CN220721547U - Feeding device in process of hand sleeve - Google Patents

Abstract

The utility model discloses a feeding device in glove cuff process, which belongs to the field of glove processing devices and is used for glove rubber band cuffs, and comprises a main frame, wherein the main frame is provided with a rubber band cuff device, the main frame is provided with a traversing mechanism for driving a conveyor belt frame to approach or depart from the direction in which the rubber band cuff device is positioned, the conveyor belt frame is provided with a conveyor belt, and the conveyor belt is driven by a conveyor belt motor; an auxiliary feeding mechanism is arranged at one side of the feeding direction of the conveyor belt motor, and the auxiliary feeding mechanism is positioned on the conveyor belt frame; the conveyer belt frame is provided with the board that takes out in the position department that corresponds rubber band hoop cover device, takes out the board and is driven by taking out the board driver. According to the automatic feeding device, the movement of the glove on the upper side relative to the rubber band sleeve device can be realized, the action complexity of the rubber band sleeve device is reduced, the automatic feeding after the sleeve is sleeved can be realized, the functionality of the rubber band sleeve feeding device or platform is improved, and the efficiency of the rubber band sleeve and the feeding stability are improved.

Description

Feeding device in process of hand sleeve

Technical Field

The application belongs to the field of glove processing devices, and particularly relates to a feeding device in a glove sleeving process.

Background

The patent document with the Chinese patent publication number of CN216688774U discloses a full-automatic glove turn-over machine, and further discloses a material taking mechanism, a material feeding mechanism, a turn-over mechanism and a material collecting mechanism which are sequentially arranged from left to right; the glove to be turned over is sleeved on the turn-over mechanism through the feeding mechanism, and is taken down and collected into a stack through the collecting mechanism after being turned over by the turn-over mechanism.

The utility model discloses a rubber band cuff device for piling up gloves, which can realize the rotation to power conveyer belt through structures such as carousel, conveyer belt jacking cylinder, swivel bearing frame to power conveyer belt still need with secondary clamp plate cooperation, just can establish the cuff of device cooperation realization rubber band with the arrangement of reinforcement after the rubber band cuff is fixed can outwards sell to the collection.

The action process of the structure before the rubber band is sleeved is complex, for example, the structure needs to be matched with a secondary pressure plate at the top, and the structure needs to be matched with structures such as a turntable at the bottom, a lifting cylinder of a conveying belt, a rotating bearing seat and the like to realize rotation and lifting. The complicated action affects the feeding efficiency and feeding quality before the rubber band is sleeved.

Meanwhile, still disclose a glove rubber band single-head collar structure of the pile and install the device of this structure in the prior art, see the patent document of China patent publication No. CN218022337U, it includes the collar platform, is provided with the collar layer board in the inside of collar platform, but its collar platform is fixed with the frame and is set up, still include lower support fixed plate, lower support movable plate, upper support plate body etc. and above-mentioned structure can move relative to the collar platform, and realize the collar bundling to the glove open end of pile stack.

The structure adopts a mode that the rubber band hoop structure comprises a lower supporting fixing plate, a lower supporting moving plate, an upper supporting plate body and the like, and the rubber band hoop structure further comprises an action process of acquiring rubber bands from a vibration screening disc discharge hole, so that the rubber band hoop structure can reduce the hoop efficiency due to excessive execution of actions on action execution efficiency, the waiting time of the stacked gloves on the hoop platform is long, a push plate is required to push the stacked gloves to a sloping plate at the discharge hole under the action of a push plate translation cylinder in the discharge process, then the push plate cylinder is reset and drives the push plate to reset, the hoop platform cannot realize autonomous feeding, and the function is single.

Disclosure of Invention

The utility model aims at providing a material feeding unit of gloves hoop in-process, it can realize becoming the motion of piling up gloves for rubber band hoop device, reduces the action complexity of rubber band hoop device, and can realize the autoloading behind the hoop, improves the functional of rubber band hoop material feeding unit or platform, and then improves the efficiency of rubber band hoop and the stability of pay-off.

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

the feeding device in the glove sleeving process comprises a main frame, wherein a rubber band sleeving device is arranged on the main frame, a traversing mechanism for driving a conveyor belt frame to approach or depart from the rubber band sleeving device is arranged on the main frame, a conveyor belt is arranged on the conveyor belt frame, and the conveyor belt is driven by a conveyor belt motor; an auxiliary feeding mechanism is arranged at one side of the feeding direction of the conveyor belt motor, and the auxiliary feeding mechanism is positioned on the conveyor belt frame; the conveyer belt frame is provided with the board that takes out in the position department that corresponds rubber band hoop cover device, takes out the board and is driven by taking out the board driver.

As one of the preferable technical schemes of the application, the auxiliary feeding mechanism is a roller set or an auxiliary conveying belt formed by a plurality of rollers.

As one of the preferable technical schemes of the application, a drawing plate limiting seat is arranged on the conveyor belt frame, a drawing plate is arranged in the drawing plate limiting seat in a sliding manner, one end of the drawing plate far away from the rubber band sleeve device is connected with a telescopic end of a drawing plate driver, and the drawing plate driver is fixed on the conveyor belt frame; the drawing plate extends out of the conveying belt at one end close to the rubber band hoop sleeve device.

As one of the preferred technical schemes of the application, the conveyer belt rack is also provided with a roller set synchronizing wheel for driving the conveyer belt, the roller set synchronizing wheel is connected with a conveyer belt driving wheel through a synchronous transmission belt, and the conveyer belt driving wheel is positioned on the conveyer belt rack and is driven by a conveyer belt motor on the conveyer belt rack.

As one of the preferred technical schemes of this application, sideslip mechanism is including being located the slide bar in the main frame, is provided with the sliding sleeve pedestal that removes or keep away from to rubber band hoop cover device place direction on the slide bar, sliding sleeve pedestal and slide bar slip setting, install the conveyer belt frame on the sliding sleeve pedestal, be provided with the sideslip driver between conveyer belt frame and the main frame.

As one of the preferable technical schemes of the application, the transverse moving driver is of a driving cylinder or a screw nut pair structure.

As one of the preferred technical schemes of the application, the transverse moving mechanism comprises a sliding rail and a sliding block, the sliding block is connected with the conveyor belt frame, and the sliding rail is positioned on the main frame.

As one of the preferred technical schemes of the application, the micro-switches are arranged on the two sides of the drawing plate on the conveyor belt frame, and the micro-switches are located on the end face, facing the rubber band sleeve device, of the conveyor belt frame.

As one of the preferred technical schemes of the application, a bottom limiting plate is arranged on the conveyor belt rack below the micro switch, and the bottom limiting plate is provided with an inclined plane for the rubber band to slide in and limiting the rubber band to separate.

As one of the preferred technical solutions of the present application, the micro switch has a switch paddle that extends in the direction of the conveyor frame and that is inclined downward during the extension process.

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

according to the glove overturning and stacking device, the conveying belt, the auxiliary feeding mechanism, the drawing plate and the like are adopted, the problem that the gloves are stacked and stably conveyed until the stacked gloves between the rubber band hoop devices are achieved is solved, the relative movement of the stacked gloves to the rubber band hoop devices can be achieved, the functionality of the feeding device is improved, and the overall working efficiency of the rubber band hoop devices is improved while the feeding stability of the stacked gloves is guaranteed.

Drawings

Fig. 1 is a perspective view of the present application (schematic of the position of the rubber band-containing cuff apparatus).

Fig. 2 is a perspective view of the second embodiment of the present application.

Fig. 3 is a partial enlarged view of the portion I in fig. 1.

In the figure: 1. a main frame; 2. a slide bar; 3. an auxiliary feeding mechanism; 4. a conveyor belt frame; 5. a conveyor belt; 6. a roller set synchronizing wheel; 7. a synchronous drive belt; 8. a conveyor belt drive wheel; 9. a sliding sleeve seat body; 10. a drawing plate limiting seat; 11. drawing a plate; 12. a drawer plate driver; 13. a conveyor belt motor; 14. a rubber band collar device; 15. a micro-switch; 16. a switch pulling piece; 17. and a bottom limiting plate.

Detailed Description

The technical scheme described in the application is further described and illustrated below with reference to the accompanying drawings and examples.

Example 1

As shown in fig. 1 to 3, the feeding device in the process of sleeving the hand cuffs comprises a conveyor belt frame 4, a conveyor belt 5 is mounted on the conveyor belt frame 4 through a roller set, an auxiliary feeding mechanism 3 is arranged in the feeding direction of the conveyor belt 5, and the auxiliary feeding mechanism 3 is arranged in parallel with the conveyor belt 5. The roller set of the conveyer belt 5 is provided with a roller set synchronizing wheel 6, the roller set synchronizing wheel 6 is connected with a conveyer belt driving wheel 8 on the conveyer belt frame 4 through a synchronous transmission belt 7, and the conveyer belt driving wheel 8 is connected with a conveyer belt motor 13 on the conveyer belt frame 4 and is driven by the conveyer belt motor 13. Still install on the conveyer belt frame 4 and take out board spacing seat 10, take out board spacing seat 10 and be located the conveyer belt frame 4 of the inside loop that conveyer belt 5 constitutes, take out board spacing seat 10's inside is provided with and takes out board 11 that board spacing seat 10 moved relatively, takes out and leaves the clearance between the bottom surface of the top terminal surface of board 11 one end and conveyer belt 5 just enough to carry out the bearing to the open end of conveyer belt 5 upper glove stack. The other end of the drawing plate 11 far away from the rubber band hooping device 14 is connected with a drawing plate driver 12, and the drawing plate driver 12 is positioned on the conveyor frame 4. The main frame 1 is further provided with a traversing mechanism (not shown in the figure) for realizing the horizontal movement of the conveyor frame 4 relative to the rubber band cuff device 14.

Example 2

The auxiliary feeding mechanism 3 is an auxiliary conveying belt or a roller set structure formed by a plurality of rollers. 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 3

The feeding device in the process of the hand strap loop is characterized in that the traversing mechanism comprises a sliding sleeve seat body 9 positioned at the bottom end of the conveyor belt frame 4, the sliding sleeve seat body 9 slides on a sliding rod 2 of the general machine frame 1, and the sliding rod 2 is positioned in the loop direction of the rubber strap loop device 14. A transverse movement driver is arranged on the main frame 1 between the adjacent slide bars 2. The transverse actuator is of a driving cylinder or screw nut pair structure. 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 4

The feeding device in the process of sleeving the hand cuffs is characterized in that the traversing mechanism comprises a sliding block connected with the conveyor belt frame 4, the sliding block is connected to a sliding rail in a sliding manner, and the sliding rail is positioned on the main frame 1. And a transverse movement driver is arranged on the main frame 1 between the adjacent sliding rails. The transverse actuator is of a driving cylinder or screw nut pair structure. The structure and connection relationship of the rest are the same as those described in the foregoing embodiment 1, and are not repeated here to avoid complicated text.

Example 5

The feeding device in the process of the hand strap sleeve is characterized in that micro switches 15 are further arranged on two sides of the drawing plate 11 on the conveyor belt rack 4, and the micro switches 15 are positioned on the end face of the conveyor belt rack 4, which faces the rubber strap sleeve device 14; a bottom limiting plate 17 is arranged on the conveyor belt rack 4 below the micro switch 15, and the bottom limiting plate 17 is provided with an inclined plane for allowing the rubber band to slide in and limiting the rubber band from separating; the microswitch 15 has a switch blade 16, which extends in the direction of the conveyor frame 4 and which is inclined downward during the extension. 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.

When the glove stacking device is used, the feeding end of the conveying belt 5 is connected with the discharging end of the conveying belt of the glove stacking device after the glove is turned over, the glove is stacked at the feeding end of the conveying belt 5, the glove inlet end of the glove is positioned at one side of the auxiliary feeding mechanism 3, and the glove inlet end moves towards the position of the drawing plate 11 along with the conveying belt 5 under the support of the auxiliary feeding mechanism 3.

When the glove stack moves to the position of the drawing plate 11, the conveyer belt 5 stops under the action of the conveyer belt motor 13. The above detection of the movement position of the glove bundle is obtained by a sensor correspondingly arranged on the main frame 1, and the sensor can adopt a proximity sensor or other photoelectric sensors for obtaining position information.

The two ends of the drawing plate 11 extend out of the conveying belt 5, wherein one end facing the rubber band collar device 14 is used for receiving the opening end of the glove bundle fed by the auxiliary feeding mechanism 3, and the other end far away from the rubber band collar device 14 is connected with the drawing plate driver 12 and moves along the drawing plate limiting seat 10 under the driving of the drawing plate driver 12.

After the drawing plate 11 receives the piled glove from the auxiliary feeding mechanism 3, the conveyer belt frame 4 slides to the position of the rubber band sleeve device 14 along the sliding rod 2 through the sliding sleeve seat 9 under the drive of the transverse moving mechanism. After the conveyor belt frame 4 moves to a specified position, the rubber band hoop device 14 hoops the rubber band on one end of the drawing plate 11 and the opening end of the piled glove supported by the drawing plate 11. After the rubber band hooping device 14 hoops, the conveyor belt rack 4 is reset along the slide bar 2 through the sliding sleeve seat 9 under the driving of the transverse moving mechanism, and in the resetting process, the drawing plate 11 moves towards the inside of the conveyor belt 5 under the driving of the drawing plate driver 12, so that one end of the drawing plate 11 is separated from the opening end of the piled glove. In this application, the rubber band sleeving device 14 can be moved relative to the conveyor frame 4 by means of its own horizontal movement actuator in the prior art, in order to carry out the sleeving operation on gloves of different sizes, the conveyor frame 4 likewise moves the sliding sleeve seat 9 along the sliding rod 2. Meanwhile, when the rubber band sleeving device 14 is fixed and only the conveyor belt rack 4 moves, the conveyor belt rack 4 integrally slides along the sliding rod 2 to the position of the rubber band sleeving device 14 through the sliding sleeve seat body 9, so that the rubber band sleeving operation can be realized.

In the course of the rubber band cuff, this can be achieved by providing a microswitch 15 in order to determine whether the rubber band has been cuff-ed into place at the open end of the stack of gloves. The micro-switch 15 is located above the conveyor frame 4 and is separately arranged at two sides of the drawing plate 11, and the micro-switch 15 is located at the end of the conveyor frame 4 facing the rubber band cuff device 14. The microswitch 15 has a switch blade 16 which can be actuated in a detected manner, the switch blade 16 extending in the direction of the conveyor frame 4 and being inclined downwards during the extension process in order to be in contact with the rubber band when the latter is looped over the open end of the glove. The micro switch 15 is used for judging the connection state of the rubber band and the opening end of the piled glove (judging whether the rubber band is sleeved at the opening end of the piled glove) through the self-structure circuit structure and the switch pulling piece 16, and limiting the rubber band through the switch pulling piece 16 which is obliquely arranged, so that the rubber band is prevented from being separated from the glove after being sleeved.

Meanwhile, corresponding to the micro switch 15, bottom limiting plates 17 are further arranged on two sides of the conveyor frame 4, which are located on the drawing plate 11, and the bottom limiting plates 17 are located at one end of the conveyor frame 4, which faces the rubber band sleeving device 14. The bottom restraint plate 17 is a plate body with a sloping edge, such as a trapezoid plate body with a sloping edge, a triangular plate body or other polygonal or irregularly shaped plate body. The bevel of the bottom restraint plate 17 is lower at the end facing the rubber band cuff means 14 than at the end facing away from the rubber band cuff means 14. The rubber band moves along the inclined plane along with the rubber band sleeving device 14 towards the opening end of the glove stack, and can be limited between the bottom limiting plate 17 and the adjacent conveyor frame 4 after being sleeved on the opening end of the glove stack.

According to the section, in the process of hooping the rubber band towards the opening end of the piled glove, the rubber band hooping device 14 hoops the drawing plate 11 and the opening end of the piled glove together, and when the drawing plate 11 is driven by the drawing plate driver 12 to move in the inner space of the rural conveyor belt 5, the obliquely arranged switch shifting piece 16 and the bottom limiting plate 17 can limit the rubber band after hooping, so that the rubber band after hooping is prevented from being separated from the opening end of the piled glove.

The completed stack of gloves is fed into the collecting device via conveyor 5, which is again driven by conveyor motor 13.

Claims (10)

1. Feeding device of hand hoop cover in-process, including total frame (1), be provided with rubber band hoop cover device (14), its characterized in that on total frame (1): a transverse moving mechanism for driving the conveyor belt rack (4) to approach or separate from the direction in which the rubber band hoop sleeve (14) is positioned is arranged on the main machine frame (1), a conveyor belt (5) is arranged on the conveyor belt rack (4), and the conveyor belt (5) is driven by a conveyor belt motor (13); an auxiliary feeding mechanism (3) is arranged at one side of the feeding direction of the conveyor belt motor (13), and the auxiliary feeding mechanism (3) is positioned on the conveyor belt frame (4); the conveyer belt frame (4) is provided with a drawing plate (11) at a position corresponding to the rubber band hoop sleeve device (14), and the drawing plate (11) is driven by a drawing plate driver (12).

2. The feeding device in a glove donning process according to claim 1, wherein: the auxiliary feeding mechanism (3) is a roller set formed by a plurality of rollers or an auxiliary conveying belt.

3. The feeding device in a glove donning process according to claim 1, wherein: the conveyer belt frame (4) is provided with a drawing plate limiting seat (10), a drawing plate (11) is arranged in the drawing plate limiting seat (10) in a sliding manner, one end, far away from the rubber band sleeve device (14), of the drawing plate (11) is connected with a telescopic end of a drawing plate driver (12), and the drawing plate driver (12) is fixed on the conveyer belt frame (4); the drawing plate (11) extends out of the conveying belt (5) at one end close to the rubber band hoop device (14).

4. The feeding device in a glove donning process according to claim 1, wherein: the conveyor belt machine is characterized in that a roller set synchronizing wheel (6) for driving the conveyor belt (5) is further arranged on the conveyor belt machine frame (4), the roller set synchronizing wheel (6) is connected with a conveyor belt driving wheel (8) through a synchronous transmission belt (7), and the conveyor belt driving wheel (8) is located on the conveyor belt machine frame (4) and driven by a conveyor belt motor (13) on the conveyor belt machine frame (4).

5. The feeding device in a glove donning process according to claim 1, wherein: the transverse moving mechanism comprises a sliding rod (2) positioned on a main frame (1), a sliding sleeve seat body (9) which moves or is far away from the direction where a rubber band hoop device (14) is positioned is arranged on the sliding rod (2), the sliding sleeve seat body (9) and the sliding rod (2) are arranged in a sliding mode, a conveying belt frame (4) is arranged on the sliding sleeve seat body (9), and a transverse moving driver is arranged between the conveying belt frame (4) and the main frame (1).

6. The glove donning process feeding apparatus as defined in claim 5, wherein: the transverse actuator is of a driving cylinder or screw nut pair structure.

7. The feeding device in a glove donning process according to claim 1, wherein: the transverse moving mechanism comprises a sliding rail and a sliding block, the sliding block is connected with the conveyor belt frame (4), and the sliding rail is positioned on the main frame (1).

8. A feeding device in a glove cuff process according to any one of claims 1 to 7, wherein: the conveyer belt frame (4) is also provided with micro-switches (15) on two sides of the drawing plate (11), and the micro-switches (15) are positioned on the end face of the conveyer belt frame (4) facing the rubber band hoop device (14).

9. The glove donning process feeding apparatus as defined in claim 8, wherein: a bottom limiting plate (17) is arranged on the conveyor belt frame (4) below the micro switch (15), and the bottom limiting plate (17) is provided with an inclined plane for the rubber band to slide in and limiting the rubber band to separate.

10. The glove donning process feeding apparatus as defined in claim 8, wherein: the micro switch (15) is provided with a switch pulling piece (16), and the switch pulling piece (16) extends towards the direction of the conveyor belt rack (4) and is inclined downwards in the extending process.