CN220631166U - Horizontal glove turn-over machine - Google Patents

Abstract

The utility model discloses a horizontal glove turn-over machine, which belongs to the glove processing field and is used for glove turn-over, and comprises a frame, wherein a movable supporting plate driven by a movable supporting plate driver is arranged in pairs in the feeding direction of the frame, the movable supporting plate is matched with a fixed supporting plate and is positioned on a supporting plate top plate, the supporting plate top plate moves towards a turn-over hand mold under the driving of a supporting plate translation driving assembly, and the turn-over hand mold comprises a turn-over mechanism and a turn-over driver and is positioned on a rotary seat body and rotates around the horizontal central axis of the rotary seat body; the turnover hand die rotates along with the rotary seat body to be aligned with the material taking hand die below the frame, and the material taking hand die is provided with a material taking bearing platform and a material taking platform pressing plate on a horizontal path of relative turnover hand die movement. This application can be through improving fagging structure, play the hand mould part of turn-over function to cooperation feeding structure realizes the promotion of the whole execution efficiency of horizontal gloves turn-over machine, and effectively reduces the required space of equipment, improves the compact degree of part.

Description

Horizontal glove turn-over machine

Technical Field

The application belongs to the field of glove processing equipment, and particularly relates to a horizontal glove turn-over machine.

Background

An existing full-automatic glove turn-over machine, such as an improved full-automatic glove turn-over machine disclosed in the patent publication CN217460036U, requires a material taking mechanism for realizing single transfer of a stack of gloves to be turned over from a glove feeding position to a feeding mechanism through a sucker structure, and the feeding mechanism is used for supporting the received gloves and sleeving the gloves into glove sleeves from top to bottom. The structure can realize automatic glove turn-over to solve the requirement of glove turn-over after knitting or sewing of knitted gloves and the like, but in actual use, the structure of vertical arrangement comprises a feeding mechanism, a turn-over mechanism and the like, the occupied equipment space is larger, and the execution efficiency of the mechanism of vertical arrangement is possible to be further improved relatively due to the limitation of space size and the like.

In order to solve the above problems, on the basis of the existing glove turn-over structure, such as the turn-over mechanism disclosed in CN217460036U, see patent document with chinese patent publication No. CN217722760U, which discloses a horizontal glove turn-over machine for performing turn-over operation on knitted or sewn glove, and the glove turn-over operation is realized by structures such as a feeding conveyor belt, a discharging conveyor belt, a glove gripping device, a glove opening device, a glove rotating plate, a turn-over rod, a discharging conveyor belt, a glove upper press plate, etc., while effectively saving equipment space and improving glove turn-over efficiency.

However, the feeding structure adopted in the structure is complex, the matching relation between the glove gripping device and the glove opening supporting device needs to be further optimized to improve the working efficiency between the glove gripping device and the glove opening supporting device, and meanwhile, the clamping firmness of the glove opening supporting device needs to be further improved when the glove opening supporting device is matched with the corresponding hand mold structure; in practical use, the hand mould with the turning function in the horizontal glove turning machine still has the improvement of a rotating mode, so that the equipment space is further saved, the equipment is more compact, and the execution efficiency is higher.

Disclosure of Invention

The utility model aims at providing a horizontal glove turn-over machine, it can be through improving fagging structure, play the hand mould part of turn-over function to cooperation feeding structure realizes the promotion of the whole execution efficiency of horizontal glove turn-over machine, and effectively reduces the required space of equipment, improves the compact degree of part.

In order to achieve the above purpose, the present application is realized by the following technical scheme:

the utility model provides a horizontal glove turn-over machine, includes the frame, is provided with the removal fagging in pairs in the pan feeding direction of frame, remove the fagging by removing fagging driver drive and along fagging guiding axle relative motion, the fagging guiding axle is located the fagging roof, and the fagging roof still is provided with fixed fagging in one side of removing the fagging, the fagging roof removes the direction axial along the fagging that sets up in the frame under the drive of fagging translation drive assembly and moves to turn over the hand mould department in the pan feeding direction of frame, turn over the hand mould at least two and equipartition on the rotary seat body, the rotary seat body rotates around self horizontal central axis under the drive of pedestal rotating electrical machines; the turnover hand die is also provided with a turnover mechanism, the turnover mechanism is driven by a turnover driver, and the turnover driver is connected to the rotary seat body; the turnover hand mould rotates along with the rotary seat body to be aligned with the material taking hand mould below the frame, the material taking hand mould horizontally moves relative to the corresponding turnover hand mould along the material taking hand mould guide shaft under the drive of the material taking hand mould translation driver, and the material taking hand mould is provided with a material taking bearing platform and a material taking platform pressing plate on a horizontal path of relative turnover hand mould movement.

As one of the preferred technical schemes of the application, the supporting plate top plate is provided with a supporting plate moving guide seat sliding along a supporting plate moving guide shaft, the material taking hand die is positioned on a material taking hand die fixing plate, and the material taking hand die fixing plate is in sliding connection with the material taking hand die guide shaft through the material taking hand die guide seat; and the material taking hand die fixing plate is also provided with a translation rack, and the translation rack is meshed and driven with a rack driving motor on the rack.

As one of the preferred technical schemes of the application, the supporting plate translation driving assembly comprises a translation driving belt connected with the supporting plate top plate through a connecting piece, and the translation driving belt rotates around a rotating wheel on the frame under the driving of a translation driving motor.

As one of the preferred technical schemes of the application, the rotary motor of the base body drives the rotary shaft of the hand mould, two ends of the rotary shaft of the hand mould are connected with the rotary base body through bearing blocks, and the rotary base body rotates along with the rotary shaft of the hand mould.

As one of the preferred technical schemes of the application, the bottom of the material taking and receiving platform is provided with a lifting driving mechanism, and the material taking platform pressing plate is positioned above the material taking and receiving platform and is provided with the lifting driving mechanism.

As one of the preferable technical schemes of the application, the frame is provided with a movable feeding sucker and a fixed feeding sucker which are matched with the fixed supporting plate and the movable supporting plate in the feeding direction, the fixed feeding sucker is positioned on the frame, and the movable feeding sucker is driven by a movable sucker lifting driver and moves in the vertical direction; the movable feeding sucking disc and the movable sucking disc lifting driver are both positioned on the sucking disc moving platform, and the sucking disc moving platform moves horizontally relative to the fixed feeding sucking disc along the sucking disc moving platform under the driving of the movable sucking disc horizontal driver.

Compared with the prior art, the beneficial effects of this application are:

1. according to the glove turning mold, the fixed supporting plate is matched with the movable supporting plate, so that the stability of the glove is improved when the glove is sleeved on the turning hand mold, and the problem that the glove cannot be sleeved in place or the glove moves relative to the movable supporting plate when the glove is sleeved is avoided.

2. According to the glove turning machine, the problem that the vertical space of the original vertical glove turning machine occupies a large space and the hand mold turning radius of the horizontal glove turning machine is large is solved by arranging the turning hand mold which rotates around the horizontal central shaft of the rotating seat body, the problem of processing waiting of a traditional single hand mold station is avoided by adopting the design thought of the upper and lower turning stations, and the utilization rate and compactness of the whole space of equipment are improved.

3. According to the feeding mechanism, the feeding direction of the frame is provided with the feeding mechanism matched with the structure such as the movable supporting plate, the feeding mechanism comprises the movable sucker and the fixed sucker, the complexity of the feeding mechanism is reduced, and the execution efficiency of the feeding mechanism is improved

Drawings

Fig. 1 is a schematic structural view of embodiment 1 of the present application.

Fig. 2 is a partial enlarged view of the portion I in fig. 1.

Fig. 3 is a schematic diagram of a second embodiment 1 of the present application.

Fig. 4 is a schematic structural view of embodiment 2 in the present application.

Fig. 5 is a schematic diagram of a second embodiment 2 of the present application.

Fig. 6 is a schematic view of the structure of the flip hand mold and the driving mechanism part thereof in the present application.

Fig. 7 is a schematic diagram of a second embodiment of the flip hand mold and a driving mechanism thereof.

Fig. 8 is a schematic structural view of the hand die and the driving mechanism thereof in the present application.

Fig. 9 is a schematic diagram of a second embodiment of the present application of the hand mold and its driving mechanism.

In the figure: 1. a frame; 2. the supporting plate moves the guide shaft; 3. the supporting plate moves the guide seat; 4. a strut translational drive assembly; 5. a gusset top plate; 6. a moving stay plate driver; 7. fixing the supporting plate; 8. moving the supporting plate; 9. turning over the hand mould; 10. a turn-over mechanism; 11. a turn-over driver; 12. a rotary base; 13. a base rotating motor; 14. a material taking hand die guide shaft; 15. taking a hand mould; 16. a material taking and receiving platform; 17. a material taking platform pressing plate; 18. a material taking hand mold translation driver; 19. a material taking hand die guide seat; 20. translating the drive belt; 21. a translation driving motor; 22. translating the rack; 23. a rack driving motor; 24. moving the feeding sucker; 25. fixing a feeding sucker; 26. a movable sucker lifting driver; 27. a hand mold rotating shaft; 28. a material taking hand mold fixing plate; 29. a movable suction cup horizontal driver; 30. a sucker moving platform; 31. the sucker is a horizontal guide shaft; 32. and a supporting plate guide shaft.

Detailed Description

The technical scheme described in the application is further described and illustrated below with reference to the accompanying drawings and examples. It should be noted that, the terms possibly related to the following paragraphs include, but are not limited to, "up, down, left, right, front, back" and the like, and the directions according to which the terms are all visual directions shown in the drawings of the corresponding specification, which should not be construed as limiting the scope of protection of the present technical solution, but are only for facilitating the understanding of the technical solution described in the specification by those skilled in the art.

In the description of the following paragraphs, unless expressly specified and limited otherwise, the terms "mounted," "connected," and the like are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art in view of the specific circumstances in combination with common general knowledge in the art, design specifications, standard documents, etc.

Example 1

Referring to fig. 1 to 3 and fig. 6 to 9, a horizontal glove turn-over machine comprises a frame 1, wherein a supporting plate moving guide shaft 2 is arranged on the frame 1, a supporting plate moving guide seat 3 is connected to the supporting plate moving guide shaft 2 in a sliding manner, the supporting plate moving guide seat 3 is positioned on the top surface of a supporting plate top plate 5, a supporting plate guide shaft 32 is connected to the bottom surface of the supporting plate top plate 5, and the supporting plate guide shaft 32 is perpendicular to the supporting plate moving guide shaft 2; the two sides of the supporting plate moving guide shaft 2 are connected with moving supporting plates 8 in a sliding manner, and the moving supporting plates 8 are driven by moving supporting plate drivers 6 arranged on supporting plate top plates 5; the supporting plate top plate 5 is also fixedly provided with fixed supporting plates 7 parallel to the supporting plate top plate 5 at two sides of the movable supporting plate 8. The fixed supporting plate 7 and the movable supporting plate 8 are L-shaped plate bodies.

The supporting plate top plate 5 is also connected with a supporting plate translation driving assembly 4, the supporting plate translation driving assembly 4 comprises a translation driving belt 20, two ends of the translation driving belt 20 are installed on the frame 1 through wheel bodies, the translation driving belt 20 is connected with the supporting plate top plate 5 through a connecting piece, one end of the translation driving belt 20 is driven by a translation driving motor 21, and the translation driving motor 21 is located on the frame 1.

In the initial state, the fixed supporting plate 7 and the movable supporting plate 8 are positioned in the feeding direction of the frame 1, a turnover hand die 9 is further arranged at the position between the adjacent supporting plate movable guide shafts 2 on the frame 1, and the turnover hand die 9 is positioned in the discharging direction of the movable supporting plate 8 and the fixed supporting plate 7. The number of the turnover hand molds 9 is at least two, and the turnover hand molds are distributed on the rotary seat body 12. The turnover hand mould 9 is also provided with a turnover mechanism 10 for realizing the glove turnover function, the turnover mechanism 10 is driven by a turnover driver 11 on the turnover hand mould 9, and the turnover driver 11 is also positioned on a rotary seat body 12.

The rotary seat 12 is rotatably connected with the frame 1, and the rotary seat 12 is driven by a seat rotating motor 13, and the seat rotating motor 13 is located on the frame 1.

The turnover hand mould 9 corresponds to a material taking hand mould 15 positioned below the frame 1 under the rotation of the rotary seat body 12. The material taking hand die 15 is connected with the translation rack 22 through a material taking hand die fixing plate 28, and the translation rack 22 is meshed with a driving gear at the output end of a rack driving motor 23 on the frame 1.

The material taking hand mold fixing plate 28 is also slidably connected to the material taking hand mold guide shafts 14 symmetrically arranged on two sides of the frame 1 through the material taking hand mold guide bases 19, and is driven by the rack driving motor 23 to move along the material taking hand mold guide shafts 14 towards the direction close to the turning hand mold 9 so as to receive the glove from the turning hand mold 9.

The material taking hand mold 15 is respectively provided with a material taking platform pressing plate 17 and a material taking and bearing platform 16 above and below a path approaching the turnover hand mold 9, the material taking and bearing platform 16 is provided with a lifting driving mechanism for lifting the material taking and bearing platform 16, and the material taking platform pressing plate 17 is provided with a driving mechanism for pressing and keeping away the material taking and bearing platform 16.

The rotary seat body 12 is positioned on the hand mold rotary shaft 27, and two ends of the hand mold rotary shaft 27 are respectively connected with the frame 1 through bearing seats. One end of the hand mold rotating shaft 27 is connected with the seat body rotating motor 13, and the seat body rotating motor 13 is positioned on the frame 1. The structure and connection relationship of the rest are the same as those described in any one of the foregoing embodiments, and are not repeated here to avoid complicated text.

Example 2

On the basis of embodiment 1, referring to fig. 3 and fig. 4, a feeding device is arranged on a frame 1 in a feeding direction, the feeding device comprises a movable feeding sucker 24 and a fixed feeding sucker 25, the movable feeding sucker 24 is provided with a movable sucker lifting driver 26 which enables the movable feeding sucker 24 to approach or separate from a feeding station in a vertical direction, the movable sucker lifting driver 26 and the movable feeding sucker 24 are both positioned on a sucker moving platform 30, and the sucker moving platform 30 can move in a horizontal direction towards the direction where the fixed feeding sucker 25 is positioned under the driving of the movable sucker horizontal driver 29. The fixed feeding sucker 25 is positioned on the frame 1. The movable feeding sucker 24 and the fixed feeding sucker 25 are both needling suckers. The structure and connection relationship of the rest are the same as those described in any one of the foregoing embodiments, and are not repeated here to avoid complicated text.

On the basis of the above embodiments, the technical features involved therein and the functions and roles that the technical features play in the technical solution are described in detail using the following paragraphs so as to help those skilled in the art to fully understand the technical solution and reproduce it.

The movable feeding sucker 24 is driven by a movable sucker horizontal driver 29, and a sucker moving platform 30 connected with the movable feeding sucker 24 moves to the upper part of the feeding station along a sucker horizontal guide shaft 31, and the movable feeding sucker 24 moves vertically relative to the feeding station under the driving of a movable sucker lifting driver 26, so that the glove on the feeding station is sucked and lifted.

After the movable feeding suction cup 24 sucks the glove on the feeding station, the glove can be far away from the feeding station under the action of the movable suction cup lifting driver 26, and moves along with the suction cup moving platform 30 along the suction cup horizontal guide shaft 31 to the prescribed position of the fixed feeding suction cup 25 under the drive of the movable suction cup horizontal driver 29 until the movable feeding suction cup 24 is aligned with the fixed feeding suction cup 25, and the movable suction cup horizontal driver 29 does not act any more.

After the movable feeding sucker 24 is aligned with the fixed feeding sucker 25, the movable feeding sucker 24 is driven by the movable sucker lifting driver 26 to descend until the sucked glove is attached to the fixed feeding sucker 25. At this time, the fixed feeding sucker 25 starts to act, so that the bottom surface of the glove is sucked. After the fixed feeding sucker 25 is sucked with the bottom surface of the glove, the movable feeding sucker 24 starts to be away from the fixed feeding sucker 25 by a set distance under the drive of the movable sucker lifting driver 26, so that the opening of the open end of the glove is realized, and the insertion of the movable supporting plate 8 is satisfied.

The movable supporting plate 8 is an L-shaped plate body and is provided with a smooth end which can be inserted into the opening end of the glove. The movable supporting plate 8 is positioned on the supporting plate top plate 5, the supporting plate top plate 5 horizontally moves to the fixed feeding sucking disc 25 and the movable feeding sucking disc 24 along the supporting plate movable guiding shaft 2 through the supporting plate movable guiding seat 3 under the action of the supporting plate translation driving assembly 4, and the movable supporting plate 8 arranged on the supporting plate top plate 5 is inserted into the glove opening inlet end.

The movable supporting plates 8 are arranged on the supporting plate guide shafts 32 in pairs and relatively approach or separate along the supporting plate guide shafts 32 under the driving of the movable supporting plate driver 6; the fixed supporting plate 7 is fixedly connected to the supporting plate top plate 5, and the fixed supporting plate 7 is located on the outer side of the movable supporting plate 8 and corresponds to the movable supporting plate 8.

After the movable supporting plate 8 is inserted into the glove inlet end, the movable supporting plate can be mutually separated under the action of the movable supporting plate driver 6, so that the glove inlet end which is opened by the movable feeding sucking disc 24 and the fixed feeding sucking disc 25 is further opened. And the movable supporting plate 8 is attached to the fixed supporting plate 7 correspondingly arranged outside in the process of being away from each other, and after the movable supporting plate 8 is attached to the fixed supporting plate 7, the movable supporting plate driver 6 stops working.

The attached movable supporting plate 8 and the fixed supporting plate 7 are together driven by the supporting plate top plate 5 under the driving of the supporting plate translation driving assembly 4, approach to the position of the turnover hand mould 9 along the supporting plate movable guiding shaft 2, and are sleeved into the turnover hand mould 9 through the glove at the opening end. When the movable supporting plate 8 and the fixed supporting plate 7 start to move towards the direction of the turning hand die 9, the movable feeding sucker 24 and the fixed feeding sucker 25 are reset, so that grabbing and preliminary opening of the next glove on the feeding station are realized.

In the present application, the position where the movable stay 8 and the fixed stay 7 are engaged with each other is referred to as a material receiving position. After the glove is sleeved into the turn-over hand mould 9 at the receiving position, the structure comprising the movable supporting plate 8 and the fixed supporting plate 7 is reset, so that the further spreading and transferring of the glove which is preliminarily spread by the movable feeding sucking disc 24 and the fixed feeding sucking disc 25 are realized.

After the glove is sleeved on the turning hand mould 9, the turning hand mould 9 rotates to a lower material taking position along with the rotary seat body 12 and the hand mould rotary shaft 27 under the action of the seat body rotary motor 13, and is aligned with the material taking hand mould 15 correspondingly arranged at the lower material taking position.

The material taking hand die 15 horizontally moves along the material taking hand die guide shaft 14 through the material taking hand die translation driver 18, and the glove on the turning hand die 9 is turned over and transferred to the material taking hand die 15 in the process that the turning driver 11 drives the turning mechanism 10 to move relative to the turning hand die 9. As a part of the prior art, the working modes of the turn-over hand mold 9, the turn-over mechanism 10 and the turn-over driver 11 described in the present application refer to the driving structures of the glove sleeve, the glove turn-over frame and both described in CN217460036U in the background art, or the structures of the above glove turn-over can be realized by a person skilled in the art under the condition of the prior art.

At this time, the material taking hand mold 15 for receiving the turned glove is located between the material taking receiving platform 16 and the material taking platform pressing plate 17, after the material taking hand mold 15 receives the glove, the material taking platform pressing plate 17 moves downward under the action of the driving mechanism and contacts with the material taking receiving platform 16, so as to realize the contact and clamping of the material taking platform pressing plate 17 and the material taking receiving platform 16 on the turned glove on the material taking hand mold 15, when the material taking hand mold 15 moves along the material taking hand mold guiding shaft 14 in a direction away from the material taking receiving platform 16, the turned glove clamped by the material taking platform pressing plate 17 and the material taking receiving platform 16 is left on the material taking receiving platform 16, and the glove left on the material taking receiving platform 16 is completely separated from the material taking hand mold 15.

After the glove on the taking hand mould 15 and the taking receiving platform 16 are completely separated, the taking platform pressing plate 17 continues to move downwards for a certain distance under the action of the driving mechanism so as to apply pressure to the glove remained on the taking receiving platform 16 to flatten the glove, then the taking platform pressing plate 17 resets under the action of the driving mechanism, and the taking receiving platform 16 moves downwards for a certain distance under the action of the self lifting device so as to meet the feeding and clamping of the next glove.

The supporting plate translation driving assembly 4 in the application can comprise a translation driving belt 20 connected with the supporting plate top plate 5 through a connecting piece, the translation driving belt 20 can be a synchronous belt, and two ends of the translation driving belt 20 are fixed and driven by a synchronous wheel or a driving wheel on the frame 1. One end of the translation driving belt 20 is provided with a translation driving motor 21, and the translation driving motor 21 is positioned on the frame 1.

The material taking hand die 15 in the application is located on a material taking hand die fixing plate 28, one side of the material taking hand die fixing plate 28 is fixedly connected with a translation rack 22 formed by racks, the translation rack 22 is matched with a rack driving motor 23 on the rack 1, the material taking hand die fixing plate 28 is driven to horizontally move along a material taking hand die guide shaft 14 through a material taking hand die guide seat 19 under the action of the rack driving motor 23, and therefore the situation that the turnover hand die 9 and the material taking receiving platform 16 at the material taking hand die 15 relative material taking positions are arranged on the material taking hand die fixing plate 28 are close to or far away from each other is achieved.

Finally, although the description has been described in terms of embodiments, not every embodiment is intended to include only a single embodiment, and such description is for clarity only, as one skilled in the art will recognize that the embodiments of the disclosure may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims (6)

1. The utility model provides a horizontal gloves turn-over machine, includes frame (1), is provided with in pairs in the pan feeding direction of frame (1) and removes fagging (8), remove fagging (8) by remove fagging driver (6) drive and along fagging guiding axle (32) relative movement, its characterized in that: the support plate guide shafts (32) are positioned on the support plate top plate (5), one side of the support plate top plate (5) on which the support plate (8) is moved is also provided with a fixed support plate (7), the support plate top plate (5) is driven by the support plate translation driving assembly (4) to move to the position of the turnover hand mould (9) along the support plate movement guide shafts (2) arranged on the frame (1) in the feeding direction far away from the frame (1), the turnover hand mould (9) is at least two and uniformly distributed on the rotary seat bodies (12), and the rotary seat bodies (12) rotate around the horizontal central axis of the rotary seat bodies (12) under the driving of the seat body rotary motor (13); the turnover hand die (9) is also provided with a turnover mechanism (10), the turnover mechanism (10) is driven by a turnover driver (11), and the turnover driver (11) is connected to the rotary seat body (12); the turnover hand mould (9) rotates along with the rotary seat body (12) to be aligned with a material taking hand mould (15) below the frame (1), the material taking hand mould (15) horizontally moves relative to the corresponding turnover hand mould (9) along a material taking hand mould guide shaft (14) under the driving of a material taking hand mould translation driver (18), and the material taking hand mould (15) is provided with a material taking receiving platform (16) and a material taking platform pressing plate (17) on a horizontal path of the movement relative to the turnover hand mould (9).

2. A horizontal glove turn-up machine as claimed in claim 1 wherein: the supporting plate top plate (5) is provided with a supporting plate moving guide seat (3) sliding along the supporting plate moving guide shaft (2), the material taking hand die (15) is positioned on the material taking hand die fixing plate (28), and the material taking hand die fixing plate (28) is in sliding connection with the material taking hand die guide shaft (14) through the material taking hand die guide seat (19); and a translation rack (22) is further arranged on the material taking hand die fixing plate (28), and the translation rack (22) is meshed and transmitted with a rack driving motor (23) on the frame (1).

3. A horizontal glove turn-up machine as claimed in claim 2 wherein: the supporting plate translation driving assembly (4) comprises a translation driving belt (20) connected with the supporting plate top plate (5) through a connecting piece, and the translation driving belt (20) rotates around a rotating wheel on the frame (1) under the driving of a translation driving motor (21).

4. A horizontal glove turn-up machine as claimed in claim 1 wherein: the rotary base (12) is connected with two ends of the hand mould rotating shaft (27) through bearing blocks, and the rotary base (12) rotates along with the hand mould rotating shaft (27).

5. A horizontal glove turn-up machine as claimed in claim 1 wherein: the bottom of the material taking and receiving platform (16) is provided with a lifting driving mechanism, and the material taking platform pressing plate (17) is positioned above the material taking and receiving platform (16) and is provided with the lifting driving mechanism.

6. A horizontal glove turn-up machine according to any one of claims 1 to 5, wherein: the feeding machine comprises a frame (1), wherein a movable feeding sucker (24) and a fixed feeding sucker (25) which are matched with a fixed supporting plate (7) and a movable supporting plate (8) are arranged in the feeding direction, the fixed feeding sucker (25) is positioned on the frame (1), and the movable feeding sucker (24) is driven by a movable sucker lifting driver (26) and moves in the vertical direction; the movable feeding sucker (24) and the movable sucker lifting driver (26) are both positioned on a sucker moving platform (30), and the sucker moving platform (30) is driven by a movable sucker horizontal driver (29) to move horizontally along the sucker moving platform (30) relative to the fixed feeding sucker (25).