shaft 31 to rotate through the third transmission belt 33, and the rotating shaft 31 rotates, so that the stirring rod 32 mixes the talcum powder in the cylinder 14, the uniformity of powder spraying to the gloves finally is ensured, the transmission shaft 28 drives the cam 18 to rotate through the second bevel gear set 30 and the fourth transmission belt 34, the cylinder 19 does circular motion and drives the rack plate 9 to do reciprocating telescopic motion in the guide plate 16 through the driven plate 17 in the rotation process of the cam 18, the rotating seat 6 can drive the gloves to rotate in the meshing process of the rack plate 9 and the gear 8, the comprehensiveness of powder spraying to the gloves finally is effectively ensured, meanwhile, the driven plate 17 drives the conduction plate 15 to do reciprocating linear motion on the vertical plate 4 through the connecting column 20, along with the sliding of the conduction plate 15, the talcum powder in the cylinder 14 can fall into the air blowing pipe 13 through the strip-shaped through groove on the conduction plate 15 and the feeding pipe 21, the air pump 10 pumps air into the air blowing pipe 13, the talcum powder is blown to the glove, and after the toothed part on the incomplete gear 23 is separated from the second driven gear 25, the talcum powder is meshed with the first driven gear 24, and the process is repeated in a circulating mode.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (10)

1. The conveying device for glove production is characterized by comprising a base (1) and a transverse plate (5) which is fixedly arranged on the base (1) through two vertical plates (4) and is parallel to the base, wherein a conveying mechanism for horizontally conveying gloves is further arranged on the base (1);

the conveying mechanism comprises two driving rollers (2) rotatably mounted on the base (1) and a conveying belt (3) connected with the two driving rollers (2) in a rolling manner, a plurality of rotating seats (6) are equidistantly arranged on the conveying belt (3), a sleeve piece (7) used for sleeving gloves is fixedly mounted on each rotating seat (6), and a gear (8) is fixedly mounted on each rotating seat (6);

a rack plate (9) matched with the gear (8) is movably arranged on one side, facing the transmission belt (3), of the vertical plate (4) through a reciprocating driving mechanism, the reciprocating driving mechanism is connected with a power mechanism through a transmission mechanism arranged on the transverse plate (5), and the power mechanism is arranged on the transverse plate (5) and is also connected with a rotating shaft of one of the driving rollers (2);

a cylinder (14) for containing talcum powder is fixedly arranged on the transverse plate (5), and the transmission mechanism is connected with a stirring mechanism arranged in the cylinder (14);

the vertical plate (4) is further fixedly provided with an air blowing pipe (13), the air blowing pipe (13) is connected with an air pumping mechanism arranged on one side, away from the conveying belt (3), of the vertical plate (4), a feeding pipe (21) for talc powder in the cylinder (14) to enter is further arranged on the air blowing pipe, and an intermittent conduction mechanism connected with the reciprocating driving mechanism is arranged between the feeding pipe (21) and the bottom outlet of the cylinder (14).

2. A conveyor for glove production according to claim 1, wherein the reciprocating drive comprises a guide assembly and a rotating assembly mounted on the side of the vertical plate (4) facing the conveyor belt (3), the guide assembly being connected to the rack plate (9) and the rotating assembly being connected to the transmission mechanism.

3. A conveyor device for glove production according to claim 2, characterized in that the guide assembly comprises a guide plate (16) fixedly mounted on the side of the vertical plate (4) facing the conveyor belt (3) and perpendicular thereto, and a driven plate (17) fixed on the side of the rack plate (9), the rack plate (9) being slidingly disposed in the guide plate (16);

the guide plate (16) is provided with a sliding groove for the driven plate (17) to move, and the driven plate (17) is provided with a groove.

4. A conveyor for glove production according to claim 3, wherein the rotating assembly comprises a cam (18) rotatably mounted on the vertical plate (4) and a cylinder (19) fixed on the side of the cam (18) facing the guide plate (16), the cylinder (19) extending into a recess in the driven plate (17), and the rotating shaft of the cam (18) is connected to the transmission mechanism.

5. A conveyor for glove production according to claim 4, wherein said power mechanism comprises a partial gear (23) rotatably mounted on said cross plate (5), a first driven gear (24) and a second driven gear (25), the rotation of said first driven gear (24) is connected with the rotation shaft of said driving roller (2) through a first bevel gear set (26) and a first transmission belt (27), and the rotation shaft of said second driven gear (25) is connected with said transmission mechanism;

half is for having the tooth setting on incomplete gear (23), and half is for not having the tooth setting, just still install second driving motor (22) on diaphragm (5), the output of second driving motor (22) with the rotation axis of incomplete gear (23) is connected.

6. A conveyor for glove production according to claim 5, wherein said stirring mechanism comprises a rotating shaft (31) rotatably mounted on said horizontal plate (5) and perpendicular thereto, and a plurality of stirring rods (32) circumferentially and fixedly disposed on the outer periphery of said rotating shaft (31), said rotating shaft (31) is connected with said transmission mechanism and is coincident with the central axis of both of said cylinders (14).

7. A conveyor for glove production according to claim 6, wherein the transmission mechanism comprises a transmission shaft (28) rotatably mounted on the transverse plate (5) and perpendicular thereto, a second transmission belt (29) connecting the transmission shaft (28) with the rotation shaft of the second driven gear (25), and a third transmission belt (33) connecting the transmission shaft (28) with the rotation shaft (31), and the transmission shaft (28) is further connected with the rotation shaft of the cam (18) through a second bevel gear set (30) and a fourth transmission belt (34).

8. A conveying device for glove production according to claim 3, wherein the discontinuous conduction mechanism comprises a conduction plate (15) slidably disposed on the vertical plate (4) and perpendicular thereto, the conduction plate (15) is fixedly connected with the driven plate (17) through a connection column (20), and the conduction plate (15) is slidably fitted with the bottom outlet of the cylinder (14) and the port of the feeding pipe (21), respectively;

a strip-shaped through groove is formed in the conduction plate (15).

9. The conveying device for glove production according to claim 1, wherein the air pumping mechanism comprises an air pump (10) installed on one side of the vertical plate (4) away from the conveying belt (3) and a first driving motor (11) installed on the side of the air pump (10) and having an output end connected with a driving shaft thereof, and an air outlet of the air pump (10) is connected with the air blowing pipe (13).

10. A transfer device for glove production according to claim 9, wherein a filter device (12) for filtering dust and foreign matters in the air is further installed on the air inlet of the air pump (10).

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