CN210539069U - Glove turn-over mechanism - Google Patents

Abstract

The utility model relates to a glove turn-over mechanism, which comprises a fixed sleeve, wherein the upper part of the fixed sleeve is provided with a mandril matched with the fixed sleeve, the mandril can reciprocate towards the direction close to or far away from the fixed sleeve, and the fixed sleeve is provided with a turn-over driving mechanism; the glove turn-over mechanism is high in automation degree, time-saving, labor-saving, high in turn-over efficiency, safe, reliable, good in turn-over effect and capable of greatly reducing production cost.

Description

Glove turn-over mechanism

Technical Field

The utility model relates to a device that gloves turn-over was used, specific theory relates to a gloves turn-over mechanism.

Background

At present, all gloves of making up type on the market all adopt the sewing technique in the course of the processing manufacture, will join the department together, in order to make gloves reach the operation requirement and gloves pleasing to the eye, the gloves after making up will make the face of making up turn over into, make that the one side that the outward appearance is level and smooth as the front, the department of making up then hides inside.

The prior art is generally provided with manual turning, each finger is turned by matching a hard rod and a pipe one by one, then the whole arrangement is carried out, the time and labor are consumed, the efficiency is low, the labor intensity of workers is high, particularly leather gloves and cloth gloves with large thicknesses are large in turning difficulty and low in turning efficiency, the gloves can be turned by using large force when the hard rods and the pipes are turned, the labor intensity of the workers is high, the number of the gloves turned by each person every day is small, and only workers can be increased to meet the production requirements, so that the production cost is greatly increased.

SUMMERY OF THE UTILITY MODEL

The to-be-solved problem of the utility model is to above problem, provide a gloves turn-over mechanism of turn-over efficient, labour saving and time saving, reduction in production cost.

In order to solve the above problems, the utility model adopts the following technical scheme: the glove turn-over mechanism comprises a fixed sleeve, wherein an ejector rod matched with the fixed sleeve is arranged on the upper portion of the fixed sleeve, the ejector rod can reciprocate towards the direction close to or far away from the fixed sleeve, and a turn-over driving mechanism is arranged on the fixed sleeve.

During the use, single finger or a plurality of finger suit of gloves are on single or a plurality of fixed sleeve, finger portion location and the fixed of gloves through the ejector pin, then turn-over actuating mechanism upward movement, ejector pin downward movement pushes up into fixed sleeve after partly the turn-over of finger portion simultaneously, make the palm portion or the single finger portion of remaining gloves continue upwards to accomplish the turn-over under the combined action of turnover pole through turn-over actuating mechanism, then turn-over actuating mechanism return, the ejector pin return, gloves after the turn-over are located fixed sleeve, turn-over efficiency improves greatly, the turn-over quantity of gloves every day is far greater than the quantity of manual turn-over, the staff only need with gloves suit on fixed sleeve and from fixed sleeve take off can, greatly reduced intensity of labour, reduced the manual work, manufacturing cost has been reduced.

As an optimized scheme, the number of the fixed sleeves and the number of the ejector rods are four, and the ejector rods can be inserted into the fixed sleeves when moving towards the direction close to the fixed sleeves.

As an optimization scheme, the turnover driving mechanism comprises a lifting frame which is sleeved on the fixing sleeve and can axially reciprocate along the fixing sleeve, two push plates which are oppositely arranged are hinged to the lifting frame, and notches for allowing the fixing sleeve to penetrate are formed in the opposite surfaces of the two push plates.

As an optimization scheme, the lifting frame comprises a lifting plate sleeved on the fixing sleeve, vertical plates are fixedly connected to two ends of the lifting plate respectively, and the push plate is hinged to the vertical plates.

As an optimized scheme, the lifting frame is connected with a power driving device for driving the lifting frame to move.

As an optimization scheme, the power driving device comprises a first lifting seat and a sliding rail connected with the first lifting seat, the sliding rail is fixedly connected with the lifting seat, the sliding rail is connected with a guide seat matched with the sliding rail, a first thread sleeve is fixedly connected with the first lifting seat, a first screw rod is in threaded connection with the first thread sleeve, the first screw rod is connected with a first motor driving the first screw rod to rotate, a first sliding block is fixedly connected with the first lifting seat, and the first sliding block is connected with a first guide rail matched with the first sliding block.

As an optimized scheme, a driving seat is connected to the first lifting seat, a driving plate is fixedly connected to the driving seat, a baffle is fixedly connected to the sliding rail, a gap is formed between the driving plate and the driving seat, and the baffle is located in the gap.

As an optimized scheme, the power driving device is an air cylinder or an oil cylinder, and a piston rod of the air cylinder or the oil cylinder is connected with the lifting frame.

As an optimized scheme, the ejector rod is connected with a second lifting seat capable of ascending or descending, the second lifting seat is fixedly connected with a second threaded sleeve, the second threaded sleeve is in threaded connection with a second screw rod, the second screw rod is connected with a second motor for driving the second screw rod to rotate, a second sliding block is fixedly connected onto the second lifting seat, and the second sliding block is connected with a second guide rail matched with the second sliding block.

As an optimized scheme, the ejector rod is connected with an air cylinder or an oil cylinder for driving the ejector rod to ascend or descend.

The utility model adopts the technical scheme, has following advantage:

the glove turn-over mechanism is high in automation degree, time-saving, labor-saving, high in turn-over efficiency, safe, reliable, good in turn-over effect and capable of greatly reducing production cost.

The present invention will be further explained with reference to the drawings and examples.

Drawings

Fig. 1 is a schematic structural diagram of a glove turn-over mechanism in an embodiment of the present invention.

Fig. 2 is a left side view of fig. 1.

Fig. 3 is a top view of fig. 2.

Fig. 4 is a perspective view of a glove turn-over mechanism according to an embodiment of the present invention.

Fig. 5 is a schematic structural view of the lifting plate, the vertical plate and the push plate in fig. 4.

Fig. 6 is a schematic structural diagram of a glove turn-over mechanism according to another embodiment of the present invention.

Fig. 7 is a left side view of fig. 6.

Detailed Description

Example 1: as shown in the attached drawings 1, 2, 3, 4 and 5, the glove turn-over mechanism comprises a base 1, wherein a column 2 is arranged on the base 1, the base 1 is horizontally arranged, the column 2 is vertically arranged, the column 2 is fixed on the base 1 by welding, the cross section of the column 2 is square or rectangular, a support seat 10 is fixedly connected on the column 2, the support seat 10 is rectangular plate-shaped, the support seat 10 is horizontally arranged, the support seat 10 and a fixing seat 13 are not shown in the attached drawings 4, a fixing sleeve 17 is fixedly connected on the support seat 10, an ejector rod 18 matched with the fixing sleeve 17 is arranged on the upper portion of the fixing sleeve 17, the ejector rod 18 can reciprocate towards or away from the fixing sleeve 17, a turn-over driving mechanism is arranged on the fixing sleeve 17, the fixing sleeve 17 and the ejector rod 18 are both vertically arranged, and a connecting plate 11 is fixedly connected on the support seat 10, the shape of connecting plate 11 is the rectangle, is provided with the through-hole on the connecting plate 11, and the through-hole shape is rectangular shape, is provided with the rectangular shape through-hole corresponding with the through-hole on the connecting plate 11 on the supporting seat 10, and connecting plate 11 and supporting seat 10 and nut threaded connection are passed to the lower part of fixed sleeve 17, fixes fixed sleeve 17 on connecting plate 11 and supporting seat 10 through the nut, can loosen the nut, adjusts the position of fixed sleeve 17, and after adjusting, can with nut locking.

The number of the fixed sleeves 17 and the number of the ejector rods 18 are four, the ejector rods 18 are overlapped with the axes of the fixed sleeves 17, the lengths of the four ejector rods 18 are equal, the lengths of the four fixed sleeves 17 are unequal, the lengths of the fixed sleeves 17 correspond to the lengths of the fingers of the glove, the middle fixed sleeve 17 is high and is sequentially reduced towards the fixed sleeves 17 at two sides, the lengths of the four ejector rods 18 are also unequal, the lengths of the four ejector rods are adaptive to the lengths of the fixed sleeves 17, the middle ejector rod 18 is short and is sequentially increased towards the ejector rods 18 at two sides, the fixed sleeve 17 is cylindrical, the middle of the fixed sleeve is of a hollow structure, the ejector rod 18 is cylindrical, the diameter of the ejector rod 18 is smaller than the inner diameter of the fixed sleeve 17, after the ejector rod 18 is inserted into the fixed sleeve 17, a gap is formed between the ejector rod 18 and the fixed sleeve 17, the finger part of the, the number of the fixing sleeve 17 and the ejector pin 18 can be increased or decreased as required, and the ejector pin 18 can be inserted into the fixing sleeve 17 when moving in a direction approaching the fixing sleeve 17.

Turn-over actuating mechanism includes the suit and can follow fixed sleeve 17's axial reciprocating motion's crane on fixed sleeve 17, it has two relative push pedal 29 that set up to articulate on the crane, push pedal 29's shape is the rectangle, all is provided with the breach 33 that holds fixed sleeve 17 and pass on two push pedal 29 relative faces, the bottom of breach 33 suits with fixed sleeve 17 for convex, the width of breach 33 is greater than fixed sleeve 17's diameter, breach 33 shape is rectangular shape to hold many fixed sleeve 17, when two push pedal 29 are the horizontality, it has the clearance between the two, the size in clearance can set up as required.

The lifting frame comprises a lifting plate 28 sleeved on a fixing sleeve 17, the lifting plate 28 is in a horizontal state, a through hole 32 is formed in the lifting plate 28 and used for allowing the fixing sleeve 17 to pass through, the through hole 32 is in a long strip shape, the lifting plate 28 is in a rectangular shape, two ends of the lifting plate 28 are respectively fixedly connected with a vertical plate 15, the vertical plates 15 and the lifting plate 28 are vertically arranged, the lifting plate 28 and the vertical plates 15 can be integrally formed and can also be connected through welding, the two vertical plates 15 are arranged in parallel, the heights of the two vertical plates 15 are equal, the height of the vertical plate 15 is smaller than that of the fixing sleeve 17, the push plate 29 is hinged with the vertical plates 15, the push plate 29 is in a rectangular shape, the push plate 29 is hinged with the vertical plates 15 through hinges 16, other rotatable connection modes can be adopted according to needs, the hinged position of the push plate 29 and the vertical plates 15 is positioned on the outer side, the vertical plate 15 can be pressed against the part of the hinge 16 connected with the push plate 29, so that the push plate 29 is limited, the push plate 29 is in a horizontal state, a limiting part can be arranged on the vertical plate 15 to limit the push plate 29, the push plate 29 can rotate towards the outer side and the inner side of the vertical plate 15 along the hinged part, and when the push plate 29 rotates towards the inner side, the push plate 29 can only rotate to the horizontal state.

The width of the push plate 29 is equal to that of the vertical plate 18, and the width of the push plate 29 is smaller than that of the lifting plate 17.

The lifting frame is connected with a power driving device for driving the lifting frame to move, the power driving device comprises a first lifting seat 3 and a slide rail 9 connected with the first lifting seat 3, the first lifting seat 3 is sleeved on the upright post 2 and positioned at the lower part of the upright post 2, the slide rail 9 is fixedly connected with the lifting frame, the slide rail 9 is arranged in parallel with a fixed sleeve 17, a connecting block 14 is fixedly connected with the slide rail 9, the connecting block 14 is fixedly connected with a lifting plate 28, the slide rail 9 is connected with a guide seat 12 matched with the slide rail 9, the guide seat 12 is arranged on a supporting seat 10, a fixed seat 13 is fixedly connected with the supporting seat 10, the guide seat 12 is fixedly connected with the fixed seat 13 through a bolt, the first lifting seat 3 is fixedly connected with a first threaded sleeve 27, the first threaded sleeve 27 is in threaded connection with a first screw rod 26, and the first screw rod 26 is connected with an, in this embodiment, the first motor 25 is adopted for driving, the first motor 25 is fixed on the upright post 2, the first lifting seat 3 is fixedly connected with the first sliding block 31, the first sliding block 31 is connected with the first guide rail 4 matched with the first sliding block, the first guide rail 4 is fixed on the upright post 2, the first guide rail 4 can also be fixedly connected on the first lifting seat 3 as required, and the first sliding block 31 is fixedly connected on the upright post 2.

The first lifting seat 3 is connected with a connecting seat 5, a driving seat 6 is fixed on the connecting seat 5, the position of the driving seat 6 can be adjusted on the connecting seat 5, a driving plate 7 is fixedly connected on the driving seat 6, a baffle plate 8 is fixedly connected on the sliding rail 9, a gap is formed between the driving plate 7 and the driving seat 6, and the baffle plate 8 is located in the gap.

The ejector rod 18 is connected with a second lifting seat 21 capable of ascending or descending, the second lifting seat 21 is sleeved on the upright post 2, the second lifting seat 21 is fixedly connected with a mounting plate 20, the mounting plate 20 is fixedly connected with the second lifting seat 21 through a nut and a bolt, the mounting plate 20 is provided with a through hole, the through hole is in a long strip shape, the ejector rod 18 penetrates through the through hole and is fixed on the mounting plate 20 through the nut, the nut can be loosened to adjust the position of the ejector rod 18, the ejector rod is fixed through the nut after adjustment, the mounting plate 20 is provided with four ejector rods 18, the number of the ejector rods 18 can be increased or reduced according to needs, the second lifting seat 21 is connected with a cylinder, an oil cylinder or a motor for driving the second lifting seat to ascend or descend, in the embodiment, the second motor 24 is adopted for driving, the second lifting seat 21 is fixedly connected with a second thread sleeve 22, the second screw 23 is connected with a second motor 24 for driving the second screw to rotate, a second sliding block 30 is fixedly connected to the second lifting seat 21, the second sliding block 30 is connected with a second guide rail 19 matched with the second sliding block 30, the second guide rail 19 is fixed to the upright post 2, the second guide rail 19 can also be fixedly connected to the second lifting seat 21 as required, and the second sliding block 30 is fixedly connected to the upright post 2.

When the glove turning device is used, a glove is sleeved on the fixing sleeve 17, the second motor 24 rotates, the second lifting seat 21 is driven to move downwards through the second screw rod 23 and the second threaded sleeve 22, the finger part of the glove is fixed on the fixing sleeve 17 through the ejector rod 18, then the first motor 25 rotates, the first lifting seat 3 is driven to move upwards through the first screw rod 26 and the first threaded sleeve 27, the slide rail 9 is driven to slide upwards through the driving seat 6, the slide rail 9 drives the lifting plate 28 to move upwards, the lifting plate 28 drives the vertical plate 15 to move upwards, the vertical plate 15 drives the push plate 29 to move upwards, the ejector rod 18 can be inserted into the fixing sleeve 17 to drive the finger part of the glove to turn over and then enter the fixing sleeve 17, the length of the ejector rod 18 entering the fixing sleeve 17 is set according to needs, the push plate 29 turns over the glove, and after the turning over is completed, the first motor 25 drives the lifting plate 28, Riser 15 and push pedal 29 reset downwards, and at the in-process that resets, push pedal 29 can rotate in order to cross gloves to the outside when touchhing gloves, after crossing gloves, and push pedal 29 rotates to the inboard under the action of gravity, makes push pedal 29 be the horizontality, and second motor 24 drives ejector pin 18 and resets, and a gloves turn-over is accomplished, then takes off gloves and drags out the turn-over that both can accomplish gloves with the finger portion.

Example 2: as shown in the attached figures 5, 6 and 7, the glove turn-over mechanism comprises a base 1, wherein an upright post 2 is arranged on the base 1, the base 1 is horizontally arranged, the upright post 2 is vertically arranged, the upright post 2 is fixed on the base 1 through welding, the cross section of the upright post 2 is square or rectangular, a support seat 10 is fixedly connected on the upright post 2, the support seat 10 is rectangular plate-shaped, the support seat 10 is horizontally arranged, a fixed sleeve 17 is fixedly connected on the support seat 10, an ejector rod 18 matched with the fixed sleeve 17 is arranged at the upper part of the fixed sleeve 17, the ejector rod 18 can reciprocate towards the direction close to or far away from the fixed sleeve 17, a turn-over driving mechanism is arranged on the fixed sleeve 17, the fixed sleeve 17 and the ejector rod 18 are both vertically arranged, a connecting plate 11 is fixedly connected on the support seat 10, the connecting plate 11 is rectangular, and, the through-hole shape is rectangular shape, is provided with the rectangular shape through-hole corresponding with the through-hole on the connecting plate 11 on the supporting seat 10, and connecting plate 11 and supporting seat 10 and nut threaded connection are passed to the lower part of fixed sleeve 17, fixes fixed sleeve 17 on connecting plate 11 and supporting seat 10 through the nut, can loosen the nut, and the position of adjustment fixed sleeve 17, after adjusting, can with nut locking.

The number of the fixed sleeves 17 and the number of the ejector rods 18 are four, the ejector rods 18 are overlapped with the axes of the fixed sleeves 17, the lengths of the four ejector rods 18 are equal, the lengths of the four fixed sleeves 17 are unequal, the lengths of the fixed sleeves 17 correspond to the lengths of the fingers of the glove, the middle fixed sleeve 17 is high and is sequentially reduced towards the fixed sleeves 17 at two sides, the lengths of the four ejector rods 18 are also unequal, the lengths of the four ejector rods are adaptive to the lengths of the fixed sleeves 17, the middle ejector rod 18 is short and is sequentially increased towards the ejector rods 18 at two sides, the fixed sleeve 17 is cylindrical, the middle of the fixed sleeve is of a hollow structure, the ejector rod 18 is cylindrical, the diameter of the ejector rod 18 is smaller than the inner diameter of the fixed sleeve 17, after the ejector rod 18 is inserted into the fixed sleeve 17, a gap is formed between the ejector rod 18 and the fixed sleeve 17, the finger part of the, the number of the fixing sleeve 17 and the ejector pin 18 can be increased or decreased as required, and the ejector pin 18 can be inserted into the fixing sleeve 17 when moving in a direction approaching the fixing sleeve 17.

Turn-over actuating mechanism includes the suit and can follow fixed sleeve 17's axial reciprocating motion's crane on fixed sleeve 17, going up of crane articulates there is two push pedal 29 that set up relatively, push pedal 29's shape is the rectangle, all be provided with the breach 33 that holds fixed sleeve 17 and pass on two push pedal 29 relative faces, the bottom of breach 33 suits with fixed sleeve 17 for convex, the width of breach 33 is greater than fixed sleeve 17's diameter, breach 33 shape is rectangular shape to hold many fixed sleeve 17, when two push pedal 29 are the horizontality, it has the clearance between the two, the size in clearance can set up as required.

The lifting frame comprises a lifting plate 28 sleeved on a fixing sleeve 17, the lifting plate 28 is in a horizontal state, a through hole 32 is formed in the lifting plate 28 and used for allowing the fixing sleeve 17 to pass through, the through hole 32 is in a long strip shape, the lifting plate 28 is in a rectangular shape, two ends of the lifting plate 28 are respectively fixedly connected with a vertical plate 15, the vertical plates 15 and the lifting plate 28 are vertically arranged, the lifting plate 28 and the vertical plates 15 can be integrally formed and can also be connected through welding, the two vertical plates 15 are arranged in parallel, the heights of the two vertical plates 15 are equal, the height of the vertical plate 15 is smaller than that of the fixing sleeve 17, the push plate 29 is hinged with the vertical plates 15, the push plate 29 is in a rectangular shape, the push plate 29 is hinged with the vertical plates 15 through hinges 16, other rotatable connection modes can be adopted according to needs, the hinged position of the push plate 29 and the vertical plates 15 is positioned on the outer side, the vertical plate 15 can be pressed against the part of the hinge 16 connected with the push plate 29, so that the push plate 29 is limited, the push plate 29 is in a horizontal state, a limiting part can be arranged on the vertical plate 15 to limit the push plate 29, the push plate 29 can rotate towards the outer side and the inner side of the vertical plate 15 along the hinged part, and when the push plate 29 rotates towards the inner side, the push plate 29 can only rotate to the horizontal state.

The width of the push plate 29 is equal to that of the vertical plate 18, and the width of the push plate 29 is smaller than that of the lifting plate 17.

The crane is connected with a power driving device for driving the crane to move, the power driving device is an air cylinder or an oil cylinder, a piston rod of the air cylinder or the oil cylinder is connected with the crane, the air cylinder is adopted in the embodiment, a first air cylinder 34 is fixedly connected to the lower portion of the supporting seat 10, the piston rod of the first air cylinder 34 penetrates through the supporting seat 10 to be connected with the lifting plate 28, and the first air cylinder 34 is connected with the crane through the lifting plate 28.

The first support 38 of fixedly connected with on the stand 2, the first guide rail 4 of fixedly connected with on the first support 38 is provided with rather than the first slider 31 of matched with on the first guide rail 4, and first slider 31 and lifter plate 28 fixed connection can improve the stability when crane reciprocating motion through first guide rail 4 and first slider 31.

Ejector pin 18 is connected with its cylinder or the hydro-cylinder that rises or descend of drive, adopts the cylinder in this embodiment, ejector pin 18 is connected with mounting panel 20, is provided with the through-hole on the mounting panel 20, and the shape of through-hole is rectangular shape, and ejector pin 18 passes the through-hole and passes through the nut to be fixed on mounting panel 20, can loosen the position of adjustment ejector pin 18 with the nut, after adjusting well through the nut fixed can, the top fixedly connected with fixed plate 36 of stand 2, fixedly connected with second cylinder 35 on the fixed plate 36, the piston rod of second cylinder 35 is connected with mounting panel 20.

The upper part of the upright post 2 is fixedly connected with a second bracket 37, the second bracket 37 is fixedly connected with a second guide rail 19, the second guide rail 19 is provided with a second sliding block 30 matched with the second guide rail, the second sliding block 30 is fixedly connected with the mounting plate 20, and the stability of the ejector rod 18 during reciprocating motion can be improved through the second guide rail 19 and the second sliding block 30

Ejector pin 18 is connected with its cylinder or the hydro-cylinder that rises or descend of drive, adopts the cylinder in this embodiment, ejector pin 18 is connected with mounting panel 20, is provided with the through-hole on the mounting panel 20, and the shape of through-hole is rectangular shape, and ejector pin 18 passes the through-hole and passes through the nut to be fixed on mounting panel 20, can loosen the position of adjustment ejector pin 18 with the nut, after adjusting well through the nut fixed can, the top fixedly connected with fixed plate 36 of stand 2, fixedly connected with second cylinder 35 on the fixed plate 36, the piston rod of second cylinder 35 is connected with mounting panel 20.

The upper portion of the upright post 2 is fixedly connected with a second bracket 37, the second bracket 37 is fixedly connected with a second guide rail 19, the second guide rail 19 is provided with a second sliding block 30 matched with the second guide rail, the second sliding block 30 is fixedly connected with the mounting plate 20, and the stability of the ejector rod 18 during reciprocating motion can be improved through the second guide rail 19 and the second sliding block 30.

When the glove box is used, a glove is sleeved on the fixing sleeve 17, the mounting plate 20 is driven to move downwards by the second air cylinder 35, the finger part of the glove is fixed on the fixing sleeve 17 by the ejector rod 18, then the first air cylinder 34 drives the lifting plate 28 to move upwards, the lifting plate 28 drives the vertical plate 15 to move upwards, the push plate 29 is driven to move upwards by the vertical plate 15, meanwhile, the ejector rod 18 can be inserted into the fixing sleeve 17 to drive the finger part of the glove to turn over and then enter the fixing sleeve 17, the length of the ejector rod 18 entering the fixing sleeve 17 is set as required, the glove is turned by the push plate 29, after the turning is completed, the lifting plate 28, the vertical plate 15 and the push plate 29 are driven by the first air cylinder 34 to reset downwards, the push plate 29 can rotate outwards to pass over the glove when the glove is touched by the push plate 29, and the push plate 29 rotates inwards under the action of gravity to enable the push, the second cylinder 35 drives the mandril 18 to reset, one glove is turned over, and then the glove is taken down to pull out the finger part, so that the turning over of the glove can be finished.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications and variations can be made in the embodiments or in part of the technical features of the embodiments without departing from the spirit and the scope of the invention.

Claims (10)

1. A glove turn-over mechanism is characterized in that: the turnover mechanism comprises a fixed sleeve (17), wherein an ejector rod (18) matched with the fixed sleeve is arranged on the upper portion of the fixed sleeve (17), the ejector rod (18) can reciprocate in a direction close to or far away from the fixed sleeve (17), and a turnover driving mechanism is arranged on the fixed sleeve (17).

2. A glove turn-over mechanism as claimed in claim 1, wherein: the number of the fixed sleeve (17) and the number of the ejector rods (18) are four, and the ejector rods (18) can be inserted into the fixed sleeve (17) when moving towards the direction close to the fixed sleeve (17).

3. A glove turn-over mechanism as claimed in claim 1, wherein: turn-over actuating mechanism includes the suit and can follow the crane of the axial reciprocating motion of fixed sleeve (17) on fixed sleeve (17), it has two relative push pedal (29) that set up to articulate on the crane, all is provided with on the face that two push pedal (29) are relative and holds breach (33) that fixed sleeve (17) passed.

4. A glove turn-over mechanism as claimed in claim 3, wherein: the lifting frame comprises a lifting plate (28) sleeved on the fixing sleeve (17), two ends of the lifting plate (28) are respectively and fixedly connected with a vertical plate (15), and the push plate (29) is hinged with the vertical plate (15).

5. A glove turn-over mechanism as claimed in claim 3, wherein: the lifting frame is connected with a power driving device for driving the lifting frame to move.

6. A glove turn-over mechanism as claimed in claim 5, wherein: the power driving device comprises a first lifting seat (3) and a sliding rail (9) connected with the first lifting seat (3), the sliding rail (9) is fixedly connected with a lifting frame, the sliding rail (9) is connected with a guide seat (12) matched with the sliding rail (9), a first thread sleeve (27) is fixedly connected with the first lifting seat (3), a first screw rod (26) is connected with the first thread sleeve (27), the first screw rod (26) is connected with a first motor (25) driving the first lifting seat to rotate, a first sliding block (31) is fixedly connected with the first lifting seat (3), and the first sliding block (31) is connected with a first guide rail (4) matched with the first sliding block.

7. A glove turn-over mechanism as claimed in claim 6, wherein: the lifting device is characterized in that a driving seat (6) is connected onto the first lifting seat (3), a driving plate (7) is fixedly connected onto the driving seat (6), a baffle (8) is fixedly connected onto the sliding rail (9), a gap is formed between the driving plate (7) and the driving seat (6), and the baffle (8) is located in the gap.

8. A glove turn-over mechanism as claimed in claim 5, wherein: the power driving device is an air cylinder or an oil cylinder, and a piston rod of the air cylinder or the oil cylinder is connected with the lifting frame.

9. A glove turn-over mechanism as claimed in any one of claims 1 to 8, wherein: the ejector pin (18) is connected with a second lifting seat (21) which can be lifted or lowered, the second lifting seat (21) is fixedly connected with a second threaded sleeve (22), the second threaded sleeve (22) is in threaded connection with a second screw rod (23), the second screw rod (23) is connected with a second motor (24) which drives the second lifting seat to rotate, a second sliding block (30) is fixedly connected onto the second lifting seat (21), and the second sliding block (30) is connected with a second guide rail (19) which is matched with the second sliding block.

10. A glove turn-over mechanism as claimed in any one of claims 1 to 8, wherein: the ejector rod (18) is connected with an air cylinder or an oil cylinder for driving the ejector rod to ascend or descend.

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