CN218610251U - Drying equipment and have glove production line of this equipment - Google Patents

Abstract

The application discloses a drying device and a glove production line with the same, relates to the technical field of glove production, and solves the problem of uneven drying effect of the drying device on gloves; the transportation device comprises a plurality of mounting frames and a first driving piece, and a plurality of hand moulds are arranged on the mounting frames; the air blowing device comprises a first air blowing mechanism, the first air blowing mechanism comprises a first air blowing piece and a first air blowing pipe, the first air blowing piece is arranged on the mounting frame, a cavity is formed in the hand model, the first air blowing piece is communicated with the cavity through the first air blowing pipe, a plurality of air vents are further formed in the hand model, and the air vents are communicated with the cavity. This application can improve drying equipment's stoving effect, makes gloves be heated at the stoving in-process evenly.

Description

Drying equipment and have glove production line of this equipment

Technical Field

The application relates to the technical field of glove production, in particular to a drying device and a glove production line with the same.

Background

Gloves are common hand warming or labor protection articles, wherein the gloves used for labor protection generally need to have the characteristics of wear resistance, skid resistance, convenient movement and the like.

At present, wear-resistant rubberized antiskid gloves are often used in labor protection, and generally comprise an inner layer and an outer layer of cloth materials (such as knitted cloth) and rubber materials (such as nitrile rubber), wherein the gloves are made of the cloth materials, and then the rubber materials are coated on the outer surfaces of the gloves, so that the wear-resistant rubberized antiskid gloves can be obtained.

In the process of smearing the rubber materials, the gloves need to be opened by wearing the gloves by using the hand model, so that smearing of the rubber materials is facilitated. Meanwhile, in the process of smearing the rubber materials, the rubber materials only need to cover the back of the hand and the end positions of the fingers, and the rest parts are left empty, so that the palm of a wearer can move freely.

After the gloves are coated with the rubber materials, the gloves need to be dried, so that the solidification of the rubber materials is accelerated, and the production efficiency of the wear-resistant, rubber-hanging and anti-skidding gloves is improved. However, in the process of drying the wear-resistant rubberized anti-slip gloves by the existing drying equipment, the wear-resistant rubberized anti-slip gloves are heated unevenly, that is, the drying equipment cannot uniformly dry the wear-resistant rubberized anti-slip gloves, and the wear resistance of the wear-resistant rubberized anti-slip gloves is affected.

SUMMERY OF THE UTILITY MODEL

In order to improve the inhomogeneous problem of drying equipment to gloves stoving effect, this application provides a drying equipment and has the gloves production line of this equipment.

On the one hand, the application provides a drying equipment, adopts following technical scheme:

a drying device comprises a machine body, a heating element, a conveying device and a blowing device, wherein the heating element is used for drying gloves, the conveying device is used for conveying the gloves to move through, the blowing device is used for promoting gas to flow, a drying space for the gloves to pass through is formed in the machine body, the heating element is arranged on the machine body, and one end of the heating element is located in the drying space;

the conveying device comprises a plurality of mounting frames and a plurality of first driving pieces for driving the mounting frames to move through the drying space, and a plurality of hand molds are arranged on the mounting frames;

the air blowing device comprises a first air blowing mechanism, the first air blowing mechanism comprises a first air blowing piece and a first air blowing pipe, the first air blowing piece is arranged on the mounting frame, a cavity is formed in the hand model, the first air blowing piece is communicated with the cavity through the first air blowing pipe, a plurality of air holes are formed in the hand model, and the air holes penetrate through the surface of the hand model and are communicated with the cavity.

By adopting the technical scheme, after the gloves are coated with the rubber materials, the conveying device sends the gloves into the drying space, and the heating element heats the air in the drying space, so that the outer surfaces of the rubber materials on the gloves are dried; the space after heating in the space will be dried to first blowing spare is sent into the inner chamber of hand mould through first gas blow pipe in, and the air will be dried to it through the internal surface contact of a plurality of air vents and gluey class material to it is even to be heated inside and outside the gluey class material that makes daubing on the gloves, and then improves the stoving effect of drying equipment to gloves.

Optionally, the machine body is provided with two first sensors for controlling the opening and closing of the first blowing piece in the drying space, and one of the first sensors is located at an inlet of the drying space.

Through adopting above-mentioned technical scheme, when gloves just got into the stoving space, first inductor can control first piece of blowing and dry to gluing class material internal surface, and after gluing class material internal surface is heated and solidifies, another first inductor is steerable first piece of blowing again and stops to blow, reduces the probability that the overheated joint strength between to cloth class material and the gluey class material of gluing class material and the performance of gluing class material caused the influence.

Optionally, the blowing device further comprises a plurality of second blowing mechanisms, each second blowing mechanism comprises a second blowing piece, the second blowing pieces are arranged on the machine body and located in the drying space, and the blowing direction of each second blowing piece faces towards the hand mold.

Through adopting above-mentioned technical scheme, can aggravate the circulation of air in the stoving space, can make the air after the heating concentrate simultaneously and flow towards the gloves direction on the hand former for glue class material surface stoving speed of solidifying.

Optionally, the plurality of second air blowing mechanisms are distributed at equal intervals along the transportation direction of the transportation device, and the air blowing strength of the plurality of second air blowing pieces is gradually increased along the transportation direction of the transportation device.

Through adopting above-mentioned technical scheme, the in-process that gloves passed from the stoving space, along with gloves rubberizing class material is heated gradually and is solidified, second air blowing mechanism is crescent to the blowing intensity of gloves, can reduce the probability that gas produces the influence to the shape of gluing class material, the cover position of gluing class material on gloves, can further improve the drying efficiency of the gluey class material of gloves simultaneously.

Optionally, the transportation device further includes a second driving member for driving the mounting frame to rotate, and a rotation axis of the mounting frame is horizontal and perpendicular to a moving direction of the mounting frame.

Through adopting above-mentioned technical scheme, the position of mounting bracket rotation back hand former also changes thereupon, so gloves also change in the high position in stoving space when the stoving space, can adjust gloves and generate heat the distance between the piece to can blow the second and adjust the stoving position of gloves.

Optionally, the hand model is connected with the mounting bracket in a rotating mode, the rotating axis of the hand model is perpendicular to the rotating axis of the mounting bracket and parallel to the length direction of the hand model, and a third driving piece for driving the hand model to rotate is further arranged on the mounting bracket.

Through adopting above-mentioned technical scheme, the third driving piece orders about hand former pivoted in-process, can further make the surface of gloves rubberizing class material be heated evenly to further improve drying equipment's stoving effect.

Optionally, the machine body is further provided with two second sensors for controlling the third driving member to open and close in the drying space, one of the second sensors is located at an outlet of the drying space, and the other of the second sensors is located at a position close to the first sensor in the drying space.

Through adopting above-mentioned technical scheme, the third driving piece can order about the hand former and rotate after gluing class material inlayer and solidifying completely and gluing class material skin is preliminary to can reduce the hand former and rotate the shape of gluing class material, glue the position of gluing class material covering on the gloves and the produced influence of the solidification rate of gluing class material.

Optionally, the machine body is further provided with a material collecting frame for collecting impurities in the drying space, the material collecting frame is fixedly connected with the machine body, and the position of the material collecting frame in the drying space is lower than the hand mold.

Through adopting above-mentioned technical scheme, the impurity that gets into in the stoving space can be collected to the frame that gathers materials, and also can collect in the frame that gathers materials in the time of the gluey class material that paints on the gloves is unnecessary dropping under the action of gravity, alleviates the pollution, optimizes the environment in the stoving space.

On the other hand, this application still provides a gloves production line, adopts following technical scheme:

the glove production line comprises the drying equipment, and comprises impregnation equipment, cleaning equipment, re-drying equipment and a conveying line, wherein the conveying line drives gloves to sequentially pass through the impregnation equipment, the drying equipment, the cleaning equipment and the re-drying equipment.

Through adopting above-mentioned technical scheme, can improve the degree of automation of gloves production, can improve the quality of gloves product simultaneously.

In summary, the present application includes at least one of the following benefits:

1. the rubber material on the glove can be heated uniformly in the drying process, the connection strength between the rubber material and the cloth material is improved, the solidification effect of the rubber material is improved, and the performance of the wear-resistant rubber-hanging anti-slip glove product is ensured;

2. the quality and the performance of the glove rubber material after solidification are ensured, and the heating solidification speed of the rubber material can be accelerated.

Drawings

FIG. 1 is a schematic process flow diagram of a glove production line according to an embodiment of the present application;

fig. 2 is a schematic structural diagram of a drying apparatus according to an embodiment of the present application;

fig. 3 is a sectional view of a drying apparatus according to an embodiment of the present application;

fig. 4 is an enlarged view of a point a in fig. 3.

Description of reference numerals: 1. a gumming device; 2. a drying device; 21. a body; 211. a drying space; 22. a heating member; 23. a transportation device; 231. a frame body; 232. a mounting frame; 233. a first driving member; 234. a second driving member; 235. a third driving member; 236. a mating member; 24. a blowing device; 241. a first blowing mechanism; 2411. a first blowing member; 2412. an air blowing pipe; 242. a second blowing mechanism; 2421. a second blowing member; 2422. an air blowing port; 3. cleaning equipment; 4. drying the equipment; 5. a transport line; 6. a hand model; 61. an inner cavity; 62. a vent hole; 7. a first inductor; 8. a second inductor; 9. and (7) collecting the materials.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses drying equipment and have glove production line of this equipment.

Referring to fig. 1, the production line sequentially comprises a dipping device 1 for gluing the surface of a cloth material, a drying device 2 for uniformly drying the glue material, a cleaning device 3 for cleaning gloves, and a re-drying device 4 for drying the cleaned gloves according to the process flow, and the production line further comprises a conveying line 5 for conveying a plurality of gloves sequentially through the dipping device 1, the drying device 2, the cleaning device 3, and the re-drying device 4.

The glove made of cloth materials is glued at the position of a gumming device 1, so that a layer of the glue materials is smeared on the surface of the cloth materials; then the conveying line 5 conveys the gloves through the drying equipment 2, and the drying equipment 2 dries and solidifies the rubber materials; then, the conveying line 5 conveys the gloves through the cleaning equipment 3, and the gloves are immersed in liquid for cleaning the gloves to clean impurities on the surfaces of the gloves; then the transport line 5 transports the gloves through the re-drying equipment 4, and the re-drying equipment 4 dries the residual liquid on the gloves; finally the glove is removed from the transport device 23. In this embodiment, only the drying device 2 is modified, so that only the drying device 2 is described later, and the gumming device 1, the cleaning device 3, the re-drying device 4, and the transportation line 5 are all devices known to those skilled in the art, and therefore, detailed description thereof is omitted.

Referring to fig. 2 and 3, the drying apparatus 2 includes a body 21, the body 21 is fixedly mounted on the ground, the whole body 21 is a rectangular parallelepiped structure, and a drying space 211 for the glove to pass through and be heated at the same time is penetrated through the body 21 along the length direction of the body, so as to dry the rubber material. The drying device 2 further comprises a heating element 22 for heating the air in the drying space 211, the heating element 22 is fixedly connected with the machine body 21, a part of the heating element 22 is positioned inside the machine body 21, and a part of the heating element 22 extends into the drying space 211 and is positioned on the top of the drying space 211. Since the principle of the heating member 22 in the drying apparatus 2 is common knowledge known to those skilled in the art, the description of the heating machine will not be made herein.

The drying apparatus 2 further includes a transportation device 23, the transportation device 23 includes a frame body 231, the frame body 231 is also fixedly installed on the ground, and the frame body 231 penetrates through the drying space 211, and the frame body 231 is located below the heating member 22. The transportation device 23 further includes a plurality of mounting brackets 232, the mounting brackets 232 are slidably connected to the frame body 231, and a sliding direction of the mounting brackets 232 is parallel to a length direction of the machine body 21. The plurality of mounting brackets 232 are equidistantly distributed on the frame body 231 along the sliding direction of the mounting brackets 232, a plurality of first driving pieces 233 used for driving the mounting brackets 232 to move are further installed on the frame body 231, and the plurality of mounting brackets 232 move synchronously. In this embodiment, since the manner of moving the mounting frame 232 along the straight line is various and well known to those skilled in the art, it is not described herein again.

Referring to fig. 2 and 3, a plurality of hand models 6 are further fixedly mounted on the mounting frame 232, the hand models 6 are distributed on the mounting frame 232 at equal intervals along the length direction of the mounting frame 232, and gloves are worn on the hand models 6. A second driving member 234 for driving the mounting frame 232 to rotate is further fixedly mounted on the mounting frame 232, the rotation axis of the mounting frame 232 is parallel to the length direction thereof, and the rotation axis of the mounting frame 232 coincides with the center line thereof.

The mounting frame 232 is also fixedly provided with a plurality of third driving pieces 235 for driving the hand model 6 to rotate at the connection position of the mounting frame 232 and the hand model 6, the rotation axis of the hand model 6 is vertical to the rotation axis of the mounting frame 232, and the rotation axis of the hand model 6 is superposed with the center line of the hand model 6.

Referring to fig. 2 and 3, the drying apparatus 2 further includes a blowing device 24, the blowing device 24 includes a second blowing mechanism 242 for intensifying the gas flow in the drying space 211, the second blowing mechanism 242 includes a plurality of second blowing members 2421, the second blowing members 2421 are fixedly connected to the body 21 and located in the drying space 211, and the plurality of second blowing members 2421 are distributed on the body 21 at equal intervals along the length direction of the body 21. The second air blowing part 2421 is provided with an air blowing port 2422, and an air pipe is further connected to the second air blowing part 2421, and the air is supplied through the air pipe, and the second air blowing part 2421 blows air out of the air blowing port 2422, thereby promoting the flow of the air. In this embodiment, the air duct is omitted in the drawings for the convenience of other structural expressions.

The second air blowing members 2421 are symmetrically arranged at both sides of the drying space 211, and the air blowing ports 2422 of the second air blowing members 2421 are inclined downward, i.e., the air blowing direction of the second air blowing members 2421 is inclined downward, so that the second air blowing members 2421 can blow air toward the position of the hand mold 6 when the mounting frame 232 passes through the drying space 211. The blowing strength of the plurality of second blowing members 2421 positioned at the same side of the drying space 211 is different, and the blowing strength of the plurality of second blowing members 2421 is gradually increased in the transporting direction of the transporter 23.

Referring to fig. 2 and 4, the blowing device 24 further includes a first blowing mechanism 241 for uniformly heating the adhesive material, and the first blowing mechanism 241 includes a first blowing member 2411 and a blowing pipe 2412 for transmitting gas. The first air blowing piece 2411 is located at one end of the length direction of the mounting frame 232, the air blowing pipe 2412 penetrates through the mounting frame 232, and the first air blowing piece 2411 is communicated with the air blowing pipe 2412. An inner cavity 61 is formed in the hand model 6, a plurality of branch pipelines extend towards the direction close to the hand model 6 from the air blowing pipe 2412, and the branch pipelines are communicated with the inner cavity 61 of the corresponding hand model 6. The hand model 6 is also provided with a plurality of vent holes 62, and two ends of the vent holes 62 are respectively communicated with the inner cavity 61 and the outer side of the hand model 6.

The first blowing part 2411 has a blowing principle different from that of the second blowing part 2421, the first blowing part 2411 can suck and blow out the heated air in the drying space 211, the blown air flows to the gloves worn on the hand model 6 along the blowing pipe 2412, the inner cavity 61 and the plurality of vent holes 62, and the air dries the inner surface of the rubber material.

Referring to fig. 2 and 3, the body 21 further includes two first sensors 7 for controlling the opening and closing of the first air blowing piece 2411 in the drying space 211, the first sensors 7 are fixedly connected to the body 21, and the first sensors 7 are located at one side of the drying space 211 close to the first air blowing piece 2411. Of the two first sensors 7, one first sensor 7 is located at an entrance of the drying space 211, and the other first sensor 7 is located at a side of the first sensor 7 far from the entrance. When the mounting bracket 232 just slides into the drying space 211, and when the mounting bracket 232 slides until the distance between the first air blowing piece 2411 and the first sensor 7 is smaller than a certain value, the first sensor 7 can control the first air blowing piece 2411 to be opened for air blowing; after the mounting frame 232 slides into the drying space 211 for a certain distance, when the mounting frame 232 slides until the distance between the first air blowing piece 2411 and the other first sensor 7 is less than a certain value, the first sensor 7 can control the first air blowing piece 2411 to close and stop air blowing. In this embodiment, the connection between the first sensor 7 and the first blowing piece 2411 is the same as the common sensor principle, and therefore, the description thereof is omitted here.

Two second sensors 8 used for controlling the opening and closing of the third driving element 235 are further installed in the drying space 211 of the machine body 21, a fitting member 236 used for being matched with the second sensor 8 is installed at one end, close to the first blowing element 2411, of the installation frame 232, the second sensor 8 is also fixedly connected with the machine body 21, and the second sensor 8 is also located on one side, close to the fitting member 236, of the drying space 211. Of the two second sensors 8, one second sensor 8 is located at an outlet of the drying space 211, and the other second sensor 8 is located at a side of the second sensor 8 far from the outlet. After the mounting frame 232 slides into the drying space 211 for a certain distance, when the mounting frame 232 slides until the distance between the fitting member 236 and the second sensor 8 is smaller than a certain value, the second sensor 8 can control a plurality of third driving members 235 on the mounting frame 232 to open to drive the hand mold 6 to rotate; when the mounting frame 232 slides to be separated from the drying space 211, and when the mounting frame 232 slides to a position where the distance between the engaging member 236 and the second sensor 8 is less than a certain value, the second sensor 8 can control the third driving members 235 on the mounting frame 232 to close to stop the rotation of the hand mold 6. In this embodiment, the connection between the second sensor 8 and the fitting member 236 is the same, and therefore, the detailed description thereof is omitted.

Referring to fig. 2 and 3, the body 21 is further installed with a collection frame 9 for collecting excess glue materials in the drying space 211, the collection frame 9 is located below the mounting frame 232, and the collection frame 9 is fixed relative to the body 21. During the drying process of the rubber materials on the gloves, the redundant rubber materials can drop on the material collecting frame 9.

The implementation principle of the drying equipment in the embodiment of the application is as follows:

after the plurality of gloves are glued on the glue dipping equipment 1, the plurality of gloves are driven to move into the drying space 211 by the conveying device 23, at the moment, the second air blowing part 2421 blows heated air to the outer surface of the glue material, and the first air blowing part 2411 is started to dry and heat the inner surface of the glue material simultaneously after being induced by the first inductor 7; then, the mounting frame 232 moves continuously until the first air blowing piece 2411 is closed after being sensed by the other first sensor 7, and at this time, the inner layer of the glue material is dried and solidified; then, after the mounting frame 232 continues to move to the fitting member 236 to be sensed by the second sensor 8, the third driving member 235 is started to drive the hand model 6 to rotate, so that the drying effect of the gloves worn on the hand model 6 is uniform; then, the mounting frame 232 moves to the fitting member 236 to be sensed by the second sensor 8, the third driving member 235 is closed to stop the rotation of the hand mold 6, and at this time, the drying and solidification of the rubber materials on the gloves are completed, and then the gloves are transported to the cleaning apparatus 3 by the transporting device 23 to perform the next process.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (9)

1. The drying equipment is characterized by comprising a machine body (21), a heating element (22) for drying gloves, a conveying device (23) for conveying the gloves to move through and a blowing device (24) for promoting gas flow, wherein a drying space (211) for the gloves to pass through is formed in the machine body (21), the heating element (22) is arranged on the machine body (21), and one end of the heating element (22) is located in the drying space (211);

the conveying device (23) comprises a plurality of mounting frames (232) and a plurality of first driving pieces (233) for driving the mounting frames (232) to move through the drying space (211), and a plurality of hand moulds (6) are arranged on the mounting frames (232);

the blowing device (24) comprises a first blowing mechanism (241), the first blowing mechanism (241) comprises a first blowing piece (2411) and a first blowing pipe (2412), the first blowing piece (2411) is arranged on the mounting frame (232), a cavity is formed in the hand mould (6), the first blowing piece (2411) is communicated with the cavity through the first blowing pipe (2412), a plurality of vent holes (62) are further formed in the hand mould (6), and the vent holes (62) penetrate through the surface of the hand mould (6) and are communicated with the cavity.

2. The drying apparatus of claim 1, wherein the body (21) is provided with two first sensors (7) for controlling the opening and closing of the first blowing member (2411) in the drying space (211), and one first sensor (7) is located at the entrance of the drying space (211).

3. A drying apparatus according to claim 2, characterized in that said blowing means (24) further comprises a plurality of second blowing mechanisms (242), said second blowing mechanisms (242) comprise second blowing members (2421), a plurality of said second blowing members (2421) are all disposed on the body (21) and located in the drying space (211), and the blowing direction of said second blowing members (2421) is toward the hand former (6).

4. A drying apparatus according to claim 3, characterized in that a plurality of said second blowing mechanisms (242) are equally spaced along the transport direction of the transport device (23), and the blowing intensity of a plurality of said second blowing members (2421) is gradually increased along the transport direction of the transport device (23).

5. A drying apparatus according to claim 3, characterized in that the transport device (23) further comprises a second drive member (234) for driving the mounting frame (232) to rotate, the axis of rotation of the mounting frame (232) being horizontal and perpendicular to the direction of movement of the mounting frame (232).

6. A drying apparatus according to claim 5, characterized in that the hand former (6) is rotatably connected with the mounting frame (232), the rotation axis of the hand former (6) is perpendicular to the rotation axis of the mounting frame (232) and parallel to the length direction of the hand former (6), and the mounting frame (232) is further provided with a third driving member (235) for driving the hand former (6) to rotate.

7. A drying apparatus according to claim 6, characterized in that the body (21) is further provided with two second sensors (8) for controlling the opening and closing of the third driving member (235) in the drying space (211), one of the second sensors (8) is located at an exit position of the drying space (211), and the other of the second sensors (8) is located at a position close to the first sensor (7) in the drying space (211).

8. A drying apparatus according to claim 1, characterized in that the body (21) is further provided with a collecting frame (9) for collecting impurities in the drying space (211), the collecting frame (9) is fixedly connected with the body (21), and the position of the collecting frame (9) in the drying space (211) is lower than the hand mold (6).

9. A glove production line, characterized by comprising the drying device (2) according to any one of claims 1 to 8, and further comprising a dipping device (1), a cleaning device (3), a re-drying device (4) and a transport line (5), wherein the transport line (5) drives the gloves to sequentially pass through the dipping device (1), the drying device (2), the cleaning device (3) and the re-drying device (4).

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