CN112356359A - Impregnation equipment for processing insulating gloves - Google Patents

Abstract

The invention relates to impregnation equipment, in particular to impregnation equipment for processing insulating gloves. The dipping equipment for processing the insulating gloves needs to be designed, which can replace manual work to dip the gloves, avoid scalding the hands and cool the dipped gloves. A gum dipping device for processing insulating gloves comprises: a slotted bracket is fixedly connected to one side of the base; the first fixing block is arranged on the slotted bracket; the frame body is arranged on the slotted support; and the linkage mechanism is arranged on the slotted support and used for providing power. According to the glove dipping machine, a proper amount of insulating glue is added into the frame body, the glove is sleeved on the processing mechanism, the linkage mechanism is started to operate to drive the processing mechanism to rotate reversely, when the processing mechanism rotates reversely to drive the glove to rotate reversely to the front side, the processing mechanism enables the glove to be in contact with the insulating glue for dipping, therefore, the glove is not needed to be dipped manually by people, and the operation is simple and rapid.

Description

Impregnation equipment for processing insulating gloves

Technical Field

The invention relates to impregnation equipment, in particular to impregnation equipment for processing insulating gloves.

Background

The gloves are hand warming or labor protection articles and also have decoration. The insulating gloves are also called high-voltage insulating gloves, are five-finger gloves made of natural rubber and formed by pressing, molding, vulcanizing or dipping insulating rubber or latex into pieces, and are mainly used for electrician operation. The insulating gloves are common safety tools and important insulating protective equipment in electric power operation maintenance and overhaul tests, and along with the development of the electric power industry and the popularization of the hot-line work technology, stricter requirements are provided for the safety performance of the insulating gloves.

At present, the dipping procedure of the insulating gloves is very complex, people firstly wear the gloves which are not dipped on hands, then stretch out the hands to dip the gloves into the insulating glue, an operator takes the gloves out of the insulating glue, and then needs to take the dipped gloves off to cool the gloves, and the operator dips the gloves into the insulating glue by hands, so that the operation is troublesome, and the operator has the risk of being scalded by the insulating glue.

Therefore, it is necessary to design a dipping apparatus for processing an insulating glove, which can replace manual work to dip the glove, prevent the hand from being scalded, and cool the dipped glove.

Disclosure of Invention

In order to overcome the defects that the operation is troublesome and the operators are scalded by the insulating glue when the gloves are immersed into the insulating glue by hands, the technical problems of the invention are as follows: the dipping equipment for processing the insulating gloves can replace manual work to dip the gloves, avoid scalding the hands and cool the dipped gloves.

The technical implementation scheme of the invention is as follows: a gum dipping device for processing insulating gloves comprises: a slotted bracket is fixedly connected to one side of the base; the first fixing block is arranged on the slotted bracket; the frame body is arranged on the slotted support; the linkage mechanism is arranged on the slotted bracket and used for providing power; and the processing mechanism is arranged on the linkage mechanism and is used for driving the gloves to move.

Optionally, the linkage mechanism comprises: the first fixing frame is arranged on the slotted bracket; the second fixing frame is arranged on the first fixing frame; the reverse motor is arranged on the second fixing frame; the first transmission shaft is arranged on the slotted support, and one end of the first transmission shaft is fixedly connected with an output shaft of the reverse motor; the rotating chain wheel is arranged on the first transmission shaft; the second transmission shaft is rotatably arranged on the first fixing frame; the chain is wound between the first transmission shaft and the second transmission shaft and is fixedly connected with the processing mechanism; the guide rail is arranged at the lower part of the first fixed frame and is in contact fit with the processing mechanism; the U-shaped fixed block is installed on the guide rail, the number of the U-shaped fixed block is two, and the U-shaped fixed block is matched with the machining mechanism.

Optionally, the processing mechanism includes: the first fixing rods are arranged on the chains at intervals, and the number of the first fixing rods is four; the second fixed block is arranged on the first fixed rod; the second fixing rod is rotatably arranged on the second fixing block; the pulley is rotatably arranged on the second fixing rod and is in sliding fit with the guide rail; the rack is arranged on the second fixed block; the third fixed block is arranged on the rack; the third fixing rod is rotatably arranged on the third fixing block; the cylinder is hinged on the third fixing rod; the first spring is arranged on the rack, and one side of the cylinder is connected with the tail end of the first spring; and the arc ejector rod is arranged on the cylinder and matched with the U-shaped fixed block.

Optionally, the device further comprises a clamping mechanism, wherein the clamping mechanism comprises: the hollow cylinder is arranged on the cylinder; the hollow cylinder is arranged on one side in the cylinder; the sliding block is placed in the hollow cylinder in a sliding manner; the second spring is arranged on the sliding block, and one side of the hollow cylinder is connected with the tail end of the second spring; the L-shaped rod is arranged on the sliding block, the tail end of the L-shaped rod penetrates through one side of the cylinder, and the L-shaped rod is matched with the first fixing block; the cross rod is arranged on the sliding block; the fourth fixing rod is arranged at four ends of the cross rod; the swinging rod is hinged on the fourth fixed rod and matched with the cylinder; and the number of the third springs is two, one of the third springs is arranged between one sides of two of the swing rods, and the other spring is arranged between one sides of the other two swing rods.

Optionally, still including feeding mechanism, feeding mechanism includes: the fifth fixing rod is rotatably arranged on the slotted bracket; the arc-shaped supporting rods are arranged in the circumferential direction of the fifth fixing rod at intervals; the driving wheel is arranged at the end part of the fifth fixing rod; the fourth transmission shaft is rotatably arranged on the slotted bracket; the transmission assembly is wound between the fourth transmission shaft and the transmission wheel; and the fluted disc is arranged at the end part of the fourth transmission shaft and is matched with the rack.

Optionally, a cooling device is further included, and the cooling device includes: the fan is arranged on the slotted support; the hose is arranged on the fan, and the tail end of the hose penetrates through the circle center of the second transmission shaft; and the air outlet rod is arranged on the slotted support, and one side of the air outlet rod is connected and communicated with the tail end of the hose.

Optionally, the device further comprises a collecting device, wherein the collecting device comprises: the sliding groove plates are arranged on the slotted bracket, and the number of the sliding groove plates is two; the collecting frame is slidably placed between the two sliding groove plates; the pull rod is installed on one side outside the collecting frame.

The invention has the beneficial effects that:

1. the glove is sleeved on the processing mechanism by adding a proper amount of insulating glue into the frame body, the linkage mechanism is started to operate to drive the processing mechanism to rotate reversely, and when the processing mechanism rotates reversely to drive the glove to rotate reversely to the front side, the processing mechanism enables the glove to be in contact with the insulating glue for gum dipping.

2. Through the effect of clamping mechanism, can press from both sides tight the gum dipping with gloves, so, can avoid gloves to drop down from the drum and influence the gum dipping.

3. Through cooling device's effect, can cool off the insulating cement on the gloves after the gumming, so, need not that operating personnel takes off the gloves that the gumming was accomplished with the hand and take off the cooling, avoided operating personnel to be scalded.

Drawings

Fig. 1 is a schematic perspective view of a first embodiment of the present invention.

Fig. 2 is a schematic perspective view of a first linkage mechanism according to the present invention.

Fig. 3 is a schematic perspective view of a linkage mechanism according to a second embodiment of the present invention.

Fig. 4 is a schematic perspective view of a linkage mechanism according to a third embodiment of the present invention.

Fig. 5 is a schematic perspective view of a second embodiment of the present invention.

Fig. 6 is a schematic perspective view of the cooling device of the present invention.

Fig. 7 is a schematic perspective view of a first feeding mechanism according to the present invention.

Fig. 8 is a schematic diagram of a fourth three-dimensional structure of the novel linkage mechanism of the present invention.

Fig. 9 is a schematic perspective view of a second feeding mechanism of the present invention.

Fig. 10 is an enlarged schematic view of a third three-dimensional structure of the feeding mechanism of the present invention.

Fig. 11 is a schematic perspective view of the processing mechanism of the present invention.

Fig. 12 is a perspective view of the clamping mechanism of the present invention.

The meaning of the reference symbols in the figures: 1_ base, 2_ slotted bracket, 21_ first fixed block, 22_ frame, 3_ linkage mechanism, 31_ first fixed block, 32_ second fixed block, 33_ reverse motor, 34_ first transmission shaft, 35_ rotating sprocket, 36_ second transmission shaft, 37_ chain, 38_ guide rail, 39_ U-shaped fixed block, 4_ processing mechanism, 41_ first fixed rod, 42_ second fixed block, 43_ second fixed rod, 44_ pulley, 45_ rack, 46_ third fixed block, 47_ third fixed rod, 48_ cylinder, 49_ first spring, 410_ arc push rod, 5_ clamping mechanism, 51_ hollow cylinder, 52_ second spring, 53_ slider, 54_ L-shaped rod, 55_ cross rod, 56_ fourth fixed rod, 57_ swing rod, 58_ third spring, 6_ feeding mechanism, 61_ fifth fixed rod, 62_ arc support rod, 63_ transmission wheel, 64_ fourth drive shaft, 65_ drive assembly, 66_ toothed disc, 7_ cooling device, 71_ blower, 72_ hose, 73_ air outlet rod, 8_ collection device, 81_ chute plate, 82_ collection frame, 83_ pull rod.

Detailed Description

The following are merely preferred embodiments of the present invention, and do not limit the scope of the present invention.

Example 1

The utility model provides an insulating gloves processing is with gumming equipment, as shown in figure 1, figure 2, figure 3, figure 4, figure 5 and figure 11, including base 1, fluting support 2, first fixed block 21, framework 22, link gear 3 and processing agency 4, base 1 top rigid coupling has fluting support 2, the rigid coupling of the outer top front side of fluting support 2 has framework 22, the rigid coupling has first fixed block 21 in the middle of the rear side of fluting support 2 top, fluting support 2 top is equipped with link gear 3, the last processing agency 4 that is equipped with of link gear 3.

The linkage mechanism 3 comprises a first fixing frame 31, a second fixing frame 32, a reverse motor 33, a first transmission shaft 34, a rotating chain wheel 35, a second transmission shaft 36, a chain 37, a guide rail 38 and a U-shaped fixing block 39, the first transmission shaft 34 is rotatably arranged at the left part of the front part of the outer top part of the slotted support 2, the first fixing frame 31 is fixedly connected with the front side of the outer top part of the slotted support 2, the first fixing frame 31 is positioned at the rear side of the frame body 22, the right side of the bottom part of the first fixing frame 31 is rotatably connected with the second transmission shaft 36, the left side of the bottom part of the first fixing frame 31 is rotatably connected with the top part of the first transmission shaft 34, the left side of the top part of the first fixing frame 31 is fixedly connected with the second fixing frame 32, the left side of the second fixing frame 32 is fixedly connected with the reverse motor 33, the output shaft of the reverse motor 33 is fixedly connected with the circle, the bottom of the chain 37 is fixedly connected with the processing mechanism 4, the lower part of the first fixing frame 31 is fixedly connected with a guide rail 38, the guide rail 38 is matched with the processing mechanism 4, the guide rail 38 is positioned below the chain 37, the middle parts of the bottoms of the front side and the rear side of the guide rail 38 are fixedly connected with a U-shaped fixing block 39, and the U-shaped fixing block 39 is matched with the processing mechanism 4.

The processing mechanism 4 comprises a first fixed rod 41, a second fixed block 42, a second fixed rod 43, a pulley 44, a rack 45, a third fixed block 46, a third fixed rod 47, a cylinder 48, a first spring 49 and an arc ejector rod 410, wherein four first fixed rods 41 are fixedly connected at the bottom of the chain 37 at even intervals, the second fixed block 42 is fixedly connected at the bottom of the first fixed rod 41, the second fixed rod 43 is rotatably penetrated in the middle of the second fixed block 42, the pulley 44 is fixedly connected at the inner end of the second fixed rod 43, the pulley 44 is slidably connected with the guide rail 38, the rack 45 is fixedly connected at the bottom of the second fixed block 42, the third fixed block 46 is fixedly connected at the bottom of the rack 45, the third fixed rod 47 is rotatably arranged at the lower part of the third fixed block 46, the cylinder 48 is circumferentially hinged at the middle of the third fixed rod 47, the first spring 49 is fixedly connected between the left side of the bottom of the rack 45 and the left side of, the arc ejector rod 410 is matched with the U-shaped fixing block 39.

Firstly, an operator pours a proper amount of insulating glue into the frame body 22, the gloves are fixed on the processing mechanism 4, the linkage mechanism 3 is started, the linkage mechanism 3 operates to drive the processing mechanism 4 to rotate reversely, the processing mechanism 4 rotates reversely to drive the gloves to rotate reversely, when the gloves rotate reversely to the upper portion of the frame body 22, the processing mechanism 4 operates to drive the gloves to move into the frame body 22, the insulating glue is contacted with the gloves, the insulating glue is adhered on the gloves to enable the gloves to have an insulating effect, the processing mechanism 4 continues to rotate reversely to drive the gloves to rotate reversely to be separated from the insulating glue, when the impregnated gloves rotate reversely to the right side of the rear portion, the operator takes the gloves off the processing mechanism 4, then sleeves new gloves, and the operation is repeated, and the gloves can be continuously adhered with. After all gloves are dipped, the linkage mechanism 3 is closed, and the processing mechanism 4 stops operating.

When an operator fixes gloves on the processing mechanism 4, the reverse motor 33 is started, an output shaft of the reverse motor 33 rotates to drive the first transmission shaft 34 to rotate reversely, the first transmission shaft 34 rotates reversely to drive the rotary chain wheel 35 to rotate reversely, the rotary chain wheel 35 rotates reversely to drive the chain 37 to rotate reversely through the second transmission shaft 36, the chain 37 rotates reversely to drive the processing mechanism 4 to rotate reversely, the processing mechanism 4 rotates reversely to drive the gloves to rotate reversely to contact with the insulating glue for gum dipping, after all the gloves are gum dipped, the reverse motor 33 is closed, the first transmission shaft 34 stops rotating reversely, and the chain 37 also stops driving the processing mechanism 4 to rotate reversely.

Firstly, an operator fixes gloves on a rear side cylinder 48, when a reverse motor 33 is started, a chain 37 reversely rotates to drive a first fixing rod 41 to reversely rotate, the first fixing rod 41 reversely rotates to drive a second fixing block 42 to reversely rotate, the second fixing block 42 reversely rotates to drive a second fixing rod 43 to reversely rotate, the second fixing rod 43 reversely rotates to drive a pulley 44 to reversely rotate, the pulley 44 reversely rotates to slide on a guide rail 38, the second fixing block 42 reversely rotates to drive a rack 45 to reversely rotate, the rack 45 reversely rotates to drive a third fixing block 46 to reversely rotate, the third fixing block 46 reversely rotates to drive a cylinder 48 to reversely rotate, the cylinder 48 reversely rotates to drive the gloves to reversely rotate, the cylinder 48 also drives an arc ejector rod 410 to reversely rotate, when the arc ejector rod 410 reversely rotates to contact with a front side U-shaped fixing block 39, the U-shaped fixing block 39 enables the arc ejector rod 410 to swing downwards, the arc ejector rod 410 swings downwards to drive the cylinder 48 to, the gloves swing downwards to contact with the insulating glue for gum dipping, then the arc ejector rods 410 continuously rotate reversely to be separated from the U-shaped fixing blocks 39, the cylinders 48 swing upwards to drive the gloves to swing upwards to reset under the action of the first springs 49, the gloves are separated from the insulating glue, and the cylinders 48 reset to drive the arc ejector rods 410 to swing upwards to reset. When the glove after gum dipping is reversed to the rear side, the arc ejector rod 410 is in contact with the rear side U-shaped fixing block 39, the cylinder 48 drives the glove to swing downwards, an operator takes the glove down to fix a new glove on the cylinder 48, and when the arc ejector rod 410 is continuously reversed to be separated from the rear side U-shaped fixing block 39, the cylinder 48 swings upwards to reset. When all gloves are dipped, the reverse motor 33 is turned off, the chain 37 stops driving the first fixing rod 41 to rotate reversely, and the cylinder 48 stops rotating reversely.

Example 2

On the basis of the embodiment 1, as shown in fig. 1, 8, 9, 10 and 12, the clamping mechanism 5 is further included, the clamping mechanism 5 includes an empty cylinder 51 and a second spring 52, the automatic lifting device comprises a sliding block 53, an L-shaped rod 54, a cross rod 55, a fourth fixing rod 56, a swinging rod 57 and a third spring 58, wherein an empty cylinder 51 is fixedly connected inside a cylinder 48, the sliding block 53 is slidably arranged inside the empty cylinder 51, the second spring 52 is fixedly connected between one side of the sliding block 53 and the cylinder 48, the L-shaped rod 54 is fixedly connected to the outer side of the sliding block 53, the L-shaped rod 54 is matched with the first fixing block 21, the front end of the L-shaped rod 54 penetrates out of the cylinder 48, the cross rod 55 is fixedly connected to one side of the sliding block 53, the fourth fixing rod 56 is fixedly connected to four ends of the cross rod 55, the swinging rod 57 is hinged to the fourth fixing rod 56, the third spring 58 is fixedly connected between the upper swinging rod 57 and the lower swinging rod.

Still including feeding mechanism 6, feeding mechanism 6 is including fifth dead lever 61, arc bracing piece 62, the drive wheel 63, fourth transmission shaft 64, drive assembly 65 and fluted disc 66, the middle rotary type in the middle of the top rear side outside slotted support 2 is connected with fourth transmission shaft 64, fourth transmission shaft 64 upper portion circumference rigid coupling has fluted disc 66, fluted disc 66 and rack 45 cooperation, slotted support 2 top rear side left part rotary type outside slotted support 2 is connected with fifth dead lever 61, the even spaced rigid coupling in fifth dead lever 61 upper portion circumference has four arc bracing pieces 62, fifth dead lever 61 top centre of a circle position rigid coupling has drive wheel 63, around drive assembly 65 between drive wheel 63 and the fourth transmission shaft 64 upper portion circumference, drive assembly 65 is located fluted disc 66 below.

Initially, the rear left L-shaped rod 54 contacts with the left part of the first fixed block 21, the rear left second spring 52 and the rear left third spring 58 are in a compressed state, firstly, an operator sleeves gloves on the rear left cylinder 48, the gloves contact with the four swing rods 57, when the reverse motor 33 is started, the reverse rotation of the cylinder 48 also drives the reverse rotation of the L-shaped rod 54, when the reverse rotation of the L-shaped rod 54 is separated from the first fixed block 21, the slide block 53 moves outwards to drive the cross rod 55 to move outwards due to the action of the second spring 52, the cross rod 55 moves outwards to drive the swing rod 57 to move outwards through the fourth fixed rod 56, the swing rod 57 moves outwards to separate from the cylinder 48, due to the action of the third spring 58, the swing rod 57 swings outwards to support the gloves, when the glove gum dipping is completed, the cylinder 48 continuously rotates the glove reversely, and further the reverse rotation of the L-shaped rod 54 is continuously contacted with the right part of the first fixed block 21, the first fixed block 21 blocks the L-shaped rod 54, the L-shaped rod 54 stops reversing, the swinging rod 57 stops reversing, the cylinder 48 continuously reverses to enable the second spring 52 to be compressed, the cylinder 48 reversely rotates to drive the swinging rod 57 to swing inwards, the third spring 58 is compressed, the swinging rod 57 swings inwards to be separated from the glove, the glove falls off from the cylinder 48, the cylinder 48 continuously reverses to enable the L-shaped rod 54 to be separated from the right part of the first fixed block 21, and the L-shaped rod 54 and the swinging rod 57 reset under the action of the second spring 52 and the third spring 58. When the drum 48 stops reversing, the L-shaped lever 54 also stops reversing. In this way, the gloves can be prevented from falling off the cylinder 48 to affect the dipping.

Firstly, an operator hangs gloves on the arc-shaped supporting rod 62, when the reverse motor 33 is started, when the rack 45 rotates reversely to the middle position of the rear side, the rack 45 is meshed with the fluted disc 66, the rack 45 rotates reversely to drive the fluted disc 66 to rotate forwardly, the fluted disc 66 rotates forwardly to drive the fourth transmission shaft 64 to rotate forwardly, the fourth transmission shaft 64 rotates forwardly to drive the transmission wheel 63 to rotate forwardly through the transmission assembly 65, the transmission wheel 63 rotates forwardly to drive the fifth fixing rod 61 to rotate forwardly, the fifth fixing rod 61 rotates forwardly to drive the arc-shaped supporting rod 62 to rotate forwardly, the arc-shaped supporting rod 62 rotates forwardly to drive the gloves to rotate forwardly to the front side, at the moment, the rack 45 rotates reversely continuously to be separated from the fluted disc 66, the arc-shaped supporting rod 62 stops rotating forwardly, when the cylinder 48 rotates reversely to the left side of the rear side. Thus, the operator does not need to sleeve the glove on the cylinder 48 by hand, which is convenient and fast.

Example 3

On the basis of embodiment 1 and embodiment 2, as shown in fig. 1, fig. 5, fig. 6 and fig. 7, the cooling device 7 is further included, the cooling device 7 includes a fan 71, a hose 72 and an air outlet rod 73, the air outlet rod 73 is fixedly connected to the right portion of the front side of the outer top portion of the slotted support 2, the air outlet rod 73 is located on the rear side of the frame 22, the fan 71 is fixedly connected to the right portion of the rear side of the outer top portion of the slotted support 2, the hose 72 is fixedly connected between the center of the top portion of the fan 71 and the center of the circle of the top portion of the air outlet rod 73, the hose 72 penetrates through the center of the circle of the second transmission shaft 36 to be rotatably connected with the center of the second.

Still including collection device 8, collection device 8 is equipped with runner plate 81 including runner plate 81, collection frame 82 and pull rod 83 in the middle of the top rear side in slotted support 2 the left and right sides all, and slidingtype is equipped with between two runner plates 81 collects frame 82, collects frame 82 outer trailing flank upper portion rigid coupling and has pull rod 83.

Firstly, an operator starts the fan 71, the fan 71 operates to convey wind into the air outlet rod 73 through the hose 72, the wind blows out from holes of the air outlet rod 73, after gum dipping of the gloves is completed, the gloves are turned to the right side in a reverse mode, the wind blows out to cool insulation glue on the gloves, and when all the gloves are subjected to gum dipping, the fan 71 is turned off, and the wind stops blowing out. Therefore, the gloves after gum dipping are not required to be taken down by an operator and then cooled, and the operator is prevented from being scalded.

When the gloves drop from the cylinder 48, the gloves drop into the collecting frame 82, and after all the gloves are dipped, the operator pulls the pull rod 83 backwards to pull out the collecting frame 82, takes out the dipped gloves from the collecting frame 82, and pushes the pull rod 83 to move forwards to drive the collecting frame 82 to move forwards to reset after all the gloves are taken out. Therefore, the gloves with the gum dipping can be collected by operators more conveniently.

Although embodiments of the present invention have been shown and described, it would be appreciated by those skilled in the art that changes may be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the claims and their equivalents.

Claims (7)

1. The utility model provides an insulating gloves processing is with gumming equipment which characterized in that, including:

the device comprises a base (1), wherein a slotted support (2) is fixedly connected to one side of the base (1);

the first fixing block (21), the first fixing block (21) is installed on the slotted bracket (2);

the frame body (22), the frame body (22) is installed on the slotted support (2);

the linkage mechanism (3) is arranged on the slotted bracket (2) and is used for providing power;

and the processing mechanism (4) is arranged on the linkage mechanism (3) and is used for driving the gloves to move.

2. The dipping apparatus for processing insulating gloves according to claim 1, wherein the linkage mechanism (3) comprises:

the first fixing frame (31), the first fixing frame (31) is installed on the slotted bracket (2);

the second fixing frame (32), the second fixing frame (32) is installed on the first fixing frame (31);

the reverse motor (33), the reverse motor (33) is installed on the second fixed mount (32);

the first transmission shaft (34) is arranged on the slotted support (2), and one end of the first transmission shaft (34) is fixedly connected with an output shaft of the reverse motor (33);

a rotating chain wheel (35), wherein the rotating chain wheel (35) is arranged on the first transmission shaft (34);

the second transmission shaft (36), the second transmission shaft (36) is installed on the first fixed mount (31) rotatably;

the chain (37), the chain (37) is wound between the first transmission shaft (34) and the second transmission shaft (36), and the chain (37) is fixedly connected with the processing mechanism (4);

the guide rail (38), the guide rail (38) is installed on the inferior part of the first fixed mount (31), it contacts and cooperates with processing mechanism (4);

u type fixed block (39), U type fixed block (39) are installed on guide rail (38), and its quantity is two, and U type fixed block (39) and processing agency (4) cooperation.

3. The dipping apparatus for processing insulating gloves according to claim 2, wherein the processing mechanism (4) comprises:

the first fixing rods (41), the first fixing rods (41) are installed on the chain (37) at intervals, and the number of the first fixing rods is four;

the second fixing block (42), the second fixing block (42) is installed on the first dead lever (41);

the second fixing rod (43), the second fixing rod (43) is installed on the second fixed block (42) rotatably;

the pulley (44), the pulley (44) is installed on the second dead lever (43) rotatably, the pulley (44) cooperates with guide rail (38) slidably;

the rack (45), the rack (45) is installed on the second fixed block (42);

the third fixing block (46), the third fixing block (46) is installed on the rack (45);

the third fixing rod (47), the third fixing rod (47) is installed on the third fixed block (46) rotatably;

the cylinder (48), the cylinder (48) is mounted on the third dead lever (47) in a hinged manner;

the first spring (49), the first spring (49) is installed on the rack (45), one side of the cylinder (48) is connected with the tail end of the first spring (49);

the arc ejector rod (410), the arc ejector rod (410) is installed on the cylinder (48), and the arc ejector rod (410) is matched with the U-shaped fixing block (39).

4. The dipping apparatus for processing insulating gloves according to claim 3, further comprising a clamping mechanism (5), wherein the clamping mechanism (5) comprises:

a hollow cylinder (51), the hollow cylinder (51) being mounted on the cylinder (48);

a hollow cylinder (51), wherein the hollow cylinder (51) is arranged on one side in the cylinder (48);

the sliding block (53), the sliding block (53) is placed in the hollow cylinder (51) in a sliding manner;

the second spring (52), the second spring (52) is installed on slide block (53), one side of the empty tube (51) is connected with the tail end of the second spring (52);

the L-shaped rod (54) is mounted on the sliding block (53), the tail end of the L-shaped rod (54) penetrates through one side of the cylinder (48), and the L-shaped rod (54) is matched with the first fixing block (21);

the cross rod (55), the cross rod (55) is installed on the slide block (53);

the fourth fixing rod (56), the fourth fixing rod (56) is installed at four ends of the cross rod (55);

the swinging rod (57), the swinging rod (57) is hinged on the fourth fixed rod (56), and the swinging rod (57) is matched with the cylinder (48);

and the number of the third springs (58) is two, one of the third springs (58) is arranged between one sides of the two swing rods (57), and the other one is arranged between one sides of the other two swing rods (57).

5. The dipping apparatus for processing insulating gloves according to claim 4, characterized in that it further comprises a feeding mechanism (6), the feeding mechanism (6) comprises:

the fifth fixing rod (61), the fifth fixing rod (61) is installed on the slotted bracket (2) in a rotating mode;

the arc-shaped supporting rods (62), the arc-shaped supporting rods (62) are arranged at intervals in the circumferential direction of the fifth fixing rod (61);

the driving wheel (63), the driving wheel (63) is installed at the end part of the fifth fixing rod (61);

the fourth transmission shaft (64), the fourth transmission shaft (64) is installed on slotted support (2) rotatably;

the transmission assembly (65), the transmission assembly (65) is wound between the fourth transmission shaft (64) and the transmission wheel (63);

the fluted disc (66), fluted disc (66) are installed in fourth transmission shaft (64) tip, and fluted disc (66) and rack (45) cooperation.

6. The dipping apparatus for processing insulating gloves according to claim 5, further comprising a cooling device (7), wherein the cooling device (7) comprises:

the fan (71), the fan (71) is installed on the slotted support (2);

the hose (72) is arranged on the fan (71), and the tail end of the hose (72) penetrates through the circle center position of the second transmission shaft (36);

and the air outlet rod (73) is arranged on the slotted support (2), and one side of the air outlet rod (73) is connected and communicated with the tail end of the hose (72).

7. The impregnation equipment for processing insulating gloves according to claim 6, characterized in that it further comprises a collection device (8), the collection device (8) comprising:

the sliding groove plates (81) are arranged on the slotted bracket (2), and the number of the sliding groove plates (81) is two;

the collecting frame (82), the collecting frame (82) is placed between the two sliding groove plates (81) in a sliding way;

the pull rod (83), pull rod (83) are installed in the outer side of collection frame (82).

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