CN221216001U - Material distributing equipment - Google Patents

Abstract

The utility model discloses a material distributing device, which belongs to the technical field of material collecting devices, and comprises the following main technical scheme: a conveying mechanism; the blanking mechanism comprises a blanking hopper and a distributing assembly, the blanking hopper is connected with the conveying mechanism, the distributing assembly comprises a distributing chute, the distributing chute is rotationally connected to the blanking hopper, and at least two distributing channels are arranged between the distributing chute and the blanking hopper; when the material distribution chute is positioned at any position, only one material distribution channel is in an open state; and the collecting devices are the same as the distributing channels in number, and each distributing channel corresponds to one collecting device. The utility model solves the problem that the leftover materials cannot be continuously collected, and improves the efficiency of leftover material collection.

Description

Material distributing equipment

Technical Field

The utility model relates to the technical field of material collecting devices, in particular to a material distributing device.

Background

Various products produced in industry by casting, stamping, die processing and the like can generate leftover materials during processing, and the leftover materials still have higher economic value after recycling and recasting, so that the leftover materials are recycled and piled in batches during production and processing so as to be convenient to take.

At present, the chinese patent document with the publication number CN207308789U discloses a processing apparatus is collected to punching press leftover bits, and main technical scheme includes the operation panel, the upper end of operation panel is equipped with the punching press platform, the lower extreme of punching press platform is equipped with a plurality of buffer, and buffer's lower extreme is fixed on the operation panel, the upper end both sides of punching press platform all are equipped with the fixed plate, the opposite side of fixed plate all is equipped with the spout, install the slider in the spout, one side of fixed plate is fixed with the hydro-cylinder, the piston rod of hydro-cylinder runs through the fixed plate and fixes in one side of slider, is equipped with drive arrangement in one of them slider, drive arrangement's output shaft end is fixed with the live-roller, one side rotation of live-roller is connected in one side of another slider. The processing apparatus is collected to punching press leftover bits has mainly solved the problem how to collect the leftover bits.

However, the above-mentioned punching press leftover bits collection processing apparatus has following problem when using: after the leftover materials in the collecting box are collected fully, the collecting box filled with the leftover materials needs to be transported manually, and then another empty collecting box is placed in situ to be collected, so that the stamping equipment needs to be suspended for a period of time, continuous collection cannot be achieved in a seamless connection mode, and the efficiency of waste collection is low.

In view of this, there is a need for improvements to existing scrap collection apparatus.

Disclosure of utility model

Aiming at the defects of the prior art, the utility model provides a material distributing device to solve the problem that leftover materials cannot be continuously collected, so that the efficiency of collecting the leftover materials is improved.

The utility model discloses a material distributing device, which comprises: a conveying mechanism; the blanking mechanism comprises a blanking hopper and a distributing assembly, the blanking hopper is connected with the conveying mechanism, the distributing assembly comprises a distributing chute, the distributing chute is rotationally connected to the blanking hopper, and at least two distributing channels are arranged between the distributing chute and the blanking hopper; when the material distribution chute is positioned at any position, only one material distribution channel is in an open state; and the collecting devices are the same as the distributing channels in number, and each distributing channel corresponds to one collecting device.

Preferably, the material distributing assembly further comprises a driving piece, a transmission piece and a rotating connecting piece, wherein the rotating connecting piece is rotationally connected to the discharging hopper, and the transmission piece is connected between the driving piece and the rotating connecting piece; the material distributing chute is connected with the rotating connecting piece.

Preferably, the material distributing chute comprises a bottom plate and a side plate, and the side plate is connected to the bottom plate.

Preferably, the discharging hopper comprises a connecting groove and a shunt groove, the conveying mechanism comprises a conveying groove, the connecting groove is communicated with the conveying groove, and the shunt groove is communicated with the connecting groove.

Preferably, the splitter box has a rectangular opening, the material distributing chute is rotatably mounted on the splitter box, the material distributing chute comprises a bottom plate and side plates, and the bottom plate is rectangular.

Preferably, two material distribution channels are provided, two collecting devices are provided, and the two collecting devices respectively correspond to the two material distribution channels.

Preferably, two side plates are arranged, the two side plates are respectively arranged on two opposite edges of the bottom plate, and the material distributing channel is formed between the other two opposite edges of the bottom plate and the flow distributing groove.

Preferably, the material distributing device further comprises a control device, wherein the control device comprises a sensor and a controller, and the sensor is connected with the controller.

Preferably, the sensor is a photoelectric sensor, and comprises a transmitter and a receiver, and the sensors are arranged on two sides of each collecting device.

Preferably, the driving member is a cylinder, the transmission member is a connecting rod, and the rotation connecting member is a rotation shaft.

The application has the beneficial effects that:

When materials such as corner materials are collected, the conveying mechanism conveys the materials into the discharging hopper through the conveying groove, the cylinder piston rod of the driving part is controlled to extend or retract, the rotating connecting part can be driven to rotate, and then the distributing chute is driven to integrally rotate, so that one distributing channel between the distributing chute and the distributing chute is opened, the other distributing channel is closed, and the materials conveyed by the conveying mechanism fall into a collecting box of one collecting device from the opened distributing channel through the discharging hopper;

After the material in the collection box of one collection device is collected, the sensor can send a signal to the controller, at the moment, the piston rod of the driving member cylinder is reversely retracted or extended, the original opened material distribution channel can be closed, the original closed material distribution channel is opened, seamless switching of the material distribution channel is realized, the material enters the collection box of the other collection device from the newly opened material distribution channel to be continuously collected, so that the material conveying and collecting work can be continuously repeated, the problem that the conventional equipment cannot continuously collect the leftover materials is solved, and the efficiency of collecting the leftover materials is greatly improved.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this specification, illustrate embodiments of the application and together with the description serve to explain the application and do not constitute a limitation on the application. In the drawings:

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a schematic structural view of a blanking mechanism;

fig. 3 is a schematic structural view of the material distributing chute.

Reference numerals illustrate: 1. a conveying mechanism; 11. a conveying trough; 2. a blanking mechanism; 21. discharging a hopper; 211. a connecting groove; 212. a shunt channel; 213. a material distribution channel; 22. a material distribution component; 221. a driving member; 222. a transmission member; 223. rotating the connecting piece; 224. a material distributing chute; 2241. a bottom plate; 2242. a side plate; 3. a collecting device; 4. a control device; 41. a sensor.

Detailed Description

Various embodiments of the utility model are disclosed in the following drawings, in which details of the practice are set forth in the following description for the purpose of clarity. However, it should be understood that these practical details are not to be taken as limiting the utility model. That is, in some embodiments of the utility model, these practical details are unnecessary. Moreover, for the sake of simplicity of the drawing, some well-known and conventional structures and elements are shown in the drawings in a simplified schematic manner.

It should be noted that all directional indicators such as up, down, left, right, front, and rear … … in the embodiments of the present utility model are merely used to explain the relative positional relationship, movement, etc. between the components in a specific posture such as that shown in the drawings, and if the specific posture is changed, the directional indicator is changed accordingly.

In addition, the descriptions of the "first", "second", etc. in this application are for descriptive purposes only and are not intended to specifically indicate a sequential or a cis-position, nor are they intended to limit the utility model, but are merely intended to distinguish between components or operations described in the same technical term, and are not to be construed as indicating or implying a relative importance or implying that the number of technical features indicated is not necessarily limited. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions of the embodiments may be combined with each other, but it is necessary to base that the technical solutions can be realized by those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should be considered to be absent and not within the scope of protection claimed in the present utility model.

For a further understanding of the utility model, its features and advantages, reference is now made to the following examples, which are illustrated in the accompanying drawings in which:

Referring to fig. 1-3, a material distributing device disclosed by the utility model comprises a conveying mechanism 1, a blanking mechanism 2, a collecting device 3 and a control device 4, wherein the conveying mechanism 1 is used for carrying out space position transfer on leftover materials, in the embodiment, the conveying mechanism 1 can lift the leftover materials to a certain height and comprises a conveying groove 11 capable of containing the materials and limiting the moving direction of the materials, and the materials move from bottom to top along the conveying groove 11 in use; the blanking mechanism 2 comprises a blanking hopper 21 and a distributing component 22, the blanking hopper 21 is arranged at the upper end of the conveying groove 11, the blanking hopper 21 comprises a connecting groove 211 and a splitter box 212, the connecting groove 211 is of a cavity shell-shaped structure and is communicated with the conveying groove 11, the connecting groove 211 is provided with an opening downwards, the splitter box 212 is arranged at the opening of the connecting groove 211 downwards, the splitter box 212 is of a cavity shell-shaped structure with openings arranged up and down, and the opening of the upper end of the splitter box 212 is communicated with the connecting groove 211.

Referring to fig. 1-3, the material distributing assembly 22 includes a driving member 221, a driving member 222, a rotating connecting member 223, and a material distributing chute 224, wherein the driving member 221 adopts a cylinder, the driving member 222 is a connecting rod, the rotating connecting member 223 is a circular rotating shaft, the rotating connecting member 223 is rotatably supported between two opposite side walls of the dividing chute 212 and is positioned at a middle position of an opening below the dividing chute 212, and one end of the rotating connecting member 223 extends to the outer side of the side wall of the dividing chute 212; the axis of the piston rod of the cylinder of the driving member 221 is perpendicular to and not coplanar with the axis direction of the rotating connecting member 223, one end of the driving member 222 is fixedly installed on the portion of the rotating connecting member 223 located outside the shunt groove 212, and the other end is fixedly installed at the end of the piston rod of the cylinder of the driving member 221.

Referring to fig. 1 to 3, the distribution chute 224 includes a bottom plate 2241 and a side plate 2242, the shape of the bottom plate 2241 is matched with the shape of the opening of the distribution chute 212, in this embodiment, the bottom plate 2241 is rectangular, the lower surface of the bottom plate 2241 is fixed on the rotation connector 223, and the bottom plate 2241 is symmetrical with respect to both sides of the rotation connector 223, and when the rotation connector 223 rotates, the bottom plate 2241 is driven to rotate synchronously; the two side plates 2242 are provided, the two side plates 2242 are respectively fixed at two opposite edges of the upper surface of the bottom plate 2241, the side plates 2242 are perpendicular to the bottom plate 2241, the side plates 2242 limit that materials can only slide from two opposite edges of the distribution chute 224, where the side plates 2242 are not provided, and two distribution channels 213 through which the materials can pass are respectively formed between two sides of the distribution chute 224, where the side plates 2242 are not provided, and the side walls of the distribution chute 212.

Referring to fig. 1 to 3, the collecting device 3 includes two collecting boxes, the collecting boxes of the collecting device 3 are upwardly provided with openings, the collecting boxes of the two collecting devices 3 are respectively arranged below the two distributing channels 213, the openings of the collecting boxes of the two collecting devices 3 respectively correspond to the two distributing channels 213, and the materials falling from the distributing channels 213 can enter the corresponding collecting boxes of the collecting devices 3 through the distributing channels 213 to be collected; the control device 4 comprises a sensor 41 and a controller (not shown in the figure), the sensors 41 are arranged on two sides of the collecting box of each collecting device 3, the sensors 41 comprise a photoelectric sensor and a receiver, the sensors 41 on two sides of the collecting box of each collecting device 3 are used for sensing the quantity of materials collected, and the sensors 41 are electrically connected with the controller so as to transmit signals to the controller.

The utility model has the implementation principle and beneficial effects that when materials such as leftover materials are collected, the conveying mechanism 1 conveys the materials into the discharging hopper 21 through the conveying groove 11, the cylinder piston rod of the driving piece 221 is controlled to extend or retract, the rotating connecting piece 223 can be driven to rotate, and the distributing chute 224 is driven to integrally rotate, so that one distributing channel 213 between the distributing chute 224 and the distributing groove 212 is opened, the other distributing channel 213 is closed, and the materials conveyed by the conveying mechanism 1 fall into the collecting box of one collecting device 3 from the opened distributing channel 213 through the discharging hopper 21;

After the material in the collection box of one collection device 3 is collected, the sensor 41 can send a signal to the controller, at the moment, the piston rod of the cylinder of the driving piece 221 is reversely retracted or extended, the original opened material distribution channel 213 can be closed, the original closed material distribution channel 213 is opened, seamless switching of the material distribution channel 213 is realized, the material enters the collection box of the other collection device 3 from the newly opened material distribution channel 213 to be continuously collected, the repeated material conveying and collecting work can be continuously carried out, the problem that the conventional equipment cannot continuously collect the leftover materials is solved, and therefore the efficiency of collecting the leftover materials is greatly improved.

The above is merely an embodiment of the present utility model, and is not intended to limit the present utility model. Various modifications and variations of the present utility model will be apparent to those skilled in the art. Any modification, equivalent replacement, improvement, or the like, which is within the spirit and principles of the present utility model, should be included in the scope of the claims of the present utility model.

Claims (10)

1. A dispensing apparatus, comprising:

a conveying mechanism (1);

The blanking mechanism (2), the blanking mechanism (2) comprises a blanking hopper (21) and a distributing component (22), the blanking hopper (21) is connected with the conveying mechanism (1), the distributing component (22) comprises a distributing chute (224), the distributing chute (224) is rotationally connected to the blanking hopper (21), and at least two distributing channels (213) are arranged between the distributing chute (224) and the blanking hopper (21); when the material distributing chute (224) is positioned at any position, only one material distributing channel (213) is in an open state;

and the collecting devices (3), the collecting devices (3) and the distributing channels (213) are the same in number, and each distributing channel (213) corresponds to one collecting device (3).

2. The dispensing apparatus according to claim 1, wherein the dispensing assembly (22) further comprises a driving member (221), a transmission member (222) and a rotational connecting member (223), the rotational connecting member (223) being rotationally connected to the blanking hopper (21), the transmission member (222) being connected between the driving member (221) and the rotational connecting member (223); the material distributing chute (224) is connected with the rotary connecting piece (223).

3. The dispensing apparatus of claim 1 wherein the dispensing chute (224) includes a bottom plate (2241) and side plates (2242), the side plates (2242) being connected to the bottom plate (2241).

4. The material distributing apparatus according to claim 1, wherein the discharging hopper (21) includes a connecting groove (211) and a dividing groove (212), the conveying mechanism (1) includes a conveying groove (11), the connecting groove (211) communicates with the conveying groove (11), and the dividing groove (212) communicates with the connecting groove (211).

5. The dispensing apparatus of claim 4 wherein the splitter box (212) has a rectangular opening and the dispensing chute (224) is rotatably mounted to the splitter box (212), the dispensing chute (224) including a bottom plate (2241) and side plates (2242), the bottom plate (2241) being rectangular.

6. The material distribution device according to claim 5, wherein two material distribution channels (213) are provided, two collecting devices (3) are provided, and two collecting devices (3) respectively correspond to the two material distribution channels (213).

7. The material distributing apparatus as claimed in claim 6, wherein two side plates (2242) are provided, the two side plates (2242) are respectively mounted on two opposite sides of the bottom plate (2241), and the material distributing passage (213) is formed between the other two opposite sides of the bottom plate (2241) and the distribution groove (212).

8. A dispensing apparatus according to claim 1, characterized in that the dispensing apparatus further comprises a control device (4), the control device (4) comprising a sensor (41) and a controller, the sensor (41) being connected to the controller.

9. A dispensing apparatus according to claim 8, characterized in that the sensor (41) is a photoelectric sensor comprising an emitter and a receiver, said sensor (41) being provided on both sides of each collecting device (3).

10. The dispensing apparatus of claim 2, wherein the driving member (221) is a cylinder, the transmission member (222) is a link, and the rotation connecting member (223) is a rotation shaft.