CN216636971U - Parent's skin type pure cotton protection pad turning device - Google Patents

Abstract

The utility model belongs to the field of production of sanitary products, and particularly relates to a skin-friendly pure cotton protection pad overturning device which comprises a first conveyor belt mechanism, a second conveyor belt mechanism, an overturning mechanism and a pushing mechanism, wherein the overturning mechanism comprises an overturning frame and a first driver, and a plurality of transition channels for temporarily storing protection pads are uniformly distributed on the overturning frame in a circular manner. The automatic turnover device is provided with the first conveyor belt mechanism, the second conveyor belt mechanism, the turnover mechanism, the pushing mechanism and the like, can automatically turn over the protection pad, and is higher in efficiency.

Description

Parent's skin type pure cotton protection pad turning device

Technical Field

The utility model belongs to the field of production of sanitary products, and particularly relates to a skin-friendly pure cotton protection pad turnover device.

Background

The wrapping of pads is generally known as a bag-like article, and therefore, the wrapping of pads is usually done by gathering together a plurality of pads and then bagging them. In the actual production process, when a group of protection pads are processed, the protection pads are collected together in a vertical state and then manually turned to a horizontal state for bagging. The manual turning mode has the problem of low efficiency.

SUMMERY OF THE UTILITY MODEL

In order to make up the defects of the prior art, the utility model provides a technical scheme of a skin-friendly pure cotton protection pad overturning device.

A kind of close skin type pure cotton protection pad turning device, including:

the first conveying belt mechanism is used for intermittently and horizontally conveying the vertically placed protection pads;

the second conveyor belt mechanism is used for intermittently and horizontally conveying the horizontally stacked protection pads;

the turnover mechanism comprises a turnover frame and a first driver for driving the turnover frame to turn over, a plurality of transition channels for temporarily storing the protection pads are uniformly distributed on the turnover frame in a surrounding manner, and when the transition channels turn over for 90 degrees or 270 degrees along with the turnover frame, the protection pads in the transition channels are changed from a vertical state to a horizontal state; and

the pushing mechanism is used for pushing the protection pad on the first conveying belt mechanism into the transition channel of the turnover mechanism, and the pushing mechanism is also used for pushing the protection pad in the transition channel to the second conveying belt mechanism.

Furthermore, a plurality of first partition plates are arranged on the first conveyor belt of the first conveyor belt mechanism at intervals.

Furthermore, a plurality of second partition plates are arranged on a second conveyor belt of the second conveyor belt mechanism at intervals.

Furthermore, the turnover mechanism is provided with a feeding station and a discharging station, when the transition channel is turned over to the feeding station, the turnover mechanism is used for receiving the protection pad conveyed by the first transmission belt mechanism, and when the transition channel is turned over to the discharging station, the turnover mechanism is used for conveying the protection pad towards the first transmission belt mechanism; the turnover device further comprises a baffle, and the position of the baffle corresponds to the feeding station and is used for shielding a discharge hole of a transition channel turned to the feeding station.

Furthermore, the pushing mechanism comprises a first material pushing plate used for pushing the protection pads on the first conveying belt mechanism to the transition passage, a second material pushing plate used for pushing the protection pads in the transition passage to the second conveying belt mechanism, and a second driver used for synchronously driving the first material pushing plate and the second material pushing plate to move.

Furthermore, four transition channels are uniformly distributed on the turnover frame in a surrounding mode.

Furthermore, the first conveyor belt mechanism is located at the upper end of the front side of the turnover mechanism, and the second conveyor belt mechanism is located at the lower end of the rear side of the turnover mechanism.

Compared with the prior art, the automatic turnover device is provided with the first conveyor belt mechanism, the second conveyor belt mechanism, the turnover mechanism, the pushing mechanism and the like, can automatically turn over the protection pad, and is higher in efficiency.

Drawings

FIG. 1 is a left side view of the structure of the present invention;

fig. 2 is a schematic front view of the present invention with the pushing mechanism removed.

Detailed Description

The utility model will be further explained with reference to the drawings.

Referring to fig. 1 and 2, a skin-friendly pure cotton pad turning device includes a first conveyor 2, a second conveyor 3, a turning mechanism 4, a pushing mechanism 5, and a baffle 6.

The first conveyor belt mechanism 2 is used for intermittently and horizontally conveying the vertically placed protection pads 1.

The second conveyor mechanism 3 is used for intermittently and horizontally conveying the horizontally stacked protection pads 1.

The turnover mechanism 4 comprises a turnover frame 400 and a first driver 402 for driving the turnover frame 400 to turn over, a plurality of transition channels 401 for temporarily storing the protection pad 1 are uniformly and circularly distributed on the turnover frame 400, the transition channels 401 are of rectangular structures which are through from front to back, and when the transition channels 401 turn over by 90 degrees or 270 degrees along with the turnover frame 400, the protection pad 1 in the transition channels 401 is changed into a horizontal state from a vertical state. The turnover mechanism 4 has a feeding station a and a discharging station B, and is configured to receive the pad 1 conveyed by the first belt conveyor 2 when the transition channel 401 is turned over to the feeding station a, and to convey the pad 1 toward the first belt conveyor 2 when the transition channel 401 is turned over to the discharging station B. The first actuator 402 is preferably a rotary air cylinder, but alternatively a rotary oil cylinder or a rotary electric cylinder may be used.

The pushing mechanism 5 is used for pushing the protection pad 1 on the first conveyor belt mechanism 2 into the transition channel 401 of the turnover mechanism 4, and the pushing mechanism 5 is also used for pushing the protection pad 1 in the transition channel 401 to the second conveyor belt mechanism 3.

The position of the baffle 6 corresponds to the feeding station A and is used for shielding a discharge hole of the transition channel 401 which is turned over to the feeding station A.

With reference to fig. 2, the first belt conveying mechanism 2 is a conventional belt conveying mechanism, and includes a first driving wheel, a first driven wheel, a first belt and a first motor, wherein a plurality of first partition boards 200 are arranged on the first belt at intervals, and the pad 1 is divided into a group of N pads by the first partition boards 200, so as to facilitate subsequent bagging.

With reference to fig. 2, the second conveyor mechanism 3 is also a conventional conveyor structure, and includes a second driving wheel, a second driven wheel, a second conveyor belt and a second motor, wherein a plurality of second partition boards 300 are arranged at intervals on the second conveyor belt, and the protection pad 1 is divided into every N pieces by the second partition boards 300, so as to facilitate subsequent bagging.

The first conveyor belt mechanism 2 and the second conveyor belt mechanism 3 are both controlled to move intermittently, so that the pad 1 is pushed by the pushing mechanism 5.

With reference to fig. 1, the pushing mechanism 5 includes a first material pushing plate 500 for pushing the pad 1 on the first conveyor belt mechanism 2 to the transition passage 401, a second material pushing plate 501 for pushing the pad 1 in the transition passage 401 to the second conveyor belt mechanism 3, and a second driver 502 for synchronously driving the first material pushing plate 500 and the second material pushing plate 501 to move.

More specifically, the second actuator 502 is a pneumatic sliding table, a supporting plate 503 is fixed on a sliding block of the pneumatic sliding table, the supporting plate 503 fixes the first push rod 504 and the second push rod 505 up and down, the length of the second push rod 505 is greater than that of the first push rod 504, the first push plate 500 is fixed at the end of the first push rod 504, the second push plate 501 is fixed at the end of the second push rod 505, and the pneumatic sliding table can drive the first push plate 500 and the second push plate 501 to move synchronously through the supporting plate 503, the first push rod 504 and the second push rod 505, so that the first push plate 500 and the second push plate 501 move simultaneously.

In addition, the second driver 502 may also adopt a structure such as an electric sliding table, a hydraulic sliding table, and the like.

With continued reference to fig. 2, four transition passages 401 are uniformly distributed around the roll-over stand 400. Thus, the difference between the feeding station A and the discharging station B is just 90 degrees. The first conveyor belt mechanism 2 is located at the upper end of the front side of the turnover mechanism 4 and corresponds to the feeding station A, and the second conveyor belt mechanism 3 is located at the lower end of the rear side of the turnover mechanism 4 and corresponds to the discharging station B.

When the protection pad feeding device works, every N pieces of protection pads 1 are conveyed by the first transmission mechanism 2, when the protection pads 1 reach the feeding station A, the second driver 502 drives the first material pushing plate 500 to push the protection pads 1 on the first transmission mechanism 2 into the transition channel 401 located on the feeding station A, then the first material pushing plate 500 resets, the protection pads 1 are blocked by the baffle 6 when being pushed, the protection pads 1 are prevented from falling off, then the first driver 402 drives the turnover frame 400 to turn over for 90 degrees, the transition channel 401 on the feeding station A is turned over to the discharging station B, at the moment, the protection pads 1 in the transition channel 401 are turned over to be in a horizontal state from a vertical state, then the second driver 502 drives the second material pushing plate 501 to push the protection pads 1 on the transition channel 401 to the second conveyor belt mechanism 3, finally, the second material pushing plate 501 resets, and the second conveyor belt mechanism 3 sends the protection pads 1 to the next station.

It should be added that the pushing actions of the first material pushing plate 500 and the second material pushing plate 501 are performed synchronously, which is more efficient.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the utility model has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.

Claims (7)

1. A kind of close skin type pure cotton protection pad turning device, characterized by that, including:

the first conveying belt mechanism is used for intermittently and horizontally conveying the vertically placed protection pads;

the second conveyor belt mechanism is used for intermittently and horizontally conveying the horizontally stacked protection pads;

the turnover mechanism comprises a turnover frame and a first driver for driving the turnover frame to turn over, a plurality of transition channels for temporarily storing the protection pads are uniformly distributed on the turnover frame in a surrounding manner, and when the transition channels turn over for 90 degrees or 270 degrees along with the turnover frame, the protection pads in the transition channels are changed from a vertical state to a horizontal state; and

the pushing mechanism is used for pushing the protection pad on the first conveying belt mechanism into the transition channel of the turnover mechanism, and the pushing mechanism is also used for pushing the protection pad in the transition channel to the second conveying belt mechanism.

2. The turning device for skin-friendly pure cotton protection pads according to claim 1, wherein a plurality of first partition plates are arranged on the first conveyor belt of the first conveyor belt mechanism at intervals.

3. The turning device for skin-friendly pure cotton pads according to claim 1, wherein a plurality of second partition plates are arranged on the second conveyor belt of the second conveyor belt mechanism at intervals.

4. The turning device of claim 1, wherein the turning mechanism has an input station and an output station, and is configured to receive the pad from the first belt mechanism when the transition channel is turned to the input station, and to convey the pad toward the first belt mechanism when the transition channel is turned to the output station; the turnover device further comprises a baffle, and the position of the baffle corresponds to the feeding station and is used for shielding a discharge hole of a transition channel turned to the feeding station.

5. The turning device for pure cotton pad of skin-friendly type as claimed in claim 1, wherein said pushing mechanism comprises a first pushing plate for pushing the pad on the first conveyor belt mechanism to the transition passage, a second pushing plate for pushing the pad in the transition passage to the second conveyor belt mechanism, and a second driver for synchronously driving the first pushing plate and the second pushing plate to move.

6. The turning device of claim 1, wherein four transition channels are uniformly distributed around the turning frame.

7. The turning device of claim 1, wherein the first conveyor belt mechanism is located at the upper end of the front side of the turning mechanism, and the second conveyor belt mechanism is located at the lower end of the rear side of the turning mechanism.

Images