CN211307121U - Immersion device for glove production line and glove production line - Google Patents

Abstract

The utility model relates to a gloves production technical field especially relates to an immersion fluid device and gloves production line for gloves production line to solve the technical problem of how to reduce the process that gloves got into the liquid bath to the influence of gloves quality. The immersion device comprises a liquid pool, a main chain supporting track, a chain wheel and a hand mold rod supporting track. The chain wheel is engaged with the main chain when the main chain advances to the lower end of the descending track section of the main chain supporting track. The hand mold bar support rails extend from high to low and are twisted outwardly to a position corresponding to the low end of the drop rail section into a vertical orientation. The hand mold bar support rail is lower than the main chain support rail at a position corresponding to the lower end of the drop rail section. The liquid pool, the main chain supporting track and the hand mold rod supporting track are arranged in a matched mode in such a way that the hand mold enters liquid with an included angle of less than 90 degrees with the liquid level. In the glove production line, the hand mold rod is rotatably connected with the main chain.

Description

Immersion device for glove production line and glove production line

Technical Field

The utility model relates to a gloves production technical field especially relates to an immersion fluid device and gloves production line for gloves production line.

Background

At present, when the hand mould enters a liquid pool of the immersion device, the hand mould is vertical to the liquid level and the palm of the hand advances, namely the hand mould enters the liquid in the liquid pool in a similar water-stirring action, and the liquid level generates large waves. Particularly, in the production line of the dipped gloves, when the gloves are further solidified just after being dipped and homogenized, the operation of entering the liquid pool causes irregular ripples on the surfaces of the gloves, which seriously affect the quality of the gloves, and the problem is more prominent along with the increase of the yield and the aging of equipment.

Disclosure of Invention

Technical problem to be solved

The to-be-solved technical problem of the utility model is: how to reduce the influence of the process of the gloves entering the liquid pool on the quality of the gloves.

(II) technical scheme

In order to achieve the above object, the utility model discloses a main technical scheme include:

the utility model provides an immersion device for glove production line, which comprises a liquid pool, a main chain supporting track, a chain wheel and a hand mold rod supporting track, wherein the main chain supporting track, the chain wheel and the hand mold rod supporting track are positioned above the liquid pool; the main chain support rail comprises a descending rail section and a bottom working rail section, wherein the descending rail section descends from a high position to extend to be connected with the bottom working rail section; the chain wheel is arranged corresponding to the joint of the descending rail section and the bottom working rail section and is used for being meshed with a chain which advances to the low end of the descending rail section in the main chain; the hand mould rod supporting track extends from a high position to a low position along the direction from the descending track section to the bottom working track section and is twisted outwards in the extending process until the hand mould rod supporting track is twisted into a vertical orientation at a position corresponding to the low position end of the descending track section and then maintains the vertical orientation to extend or stop; the hand mold bar supporting rail is lower than the main chain supporting rail at least at a position corresponding to a part of the descending rail section including the lower end; the liquid pool, the main chain supporting track and the hand mold rod supporting track are arranged in a matched mode in such a way that the hand mold enters liquid with the included angle of less than 90 degrees with the liquid level.

According to the utility model discloses, the low level end of decline rail section forms the arc that matches with the sprocket to with bottom work rail section smooth connection.

According to the utility model discloses, bottom work rail section is the horizontal directional linear type.

According to the utility model, the main chain supporting track also comprises a top horizontal linear track section; the descending rail section comprises an upper arc section, a middle linear inclined section and a lower arc section; the top horizontal linear rail section, the upper arc section, the middle linear inclined section, the lower arc section and the bottom working rail section are sequentially and smoothly connected.

According to the utility model, the immersion device also comprises a top hand mold rod supporting track which is arranged corresponding to the top horizontal linear rail section and is higher than the top horizontal linear rail section; the top hand former bar support rail is higher than the hand former bar support rail.

The utility model discloses another aspect a glove production line, including the main chain, connect the hand former pole in the side of the main chain and connect the hand former in the one end far away from the main chain of the hand former pole, also include the immersion fluid device of any one of the above-mentioned; the main chain is movably supported on the main chain supporting track and meshed with the chain wheel; the hand mold rod is movably supported on the hand mold rod supporting track, and the positions of the liquid pool, the main chain supporting track and the hand mold rod supporting track and the orientation of the hand mold when the hand mold is connected with the hand mold rod are matched in a mode that the included angle between the hand mold and the liquid level is smaller than 90 degrees, liquid enters the hand mold and the side face of a finger enters the hand mold rod.

According to the utility model, two hand mold rods are arranged on the same side of the main chain, the end part of each hand mold rod, which is far away from the hand mold, is sleeved on the fixed shaft on the main chain through the L-shaped connecting frame, the axis of the fixed shaft is parallel to the extending direction of the main chain, and each hand mold rod in the two hand mold rods is always positioned on the same side of the other hand mold rod in the rotating process; two top hand mold rod supporting rails are arranged on the same side of the main chain; with the movement of the main chain, the two hand mold rods on the same side are inclined upwards and movably supported on the two top hand mold rod supporting rails in a one-to-one correspondence manner, after the two hand mold rods are separated from the two top hand mold rod supporting rails, the hand mold rod positioned below in the two hand mold rods on the same side is movably supported on the hand mold rod supporting rails, and the L-shaped connecting frame of the hand mold rod positioned above is supported on the L-shaped connecting frame of the hand mold rod positioned below.

According to the utility model, a plurality of immersion devices are arranged layer by layer; in every two adjacent immersion devices, the liquid pool of the immersion device positioned on the upper layer is provided with an overflow port, and the liquid pool of the immersion device positioned on the lower layer is arranged corresponding to the overflow port; the liquid pool of the uppermost liquid immersion device in the plurality of liquid immersion devices is provided with a water filling port, and the liquid pool of the lowermost liquid immersion device in the plurality of liquid immersion devices is provided with a water discharge port.

According to the utility model discloses, the gloves production line is gumming gloves production line, and immersion fluid device sets up in the coagulation zone and bubble water district.

(III) advantageous effects

The utility model has the advantages that:

the utility model discloses an immersion fluid device for the mode that gets into liquid with the hand former palm face is perpendicular changes the mode that the certain angle of finger (thumb or little finger) side downward sloping got into liquid and provides probably. Specifically, the immersion device of the present embodiment can realize the way that the side of the finger is inclined downwards at a certain angle to enter the liquid by matching the orientation of the hand mold rod and the hand mold. Therefore, the resistance of the hand model entering the liquid is reduced, the irregular ripples formed on the surface of the glove are reduced as much as possible, and the quality of the glove is improved.

The utility model discloses a glove production line changes the mode that the palm face of hand former got into liquid perpendicularly into the mode that the certain angle of finger (thumb or little finger) side downward sloping got into liquid. Specifically, the positions of the liquid pool, the main chain supporting track and the hand mold rod supporting track and the orientation of the hand mold when the hand mold is connected with the hand mold rod are matched in a mode that the included angle between the hand mold and the liquid level is smaller than that of the liquid entering and the side face of the finger enters the liquid. Therefore, the resistance of the hand model entering the liquid is reduced, the irregular ripples formed on the surface of the glove are reduced as much as possible, and the quality of the glove is improved.

Drawings

FIG. 1 is a schematic structural diagram of an immersion device for a glove production line according to a first embodiment, wherein a hand mold rod and a hand mold are mounted on two sides of a main chain;

FIG. 2 is a schematic structural view of the immersion apparatus of FIG. 1 with a portion of the frame removed;

FIG. 3 is a state view of the hand mold entering the immersion apparatus of FIG. 1;

fig. 4 is a schematic structural diagram of a main chain, a hand mold rod and a hand mold which are matched with the immersion device in fig. 1.

[ description of reference ]

1: a liquid pool; 2: a main chain support rail; 21: a descending rail section; 211: a low-order end; 212: an upper arc segment; 213: a middle linear inclined section; 214: a lower arc segment; 22: a bottom working rail section; 23: a top horizontal linear rail section; 3: a sprocket; 4: a hand mold bar support rail; 5: a main chain; 6: a top hand mold bar support rail; 7: a hand mold rod; 8: a hand model; 9: a frame; 10: a sprocket hanger; 11: an L-shaped connecting frame; a: the hand mold forms an included angle with the liquid level when entering the liquid.

Detailed Description

For a better understanding of the present invention, reference will now be made in detail to the present invention, examples of which are illustrated in the accompanying drawings.

Example one

Referring to fig. 1 to 3, the present embodiment provides an immersion apparatus for a glove production line. In the present embodiment, the structures of the main chain 5, the hand mold rod 7, and the hand mold 8 shown in fig. 4 are matched with the liquid immersion device, and the structures of the main chain 5, the hand mold rod 7, and the hand mold 8 shown in fig. 4 can be specifically referred to the structure disclosed in chinese utility model CN208730144U, and for convenience of description, the structure nomenclature in the present embodiment is different from that in CN 208730144U. Of course, the immersion device of the present invention is not limited to this, and other main chains 5, hand mold rods 7, and hand molds 8 may be used.

With further reference to fig. 1 to 4, the immersion apparatus of the present embodiment includes a liquid bath 1, a main chain support rail 2, a sprocket 3, and a hand mold bar support rail 4, and the main chain support rail 2, the sprocket 3, and the hand mold bar support rail 4 are all located above the liquid bath 1.

The main chain support rail 2 includes a drop rail segment 21 and a bottom work rail segment 22. Wherein, descending rail section 21 descends from the high place to be connected with bottom work rail section 22 for guiding the height of main chain 5 to descend continuously, and then drives the height of hand former pole 7 connected with main chain 5 to descend continuously and approach to liquid bath 1. The bottom working rail section 22 is used for guiding the main chain 5 to continue to advance after the hand mold 8 enters liquid, and further drives the hand mold rod 7 and the hand mold 8 to continue to advance.

The sprocket 3 is provided in correspondence with the junction of the drop rail section 21 and the bottom work rail section 22 for engagement with the chain of the main chain 5 that travels to the low end 211 of the drop rail section 21. This setting guarantees that main chain 5 operates steadily, ensures that hand former 8 can not appear gun phenomenon of stacking in liquid pool 1, has reduced rocking of liquid in the liquid pool 1. Of course, the present invention is not limited to this, and the sprocket can be adaptively disposed at other positions to engage with the main chain.

The hand mould pole support rail 4 extends from high to low in the direction from the lowering rail section 21 to the bottom working rail section 22 and is twisted outwards during the extension until the hand mould pole support rail 4 is twisted into a vertical orientation at a position corresponding to the low end 211 of the lowering rail section 21 and ends. And, the hand mold bar support rail 4 is lower than the main chain support rail 2 at least at a position corresponding to a portion of the descending rail section 21 including the low end 211. In conclusion, the hand mold rods 7 can be guided to gradually incline downwards in the process of descending along with the main chain 5, so that the finger tips of the hand molds 8 fixed at one ends of the front hand mold rods 7 far away from the main chain 5 enter liquid to be directed downwards to the liquid level in an inclined mode, and the hand mold rods 7 gradually change to be in a vertical orientation after the hand molds enter the liquid.

Further, the liquid pool 1, the main chain support rail 2 and the hand mold rod support rail 4 are cooperatively arranged in such a manner that the hand mold 8 forms an angle smaller than 90 ° with the liquid surface to enter the liquid (see an angle a in fig. 3), it can be understood that the cooperative arrangement of the main chain support rail 2 and the hand mold rod support rail 4 can gradually change the posture of the hand mold rod 7 to be vertically downward, and the position of the liquid pool 1 (the height of the liquid level in the liquid pool 1 is preset) determines whether the hand mold rod 7 can enter the liquid surface before completely falling downward.

The immersion device of the embodiment provides possibility for changing the mode that the palm surface of the hand mold 8 enters liquid vertically into the mode that the side surface of a finger (thumb or little finger) inclines downwards to a certain angle to enter liquid. Specifically, the immersion device of the present embodiment can realize the way that the side of the finger is inclined downwards at a certain angle to enter the liquid by matching the orientation of the hand mold rod and the hand mold. Therefore, the resistance of the hand mold 8 entering liquid is reduced, the irregular ripples formed on the surface of the glove are reduced as much as possible, and the quality of the glove is improved.

Referring to fig. 1 to 3 in particular, the immersion device further comprises a frame 9, the liquid pool 1, the main chain support rail 2 and the hand mold rod support rail 4 are all fixed on the frame 9, a chain wheel hanger 10 is also fixed on the frame 9, and the chain wheel 3 is rotatably supported on the chain wheel hanger 10. The main chain support rail 2 further comprises a top horizontal linear rail section 23, the descending rail section 21 comprises an upper arc section 212, a middle linear inclined section 213 and a lower arc section 214, the upper arc section 212 is opened downwards, and the lower arc section 214 is opened upwards. The top horizontal straight-line rail section 23, the upper arc section 212, the middle straight-line inclined section 213, the lower arc section 214 and the bottom working rail section 22 are connected smoothly in sequence.

Preferably, the bottom working rail section 22 is of a straight type oriented horizontally, so as to meet the requirement of the hand model 8 to be immersed in the liquid for a certain period of time, and the lower circular arc section 214 wholly or partially constitutes the low end 211 of the descending rail section 21, forms an arc shape matching with the sprocket wheel 3, and is smoothly connected with the bottom working rail section 22.

Preferably, the low end 211 of the drop rail section 21 is aligned with the end of the hand formwork support rail 4, the hand formwork support rail 4 ending after the hand formwork bar 7 is guided vertically, the hand formwork bar 7 thereafter remaining vertically oriented according to its own weight. The present invention is not limited to this, and in other embodiments, the hand mold bar support rail 4 can be extended in a vertical orientation after being twisted into a vertical orientation, and continuously provides a supporting force for the hand mold bar 7.

Preferably, the dipping device further comprises a top hand mold bar supporting rail 6 which is arranged corresponding to the top horizontal linear rail section 23 and is higher than the top horizontal linear rail section 23, and the top hand mold bar supporting rail 6 is higher than the top horizontal linear rail section 23, so that the hand mold bar 7 is supported on the top hand mold bar supporting rail 6 in an upward inclined manner. In this embodiment the top hand former bar support rail 6 is higher than the hand former bar support rail 4 and disconnected from it, and the hand former bar 7, after moving off the top hand former bar support rail 6, due to its gravity, rotates downwards and falls onto the hand former bar support rail 4. Of course, the present invention is not limited thereto, and the top hand mold bar support rail 6 may be smoothly connected to the hand mold bar support rail 4 to provide continuous support for the hand mold bar 7.

Preferably, as shown in fig. 1 and 2, in correspondence with the case where the hand mold bars 7 are provided on both left and right sides of the main chain 5, independent hand mold bar supporting rails 4 and top hand mold bar supporting rails 6 are provided in correspondence with the hand mold bars 7 on both sides.

Example two

Referring further to fig. 1 to 4, the present embodiment is a glove production line including a main chain 5, a hand mold rod 7 connected to a side of the main chain 5, and a hand mold 8 connected to an end of the hand mold rod 7 remote from the main chain 5, and further including the dipping apparatus of the first embodiment.

In this embodiment, the glove production line is a gum dipping glove production line, and includes a glove blank region, a gum dipping region, a gum homogenizing region, a solidifying region, a plurality of water soaking regions, a dehumidifying region, a drying region, and a demolding region. The immersion device of the first embodiment is arranged in the coagulation area and the plurality of water soaking areas, and water is contained in the immersion device. It can be understood that the soaking after the glove is homogenized has the function of solidification, and the soaking after the solidification and multiple times in other soaking devices has the function of washing away residual sizing materials and the like on the surface of the glove through soaking water. Of course, the utility model discloses be not limited to this, immersion fluid device can be used to any needs make gloves short time or soak for a long time and soak the technology of other liquid, as long as adopt promptly the utility model discloses a product and the method of immersion fluid device's structure all fall into the utility model discloses a protection scope, and can hold any liquid in the immersion fluid device, realize any effect.

In the present embodiment, the main chain 5 is movably supported on the main chain support rail 2 and engaged with the sprocket 3, and the hand mold bar 7 is movably supported on the hand mold bar support rail 4 at the coagulation zone and the soaking zone. The glove production line is also provided with a track for supporting the main chain 5 in a glove blank region, a gum dipping region, a gum homogenizing region, a dehumidifying region, a drying region and a demoulding region, and a chain wheel for driving the main chain 5 and a track for supporting the hand mold rod 7 are arranged at required positions.

Two hand mold rods 7 are connected to the same side of the main chain, the end portion, far away from the hand mold 8, of each hand mold rod 7 is sleeved on the fixing shaft of the main chain 5 through an L-shaped connecting frame 11, the axis of the fixing shaft is parallel to the extending direction of the main chain 5, and each hand mold rod 7 of the two hand mold rods 7 is always located on the same side of the other hand mold rod 7 in the rotating process (namely, in the rotating process of one hand mold rod 7 or the process of simultaneously rotating the two hand mold rods 7, one hand mold rod 7 of the two hand mold rods 7 is always located on the palm side or the back side of the hand mold 8 connected with the other hand mold rod 7, namely, the two hand mold rods 7 cannot cross and miss due to rotation), and the bent portions of the L-shaped connecting frames 11 connected with the two hand mold rods 7 are adjacently arranged, so that the two hand mold rods 7 are spaced apart by a certain distance. When the hand model rod 7 is in the horizontal orientation, the hand model 8 is in the palm-facing up or down orientation. In this way, when mold bar 7 is guided to a vertical orientation, mold 8 can be flooded from the sides of the fingers, rather than the palm.

In this embodiment, two top hand mold bar support rails 6 are provided on the same side of the main chain 5. With the movement of the main chain 5, the two hand mold rods 7 on the same side are inclined upwards and movably supported on the two top hand mold rod supporting rails 6 in a one-to-one correspondence manner, after the two hand mold rods 7 on the same side are separated from the two top hand mold rod supporting rails 6, the hand mold rod 7 positioned below in the two hand mold rods 7 on the same side is movably supported on the hand mold rod supporting rails 4, and the L-shaped connecting frame 11 of the hand mold rod 7 positioned above is supported on the L-shaped connecting frame 11 of the hand mold rod 7 positioned below. Therefore, when one of the two hand mold rods 7 is movably supported on the hand mold rod support rail 4, the other hand mold rod 7 is supported. Of course, the utility model discloses not be limited to this, under the guidance and the inspiration of this embodiment, as long as can cooperate with above-mentioned immersion fluid device, make hand former 8 be less than 90 with the liquid level contained angle and get into the hand former pole 7 and the mounting means of hand former 8 of liquid and finger side income liquid, all be in the utility model discloses a protection scope.

Therefore, in the glove production line of the embodiment, the mode that the palm surface of the hand mold 8 enters liquid vertically is changed into the mode that the side surface of a finger (thumb or little finger) inclines downwards to a certain angle to enter liquid. Therefore, the resistance of the hand mold 8 entering liquid is reduced, the irregular ripples formed on the surface of the glove are reduced as much as possible, and the quality of the glove is improved.

Preferably, the left and right sides of the main chain 5 are connected with the hand mold rods 7, and the left and right sides of the main chain support rail 2 are correspondingly provided with the hand mold rod support rails 4.

Preferably, a plurality of dipping devices are arranged layer by layer, the lowest dipping device corresponds to the solidification region, the other dipping devices correspond to the water soaking region, and the liquid pool 1 of each water soaking region can be set to different temperatures in order to wash out chemical components more quickly. In every two immersion fluid devices that are adjacent from top to bottom, the liquid pool 1 that is located the immersion fluid device on upper strata is equipped with the overflow mouth, and the liquid pool 1 that is located the immersion fluid device on lower floor corresponds the overflow mouth and sets up to be equipped with the filler in the liquid pool 1 that is located the immersion fluid device of the top among a plurality of immersion fluid devices, be located the drain outlet among a plurality of immersion fluid devices in the liquid pool 1 of the immersion fluid device of the below. Therefore, water is continuously added into the highest liquid pool 1 from the water adding port, the chemical component concentration of the highest liquid pool 1 (namely the last water soaking liquid pool 1) is ensured to reach the standard, the liquid pools 1 overflow one by one and are discharged from the lowest liquid pool 1, and continuous production is realized.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention. However, any simple modification, equivalent change and modification made to the above embodiments according to the technical substance of the present invention still belong to the protection scope of the technical solution of the present invention.

Claims (9)

1. A dipping device for a glove production line is characterized by comprising a liquid pool (1), and a main chain supporting track (2), a chain wheel (3) and a hand mold rod supporting track (4) which are positioned above the liquid pool (1); wherein,

the main chain support rail (2) comprises a descending rail section (21) and a bottom working rail section (22), wherein the descending rail section (21) descends from a high position to be connected with the bottom working rail section (22);

the chain wheel (3) is arranged corresponding to the joint of the descending rail section (21) and the bottom working rail section (22) and is used for being meshed with a chain in the main chain (5) which runs to the low-level end (211) of the descending rail section (21);

the hand mould pole support rail (4) extends from a high position to a low position along the direction from the descending rail section (21) to the bottom working rail section (22) and is twisted outwards in the extending process until the hand mould pole support rail (4) is twisted into a vertical orientation at a position corresponding to the low position end (211) of the descending rail section (21) and then maintains the vertical orientation to extend or stop;

-said hand mould bar support rail (4) is lower than said main chain support rail (2) at least in a position corresponding to a portion of said drop rail section (21) comprising a low end (211);

the liquid pool (1), the main chain supporting track (2) and the hand mould rod supporting track (4) are arranged in a matched mode in such a way that the included angle between the hand mould and the liquid level is smaller than 90 degrees, and the hand mould enters the liquid.

2. The dipping apparatus for glove production line according to claim 1,

the low-level end (211) of the descending rail section (21) forms an arc shape matched with the chain wheel (3) and is smoothly connected with the bottom working rail section (22).

3. The dipping apparatus for glove production line according to claim 1,

the bottom working rail section (22) is in the form of a horizontally oriented straight line.

4. The dipping apparatus for glove production line according to claim 1,

the main chain support rail (2) further comprises a top horizontal linear rail section (23);

the descending rail section (21) comprises an upper arc section (212), a middle straight line inclined section (213) and a lower arc section (214);

the top horizontal straight line rail section (23), the upper arc section (212), the middle straight line inclined section (213), the lower arc section (214) and the bottom working rail section (22) are sequentially and smoothly connected.

5. The dipping apparatus for glove production line according to claim 4,

the immersion device also comprises a top die rod supporting rail (6), and the top die rod supporting rail (6) is arranged corresponding to the top horizontal linear rail section (23) and is higher than the top horizontal linear rail section (23);

the top hand mould pole supporting track (6) is higher than the hand mould pole supporting track (4).

6. A glove production line comprising a main chain (5), a hand mold rod (7) attached to the side of the main chain (5), and a hand mold (8) attached to the end of the hand mold rod (7) remote from the main chain (5), characterized by further comprising the dipping apparatus according to any one of claims 1 to 5;

the main chain (5) is movably supported on the main chain supporting track (2) and meshed with the chain wheel (3);

the hand mould rod (7) is movably supported on the hand mould rod supporting track (4);

the liquid pool (1), the main chain supporting track (2) and the hand mould rod supporting track (4) and the hand mould (8) are matched in a way that the included angle between the hand mould (8) and the liquid level is smaller than 90 degrees, liquid enters the hand mould rod (7) and the side face of a finger enters the hand mould rod (7).

7. The glove production line according to claim 6,

the dipping apparatus is the dipping apparatus according to claim 5;

the two hand mold rods (7) are arranged on the same side face of the main chain (5), the end part, far away from the hand mold (8), of each hand mold rod (7) is sleeved on a fixed shaft on the main chain (5) through an L-shaped connecting frame (11), the axis of each fixed shaft is parallel to the extending direction of the main chain (5), each hand mold rod (7) in the two hand mold rods (7) is always located on the same side of the other hand mold rod (7) in the rotating process, bent parts of the L-shaped connecting frames (11) connected with the two hand mold rods (7) are arranged adjacently, and when the hand mold rods (7) are horizontally oriented, the hand molds (8) are oriented with the palm faces upwards or downwards;

two top hand mould rod supporting rails (6) are arranged on the same side of the main chain (5);

with the movement of the main chain (5), the two hand mold rods (7) on the same side are upwards inclined and movably supported on the two top hand mold rod supporting rails (6) in a one-to-one correspondence manner, after the two hand mold rods are separated from the two top hand mold rod supporting rails (6), the hand mold rod (7) positioned below in the two hand mold rods (7) on the same side is movably supported on the hand mold rod supporting rails (4), and the L-shaped connecting frame (11) of the hand mold rod (7) positioned above is supported on the L-shaped connecting frame (11) of the hand mold rod (7) positioned below.

8. The glove production line according to claim 6,

arranging a plurality of immersion devices layer by layer;

in every two adjacent immersion devices, the liquid pool (1) of the immersion device positioned on the upper layer is provided with an overflow port, and the liquid pool (1) of the immersion device positioned on the lower layer is arranged corresponding to the overflow port;

a water filling port is arranged in the liquid pool (1) of the uppermost liquid immersion device in the plurality of liquid immersion devices, and a water discharge port is arranged in the liquid pool (1) of the lowermost liquid immersion device in the plurality of liquid immersion devices.

9. The glove production line according to any one of claims 6 to 8,

the glove production line is a gum dipping glove production line, and the immersion device is arranged in a solidification area and a water soaking area.

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