CN219855614U - Glove gum dipping equipment - Google Patents

Abstract

The utility model relates to the technical field of glove manufacturing, in particular to glove gum dipping equipment. The sprocket group guides the hand mould at the upstream of the gum dipping sprocket to contact the liquid level in the lifting gum pool in the lifting state at a preset gum entering angle; the gum dipping chain wheel guides the hand mould corresponding to the chain plate meshed with the gum dipping chain wheel in the chain to be separated from the liquid level in the lifting gum pool in a descending state by a preset gum discharging angle without gum dripping. Through the cooperation of liftable glue pond and sprocket group, the hand mould both march forward, changes into palm tilt state again, realizes when separating with the liquid level in the liftable glue pond of decline state that surface tension peels off the film-forming, does not need special glue dropping, does not need rotatory homogenate. In addition, the equipment structure is simpler, can reduce the gluey pond size, reduces the glue solution deposit, and then reduction in production cost.

Description

Glove gum dipping equipment

Technical Field

The utility model relates to the technical field of glove manufacturing, in particular to glove gum dipping equipment.

Background

The glove is divided into a full-dipped glove and a half-dipped glove. The fully impregnated glove is prepared by impregnating the palm and the back of the hand to the wrist. The semi-impregnated glove is impregnated by palm, and the back of the hand is not impregnated to be breathable.

The hand mould mounting modes of the full-impregnated glove and the half-impregnated glove are completely different in production. The hand mould of the full-impregnated glove is in a suspension state that fingertips face to the right lower side at the impregnation station, so that the palm and the back of the hand can be immersed into the glue pool, meanwhile, the conveying chain on the production line of the full-impregnated glove is single, and the hand mould is suspended at intervals along the extending direction of the conveying chain. The hand mould of half gum dipping gloves is the palm state down at the gum dipping station, and then the palm is immersed in the liquid level in the gum dipping pond in the back of the hand deviating from the gum dipping pond, simultaneously, the production line of half gum dipping gloves includes two spaced chains, two with two chain sprocket groups of chain one-to-one meshing in order to guide two chain synchronous motion, connect the hand mould pole between two chain, hang in at least one hand mould on the hand mould pole, the hand mould orientation is that the palm is outwards and the back of the hand is inwards (just the palm is downwards and the back of the hand is upwards when moving to the gum dipping station).

In the conventional gum dipping process of the semi-gum dipping glove, a lot of gum is taken away when the glove is separated from the gum solution due to the large palm area of the glove, so that the conventional gum dipping step is required to be followed by the gum dipping and gum homogenizing steps. In this regard, the chinese patent application No. CN113427689a discloses that a guide member is provided on the frame to guide the chain, so that the hand mold gradually leaves the dipping box with a constant height in a laterally inclined arrangement manner, and a proper amount of glue solution is left on the glove by using the surface tension of the glue solution, without performing a glue dropping operation. Although CN113427689a implements omitting the step of glue dripping, it requires a larger production space to set the guide member, and the glove has a longer glue entering path and a longer glue exiting path, requiring a longer glue dipping tank, more glue storage, and higher production cost.

Disclosure of Invention

First, the technical problem to be solved

In view of the above-mentioned shortcomings and drawbacks of the prior art, the present utility model provides a glove dipping apparatus which can dispense with the steps of dispensing and homogenizing, has a simple structure, and can reduce the size of a glue pool and thus reduce the production cost.

(II) technical scheme

In order to solve the above problems, the present utility model provides a glove dipping device, comprising two spaced chains, two sprocket sets engaged with the two chains in a one-to-one correspondence to guide the two chains to move synchronously, a hand mold rod connected between the two chains, and at least one hand mold suspended on the hand mold rod, wherein the hand mold is oriented with the palm facing outwards and the back facing inwards; the device is characterized by further comprising a liftable glue pool, wherein the chain wheel group comprises a glue dipping chain wheel positioned above the liftable glue pool; the hand mould rod, the hand mould on the hand mould rod and the chain plate on the chain connected with the hand mould rod are fixedly arranged in relative positions and orientations; the sprocket set guides a hand die positioned at the upstream of the gum dipping sprocket to contact the liquid level in the lifting gum pool in a lifting state at a preset gum entering angle; the hand mould corresponding to the chain plate meshed with the gum dipping chain wheel in the chain is guided by the gum dipping chain wheel, and the finger tip is turned downwards while moving upwards along with the upward turning movement of the chain plate, so that the gum dipping chain wheel is separated from the liquid level in the lifting gum pool in a descending state by a preset gum discharging angle without gum dripping.

According to the utility model, the preset glue outlet angle is in the range of 20 ° to 70 °.

According to the utility model, the sprocket set guides the chain apart from the impregnated sprocket at the outer end point of the impregnated sprocket.

According to the utility model, two ends of the hand mould rod are fixed with the chain through the connecting plate; the connecting plate is provided with two fixing positions which are fixed with two adjacent rotating positions of the chain; the connecting plate is connected with the hand mould rod to the middle line between the fingertips of the hand mould and is positioned in the middle between the two fixing positions.

According to the utility model, the connecting plate is bent, and the position of the connecting plate connected with the hand mould rod is positioned inwards relative to the fixed position.

According to the utility model, the rotation position of the chain is a hollow pin shaft; the fixing position of the connecting plate is a through hole; the hollow pin shaft and the through hole are correspondingly penetrated with a bolt; the bolt and a nut are screwed together to clamp the connecting plate and the chain plate of the chain.

According to the utility model, the preset glue-in angle is in the range of-5 DEG to 40 deg.

According to the utility model, the sprocket set guides the chain to start to mesh with the impregnated sprocket at the lowest point of the impregnated sprocket, and the preset impregnation angle is 0 °.

According to the utility model, the number of teeth of the impregnated sprocket is in the range of 17-70 and the pitch of the impregnated sprocket is in the range of 38.1-100 mm.

According to the utility model, the glove dipping device is a glove dipping device for half dipping gloves, and at least two hand dies are hung on each hand die rod at intervals along the extending direction of the hand die rod; the arrangement direction of the wrist part and the finger part of the hand mould is the direction from downstream to upstream along the moving direction of the chain; the sprocket set guides a hand die positioned at the upstream of the gum dipping sprocket, and the orientation of the hand die and the finger tip positioned at the joint of the hand die and the hand die rod in the upstream direction is a preset gum entering angle; the gum dipping chain wheel guides the hand mould corresponding to the chain plate meshed with the gum dipping chain wheel in the chain, and the gum discharging angle is preset by the orientation that the palm faces downwards and the fingertips are positioned at the upstream direction of the joint of the hand mould and the hand mould rod. The sprocket set further comprises an upstream sprocket upstream of the dipping sprocket, a downstream sprocket downstream of the dipping sprocket, the positions of the upstream sprocket and the dipping sprocket determining the orientation of the hand pattern in the chain upstream of the dipping sprocket, and the positions of the downstream sprocket and the dipping sprocket determining the orientation of the hand pattern in the chain downstream of the dipping sprocket.

(III) beneficial effects

According to the glove dipping equipment, through the cooperation of the liftable glue pool and the chain wheel group comprising the single dipping chain wheel above the liftable glue pool, the hand mould can move forwards and has an angle change to form a palm inclined state, and can be separated from the liquid level in the liftable glue pool in a descending state by a preset glue outlet angle without glue dripping, so that the surface tension stripping film formation is perfectly realized in the dipping process, and a glove dipping layer with good uniformity and smooth surface is formed; the equipment support is provided for the gum dipping process without vibration, special gum dropping and rotary homogenization. In addition, use liftable to glue the pond and just with a gum dipping sprocket cooperation liftable glue the pond department and realize guiding the hand mould from going into gluey to go out gluey, equipment structure is simpler, can reduce gluey pond size, reduces the glue solution deposit, and then reduction in production cost.

Drawings

Fig. 1 is a schematic front view of a glove dipping apparatus according to the first embodiment;

FIG. 2 is a schematic perspective view of the glove dipping apparatus of FIG. 1, showing principally a dipping sprocket, hand form bar, chain, liftable gum pool;

fig. 3 to 9 are schematic diagrams of operation of the glove dipping apparatus of fig. 1 when dipping the glove, wherein a hand pattern located at the lower side of the dipping sprocket in fig. 4 is a target dipping hand pattern, and is being dipped at a preset dipping angle; FIG. 3 shows the state of the target gum dipping hand mold before gum dipping; FIG. 5 is a view of the target impregnation hand die at maximum impregnation depth; fig. 5 to 8 show the glue discharging process of the target glue dipping hand mold; FIG. 8 is a view of the target gum dipping hand mold dispensing at a predetermined dispensing angle; FIG. 9 shows the target gumming hand die separated from the liquid level of the liftable gum pool;

fig. 10 is a schematic view of a partial structure of a glove dipping apparatus according to the second embodiment, which mainly shows a connection structure of a hand mold bar with a chain through a connection plate;

fig. 11 is a schematic view of the structure of the hand mold bar and the connection plate of the glove dipping apparatus of fig. 10.

Reference numerals:

1. a frame; 2. a liftable glue pool; 3. a chain; 4. hand mould; 4': a target gum dipping hand mold; 5: a hand mold rod; 6. a gumming chain wheel, 7, a connecting plate; 8. a hollow pin shaft; A. fixing the position.

Detailed Description

The utility model will be better explained by the following detailed description of the embodiments with reference to the drawings.

Example 1

Referring to fig. 1 to 9, the present embodiment provides a glove dipping apparatus suitable for semi-dipped gloves. The glove dipping equipment comprises a hand mould conveying mechanism and a liftable glue pool 2.

The hand mould conveying mechanism comprises a frame 1, two spaced chains 3, two chain wheel groups, a plurality of hand mould rods 5 and a plurality of hand moulds 4, glove blanks to be processed are sleeved on the hand moulds 4, and the hand moulds 4 are equal to the glove blanks on the hand moulds, namely, the hand moulds 4 are glued, the hand moulds are glued and the hand moulds are glued.

Specifically, two sprocket sets are arranged in one-to-one correspondence with two chains 3, and each chain 3 is meshed with the corresponding sprocket set to obtain supporting and walking power. The sprockets of the two sprocket sets are symmetrically arranged to guide the two chains 3 to move in synchronization, and when the sprocket arrangement is described in detail below, only the sprocket of one set is described, but the same applies to the other set. The chain wheels in the chain wheel group are rotatably supported on the frame 1. A plurality of hand mold rods 5 are connected between the two chains 3, and the hand mold rods 5 are generally arranged perpendicular to the chains 3. At least one hand die 4 is suspended on each hand die bar 5 (at least two hand dies 4 are arranged at regular intervals in the extending direction of the hand die bar 5 to improve the production efficiency), and the arrangement direction of the wrist portions and the finger portions of the hand dies 4 is the direction from downstream to upstream in the moving direction of the chain 3, i.e., the wrist portions of the hand dies 4 are located on the downstream side with respect to the finger portions; the hand mould 4 is oriented with the palm facing outwards and the back facing inwards, wherein the term "outer" and "inner" as used herein refers to the area divided by the chain 3, and the side of the device for processing the glove blanks on the hand mould 4, such as the liftable glue pond 2, is the "outer" and the opposite "inner". Meanwhile, the hand mold rod 5, the hand mold 4 on the hand mold rod 5 and the chain plate on the chain 3 connected with the hand mold rod 5 are fixed in relative positions and orientations, namely, the orientations of the chain plates determine the orientations of the hand mold rod 5, the orientations of the hand mold rod 5 determine the orientations of the hand mold 4 on the hand mold rod, the orientations of the chain plates are changed, and the orientations of the hand mold rod 5 and the hand mold 4 are also changed in the same direction and the same amount.

Specifically, the sprocket group includes, in the traveling direction of the chain 3, a dipping sprocket 6 located above the liftable vat 2, an upstream sprocket (not shown in the figure) located upstream of the dipping sprocket 6, and a downstream sprocket (not shown in the figure) located downstream of the dipping sprocket 6 in this order. It will be appreciated that the two impregnated sprockets 6 of the two sprocket sets are symmetrically arranged with the axis coincident, the two upstream sprockets of the two sprocket sets are symmetrically arranged with the axis coincident, and the two downstream sprockets of the two sprocket sets are symmetrically arranged with the axis coincident.

The positions of the upstream sprocket and the impregnation sprocket 6 determine the orientation of the link plates in the chain 3 upstream of the impregnation sprocket 6 and thus the orientation of the hand mold bars 5 and the hand molds 4 upstream of the impregnation sprocket 6. In the present embodiment, the upstream sprocket and the dipping sprocket 6 guide the hand die 4 located upstream of the dipping sprocket 6 to contact the liquid surface in the liftable glue pool 2 in the lifted state at a preset glue-in angle by guiding the orientation of the link plate located upstream of the dipping sprocket 6 in the chain 3. The upstream sprocket and the dipping sprocket 6 guide the hand mold 4 located upstream of the dipping sprocket 6, and the orientation of the palm downward and the upstream direction of the joint of the hand mold 4 and the hand mold rod is a preset glue inlet angle, that is, when the hand mold 4 contacts with the liquid level, the palm downward and the fingertip of the hand mold 4 are located in the upstream direction of the joint of the hand mold 4 and the hand mold rod. The positions of the downstream sprocket and the impregnation sprocket 6 determine the orientation of the link plates in the chain 3 downstream of the impregnation sprocket 6 and thus the orientation of the hand mold bars 5 and hand molds 4 downstream of the impregnation sprocket 6. In the present embodiment, the downstream sprocket is located above the dipping sprocket 6, and the downstream sprocket and the dipping sprocket 6 guide the chain 3 to be separated from the dipping sprocket 6 at the outer end point of the dipping sprocket 6 by guiding the orientation of the link plate located downstream of the dipping sprocket 6 in the chain 3 so that the link plate away from the dipping sprocket 6 moves upward in a vertical orientation.

In this embodiment, the chain 3 is meshed with the impregnation sprocket 6 at about 1/4 circumference of the outer lower portion of the impregnation sprocket 6. The chain plate meshed with the dipping chain wheel 6 is determined by the dipping chain wheel 6, namely the dipping chain wheel 6 guides the chain plate meshed with the chain 3 to move along the peripheral track thereof, in particular the chain plate moves outwards from the lower part of the dipping chain wheel 6 to form upward turning movement, the hand mould 4 corresponding to the section of the meshed chain plate moves upwards along with the upward turning movement, and meanwhile, the finger tip rotates downwards to turn, so that the glue is separated from the liquid level in the lifting glue pool 2 in a descending state at a preset glue outlet angle without glue dripping. The impregnation sprocket 6 guides the hand mold 4 corresponding to the chain plate meshed with the impregnation sprocket in the chain 3, and the orientation of the hand mold 4 in the upstream direction of the joint of the hand mold 4 and the hand mold rod is a preset glue outlet angle, that is, when the hand mold 4 is separated from the liquid level, the hand mold 4 is downward and the fingertip is in the upstream direction of the joint of the hand mold 4 and the hand mold rod.

Based on the above structure, the present embodiment has the following main advantages:

(1) Through the cooperation setting of liftable glue pond 2 and the sprocket group that includes the single gum dipping sprocket 6 that is located liftable glue pond 2 top, hand mould 4 can both advance, has the angle variation and forms the palm tilt state again, can separate with the liquid level in the liftable glue pond 2 of the presupposed play glue angle of not dripping and the decline state, make the perfect realization surface tension of gum dipping process peel off the film formation, for do not need vibrations, do not need special glue dripping, do not need the gum dipping technology of rotatory homogenate to provide equipment support.

(2) The glove mold 4 is stripped to form a film through surface tension, meanwhile, the generation of bubbles is reduced, a glove dipping layer with good uniformity and smooth surface is formed, and the product quality and the film forming quality are improved.

(3) The glue discharging posture of the hand mould 4 is adjusted through the peripheral shape of only one glue dipping chain wheel 6, and the structure is simple and the precision is high.

(4) The lifting glue pool 2 is used, and the lifting glue pool 2 is only provided with one glue dipping chain wheel 6 to be matched with the lifting glue pool 2, so that the hand mold 4 is guided to glue from glue inlet to glue outlet, the equipment structure is simpler, the glue inlet stroke and the glue outlet stroke are reduced through the opposite movement and opposite movement of the lifting glue pool and the chain plate, the size of the glue pool can be reduced by at least one third, the glue adding amount is reduced by more than 30% at one time, and the production cost is further reduced.

(5) Only one gum dipping chain wheel 6 is used for replacing the whole guiding component in sliding contact with the chain 3 in the prior art, so that equipment maintenance expenditure caused by bidirectional abrasion of the chain 3 and the guiding component is avoided, and maintenance cost and production cost are reduced; and further reduces the power loss of the chain drive motor, and effectively saves energy.

(6) The glove gum dipping equipment of the embodiment does not need to be provided with an external rotating mechanism and an external moving mechanism for gum dipping, and is favorable for realizing airtight production, thereby realizing centralized collection of certain gases generated in the production process, improving the environmental protection treatment effect and saving a large amount of environmental protection treatment cost.

(7) The movement of the chain 3 is not stopped during gum dipping, which is beneficial to continuous production and improves the production efficiency.

Further, in the present embodiment, both ends of the hand mold bar 5 are fixed to the chain 3 through the connection plates 7. The connecting plate 7 is a straight plate with two fixing locations a fixed with adjacent two rotational locations of the chain 3. Specifically, in this embodiment, two adjacent rotation positions of the chain 3 are two hollow pins 8 connected to two ends of a link plate, and two fixing positions a of the connecting plate 7 are two through holes formed in the connecting plate. The two hollow pin shafts 8 and the two through holes are correspondingly arranged, a bolt is penetrated in the corresponding hollow pin shaft 8 and the through hole, and the bolt and a nut are screwed together to clamp the connecting plate 7 and the chain plate of the chain 3. Therefore, the chain plate rotates, the connecting plate 7 rotates, the hand mold rod 5 rotates, and the hand mold 4 rotates, so that the relative positions and the directional fixed arrangement of the hand mold rod 5, the hand mold 4 on the hand mold rod 5 and the chain plate on the chain 3 connected with the hand mold rod 5 are realized.

Of course, the mode of fixing the relative positions and orientations of the hand mold bar 5, the hand mold 4 on the hand mold bar 5, and the link plate on the chain 3 to which the hand mold bar 5 is connected is not limited to the above-described structure, and any mode is possible to fix the hand mold bar 5 and the chain 3.

In the present embodiment, the connection point of the connection plate 7 with the hand die bar 5 is located in the middle between the two fixing positions a to the center line between the fingertips of the hand die 4 (center line of the connection line along the extending direction of the chain 3). Thereby, space can be saved, more hand mold rods 5 are hung on the chain 3, and production efficiency is improved.

While the angle between the hand mould 4 and the chain 3 is preferably parallel, i.e. the palm surface of the hand mould 4 is parallel to the direction of extension of the chain 3 (allowing for reasonable mounting errors). Therefore, the design of the preset glue inlet angle, the preset glue outlet angle and the positions and the movements of related parts are simpler and more convenient.

In this embodiment, the upstream sprocket and the impregnation sprocket 6 guide the chain 3 to start to mesh with the impregnation sprocket 6 at the lowest point of the impregnation sprocket 6, that is, guide the link plate between the two to be horizontally oriented, and the hand mold 4 is parallel to the chain 3, so that the preset glue inlet angle is 0 °, that is, the fingertip is horizontally oriented in the upstream direction.

Of course, the utility model is not limited thereto, and the angle between the hand mould 4 and the chain 3 may not be parallel, but have a fixed non-zero included angle; the link plates between the upstream sprocket and the impregnation sprocket 6 may also not be oriented horizontally, but rather inclined at an angle according to the impregnation zone requirements of the hand mould 4.

The angle between the hand mould 4 and the chain 3 and the angle of the chain link between the upstream sprocket and the dipping sprocket 6 together determine a preset glue-in angle, which is the angle between the palm of the hand mould 4 and the horizontal direction, preferably the preset glue-in angle is in the range of-5 ° to 40 ° (the preset glue-in angle is 0 °) wherein the finger is positive downwards relative to the horizontal direction and the finger is negative upwards relative to the horizontal direction.

In the present embodiment, the size of the impregnated sprocket 6 determines the angular velocity of the link plate engaged therewith and thus the angular velocity of the hand mold 4. Preferably, the number of teeth of the dipping sprocket 6 is in the range of 17-70, and the pitch of the dipping sprocket 6 is in the range of 38.1-100 mm, so as to prevent the angle change from being too fast when the hand mold 4 is out of glue, and the dipping quality from being reduced.

In this embodiment, the preset glue angle is in the range of 20 ° to 90 °. Wherein, the preset glue outlet angle is the included angle between the palm of the hand mould 4 and the horizontal direction, and the positive value of the angle indicates that the fingertip is downward. The preset glue outlet angle is more than or equal to 20 degrees, so that no glue dripping can be well realized. However, if the preset glue outlet angle is larger, the soaking time in the glue pool is longer, namely the running time in the glue pool is longer, and the required glue pool size is larger. Therefore, the preset glue outlet angle is preferably in the range of 20 ° to 80 °, more preferably in the range of 20 ° to 70 °, to further reduce the size of the glue pool on the basis of realizing no glue dripping.

In this embodiment, the liftable glue pond 2 includes support and gluey pond body, glues the pond body and passes through elevation structure support on the support, and actuating mechanism drive glues the pond body and goes up and down along the support. The specific driving mechanism can be an oil cylinder, an air cylinder, a chain sprocket, a rack gear and the like, the lifting structure can be a sliding rail and sliding block structure and the like, and common structures in the prior art are adopted, so that repeated description is omitted.

In summary, the glove gum dipping equipment of the embodiment has the following use process:

from fig. 3 to 4, the chain 3 moves from the upstream to the downstream direction, the upstream sprocket and the dipping sprocket 6 guide the current dipping hand die 4' located upstream of the dipping sprocket 6 to contact the liquid surface in the lifting glue pool 2 in the lifted state at a preset glue-in angle.

From fig. 4 to 5, the current impregnation die 4' is kept at the preset impregnation angle in the glue solution until the current impregnation die 4' moves to the lowest point of the impregnation sprocket 6 (in the position of fig. 5), the current impregnation die 4' being at the maximum impregnation depth.

From the process of fig. 5 to 8, the current dipping hand mold 4 'starts to move upwards and rotates with the fingertip downwards at a constant speed, and preferably the liftable glue pool 2 is lowered at this time, and the current dipping hand mold 4' is separated from the liquid level in the liftable glue pool 2 in the lowered state by a preset glue outlet angle without glue dripping (see fig. 8);

from fig. 8 to 9, the current gumming hand setting 4' continues to move upwards.

Finally, the current gumming hand die 4' is separated from the gumming sprocket 6 and continues to travel downstream.

With the adoption of the gum dipping equipment, in the gum dipping process, the hand mold 4 always faces the bottom of the liftable gum pool 2 on one side of the palm, so that the production requirements of semi-gum dipping gloves are met, and the palm is dipped; according to the production requirement, the lifting height of the liquid level of the liftable glue pool 2 is controlled to carry out glue dipping on the finger part; the back of hand is not impregnated with glue. That is, the degree of impregnation on the palm side of the hand mold 4 is different from the degree of impregnation on the back side.

Example two

Referring to fig. 10 and 11, in this embodiment, instead of the connecting plate 7 of the first embodiment, the connecting plate 7 of this embodiment is bent, and the position where it is connected to the hand mold bar 5 is located inward with respect to the fixed position a. Specifically, the connecting plate 7 has a fixing plate of the hand mold bar 5 and a fixing plate of the chain 3 at an angle. The fixing position A is arranged on a fixing plate of the chain 3, and the fixing plate of the chain 3 is parallel to the extending direction of the chain 3. The fixing plate of the hand mould rod 5 is bent inwards relative to the fixing plate of the chain 3, and the fixing plate of the hand mould 4 is fixed with the hand mould rod 5 through bolts. So set up, can further practice thrift the space, set up more hand mould poles 5, improve production efficiency.

In addition to the structure of the connection plates 7 of the first and second embodiments, a bent plate chain may be employed.

It should be understood that the above description of the specific examples is for illustrative purposes only and is not intended to limit the scope of the present utility model to the particular embodiments described, since it is intended that all such embodiments be considered as obvious and can be practiced by those skilled in the art. All changes or modifications that come within the scope of the appended claims are intended to be embraced therein.

Claims (10)

1. The glove dipping equipment comprises two spaced chains (3), two chain wheel sets which are meshed with the two chains (3) in a one-to-one correspondence manner to guide the two chains (3) to move synchronously, a hand mould rod (5) connected between the two chains (3), and at least one hand mould (4) hung on the hand mould rod (5), wherein the hand mould (4) is oriented with the palm facing outwards and the back facing inwards; the machine is characterized by further comprising a liftable glue pool (2), wherein the chain wheel group comprises a glue dipping chain wheel (6) positioned above the liftable glue pool (2);

the hand mold rod (5), the hand mold (4) on the hand mold rod (5) and the chain plate on the chain (3) connected with the hand mold rod (5) are fixed in relative positions and orientations;

the sprocket group guides a hand die (4) positioned at the upstream of the gum dipping sprocket (6) to contact the liquid level in the lifting gum pool (2) in a lifting state at a preset gum entering angle;

the gum dipping chain wheel (6) guides a hand mould (4) corresponding to a chain plate meshed with the hand mould in the chain (3) to move along with the upward turning of the chain plate, and simultaneously turns to rotate the finger tip downwards while moving upwards, so that the preset gum outlet angle without gum dripping is separated from the liquid level in the liftable gum pool (2) in a descending state.

2. The glove dipping apparatus according to claim 1, wherein,

the preset glue outlet angle is in the range of 20-70 degrees.

3. The glove dipping apparatus according to claim 1, wherein,

the sprocket set guides the chain (3) to be separated from the impregnated sprocket (6) at an outer end point of the impregnated sprocket (6).

4. The glove dipping apparatus according to claim 1, wherein,

the two ends of the hand mould rod (5) are fixed with the chain (3) through connecting plates (7);

the connecting plate (7) is provided with two fixing positions (A) which are fixed with two adjacent rotating positions of the chain (3);

the connecting plate (7) is positioned between the connecting part of the hand mould rod (5) and the middle line between the fingertips of the hand mould (4) and is positioned in the middle part between the two fixing positions (A).

5. The glove dipping apparatus according to claim 4, wherein,

the connecting plate (7) is bent, and the connecting position of the connecting plate and the hand mould rod (5) is located inwards relative to the fixing position (A).

6. The glove dipping apparatus according to claim 4, wherein,

the rotation position of the chain (3) is a hollow pin shaft (8);

the fixing position (A) of the connecting plate (7) is a through hole;

the hollow pin shaft (8) and the through hole are correspondingly penetrated with a bolt;

the bolt and a nut are screwed together to clamp the connecting plate (7) and the chain plate of the chain (3).

7. The glove dipping apparatus according to claim 1, wherein,

the preset glue inlet angle is within the range of-5 degrees to 40 degrees.

8. The glove dipping apparatus according to claim 7, wherein,

the chain wheel group guides the chain (3) to start to be meshed with the gum dipping chain wheel (6) at the lowest point of the gum dipping chain wheel (6), and the preset gum entering angle is 0 degrees.

9. The glove dipping apparatus according to claim 1, wherein,

the number of teeth of the gum dipping chain wheel (6) is in the range of 17-70, and the pitch of the gum dipping chain wheel (6) is in the range of 38.1-100 mm.

10. The glove dipping apparatus according to claim 1, wherein,

the glove dipping equipment is glove dipping equipment of half-dipping gloves, and at least two hand dies (4) are hung on each hand die rod (5) at intervals along the extending direction of the hand die rods;

the arrangement direction of the wrist part and the finger part of the hand mould (4) is the direction from downstream to upstream along the moving direction of the chain (3);

the sprocket group guides a hand die (4) positioned at the upstream of the gum dipping sprocket (6), and the preset gum entering angle is formed by the orientation of the palm downward and the upstream direction of the joint of the hand die (4) and the hand die rod;

the gum dipping chain wheel (6) guides a hand die (4) corresponding to a chain plate meshed with the gum dipping chain wheel in the chain (3) to form the preset gum discharging angle by the orientation of the palm downward and the upstream direction of the joint of the hand die (4) and the hand die rod;

the sprocket set further comprises an upstream sprocket located upstream of the dipping sprocket (6), a downstream sprocket located downstream of the dipping sprocket (6), the positions of the upstream sprocket and the dipping sprocket (6) determining the orientation of the hand pattern (4) in the chain (3) located upstream of the dipping sprocket (6), the positions of the downstream sprocket and the dipping sprocket (6) determining the orientation of the hand pattern (4) in the chain (3) located downstream of the dipping sprocket (6).