JPH04100906A - Coater of vinyl resin for working glove - Google Patents

Abstract

PURPOSE:To coat one surface of a glove material by intermittently moving a glove-shaped form in the horizontal direction and dipping the glove material fitted on the glove-shaped form in a vinyl resin solution in lifting a storage tank for the vinyl resin solution. CONSTITUTION:A glove-shaped form 17 is supported with a rotating chain and both the rotating chain and the glove-shaped form are intermittently moved in the horizontal plane. An inner vessel 77 of a storage tank 73 for containing a vinyl resin solution is filled with the vinyl resin solution to the upper edge 108 thereof and the rotating chain and the glove-shaped form are horizontally moved so as to dip the glove material fitted on the glove-shaped form in lifting the storage tank 73 with a cylinder 95.

Description

[Detailed Description of the Invention] [Industrial Application Field] The present invention relates to a work glove manufacturing apparatus that adheres and forms a vinyl resin coating on the surface of a glove material made of knitted fabric, woven fabric, automatic knitting machine, etc. In particular, it relates to a vinyl resin coating device for coating the surface of glove materials.

[Prior Art] This type of work glove manufacturing apparatus has been well known. The basic manufacturing process involves fitting the glove material into a glove shape that is pivotally supported by an endless rotating chain, moving it at a predetermined speed while immersing it in a sol-like vinyl resin liquid storage tank, and then heating and drying it. and cooling.

Conventional work glove manufacturing equipment has been researched and devised to find out how to rationally incorporate the above-mentioned basic technical processes into a series of lines and manufacture work gloves more efficiently. ing.

Now, with reference to FIG. 10, the outline of a conventional work glove manufacturing apparatus line will be explained.

This figure is a schematic plan view of the glove manufacturing apparatus, in which reference numeral 1 denotes an endless rotating chain provided in parallel with a predetermined width. A plurality of support rods are arranged in parallel between the inner circumference side and the outer circumference side of this rotating chain l, and a plurality of metal glove shapes are pivotally supported on each support rod, forming a group. A plurality of blocks of this group of glove shapes are provided on the rotating chain 1 at predetermined intervals. In the rotation course of the rotating chain 1, there is provided an attachment/detachment position 3 for attaching and detaching the glove material to and from the glove shape. a sintering device 4 that burns the fuzz (this sintering allows the vinyl resin liquid to adhere more smoothly to the glove material);
A vinyl resin coating device 5 for dipping the glove material into a vinyl resin liquid storage tank, a heating device 6 for the vinyl resin applied to the glove material, and a cooling device 7 are provided in this order.

Therefore, according to this manufacturing device, underwear position 3
After the glove material is attached to the glove shape, when the glove material is supported by the rotating chain 1 and rotates once and returns to its original position, the work gloves with the vinyl resin coating attached are manufactured. , the manufactured work glove is removed from the glove mold at this removal/removal position 3.

The above-mentioned manufacturing apparatus has a plurality of glove shapes placed on a rotary chain 1 at predetermined intervals. Therefore, the movement of the rotating chain 1 during the manufacturing process is intermittent. In a device that applies vinyl resin liquid to the surface of glove material, the glove material is immersed in a vinyl resin liquid storage tank located at a predetermined location, and then pulled up and transferred to the next process. It is composed of

On the other hand, an example of a continuously moving glove manufacturing apparatus is known from Japanese Patent Publication No. 42-2895. In this system, a glove shape is continuously supported at a predetermined interval on an endless rotating chain held so that it can freely rotate and swing freely, and the glove material is fitted into the glove shape and the rotating chain held moves it along a predetermined course. When the glove material is rotated once, the vinyl resin liquid is applied to the surface of the glove material and is dried to produce work gloves.

In this glove manufacturing equipment, the glove molds are attached to a rotating chain held at regular intervals.Therefore, the rotating chain belt moves continuously, and in the vinyl resin applicator, glove molds are attached to a rotating chain belt at equal intervals. The moving rotating chain belt is drawn in a predetermined curve, pulled down once, and then pulled up again and moved horizontally.
When pulled downward, the glove material is immersed in the vinyl resin liquid bath.

[Problem to be solved by the invention]

Regardless of whether the work glove manufacturing apparatus is of the intermittent movement type or the continuous movement type, rationalization of these apparatuses is required. For example, in a vinyl resin coating device, an endless rotating chain that circulates in the horizontal direction and a glove-shaped chain pivotally supported by the endless rotating chain are placed in the vertical direction at the location where the coating device is disposed. If the rotating chain could be immersed in the vinyl resin liquid without being moved, the drive mechanism for the rotating chain could be simplified, but there has been no device that satisfies this requirement. An object of the present invention is to provide a vinyl resin coating device for work gloves that solves these problems.

[Means for Solving the Problems] In order to achieve the above object, a vinyl resin coating device for work gloves according to the present invention is provided so as to be supported by a drive roller and a guide roller and to move along a predetermined course. A plurality of glove molds are pivotally supported at predetermined intervals on an endless rotating chain, and the course along which the glove molds move includes positions for attaching and removing glove material to the glove molds, a burning device, and a vinyl resin coating device. , a heating device, a cooling device, etc. are installed in a working glove manufacturing device, in which a storage tank containing a vinyl resin liquid is installed on a lifting platform as the vinyl resin application device, and the lifting platform is connected to a lifting device. On the other hand, an endless rotating chain for holding the glove shape is provided so as to be able to rotate intermittently in the horizontal direction, and when the storage tank is raised,
It is characterized by a structure in which a glove material fitted into a glove shape is immersed in a vinyl resin liquid.

[Function] A glove shape, which is supported by an endless rotating chain and has a glove material fitted thereon, moves at a predetermined speed on a horizontal plane, and while it is stopped above a storage tank for vinyl resin liquid for a predetermined time, the storage tank is moved. is raised and lowered, and when it reaches the upper limit, the glove material is immersed in the vinyl resin liquid.

Thereafter, as the storage tank descends, the glove material is moved to the next process by a rotating chain.

[Example] Hereinafter, an example of the present invention will be described with reference to FIGS. 1 to 9.

FIG. 1 is a schematic plan view of a glove manufacturing apparatus according to the present invention, and in the figure, IOA, IOB, and IOC each represent an endless first line forming each line of the glove manufacturing apparatus. Second. Third
It is a rotating chain. Each 1st. Second. Third rotating chain IOA, IOB.

10C includes a glove type 17, which will be described later. A large number of... are arranged at predetermined intervals. Each rotating chain 10A, IO
B. During the course of rotational movement of the IOC, there is a position IIA II for attaching and detaching the glove material to the glove mold 17.
B Fuzzing device 12A for burning fuzz of IIC and glove material
, 12B, , 12C, vinyl resin coating device 13A,
13B, 13C, a vinyl resin heating device 14, and a cooling device 15 are provided. 16A, 16B, 16C are
1st each. Second. Third each rotating chain IOA, 1
0B, 10CO guide gears, one of which is the drive gear.

In the above configuration, as can be seen from the figure, the attachment/detachment positions IIA, IIB, IIC, and the burning devices 12A, 12B
, 12c, and the coating devices 13A, 13B, and 13C are the first.
Second. The heating device 14 and the cooling device 15 are separately provided for each of the third rotating chains IOA, IOB, and IOC, whereas the heating device 14 and the cooling device 15 are provided separately for each of the third rotating chains IOA, IOB, and IOC. Second. Each third rotating chain 10
A, 10B, and IOC are arranged so that they commonly pass through the inside.

That is, the heating device 14 and the cooling device 15 have a predetermined length,
L, the cross section perpendicular to the longitudinal direction is a square of a predetermined size, and is arranged in a straight line. It is closed with a cover plate having an opening through which the chains 10A10B, 10C and the glove type 17 attached to the chain can pass, and is configured to prevent the heating air and cooling air inside each device from escaping to the outside as much as possible. . Each of the rotating chains IOA, IOB, and IOC is provided to move in parallel within the heating device 14 and the cooling device 15 at a predetermined interval.

In FIG. 1, outside the heating device 14 and cooling device 15, there are three rotating chains 10A.

10B, the first rotating chain IOA and the second rotating chain IOA as shown in the figure to prevent the IOCs from colliding with each other. The third rotating chain IOB, IOC has a heating device 14 and a cooling device 15.
While circulating both outside of the 2nd. Third rotary chain 710B, IOC comrades also have heating device 14 and cooling device 1
It circulates near and far from 5, and each device 14.15
They are arranged at different heights inside and outside.

With this configuration, each of the plurality of rotating chains IOA, IOB, and IOC can move inside and outside the common heating device 14 and cooling device 15 without colliding with each other.

To briefly explain the operation of each line of the device, 1.
Second. At each of the attachment/detachment positions IIA, 11B, and IIC of the third rotating chain IOA 10B10C, a glove material is attached to the glove mold 17 (shown in FIG. 2 and below) located upward. Next, this glove material is moved while rotating at a predetermined speed through the flames burning in the burners of the hair burning devices 12A, 12B, and 12C, and the fluff is burned.

After that, vinyl resin coating devices 13A and 13B.

13C, the vinyl resin is applied to the surface of the glove material, and then passed through the heating device 14, and further cooled in the cooling device 15. And detachment positions IIA, I
In IB and IIC, the work gloves thus manufactured are removed from the glove mold 17.

Each rotating chain IOA, IOB as described above.

During one rotation of 10C, each rotating chain 10A,
The glove mold 17 supported by... must maintain a predetermined support angle at each position during rotation, and must move in a rotating or non-rotating state. For this reason, the glove type 17 is rotatable with respect to each rotary chain 10A, . . . and is supported via a support mechanism that can freely swing and tilt in the vertical direction. Further, the glove type 17 is configured to maintain a predetermined support angle and rotate by guide rails provided along each rotating chain IOA, . . . . The vinyl resin liquid coating device 13A, which is the main part of the present invention, is also premised on the above configuration.

The detailed mechanism of each part will be explained with reference to FIG. 2 and subsequent figures. 2 to 5 show the support mechanism of the glove type 17 for each rotating chain IOA.

In each figure, fasteners 18 are provided at the upper and lower parts of each rotating chain 10A, . . . at a predetermined interval, and a glove-shaped 17
A mounting plate 21 is provided.

This mounting plate 21 is attached perpendicularly to the outer peripheral side of each rotating chain 10A, . . . when viewed from a plane.

On the inner surface of the mounting plate 21, there are four upper and lower guide wheels 22.2.
2. ...is the provision. This guide wheel 2222...
・ is a guide rail 23 provided below the rotating chains 10A, . . . and parallel to the rotating chains IOA, .
It moves by sliding in contact with the top and bottom surfaces of. This guide rail 23 is
A support frame number (not shown) is attached via the arm (FIG. 5), and the weight of the glove type 170 is received by the guide rail 23, so each rotating chain 10A...
・The weight will not be applied to.

A support shaft 25 is provided protruding from the base end of the glove mold 17, and a rotating roller 26 is integrally provided on this support shaft 25, and a guide roller 27 is provided to freely rotate. The support shaft 25 is rotatably supported by the support tube 28.

Reference numeral 30 denotes two support plates provided parallel to the outer surface of the mounting plate 21, which support a horizontal shaft 31 protruding from the side surface of the support trIi and 30, passing through the peripheral wall of the support cylinder 280.

Therefore, the glove type 17 can rotate around its axis centering on the support shaft 25, can rotate along a vertical plane using the horizontal shaft 31 as a fulcrum, and can maintain a predetermined angle. In addition, in order to make the glove type 17 perform the above-mentioned operation, below each rotating chain 10A,...
A cross-sectional or angular guide rail 32, on which the rotating roller 26 or the guide roller 27 can contact and move, is arranged to meander in the vertical and horizontal directions.

To explain further, the guide rail 32 is connected to the rotating roller 26
Or when it is in a position where it does not come into contact with the guide roller 27 (
In this location, it is not necessary to install a guide rail)
As shown in FIG. 2, the glove type 17 hangs vertically around the horizontal shaft 31, and each rotating chain 10A,...
move with... While moving in this state, in order to maintain the glove-shaped I7 at a predetermined location at a predetermined angle with the horizontal shaft 31 as the fulcrum, the rotation roller 26 and guide roller 27 should be kept with the horizontal shaft 31 as the fulcrum. By changing the arrangement course of the guide rail 32 vertically and laterally along the circumference where the guide rail 32 can be displaced, the glove mold 17 can be maintained at a predetermined inclination angle.

Therefore, in the section where the rotating roller 26 moves in contact with the guide rail 32, the glove type 17 moves along the horizontal axis 3.
1 as a fulcrum, and is held at a predetermined inclination angle, and the support shaft 2
It moves while rotating around 5. Further, in the section where the guide roller 27 moves in contact with the guide rail 32, the glove mold 17 can move without rotating. The glove mold 17 is attached to and removed from positions 11A, . . ., and the hair burning device 12A, .
..., coating device 13A, heating device 14, cooling device 150
While moving in sequence, it is necessary to maintain a predetermined inclination angle at each of the above-mentioned parts, and to move in either a rotating or non-rotating state.

Therefore, while displacing the guide rail 32 at a predetermined angle vertically or horizontally on the circumference around the horizontal axis 31, the rotating chain 10A,
It is provided so as to extend in the direction of movement along...

By displacing the guide rail 32 to an upper position at a predetermined location, for example, the glove material attachment/detachment position 11A, the glove mold 17 is moved as shown in FIGS. 2 and 5 (dotted lines). It can be vertically inverted using the horizontal shaft 31 as a fulcrum. Therefore, in the attachment/detachment position IIA..., the glove type 17.・・・
The operator quickly attaches the glove material to the glove mold 17 which is positioned upward and is moving at a predetermined speed.

In FIG. 5, reference numeral 33 denotes a positioning stopper provided on the side surface of the mounting plate 21. When the side surface of the support tube 28 comes into contact with the tip of this positioning stopper 33, the glove-shaped 17
When it is raised vertically, it maintains its vertical state.

Next, a vinyl resin coating apparatus 13A according to a first embodiment of the present invention will be described with reference to FIGS. 1, 6, and 7.

The coating device 13A according to the first embodiment performs so-called single-sided coating, in which the glove material fitted into the glove mold 17 is coated mainly on the military side, leaving behind the instep. It is configured as a device.

To explain each figure, 73 is a storage tank for vinyl resin liquid provided on the lifting table 75, and 76 is a piece pump also provided at the end of the lifting table 75. The vinyl resin liquid storage tank 73 consists of an internal tank 77 and an external tank 78.
The internal tank 77 has a curved bottom wall 79 and upright walls 80 rising from both ends of the bottom wall 79, and a stirring blade 82 attached to a drive shaft 81 is housed inside the wall. One end of the drive shaft 81 passes through the external tank 78 via a bearing portion 83, and a drive pulley 85 is provided at the end.

The drive pulley 85 is connected via a belt to a drive motor 74 installed on a support base 64 integrated with the lifting platform 75.

In addition, in FIG. 6, 86 is a replenishment pipe for vinyl resin liquid, and its tip 87 is connected to an opening 89 at the bottom of the internal tank 77.
connected through. The other end of this supply pipe 86 is
Discharge port 90 of piece pump 76 via connecting pipe 91
It is connected to A suction port 92 of the piece pump 76 is connected to a vinyl resin liquid supply tank. A socket 93 for connecting a drain pipe (not shown) is provided at the bottom of the external tank 78.

Reference numeral 95 denotes a hydraulic cylinder provided vertically upward on the mounting frame 96, and its operating rod 97 is attached to the intermediate lower surface of a reinforcing plate 98 that connects each member of the elevating table 75. Reference numeral 99 denotes a guide rod provided parallel to both sides of the hydraulic cylinder 95 for stably raising and lowering the lifting table 75. The upper end of this guide rod 99 is connected to the lifting table 75.
It is attached to the lower surface of both sides.

In FIG. 7, 101 and 102 are drive cylinders 95
Proximity switch for ascending kidney control, upper limit control and lower 1i! Each of the control proximity switches 101, 102 is attached to the cylindrical body 100100 of the adjacent guide rod 99,99 by the arm 10.
34 is provided. On the other hand, 105,106・
. . . is a detected member provided on the support plate 107 attached to the lifting table 75.

Next, the operation of the first embodiment will be explained.

The rotating chain IOA moves intermittently at predetermined time and movement intervals, and when the glove type 17 moves to the upper part of the vinyl resin liquid storage tank 73, this glove type 1
7 is stopped for a predetermined time in the state shown in FIG. At this time, the hydraulic cylinder 95 is driven, the operating rod 97 is extended, and the vinyl resin liquid storage tank 73 is raised to the position indicated by the arrow.

At this time, since the vinyl resin liquid is always filled up to the upper edge 108 of the internal tank 77 of the storage tank 73, only the part of the hand of the glove material fitted into the glove mold 17 is coated.
So-called one-sided coating is performed. After that, the storage tank 73 descends. On the other hand, the glove material coated with the vinyl resin liquid is again intermittently moved to the next process by the rotating chain 10A. By repeating the intermittent movement of a large number of glove molds 17 fitted with glove material at such timing, the glove material supported by the rotating chain IOA is smoothly coated on one side.

Note that, as described above, the upper edge 10 of the internal tank 77 of the storage tank 73
8 is always filled with vinyl resin liquid, and the supply pipe 8 is filled with the same amount of vinyl resin liquid as the amount applied to the glove material.
6 into the internal tank 77, and the above liquid level of the vinyl resin liquid is always maintained.

In addition, when one of the proximity switches 101 detects the detected object 105, the operating cylinder 97 of the hydraulic cylinder 95 is activated.
and stop the rise of the other proximity switch 102.
detects the detected object 106, the actuating iron 9
Stop the descent of 7. Furthermore, the timing operation of the intermittent movement of the rotating chain IOA and the intermittent drive of the hydraulic cylinder 95 is controlled by another proximity switch (not shown).
This is done by detecting the moving position of.

In order to ensure that the glove material is coated on one side as described above, when the glove material is immersed in the storage tank 73 of vinyl resin liquid, the glove mold 1 is
7 must be held in the position shown in Figure 6, that is, with the palm of the hand facing down. For this reason, a rotation regulating plate 109 is provided at the base of the glove mold 17. A straight portion 110 is formed by cutting a portion of the circumference of the rotation regulating plate 109 into a straight line, and this straight portion 110 is supported by the guide rail 32 and slidably moves thereon.

The linear portion 110 of the rotation regulating plate 109 moves in sliding contact with the guide rail 32 from a little before the glove mold 17 moves to the position of the vinyl resin liquid storage tank 73 to a little after one-sided coating is finished.

Before and after that, second and third rotating rails 10B,
As in the case of the IOC glove mold 17, the glove mold 17 moves with the rotating roller 26 or the guide roller 27 supported by the guide rail 32.

Therefore, a large number of glove molds 17. supported on the rotating chain IOA. ... always maintain a predetermined angular position before and after the storage tank 73, so that the vinyl resin liquid can be accurately applied to one side of a large number of glove materials.

Next, FIGS. 8 and 9 show a coating device 1 according to a second embodiment.
3A is shown. In this second embodiment, the configuration for lifting and lowering the storage tank 112 and the lifting platform 114 equipped with the peace pump 113 using a hydraulic cylinder 115 is the same as that of the first embodiment, but there are 20 lifting platforms. 114 as an auxiliary support mechanism to eliminate shaking when ascending next to each other and provide stable support.
This embodiment is different in that a link mechanism 116 is used instead of the guide rod 99 of the embodiment.

To further explain FIGS. 8 and 9, on the lifting platform 114 there is a storage tank 112 for vinyl resin liquid and a peace pump
3 are installed. Furthermore, an external auxiliary tank 117 is provided so as to surround the outside of the storage tank 112.

A stirring blade 120 attached to a drive shaft 118 is housed inside the storage tank 112 . Both ends of the drive shaft 118 protrude to the outside of the storage tank 112 via bearings 121, and a drive pulley 123 is provided at one end of the drive shaft 118. This drive pulley 123 is connected to an arm 126 that is integrated with the lifting platform 114 via a heald 125! This is operatively connected to a drive motor 127 provided therein.

In addition, in FIG. 8, the storage tank 11 is similar to the first embodiment.
A tip 131 of a vinyl resin liquid replenishment pipe 130 is connected to the lower opening 128 of No. 2. Supply pipe 130
The other end is connected to the piece pump 11 via a connecting pipe 132.
It is connected to the discharge port 133 of No. 3. peace pump 113
The suction port 134 is connected to a supply tank for vinyl resin liquid.

A suction port 134 of the piece pump 113 is connected to a supply tank for vinyl resin liquid.

Reference numeral 115 denotes a hydraulic printer installed vertically upward on the mounting frame 136, and its operating loft river 37 is attached to the middle lower surface of a reinforcing plate 138 that connects each member of the lifting platform 114. Reference numeral 116 is the aforementioned link mechanism for stably raising and lowering the lifting platform 114, and this link mechanism l11
16 connects the upper link 140 and the lower link 141 to the axis 1
Four sets of links 143 connected by 44. ..., and two sets are arranged on each side of the hydraulic cylinder 115. The upper end of the upper link 140 is connected to the lower part of the lifting platform 114 by a shaft 142, and the lower end of the lower link 141 is connected to the upper part of the mounting frame I36 by a shaft 145.

Next, the operation of the second embodiment will be explained.

When the rotating chain IOA moves intermittently and the glove mold 17 moves to the top of the vinyl resin liquid storage tank 112 and stops,
A detection device (not shown) detects this and the hydraulic cylinder 11
5 is driven, the operating rod 137 is extended, and the vinyl resin liquid storage tank 112 is raised to the position indicated by the arrow. At this time, as in the first embodiment, the storage tank 112 is always filled with vinyl resin liquid up to the upper edge 146, so that the palm part and both sides of the glove material fitted into the glove mold 17 are made of vinyl resin. It is immersed in a liquid and only the palm of the hand is coated, so-called one-sided application. Thereafter, the storage tank 112 is lowered, while the glove material coated with the vinyl resin liquid is
It is again intermittently moved to the next process by the rotating chain 10A.

By repeating the intermittent movement of a large number of glove molds 17 fitted with glove material at such timings and the raising and lowering of the vinyl resin liquid storage tank 112, one side of the glove material supported by the rotating chain IOA is coated smoothly. will be applied. Further, as the lifting platform 114 moves up and down, the link 14
3 extends, the lifting platform 114 can be moved up and down smoothly. Although not shown in the drawings, as in the first embodiment, the elevating table 114 is provided with a proximity switch for controlling its raising and lowering.

Note that the coating devices 13B and 13C are similar to the coating device 13A.
Unlike the previous example, in order to apply the vinyl resin liquid to almost the entire surface of the glove material, a shower-type no-pressure coating device was adopted, but the design of the device was partially changed and the same deimping device as in Examples 1 and 2 was used. It is also possible to do this.

〔Effect of the invention〕

As explained above, according to the work glove coating device according to the present invention, it is possible to easily apply so-called single-sided vinyl resin liquid to a glove material fitted into a glove shape that moves while being supported by a rotating chain. .

Moreover, during application, the vinyl resin liquid storage tank is elevated, and the rotating chain and glove type only need to be moved on a horizontal plane, so the supporting mechanism for the rotating chain can be simplified compared to conventional equipment. It has a subdued effect.

[Brief explanation of the drawing]

FIG. 1 is a schematic plan view of a glove manufacturing device equipped with a vinyl resin coating device according to the present invention, FIG. 2 is a side view of a rotating chain and a glove shape supported by the chain, and FIG. 3 is a support for the glove shape. A cross-sectional explanatory diagram of the mechanism, Fig. 4 is a partial sectional view of Fig. 3,
FIG. 5 is an enlarged cross-sectional view of the rotating chain support mechanism, FIG. 6 is a front explanatory view of the first embodiment of the vinyl resin coating device according to the present invention, FIG. 7 is a side explanatory view of the same figure, and FIG. is the same second
9 is a front explanatory view of the embodiment, and FIG. 9 is a side explanatory view of the same figure.
FIG. 0 is a schematic plan view of a conventional glove manufacturing device. 10A, IOB, IOC... Rotating chain 11A, I
IB, IIC...Detachment position 12A 12B
, 12 13A, 13B, 13 Placement 14... Heating device 16B 16C... Guy 23... Guide rail 2 32... Guy rail 75.114... Lifting platform 99... Guytro

Claims (1)

[Claims] (1) A plurality of glove shapes are pivotally supported at predetermined intervals on an endless rotating chain that is supported by a drive roller and a guide roller and moves along a predetermined course. On the moving course, there is a position for attaching and removing glove material to the glove shape, a burning device, a vinyl resin coating device,
In a work glove manufacturing device that is equipped with a heating device, a cooling device, etc., a storage tank containing a vinyl resin liquid is installed on a lifting platform as the vinyl resin application device, and the lifting platform is moved by the lifting device. On the other hand, an endless rotating chain for holding the glove shape is provided so as to be able to rotate intermittently in the horizontal direction, and when the storage tank is raised, the glove material fitted into the glove shape is immersed in the vinyl resin liquid. A vinyl resin coating device for work gloves, characterized in that the device has a structure in which: