CN214353698U - Glove impregnation production line - Google Patents

Abstract

The utility model relates to a production facility of gloves has the effect that work efficiency is high. The utility model discloses a glove impregnation production line, which comprises a bracket, wherein the bracket is provided with two rows of annular conveying chains along the length direction, the conveying chains rotate by being driven by a motor, a plurality of fixed rods are erected between the two rows of conveying chains, a plurality of clamping frames for the two ends of the fixed rods to be respectively clamped are fixedly arranged on the conveying chains, and a row of hand molds for fixing gloves are arranged on the fixed rods; the support is provided with a liquid storage frame, a glue storage frame and a salt spraying bin which are erected above the conveying chain in sequence along the rotating direction of the conveying chain, the liquid storage frame is used for storing coagulants, the glue storage frame is used for storing glue, salt spraying bin is internally provided with salt powder capable of rolling, and moving mechanisms used for respectively inserting hand molds on the fixing rods into the liquid storage frame, the glue storage frame and the salt spraying bin are arranged outside the liquid storage frame, the glue storage frame and the salt spraying bin. The automatic processing of the gloves is realized.

Description

Glove impregnation production line

Technical Field

The utility model relates to a production facility of gloves, more specifically say, it relates to a gloves impregnation production line.

Background

The latex dipping gloves are also called latex gloves, which are one kind of gloves. It is different from general gloves, and is made up by using latex through a certain preparation process. In the prior art, after a glove body is produced, a coagulant is soaked firstly, the coagulant is volatilized and solidified naturally, then the glove is soaked in glue, then the glove is vibrated, the glue is enabled to cover the glove evenly, salt is sprayed on the surface of the glove, and the glove is dried, so that the production of the dipped glove can be completed.

Every step of above-mentioned production process all relies on the manual work to accomplish, and present cost of labor is higher and higher now, and the people can't work twenty-four hours a day simultaneously, has the problem that production efficiency is low.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art exists, the utility model aims to provide a gloves impregnation production line has the effect that work efficiency is high.

In order to achieve the technical purpose, the utility model provides a following technical scheme: a glove gum dipping production line comprises a support, wherein two rows of annular conveying chains are arranged on the support along the length direction of the support, the conveying chains rotate by being driven by a motor, a plurality of fixing rods are erected between the two rows of conveying chains, a plurality of clamping frames for clamping two ends of the fixing rods are fixedly arranged on the conveying chains respectively, and a row of hand molds for fixing gloves are arranged on the fixing rods;

the support is provided with a liquid storage frame, a glue storage frame and a salt spraying bin which are erected above the conveying chain in sequence along the rotating direction of the conveying chain, the liquid storage frame is used for storing coagulants, the glue storage frame is used for storing glue, salt spraying bin is internally provided with salt powder capable of rolling, and moving mechanisms used for respectively inserting hand molds on the fixing rods into the liquid storage frame, the glue storage frame and the salt spraying bin are arranged outside the liquid storage frame, the glue storage frame and the salt spraying bin.

By adopting the technical scheme, gloves are firstly sleeved on a hand mould, then a fixed rod is erected between conveying chains, two ends of the fixed rod are clamped into two corresponding clamping frames, the fixed rod can advance along with the conveying chains, when the fixed rod drives the gloves to advance to a moving mechanism at the position of a liquid storage frame, the moving mechanism can lift the fixed rod and send the hand mould into the liquid storage frame, a coagulant is covered outside the gloves, the moving mechanism puts the fixed rod back on the conveying chains, the conveying chains continue to rotate, the fixed rod is sent to the position of the liquid storage frame, the hand mould is put into the liquid storage frame by the moving mechanism, the coagulant and glue are covered outside the gloves, the fixed rod is put back on the conveying chains by the moving mechanism, the conveying chains continue to rotate, the fixed rod is sent to the position of a salt spraying bin by the moving mechanism, the fixed rod is lifted by the moving mechanism again, the hand mould is inserted into the salt spraying bin, and rolling salt powder can cover the surfaces of the gloves, the moving mechanism takes out the hand mold again, and puts the fixed rod back to the conveying chain, can accomplish the processing of gloves, only needs the manual work to overlap gloves on the hand mold, and other do not need manual operation, have improved work efficiency.

Preferably, the moving mechanism comprises a first driving part located outside the liquid storage frame, the first driving part comprises a first fixing frame used for grabbing the fixing rod, the first driving part is provided with two first supporting rods perpendicular to the first fixing frame, the bottom ends of the two first supporting rods are fixed on the support, a first air cylinder used for driving the first fixing frame to vertically lift is arranged between the two first supporting rods, the top ends of the two first supporting rods are fixedly connected through a top strip, and the end part of the output end of the first air cylinder is fixed on the top strip;

the cylinder body of the first cylinder is fixedly provided with a fixing plate, the first support rod is located between the fixing plate and the first cylinder, the fixing plate is hinged to a second cylinder, the fixing plate is provided with two square rods parallel to the first support rod, the two square rods are connected with an Contraband-shaped transmission frame in a rotating mode, the output end of the second cylinder is hinged to the transmission frame, and the end portion of the transmission frame is fixedly connected with the first fixing frame.

Through adopting above-mentioned technical scheme, cylinder one promotes the top of stock solution frame with the hand former, starts cylinder two, will fix frame upset 90, vertical decurrent hand former will rotate the horizontal direction to be located directly over the stock solution frame. The cylinder resets, and the hand former is dropped into the stock solution frame and is placed for a while, just can realize paining the operation of coagulant, carries out paining of coagulant to a plurality of gloves simultaneously, has realized the automation of gloves coagulant and has paintd.

Preferably, the inner side of the first fixed frame is provided with a first Contraband-shaped rotating frame, the inner side of the first rotating frame is provided with a pneumatic clamping jaw for clamping the fixed rod, two sides of the first rotating frame in the length direction are respectively connected with one end of the first fixed frame in a rotating mode, and the first fixed frame is provided with a rotating cylinder for driving the first rotating frame to rotate.

Through adopting above-mentioned technical scheme, place the stock solution frame with the hand former horizontally after, mention the back with the hand former again, start revolving cylinder, drive and rotate frame one and the dead lever continues the upset, the hand former will point the end up this moment, and the coagulating glue on the gloves can be because the dead weight flows along gloves to all cover whole gloves, guaranteed the homogeneity of coagulating glue on the gloves.

Preferably, the first cylinder adopts a double-stroke cylinder, and the stroke of the upper end cylinder of the first cylinder is shorter than that of the lower end cylinder.

By adopting the technical scheme, when the hand mold needs to be lifted, the large stroke of the lower end cylinder of the first cylinder is used, and when the hand mold needs to be inserted into the liquid storage frame, the stroke of the upper end cylinder of the first cylinder is used, the first cylinder is combined by the two cylinders, so that the moving range of the first cylinder is expanded, the technical requirements on the first cylinder are reduced, and the complex cylinder is not needed.

Preferably, the two ends of the first rotating frame are respectively provided with a balancing weight, and the rotating point of the first rotating frame is located at the midpoint of a side lever of the first rotating frame.

Through adopting above-mentioned technical scheme, keep rotating the weight on rotation point both sides of frame one with the help of the balancing weight about the same, can reduce the upset and rotate frame required power in one time, reduce the power demand to promoting the cylinder, can reduce the size that promotes the cylinder, improved structural rationality.

Preferably, the first two support rods are respectively provided with a guide rail along the length direction of the first support rod, and the fixed plate is provided with a guide block which can only slide along the length direction of the guide rail.

Through adopting above-mentioned technical scheme, the guide block can only slide along the guide rail, makes the moving direction of cylinder one and cylinder two invariable, when cylinder one oscilaltion, can not rock, has improved the removal degree of accuracy of driving piece one, has avoided the hand former can't be accurate to spraying in the salt storehouse, has improved the structural accuracy.

Preferably, the moving mechanism comprises a driving part II located outside the glue storage frame, the structure of the driving part II is the same as that of the driving part I, the driving part II comprises two supporting rods II, a top seat parallel to the support is arranged above the driving part II, a sliding rail is arranged on the top seat, the driving part II is provided with a top plate parallel to the sliding rail, a sliding block sliding along the sliding rail is arranged on the upper surface of the top plate, the sliding block is two, the upper end of the supporting rod II is fixed on the top plate, a cylinder III driving the top plate to slide is arranged on the top seat, and the end part of the output end of the cylinder III is fixed relative to the top plate.

Through adopting above-mentioned technical scheme, realized with the help of cylinder three that driving piece two slides along conveying chain length direction, can remove the dead lever on a set of conveying chain to another group conveying chain on, reduced the length of every group conveying chain, reduced the power demand to conveying chain and motor, avoided the too tight that the conveying chain rises, improved structural rationality.

Preferably, the second support rod extends laterally to form a secondary rod, a top plate is also arranged at the top end of the secondary rod, a triangular support is formed between the secondary rod and the second support rod through a steel pipe, and the output end of the third air cylinder is fixedly connected with the top of the secondary rod.

Through adopting above-mentioned technical scheme, with the help of the cooperation of auxiliary pipe and bracing piece two, guaranteed the steadiness of bracing piece two, avoid bracing piece two because two centrobaric eccentrics of driving piece are crooked, lead to pneumatic clamping jaw can not accurately grab the dead lever, improved the structure steadiness.

Preferably, a blower is arranged on one side of the salt spraying bin and used for enabling salt powder to circularly roll in the salt spraying bin, a driving part III with the same structure as the driving part is arranged outside the salt spraying bin, the driving part III comprises a fixed frame III, an Contraband-shaped rotating frame III is arranged on the inner side of the fixed frame III, and a pneumatic clamping jaw for clamping a fixed rod is arranged on the inner side of the rotating frame III;

the three fixed frames are rotatably connected with the three rotating frames, rotating shafts penetrate through two ends of the three fixed frames respectively and perpendicularly, the rotating shafts are fixedly connected with the three rotating frames, push rods linked with the rotating shafts are arranged outside the three fixed frames, and pushing cylinders enabling the push rods to rotate are hinged to the three fixed frames.

Through adopting above-mentioned technical scheme, cylinder one rises the hand former to salt spray bin top back, and cylinder two rotates fixed frame three and rotation frame three simultaneously, makes the hand former be in the horizontality, and the restart promotes the cylinder, will rotate frame three phase to fixed frame three reversal, makes the hand former get back to the vertical state to be located directly over the salt spray bin, cylinder one resets, inserts the hand former in the salt spray bin, carries out the salt spray process. By means of the cooperation of the second air cylinder and the pushing air cylinder, the hand die is inserted into the salt spraying bin, the occupied space of the third driving piece is saved, the collision with adjacent parts is avoided, and structural rationality is improved.

To sum up, the utility model discloses following effect has been gained:

1. by means of the matching of the moving mechanism and the conveying chain, the automatic processing of the gloves is realized;

2. by means of the cooperation of the first driving piece, the second driving piece and the third driving piece, the glove processing effect is improved.

Drawings

FIG. 1 is a schematic view for showing the overall structure in the present embodiment;

fig. 2 is a partially enlarged view of a portion a of fig. 1 for illustrating the mating relationship of the conveyor chain and the fixing bar;

FIG. 3 is a schematic diagram of an embodiment of the present invention showing a driving member;

FIG. 4 is a schematic diagram of an embodiment of the present invention showing a driving member;

FIG. 5 is an enlarged view of a portion of the portion B of FIG. 4 showing a fitting relationship between the fixing plate and the supporting rod;

FIG. 6 is a schematic diagram of a second embodiment of the driving member of the present embodiment;

FIG. 7 is an enlarged view of a portion of FIG. 6 at C for illustrating the mating relationship of the head block and the cylinder block;

FIG. 8 is a schematic view of the present embodiment showing the relationship between the salt spray bin and the driving member;

fig. 9 is a schematic diagram showing three specific structures of the driving member in this embodiment.

In the figure, 1, a bracket; 11. a conveying chain; 12. fixing the rod; 13. clamping a frame; 14. a hand model; 15. a liquid storage frame; 16. a glue storage frame; 17. spraying a salt bin; 2. a first driving part; 21. a first fixing frame; 22. a first supporting rod; 23. a first cylinder; 24. carrying out top strip; 25. a fixing plate; 26. a second air cylinder; 27. a square bar; 28. a transfer frame; 29. Rotating the frame I; 30. a pneumatic clamping jaw; 31. a rotating cylinder; 32. a balancing weight; 33. a guide rail; 34. a guide block; 4. a driving part II; 41. a second supporting rod; 42. a top seat; 43. a slide rail; 44. a slider; 45. a top plate; 46. a third air cylinder; 47. an auxiliary rod; 5. a driving member III; 51. fixing a frame III; 52. rotating the frame III; 53. a rotating shaft; 54. a push rod; 55. and pushing the air cylinder.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications to the present embodiment without inventive contribution as required after reading the present specification, but all of them are protected by patent laws within the scope of the claims of the present invention.

Example (b): a glove dipping production line is shown in figures 1 and 2 and comprises a support 1, wherein two rows of annular conveying chains 11 are arranged on the support 1 along the length direction of the support, the conveying chains 11 rotate through the driving of a motor, a plurality of fixing rods 12 are erected between the two rows of conveying chains 11, a plurality of clamping frames 13 for the two ends of each fixing rod 12 to be clamped respectively are fixedly arranged on the conveying chains 11, and a row of hand molds 14 for fixing gloves are arranged on the fixing rods 12.

As shown in fig. 1, a liquid storage frame 15, a glue storage frame 16 and a salt spraying bin 17 which are erected above the conveying chain 11 are sequentially arranged on the support 1 along the rotation direction of the conveying chain 11, the liquid storage frame 15 is used for storing coagulants, the glue storage frame 16 is used for storing glue, salt spraying bin 17 is internally provided with salt powder which can roll, and moving mechanisms used for respectively inserting the hand molds 14 on the fixing rods 12 into the liquid storage frame 15, the glue storage frame 16 and the salt spraying bin 17 are arranged outside the liquid storage frame 15, the glue storage frame 16 and the salt spraying bin 17.

As shown in fig. 3, the moving mechanism includes a first driving element 2 located outside the liquid storage frame 15, the first driving element 2 includes a first fixing frame 21 for grabbing the fixing rod 12, the first driving element 2 is provided with two first supporting rods 22 perpendicular to the first fixing frame, bottom ends of the two first supporting rods 22 are fixed on the support 1 (refer to fig. 1), a first cylinder 23 for driving the first fixing frame 21 to vertically lift is arranged between the two first supporting rods 22, top ends of the two first supporting rods 22 are fixedly connected through a top strip 24, and an end of an output end of the first cylinder 23 is fixed on the top strip 24.

As shown in fig. 4, a fixing plate 25 is fixedly arranged on the cylinder body of the first cylinder 23, the two first support rods 22 are positioned between the fixing plate 25 and the first cylinder 23, a second cylinder 26 is hinged on the fixing plate 25, two square rods 27 parallel to the first support rods 22 are arranged on the fixing plate 25, an Contraband-shaped transmission frame 28 is rotatably connected outside the two square rods 27, the output end of the second cylinder 26 is hinged with the transmission frame 28, and the end part of the transmission frame 28 is fixedly connected with the first fixing frame 21.

And the first air cylinder 23 is inflated, so that the cylinder body of the first air cylinder 23 descends relative to the top strip 24, the fixing plate 25 and the first fixing frame 21 can be driven to descend, and otherwise, the first fixing frame 21 can be lifted. The first air cylinder 23 lifts the hand model 14 to the position above the liquid storage frame 15, the second air cylinder 26 is started to turn the fixing frame by 90 degrees, and the vertically downward hand model 14 rotates to the horizontal direction and is located right above the liquid storage frame 15. And the cylinder 23 is reset, and the hand mould 14 is lowered into the liquid storage frame 15 for a while, so that the operation of smearing the coagulant can be realized.

As shown in fig. 5, the two first support rods 22 are respectively provided with a guide rail 33 along the length direction thereof, the fixing plate 25 is provided with a guide block 34 which can only slide along the length direction of the guide rail 33, the guide block 34 can only slide along the guide rail 33, so that the moving directions of the first air cylinder 23 and the second air cylinder 26 are constant, and the first air cylinder 23 does not shake when ascending and descending, thereby improving the moving accuracy of the first driving part 2, and avoiding the situation that the hand model 14 cannot accurately reach the salt spraying bin 17.

As shown in fig. 3, an Contraband-shaped rotating frame 29 is arranged inside the fixed frame 21, a pneumatic clamping jaw 30 for clamping the fixed rod 12 is arranged inside the rotating frame 29, two longitudinal sides of the rotating frame 29 are respectively and rotatably connected with one end of the fixed frame 21, and a rotating cylinder 31 for driving the rotating frame 29 to rotate is arranged on the fixed frame 21. After the hand mold 14 is horizontally placed on the liquid storage frame 15, the hand mold 14 is lifted, the rotary air cylinder 31 is started to drive the first rotating frame 29 and the fixing rod 12 to continuously overturn, the finger end of the hand mold 14 faces upwards, and the solidified glue on the gloves flows along the gloves due to self weight, so that the whole gloves are covered, and the uniformity of the solidified glue on the gloves is guaranteed.

As shown in fig. 3, the first cylinder 23 is a two-stroke cylinder, and the upper end cylinder stroke of the first cylinder 23 is shorter than the lower end cylinder stroke. When the hand mold 14 needs to be lifted, the large stroke of the lower end cylinder of the first cylinder 23 is used, and when the hand mold 14 needs to be inserted into the liquid storage frame 15, the stroke of the upper end cylinder of the first cylinder 23 is used, the two cylinders are combined into the first cylinder 23, so that the moving range of the first cylinder 23 is expanded, the technical requirements on the first cylinder 23 are reduced, and a complex cylinder is not needed.

As shown in FIG. 3, the two ends of the first rotating frame 29 are respectively provided with a balancing weight 32, and the rotating point of the first rotating frame 29 is located at the middle point of the side lever of the first rotating frame 29. The weight of two sides of the rotating point of the first rotating frame 29 is kept to be almost the same by the balancing weight 32, so that the force required for turning over the first rotating frame 29 can be reduced, the power requirement on the pushing cylinder 55 is reduced, and the size of the pushing cylinder 55 can be reduced.

As shown in fig. 1 and 6, the moving mechanism includes a second driving element 4 located outside the glue storage frame 16, the structure of the second driving element 4 is substantially the same as that of the first driving element 2, the second driving element 4 includes two second supporting rods 41, and a top seat 42 parallel to the bracket 1 is disposed above the second driving element 4, and the difference between the second driving element 4 and the first driving element 2 is that the second supporting rods 41 of the second driving element 4 are supported by the top seat 42 and are not fixed on the bracket 1.

As shown in fig. 6 and 7, the top seat 42 is provided with a slide rail 43, the driving member two 4 is provided with a top plate 45 parallel to the slide rail 43, the upper surface of the top plate 45 is provided with a slide block 44 sliding along the slide rail 43, the upper ends of the two support rods two 41 are fixed on the top plate 45, the top seat 42 is provided with a cylinder three 46 driving the top plate 45 to slide, and the output end part of the cylinder three 46 is fixed relative to the top plate 45. The driving part II 4 slides along the length direction of the conveying chain 11 by virtue of the air cylinder III 46, and the fixed rods 12 on one group of conveying chains 11 can be moved to the other group of conveying chains 11, so that the length of each group of conveying chains 11 is reduced, the power requirements on the conveying chains 11 and a motor are reduced, the conveying chains 11 are prevented from expanding too tightly, and the service life of the conveying chains 11 is shortened.

As shown in fig. 6, a secondary rod 47 extends laterally from the second support rod 41, a top plate 45 is also disposed at the top end of the secondary rod 47, a triangular support is formed between the secondary rod 47 and the second support rod 41 through a steel pipe, and the output end of the third cylinder 46 is fixedly connected with the top of the secondary rod 47. By means of the matching of the auxiliary pipe and the second support rod 41, the stability of the second support rod 41 is guaranteed, the second support rod 41 is prevented from being bent due to the eccentric center of gravity of the second driving part 4, the pneumatic clamping jaw 30 cannot accurately grab the fixed rod 12, and the structural stability is improved.

As shown in fig. 8 and 9, a blower is arranged at the left side of the salt spraying bin 17 and used for enabling salt powder to circularly roll in the salt spraying bin 17, a driving part three 5 which has the same structure as the driving part one 2 is arranged outside the salt spraying bin 17, the driving part three 5 comprises a fixed frame three 51, a rotating frame three 52 of an Contraband type is arranged inside the fixed frame three 51, a pneumatic clamping jaw 30 used for clamping the fixed rod 12 is arranged inside the rotating frame three 52, and the difference between the driving part three and the driving part one is that the rotating frame three 52 rotates relative to the fixed frame three 51.

As shown in fig. 9, a fixed frame three 51 and a rotating frame three 52 are rotatably connected, a rotating shaft 53 is vertically inserted into each end of the fixed frame three 51, the rotating shaft 53 is fixedly connected to the rotating frame three 52, a push rod 54 linked with the rotating shaft 53 is provided outside the fixed frame three 51, and a push cylinder 55 for rotating the push rod 54 is hinged to the fixed frame three 51.

After the hand model 14 is lifted above the salt spraying bin 17 by the first air cylinder 23, the third fixed frame 51 and the third rotating frame 52 are simultaneously rotated by the second air cylinder 26 to enable the hand model 14 to be in a horizontal state, then the pushing air cylinder 55 is started, the third rotating frame 52 is reversely rotated relative to the third fixed frame 51 to enable the hand model 14 to return to a vertical state and to be located right above the salt spraying bin 17, the first air cylinder 23 is reset, the hand model 14 is inserted into the salt spraying bin 17, and the salt spraying process is carried out. By means of the cooperation of the second air cylinder 26 and the pushing air cylinder 55, the hand die 14 is inserted into the salt spraying bin 17, the occupied space of the third driving part 5 is saved, and collision with adjacent parts is avoided.

As shown in figure 1, a heating cover is arranged in front of a driving piece I2, the heating cover is connected with a hot air blower through a hose, the glove can be preheated, and the phenomenon that liquid glue and coagulants are adhered to the glove due to low temperature in winter is prevented.

The working process is as follows: gloves are firstly sleeved on the hand mould 14, then the fixed rod 12 is erected between the conveying chains 11, the two ends of the fixed rod 12 are clamped into the two corresponding clamping frames 13, and the fixed rod 12 can move forward along with the conveying chains 11.

When the fixing rod 12 advances to the first driving part 2 at the liquid storage frame 15 with the gloves, the first driving part 2 lifts the fixing rod 12 and sends the hand mold 14 into the liquid storage frame 15, the outside of the gloves is covered with coagulant, and the moving mechanism puts the fixing rod 12 back on the conveying chain 11.

The conveying chain 11 continues to rotate, the fixing rods 12 are sent to the glue storage frame 16, the hand molds 14 are placed into the glue storage frame 16 through the driving piece II 4, the outside of the gloves is covered with coagulants and glue, the fixing rods 12 are placed back onto the conveying chain 11 through the driving piece II 4, the conveying chain 11 continues to rotate, and the fixing rods 12 are sent to the salt spraying bin 17.

The fixed rod 12 is lifted by the driving piece III 5, the hand mould 14 is inserted into the salt spraying bin 17, the rolling salt powder covers the surface of the glove, the hand mould 14 is taken out by the moving mechanism, the fixed rod 12 is put back to the conveying chain 11, the processing of the glove can be completed, the glove is sleeved on the hand mould 14 only by manpower, and other parts do not need manual operation.

Claims (9)

1. The glove gum dipping production line is characterized in that: the glove fixing device comprises a support (1), wherein two rows of annular conveying chains (11) are arranged on the support (1) along the length direction of the support (1), the conveying chains (11) rotate by being driven by a motor, a plurality of fixing rods (12) are erected between the two rows of conveying chains (11), a plurality of clamping frames (13) for clamping two ends of each fixing rod (12) are fixedly arranged on the conveying chains (11), and a row of hand molds (14) for fixing gloves are arranged on the fixing rods (12);

the automatic salt spraying device is characterized in that a liquid storage frame (15), a glue storage frame (16) and a salt spraying bin (17) which are erected above the conveying chain (11) are sequentially arranged on the support (1) along the rotating direction of the conveying chain (11), the liquid storage frame (15) is used for storing coagulants, the glue storage frame (16) is used for storing glue, salt spraying bin (17) is internally provided with salt powder which can roll, and a hand mold (14) on a fixing rod (12) is respectively inserted into the liquid storage frame (15), the glue storage frame (16) and the salt spraying bin (17) through the liquid storage frame (15), the glue storage frame (16) and the salt spraying bin (17) which are arranged outside the liquid storage frame (15), the glue storage frame (16) and the salt spraying bin (17).

2. A glove dipping line as claimed in claim 1, characterised in that: the moving mechanism comprises a first driving part (2) located outside the liquid storage frame (15), the first driving part (2) comprises a first fixing frame (21) used for grabbing the fixing rod (12), the first driving part (2) is provided with two first supporting rods (22) perpendicular to the fixing frame, the bottom ends of the two first supporting rods (22) are fixed on the support (1), a first air cylinder (23) used for driving the first fixing frame (21) to vertically lift is arranged between the two first supporting rods (22), the top ends of the two first supporting rods (22) are fixedly connected through a top strip (24), and the end part of the output end of the first air cylinder (23) is fixed on the top strip (24);

the fixing device is characterized in that a fixing plate (25) is fixedly arranged on a cylinder body of the first cylinder (23), the two first support rods (22) are located between the fixing plate (25) and the first cylinder (23), a second cylinder (26) is hinged to the fixing plate (25), the fixing plate (25) is provided with two square rods (27) parallel to the first support rods (22), the square rods (27) are connected with a Contraband-shaped transmission frame (28) in an outer rotating mode, the output end of the second cylinder (26) is hinged to the transmission frame (28), and the end portion of the transmission frame (28) is fixedly connected with the first fixing frame (21).

3. A glove dipping line as claimed in claim 2, characterized in that: the fixed frame (21) inboard is provided with the rotation frame (29) of "Contraband" type, it is provided with pneumatic clamping jaw (30) that are used for pressing from both sides tight dead lever (12) to rotate frame (29) inboard, the length direction both sides of rotating frame (29) are rotated with the one end of fixed frame (21) respectively and are connected, be provided with the rotatory cylinder (31) of drive rotation frame (29) rotation on the fixed frame (21).

4. A glove dipping line as claimed in claim 3, characterized in that: the first air cylinder (23) adopts a double-stroke air cylinder, and the stroke of the upper end air cylinder of the first air cylinder (23) is shorter than that of the lower end air cylinder.

5. A glove dipping line as claimed in claim 4, characterized in that: and two ends of the first rotating frame (29) are respectively provided with a balancing weight (32), and a rotating point of the first rotating frame (29) is positioned at the midpoint of a side lever of the first rotating frame (29).

6. A glove dipping line as claimed in claim 5, characterized in that: two bracing pieces one (22) are provided with guide rail (33) along self length direction respectively, be provided with guide block (34) that can only slide along guide rail (33) length direction on fixed plate (25).

7. A glove dipping line as claimed in any one of claims 3, 4 or 5, wherein: moving mechanism is including lieing in depositing driving piece two (4) outside gluey frame (16), the structure and the driving piece one (2) of driving piece two (4) are the same, driving piece two (4) include two spinal branch vaulting poles two (41), driving piece two (4) top is provided with footstock (42) parallel with support (1), be provided with slide rail (43) on footstock (42), driving piece two (4) are provided with roof (45) parallel with slide rail (43), the upper surface of roof (45) is provided with slider (44) that slide along slide rail (43), two on roof (45) that the upper end of bracing piece two (41) was fixed, be provided with cylinder three (46) that drive roof (45) slided on footstock (42), the output tip and roof (45) of cylinder three (46) keep relatively fixed.

8. A glove dipping line as claimed in claim 7, characterized in that: the utility model discloses a supporting rod, including bracing piece two (41), side extension has auxiliary rod (47), the top of auxiliary rod (47) is provided with roof (45) equally, form triangular supports through a steel pipe between auxiliary rod (47) and bracing piece two (41), the output of cylinder three (46) and the top fixed connection of auxiliary rod (47).

9. A glove dipping line as claimed in claim 2, characterized in that: a blower is arranged on one side of the salt spraying bin (17) and used for enabling salt powder to circularly roll in the salt spraying bin (17), a driving piece III (5) with the same structure as the driving piece I (2) is arranged outside the salt spraying bin (17), the driving piece III (5) comprises a fixing frame III (51), an Contraband-shaped rotating frame III (52) is arranged on the inner side of the fixing frame III (51), and a pneumatic clamping jaw (30) used for clamping the fixing rod (12) is arranged on the inner side of the rotating frame III (52);

fixed frame three (51) and rotation frame three (52) rotate to be connected, the axis of rotation (53) are worn to be equipped with respectively perpendicularly at the both ends of fixed frame three (51), axis of rotation (53) and rotation frame three (52) fixed connection, fixed frame three (51) are provided with push rod (54) with axis of rotation (53) linkage outward, it has messenger push rod (54) pivoted promotion cylinder (55) to articulate on fixed frame three (51).

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