CN213801947U - Blanking control structure of stacking mechanism - Google Patents

Abstract

The utility model relates to a blanking control structure of a stacking mechanism, which comprises a stacking mechanism body, wherein the lower part of the stacking mechanism body is provided with a cavity for accommodating bagged materials, the bottom surface of the cavity is a door plate which can be movably opened, one side surface of the cavity is of an open structure, and a sensing mechanism is arranged on the inner wall of the cavity at a position opposite to the open position; the induction mechanism comprises a proximity switch, a collision plate and an induction plate, wherein the collision plate and the induction plate are respectively positioned on two sides of a rotating shaft and connected with the rotating shaft, the rotating shaft is rotatably connected with an installation seat, the installation seat is fixedly installed on the inner wall of the cavity, the proximity switch is fixedly arranged and close to the induction plate, the end part of the collision plate is obliquely arranged towards the middle part of the cavity, and the back side of the collision plate is connected with the inner wall of the cavity through a pressure spring; the utility model has the advantages of reasonable design, proximity switch through response mechanism realizes the response to bagged materials, and sensitivity is high, and the response effect is accurate, has ensured pile up neatly mechanism's normal use.

Description

Blanking control structure of stacking mechanism

Technical Field

The utility model relates to a pile up neatly equipment technical field especially relates to a pile up neatly mechanism's blanking control structure.

Background

In the prior movable stacking equipment, such as the industry of bagged materials such as chemical fertilizers, feeds, flour and the like, after the bagged materials enter a stacking mechanism, the stacking mechanism needs to obtain the information and synchronously complete displacement and stacking operation, the information obtained by the stacking mechanism is generally completed through a travel switch or a photoelectric sensor, the travel switch has limited sensitivity, and the phenomenon of jamming can occur after long-time use, so that the maintenance frequency is higher; for the photoelectric sensor, as more dust exists in the stacking field operation environment, the sensitive effect of the photoelectric sensor can be influenced, the phenomenon of misoperation can occur in the actual use process, and the normal use of equipment is influenced.

Disclosure of Invention

In order to solve the defects in the prior art, the utility model aims to provide a blanking control structure of stacking mechanism.

The utility model provides a technical scheme that its technical problem adopted is:

the utility model provides a pile up neatly mechanism's blanking control structure, includes the pile up neatly mechanism body, and the lower part of pile up neatly mechanism body has a cavity that holds bagged materials, and the door plant of use is opened for can moving about to the bottom surface of cavity, and one side of cavity is open structure, its characterized in that: an induction mechanism is arranged on the inner wall of the cavity opposite to the opening position;

response mechanism includes proximity switch, hits board and tablet, hit the board and be located a pivot both sides respectively with the tablet and be connected with the pivot, the pivot rotates with a mount pad to be connected, just the mount pad installation is fixed on the cavity inner wall, proximity switch is fixed to be set up and is close to the tablet sets up, hit the board tip and incline towards the cavity middle part and set up, and hit and be connected through a pressure spring between board dorsal part and the cavity inner wall.

The proximity switch is fixedly arranged through a mounting plate connected with the proximity switch, and the mounting plate is fixedly connected with the mounting seat or the inner wall of the cavity.

The stacking mechanism is characterized by further comprising a telescopic driving device, the telescopic driving device is vertically distributed on the outer side face of the stacking mechanism body, an output shaft of the telescopic driving device is connected with the door plate through a connecting rod respectively, and the door plate is driven to open or close through telescopic action of the telescopic driving device.

The telescopic driving device is controlled by the proximity switch in an interlocking manner.

The telescopic driving device adopts a cylinder.

The outer side of the output shaft is further provided with a guard plate, the guard plate is connected with the side wall of the stacking mechanism body, an interlayer channel is formed between the guard plate and the side wall of the stacking mechanism body, and the output shaft is located inside the interlayer channel.

And reinforcing ribs connected with the door panel are arranged on the back side of the door panel.

The proximity switch is any one of an inductive proximity switch, a capacitive proximity switch, a Hall proximity switch, a photoelectric proximity switch and an ultrasonic proximity switch.

The utility model has the advantages that: structural design is reasonable, realizes the response to bagged materials through response mechanism's proximity switch, and sensitivity is high, and the response effect is accurate, has ensured pile up neatly mechanism's normal use.

Drawings

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

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic view of a connection structure of the telescopic driving device and the door panel.

Fig. 3 is a schematic structural diagram of an initial state of the sensing mechanism.

Fig. 4 is a schematic structural diagram of the action state of the sensing mechanism.

In the figure: 100 a stacking mechanism body, 101 a cavity, 102 a door panel, 103 reinforcing ribs, 200 a telescopic driving device, 201 a protective plate, 202 a connecting rod, 300 a mounting seat, 301 a mounting plate, 400 a rotating shaft, 401 a striking plate, 402 a sensing plate, 500 a proximity switch, 600 a pressure spring and 700 a conveying belt.

Detailed Description

The following description is provided for illustrative purposes, and other advantages and features of the present invention will become apparent to those skilled in the art from the following detailed description.

According to the description of fig. 1 to 4: the embodiment provides a pile up neatly mechanism's blanking control structure, including pile up neatly mechanism body 100, the lower part of pile up neatly mechanism body 100 has a cavity 101 that holds bagged materials, the bottom surface of cavity 101 is the door plant 102 that can move about and open the use, the left side of cavity 101 is uncovered structure, this cavity 101 uncovered outside still is equipped with a high-speed conveyer belt 700, in the operation process, carry bagged materials to its edge by high-speed conveyer belt 700, bagged materials rely on inside inertial sliding gets into cavity 101, then pile up neatly mechanism body 100 carries out the displacement, and open door plant 102 at the assigned position, make bagged materials fall down and realize the pile up neatly.

The sensing mechanism is arranged on the inner wall of the cavity 101 opposite to the opening position, namely the sensing mechanism is positioned in the middle of the right side face of the inner wall of the cavity 101 and is mainly used for contacting with the sensing mechanism to obtain a signal after bagged materials enter the cavity 101;

the sensing mechanism comprises a proximity switch 500, a striking plate 401 and a sensing plate 402; the striking plate 401 and the sensing plate 402 are respectively positioned at two sides of a rotating shaft 400 and connected with the rotating shaft 400, so that the striking plate 401 and the sensing plate 402 integrally form an integral structure capable of synchronously acting, the striking plate 401 is positioned at the lower part and can be contacted with bagged materials for use, the sensing plate 402 is positioned at the upper part and can avoid the impact contact with the bagged materials, the rotating shaft 400 is rotatably connected with a mounting seat 300 to keep the flexible rotating effect, and the mounting seat 300 is fixedly mounted on the inner wall of the cavity 101 and is firmly mounted integrally; the proximity switch is any one of an inductive proximity switch, a capacitive proximity switch, a hall proximity switch, a photoelectric proximity switch and an ultrasonic proximity switch, the proximity switch 500 is fixedly arranged through a mounting plate 301 connected with the proximity switch, and the mounting plate 301 is fixedly connected with the mounting base 300, so that all components are connected into an integral structure through the mounting base 300, the installation is convenient, and the proximity switch 500 is fixedly arranged and close to the front side of the induction plate 402; the end of the striking plate 401 is obliquely arranged towards the middle of the cavity 101, the back side of the striking plate 401 is connected with the inner wall of the cavity 101 through a pressure spring 600, in the contact process of the striking plate 401 with bagged materials, the striking plate 401 moves towards the back side, the pressure spring 600 contracts, the corresponding sensing plate 402 rotates towards the front side and moves to a sensing part of a contact switch, the proximity switch 500 obtains a signal at the moment, the stacking mechanism body 100 acts, after the bagged materials are stacked, the striking plate 401 resets under the action of the spring, the sensing plate 402 leaves the proximity switch 500, and the whole body restores to the initial position to wait for re-operation.

The stacking mechanism body 100 further comprises a telescopic driving device 200, the telescopic driving device 200 adopts an air cylinder, the telescopic driving device 200 is vertically distributed on the outer side surface of the stacking mechanism body 100, an output shaft of the telescopic driving device 200 is respectively connected with the door panel 102 through a connecting rod 202, the door panel 102 is driven to open or close through telescopic action of the telescopic driving device, a reinforcing rib 103 connected with the door panel is arranged on the back side of the door panel 102, and the reinforcing rib 103 increases the structural strength of the door panel 102 on one hand and can be rotatably connected with the connecting rod 202 on the other hand; in use, when the output shaft of the telescopic driving device 200 extends downwards, the end of the output shaft will open the two sets of door panels 102 through the connecting rod 202, and when the output shaft of the telescopic driving device 200 contracts upwards, the end of the output shaft will close the two sets of door panels 102 through the connecting rod 202.

Meanwhile, the telescopic driving device 200 and the proximity switch 500 are controlled in a linkage manner, and the action of the telescopic driving device 200 is completed after the control system obtains a signal of the proximity switch 500, so that the bagged material stacking and blanking action is realized.

Further, the outside of output shaft still is equipped with a backplate 201, and backplate 201 is connected with the lateral wall of pile up neatly mechanism body 100 and constitutes the intermediate layer passageway between the two, just the output shaft is located inside the intermediate layer passageway, protects the action position of output shaft through backplate 201, avoids the output shaft to bump and damages.

The above is only the preferred embodiment of the present invention, as long as the preferred embodiment is realized by the same means, the objective technical solution of the present invention all belongs to the protection scope of the present invention.

Claims (8)

1. The utility model provides a pile up neatly mechanism's blanking control structure, includes the pile up neatly mechanism body, and the lower part of pile up neatly mechanism body has a cavity that holds bagged materials, and the door plant of use is opened for can moving about to the bottom surface of cavity, and one side of cavity is open structure, its characterized in that: an induction mechanism is arranged on the inner wall of the cavity opposite to the opening position;

response mechanism includes proximity switch, hits board and tablet, hit the board and be located a pivot both sides respectively with the tablet and be connected with the pivot, the pivot rotates with a mount pad to be connected, just the mount pad installation is fixed on the cavity inner wall, proximity switch is fixed to be set up and is close to the tablet sets up, hit the board tip and incline towards the cavity middle part and set up, and hit and be connected through a pressure spring between board dorsal part and the cavity inner wall.

2. The blanking control structure of the stacking mechanism as claimed in claim 1, wherein: the proximity switch is fixedly arranged through a mounting plate connected with the proximity switch, and the mounting plate is fixedly connected with the mounting seat or the inner wall of the cavity.

3. The blanking control structure of the stacking mechanism as claimed in claim 1, wherein: the stacking mechanism is characterized by further comprising a telescopic driving device, the telescopic driving device is vertically distributed on the outer side face of the stacking mechanism body, an output shaft of the telescopic driving device is connected with the door plate through a connecting rod respectively, and the door plate is driven to open or close through telescopic action of the telescopic driving device.

4. The blanking control structure of the stacking mechanism as claimed in claim 3, wherein: the telescopic driving device is controlled by the proximity switch in an interlocking manner.

5. The blanking control structure of the stacking mechanism as claimed in claim 3, wherein: the telescopic driving device adopts a cylinder.

6. The blanking control structure of the stacking mechanism as claimed in claim 3, wherein: the outer side of the output shaft is further provided with a guard plate, the guard plate is connected with the side wall of the stacking mechanism body, an interlayer channel is formed between the guard plate and the side wall of the stacking mechanism body, and the output shaft is located inside the interlayer channel.

7. The blanking control structure of the stacking mechanism as claimed in claim 1, wherein: and reinforcing ribs connected with the door panel are arranged on the back side of the door panel.

8. The blanking control structure of the stacking mechanism as claimed in claim 1, wherein: the proximity switch is any one of an inductive proximity switch, a capacitive proximity switch, a Hall proximity switch, a photoelectric proximity switch and an ultrasonic proximity switch.

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