CN112454785B - Automatic production line for glove production - Google Patents

Abstract

The invention relates to the technical field of glove production, in particular to an automatic production line for glove production. The glove rack is pushed into the right-angle transfer mechanism or pulled out of the right-angle transfer mechanism, so that the full utilization of a production field is realized, and the problems that the occupied space is large and a small production field cannot be produced when the traditional gloves are produced are solved; adopt to set up at positive and negative stoving mechanism and glove rack cooperation, realized through circular telegram track and circular telegram pulley contact, thereby make heat energy dry to gloves outside to by the gloves, after the glove rack is conveyed to the upset station, through taking off gloves from glove rack and hanging into the stoving hanger, circulation motor will hang in the gloves recycling that dries on the hanger sends into positive and negative stoving mechanism once more, carry out abundant stoving to gloves once more, it is longer to have solved traditional stoving mechanism production line, the problem that drying efficiency is not high.

Description

Automatic production line is used in gloves production

Technical Field

The invention relates to the technical field of glove production, in particular to an automatic production line for glove production.

Background

Gloves are in the production process, because the production line is longer, to the production place restriction more can't accomplish little factory building production, when gloves are dried moreover, often adopt outside gloves to dry, the production line is longer, just can reach ideal stoving effect, also great to the production place restriction, is unfavorable for the production of gloves, can't give full play to stoving effect in shorter production line, has caused the waste of heat energy.

Disclosure of Invention

The technical problem to be solved by the invention is to solve the technical defects, and an automatic production line for glove production is provided, wherein a right-angle transfer mechanism is matched with air cylinder groups on front and rear production lines, so that a glove frame is pushed into the right-angle transfer mechanism or pulled out of the right-angle transfer mechanism through the air cylinder groups on the front and rear production lines, the full utilization of a production field is realized, and the problems that the traditional glove cannot be produced in a smaller production field due to a larger occupied space during production are solved; adopt the stoving hanger that sets up in positive and negative stoving mechanism, the circulating motor, the upset station, circular telegram track and gloves frame cooperation, realized through circular telegram track and circular telegram pulley contact, thereby make the heater strip work on the gloves frame, thereby carry out inside to outside stoving to the gloves, and after heat energy discharge gloves, heat energy in positive and negative stoving mechanism can be preserved and continue to carry out inside to outside stoving to the gloves on the gloves frame, after the gloves frame is conveyed to the upset station, through taking off gloves from the gloves frame and hanging into the stoving hanger, the circulating motor circulates the gloves of hanging on the stoving hanger once more and sends into positive and negative stoving mechanism in, carry out abundant stoving to gloves once more, it is longer to have solved traditional stoving mechanism production line, the not high problem of drying efficiency.

In order to solve the technical problems, the technical scheme adopted by the invention is as follows: a separating feeding mechanism, a turnover glue dipping mechanism, a right-angle transfer mechanism and a positive and negative drying mechanism are sequentially arranged along the production line; the glove rack is connected to the production line in a sliding manner; the separating feeding structure is provided with two sets of cylinder groups; the cylinder group consists of a transverse cylinder and a longitudinal cylinder; the lower side of the transverse cylinder is connected with a rotating shaft at the telescopic end of the longitudinal cylinder; the telescopic end of the transverse cylinder is provided with a push-pull plate; the two sets of cylinder groups are sequentially arranged along the length direction of the separating feeding mechanism; the telescopic end of the transverse cylinder in the separating and feeding mechanism is arranged towards the overturning and glue dipping mechanism; a lifting motor, a turning frame and a dipping pool are arranged in the turning dipping mechanism; the lifting motor, the turnover frame and the glue dipping pool are sequentially arranged from top to bottom; the bottom of the right-angle transfer mechanism is provided with a transfer motor and a driving wheel; the lower side in the front and back drying mechanism is provided with an air cylinder group; the telescopic end of the cylinder group in the front and back drying mechanism faces the right-angle transfer mechanism; a turning station is arranged on one side, away from the right-angle transfer mechanism, of the positive and negative drying mechanism; two sets of drying hangers and circulating motors are symmetrically arranged on the inner upper side of the positive and negative drying mechanism; a power-on track is arranged in the positive and negative drying mechanism; the lower side of the glove rack is provided with an electrified pulley; a heating wire is arranged in each glove on the glove rack.

Further optimize this technical scheme, two sets of cylinder groups in separating the feed mechanism can be respectively with the gloves frame propelling movement to upset dipping glue mechanism or right angle transport mechanism in.

Further optimize this technical scheme, right angle transport mechanism's drive wheel passes through the transport motor drive and rotates.

Further optimize this technical scheme, the cylinder group in the positive and negative drying mechanism draws the gloves frame to in the positive and negative drying mechanism.

Further optimizing the technical scheme, when the glove rack slides into the forward and reverse drying mechanism, the electrified track is contacted with the electrified pulley; the heating wire in the glove frame is driven to work.

Compared with the prior art, the invention has the following advantages: 1. the right-angle transfer mechanism is matched with the cylinder groups on the front production line and the rear production line, the structure is favorable for ensuring that the glove rack is pushed into the right-angle transfer mechanism or pulled out of the right-angle transfer mechanism through the cylinder groups on the front production line and the rear production line, so that the production site is fully utilized; 2. the setting is at the stoving hanger in positive and negative stoving mechanism, the circulating motor, the upset station, circular telegram track and gloves frame cooperation, this structure is favorable has guaranteed through circular telegram track and circular telegram pulley contact, thereby make the heater strip work on the gloves frame, thereby carry out inside to outside stoving to the gloves, and after heat energy discharge gloves, heat energy in positive and negative stoving mechanism can be preserved and continue to carry out outside to inside stoving to the gloves on the gloves frame, after the gloves frame is conveyed to the upset station, through taking off gloves from the gloves frame and hanging into the stoving hanger, the circulating motor circulates the gloves that hang on the stoving hanger once more and sends into positive and negative stoving mechanism in, carry out abundant stoving to gloves once more.

Drawings

Fig. 1 is a schematic view of an overall structure of an automatic production line for glove production.

Fig. 2 is a schematic view of a cylinder block structure of an automatic production line for glove production.

Fig. 3 is a schematic structural view of an overturning and glue dipping mechanism of an automatic production line for glove production.

Fig. 4 is a schematic structural view of a right-angle transfer mechanism of an automatic production line for glove production.

Fig. 5 is a schematic view of a glove rack structure of an automatic production line for glove production.

FIG. 6 is a schematic side view of a front and back drying mechanism of an automatic production line for glove production.

FIG. 7 is a schematic view of the upper structure of the front and back drying mechanism of the automatic production line for glove production.

In the figure: 1. separating the feeding mechanism; 2. turning over the dipping mechanism; 3. a right-angle transfer mechanism; 4. a positive and negative drying mechanism; 5. a cylinder group; 6. a glove rack; 201. a lifting motor; 202. a roll-over stand; 203. a glue dipping pool; 301. a transfer motor; 302. a drive wheel; 401. drying the hanging tool; 402. a circulating motor; 403. turning over the station; 404. electrifying the track; 501. a transverse cylinder; 502. a longitudinal cylinder; 503. a push-pull plate; 601. the pulley is electrified.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings in conjunction with the following detailed description. It should be understood that the description is intended to be exemplary only, and is not intended to limit the scope of the present invention. Moreover, in the following description, descriptions of well-known structures and techniques are omitted so as to not unnecessarily obscure the concepts of the present invention.

The specific implementation mode is as follows: with reference to fig. 1-7, a separating feeding mechanism 1, a turnover glue dipping mechanism 2, a right-angle transfer mechanism 3 and a positive and negative drying mechanism 4 are sequentially arranged along the production line; the production line is connected with a glove rack 6 in a sliding manner; the separating feeding structure is provided with two sets of cylinder groups 5; the cylinder group 5 consists of a transverse cylinder 501 and a longitudinal cylinder 502; the lower side of the transverse cylinder 501 is connected with a rotating shaft at the telescopic end of the longitudinal cylinder 502; a push-pull plate 503 is arranged at the telescopic end of the transverse cylinder 501; the two sets of cylinder groups 5 are sequentially arranged along the length direction of the separated feeding mechanism 1; the telescopic end of the transverse cylinder 501 in the separating feeding mechanism 1 is arranged towards the overturning glue dipping mechanism 2; a lifting motor 201, a turnover frame 202 and a glue dipping pool 203 are arranged in the turnover glue dipping mechanism 2; the lifting motor 201, the turnover frame 202 and the glue dipping pool 203 are arranged in sequence from top to bottom; the bottom of the right-angle transfer mechanism 3 is provided with a transfer motor 301 and a driving wheel 302; the lower side in the front and back drying mechanism 4 is provided with a cylinder group 5; the telescopic end of the cylinder group 5 in the forward and reverse drying mechanism 4 is arranged towards the right-angle transfer mechanism 3; a turning station is arranged on one side of the forward and backward drying mechanism 4, which is far away from the right-angle transfer mechanism 3; two sets of drying hangers 401 and circulating motors 402 are symmetrically arranged on the inner upper side of the forward and reverse drying mechanism 4; an electrifying track 404 is arranged in the forward and reverse drying mechanism 4; an electrifying pulley 601 is arranged on the lower side of the glove frame 6; a heating wire is arranged in each glove on the glove rack 6; the two sets of cylinder groups 5 in the separating feeding mechanism 1 can respectively push the glove rack 6 into the overturning dipping mechanism 2 or the right-angle transfer mechanism 3; the driving wheel 302 of the right-angle transfer mechanism 3 is driven to rotate by a transfer motor 301; the driving wheel 302 of the right-angle transfer mechanism 3 is driven to rotate by a transfer motor 301; the air cylinder 5 in the front and back drying mechanism 4 pulls the glove rack 6 into the front and back drying mechanism 4; when the glove rack 6 slides into the forward and reverse drying mechanism 4, the electrified track 404 is contacted with the electrified pulley 601; the heating wire in the glove frame 6 is driven to work.

When in use, the utility model is used,

step one, as shown in fig. 1 to 7, the operation of the cylinder bank 5 is as follows: the telescopic end of the transverse cylinder 501 is pushed upwards by the action of the longitudinal cylinder 502 in the cylinder group 5, and then the push-pull plate 503 of the telescopic end of the transverse cylinder 501 is contacted with the glove frame 6, so that the glove frame 6 can be pushed;

step two, as shown in fig. 1-7, separating the cylinder group 5 far away from the right-angle transfer mechanism 3 in the feeding mechanism 1, and pushing the glove rack 6 to the overturning and glue dipping mechanism 2 by the action of the step one;

step three, as shown in fig. 1-7, when the glove rack 6 is located in the overturning and glue dipping mechanism 2, the glove rack 6 is driven to overturn by the overturning frame 202, and then the whole overturning frame 202 is driven to descend by the lifting motor 201, so that the gloves on the glove rack 6 can finish the glue dipping operation in the glue dipping tank 203, after the glue dipping operation is finished, the lifting motor 201 drives the whole overturning frame 202 to ascend, and the overturning frame 202 drives the glove rack 6 to overturn and reset;

step four, as shown in fig. 1-7, the cylinder group 5 in the separating feeding mechanism 1, which is close to the right-angle transfer mechanism 3, acts according to the step one, so that the glove rack 6 can be pushed to the right-angle transfer mechanism 3 by the overturning glue dipping mechanism 2;

step five, as shown in fig. 1-7, when the glove rack 6 is positioned in the right-angle transfer mechanism 3, the transfer motor 301 drives the driving wheel 302 to rotate, so that the whole support leg transfer mechanism acts, the glove rack 6 is driven to move along the direction vertical to the front assembly line, the length of the whole assembly line is shortened, and the production space of a factory is fully utilized;

sixthly, as shown in the combined drawings of fig. 1-7, after the right-angle transfer mechanism 3 transfers the glove knitting machine to one side of the front-back drying mechanism 4, the cylinder group 5 in the front-back drying mechanism 4 acts in the reverse direction of the first step, and the glove rack 6 can be pulled into the front-back drying mechanism 4 from the right-angle transfer mechanism 3;

step seven, as shown in fig. 1 to 7, when the glove rack 6 enters the forward and reverse drying mechanism 4, the electrifying pulley 601 at the lower side of the glove rack 6 contacts with the electrifying track 404 in the forward and reverse drying mechanism 4, so that the electric heating wire arranged on the glove rack 6 is heated; thereby the realization is by the process of inside outside heating of gloves, and after the heat energy outwards diffused along gloves in the gloves, because hot-air still in positive and negative stoving mechanism 4, realized promptly that hot-air stays the effect that the gloves outside was dried once more, when gloves frame 6 got into upset station 403, the staff took off the gloves from gloves frame 6 and hangs and put on stoving hanger 401, the action of circulating motor 402 drove the gloves on the stoving hanger 401 and get back to in positive and negative stoving mechanism 4 once more, thereby realized the third and dried the operation to gloves, promoted positive and negative stoving mechanism 4's heat energy utilization efficiency greatly, the stoving effect of gloves has also been guaranteed.

The control mode of the invention is automatically controlled by the controller, the control circuit of the controller can be realized by simple programming of a person skilled in the art, the invention belongs to the common knowledge in the field, and the invention is mainly used for protecting the mechanical arrangement, so the control mode and the circuit connection are not explained in detail in the invention.

It is to be understood that the above-described embodiments of the present invention are merely illustrative of or explaining the principles of the invention and are not to be construed as limiting the invention. Therefore, any modification, equivalent replacement, improvement and the like made without departing from the spirit and scope of the present invention should be included in the protection scope of the present invention. Further, it is intended that the appended claims cover all such variations and modifications as fall within the scope and boundaries of the appended claims or the equivalents of such scope and boundaries.

Claims (3)

1. The utility model provides an automation line is used in gloves production which characterized in that: a separating feeding mechanism (1), a turnover glue dipping mechanism (2), a right-angle transfer mechanism (3) and a positive and negative drying mechanism (4) are sequentially arranged along the production line; the production line is connected with a glove rack (6) in a sliding manner; the separated feeding structure is provided with two sets of cylinder groups (5); the cylinder group (5) consists of a transverse cylinder (501) and a longitudinal cylinder (502); the lower side of the transverse cylinder (501) is connected with a rotating shaft of a telescopic end of the longitudinal cylinder (502); a push-pull plate (503) is arranged at the telescopic end of the transverse cylinder (501); the two sets of cylinder groups (5) are sequentially arranged along the length direction of the separated feeding mechanism (1); the telescopic end of a transverse cylinder (501) in the separating feeding mechanism (1) is arranged towards the overturning dipping mechanism (2); a lifting motor (201), a turnover frame (202) and a glue dipping pool (203) are arranged in the turnover glue dipping mechanism (2); the lifting motor (201), the turnover frame (202) and the glue dipping pool (203) are arranged in sequence from top to bottom; the bottom of the right-angle transfer mechanism (3) is provided with a transfer motor (301) and a driving wheel (302); a cylinder group (5) is arranged at the inner lower side of the front and back drying mechanism (4); the telescopic end of the cylinder group (5) in the positive and negative drying mechanism (4) faces the right-angle transfer mechanism (3); a turnover station (403) is arranged on one side, away from the right-angle transfer mechanism (3), of the forward and reverse drying mechanism (4); two sets of drying hangers (401) and circulating motors (402) are symmetrically arranged on the inner upper side of the forward and reverse drying mechanism (4); an electrifying track (404) is arranged in the forward and reverse drying mechanism (4); an electrified pulley (601) is arranged on the lower side of the glove frame (6); a heating wire is arranged in each glove on the glove rack (6); the two sets of cylinder groups (5) in the separating feeding mechanism (1) can respectively push the glove rack (6) into the overturning glue dipping mechanism (2) or the right-angle transfer mechanism (3); when the glove rack (6) slides into the forward and reverse drying mechanism (4), the electrified track (404) is contacted with the electrified pulley (601); the heating wire in the glove rack (6) is driven to work.

2. The automatic production line for glove production according to claim 1, characterized in that: and a driving wheel (302) of the right-angle transfer mechanism (3) is driven to rotate by a transfer motor (301).

3. The automatic production line for glove production according to claim 1, characterized in that: the air cylinder group (5) in the positive and negative drying mechanism (4) pulls the glove rack (6) into the positive and negative drying mechanism (4).

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