CN220866305U - Conveying equipment suitable for transporting multiple types of materials - Google Patents

Abstract

The utility model discloses a conveying device suitable for transferring multiple types of materials, which comprises a transfer flow line, a feeding flow line and a feeding flow channel, wherein the transfer flow line is provided with a conveying part A capable of conveying the materials, and a limiting component A capable of limiting the materials is optionally arranged above the conveying part A; the feeding streamline is provided with a conveying part B capable of conveying the first type of materials, and the conveying part B and the conveying part A are arranged side by side and have opposite conveying directions; the blanking side of the conveying part B is also provided with a guide component which can guide the first type material to flow into the conveying part A; the feeding runner is used for conveying the second type of material, is arranged beside the transfer line, and the discharging side of the feeding runner is suspended above the conveying part A; the feeding work of the feeding streamline and the feeding runner is performed in a staggered way. The conveying equipment can realize conveying and transferring of materials with different types and sizes, and has strong applicability; and the structure is simple and reasonable, the occupied space is small, and the installation is convenient.

Description

Conveying equipment suitable for transporting multiple types of materials

Technical Field

The utility model relates to the technical field of conveying equipment, in particular to conveying equipment suitable for multi-type material transfer.

Background

In an automated processing line, the transfer of materials is an indispensable process step. At present, a conveying line (such as a belt type conveying line, a chain plate type conveying line and the like) is adopted for conveying materials.

However, it is limited to existing conveyor line structures, which are mostly capable of conveying only one type of material, such as: conveyor lines designed for conveying bulk material are generally not well suited for conveying rod-shaped material. Therefore, if a plurality of different types of materials need to be transported in the production process, a plurality of conveying lines are conventionally configured. But this increases the production cost, occupies more space, and has a large adverse effect on the production and implementation.

In view of this, the present utility model has been made.

Disclosure of Invention

In order to overcome the defects, the utility model provides conveying equipment, which can realize conveying and transferring of materials with different types and sizes and has strong applicability; on the other hand, the structure is simple and reasonable, the occupied space is small, and the installation is convenient.

The technical scheme adopted by the utility model for solving the technical problems is as follows: the conveying equipment suitable for transferring various materials comprises a transfer flow line, a feeding flow line and a feeding flow channel, wherein,

The transfer line is provided with a conveying part A capable of conveying materials, and a limiting component A capable of limiting the materials is optionally arranged above the conveying part A;

The feeding streamline is provided with a conveying part B capable of conveying a first type of material, and the conveying part B and the conveying part A are arranged side by side and have opposite conveying directions; the blanking side of the conveying part B is also provided with a guide component which can guide the first type material to flow into the conveying part A;

The feeding runner is used for conveying a second type of material, the feeding runner is arranged beside the transfer line, and the discharging side of the feeding runner is suspended above the conveying part A; in addition, the feeding work of the feeding streamline and the feeding runner is performed in a staggered manner.

As a further improvement of the utility model, when the feeding streamline performs feeding work, the limiting component A is not arranged above the conveying part A;

and when the feeding runner carries out feeding work, the limiting component A is arranged above the conveying part A.

As a further improvement of the present utility model, the conveying direction of the conveying portion a and the conveying portion B are each arranged in a horizontal straight line direction;

And the distance between the conveying part A and the conveying part B is smaller than the size of the first type of material; and the conveying speed of the conveying part A is faster than that of the conveying part B.

As a further improvement of the utility model, the conveying part a and the conveying part B are both closed link plate ring structures.

As a further improvement of the utility model, the limiting assembly a comprises two stop strips extending along the conveying direction of the conveying part a, the two stop strips can be arranged above the conveying part a side by side along the width direction of the conveying part a, and the interval between the two stop strips can be adjusted;

The guide assembly comprises a guide plate, the guide plate is positioned and suspended above the blanking side of the conveying part B, the guide plate faces towards the first side of the conveying part A and is close to the conveying part A, the guide plate faces towards the second side of the feeding side of the conveying part B and is an inclined side face, and the inclined side face is obliquely extended to the first side of the guide plate so as to realize stopping of a first type of material and drainage of the first type of material onto the conveying part A.

As a further improvement of the utility model, a frame is also provided, and the conveying part A and the conveying part B are arranged side by side and are rotatably arranged on the frame;

In addition, the side-by-side direction of the conveying part A and the conveying part B is defined as a left-right direction, and accordingly, the conveying direction of the conveying part B is from front to back, and the conveying direction of the conveying part A is from back to front;

The guide plate is detachably and fixedly connected with the rear side of the frame, and the inclined side surface extends obliquely from right to left;

The two stop strips are arranged side by side along the left-right direction, the first stop strip is detachably and fixedly connected between the first side of the guide plate and the front side of the machine frame, the second stop strip is connected to the left side of the machine frame through an adjusting component, and the second stop strip is close to or far away from the first stop strip through the adjusting component.

As a further improvement of the utility model, a stop component for stopping the material and a photoelectric sensor for sensing the material are arranged on the discharging side of the conveying part A; a blocking component for blocking the material on the conveying part A is also arranged beside the conveying part A.

As a further improvement of the utility model, the feeding runner is fixedly arranged on the guide plate, and the feeding runner is obliquely arranged relative to the guide plate.

As a further improvement of the utility model, a discharging streamline is also arranged, the discharging streamline is provided with a conveying part C capable of conveying materials, the conveying part C has the same structure as the conveying part A and is rotatably arranged on the frame, and meanwhile, the conveying part C is arranged side by side with the conveying part A and has the opposite conveying direction; in addition, a limiting component B capable of limiting the materials is arranged above the conveying part C, and the limiting component B and the limiting component A have the same structure.

As a further improvement of the utility model, a conveying device and three groups of driving devices are also provided, wherein the conveying device can move the materials on the conveying part A to the conveying part C;

The three groups of driving devices are independently arranged on the frame and respectively control the conveying part A, the conveying part B and the conveying part C to work correspondingly.

The beneficial effects of the utility model are as follows: ① On one hand, the structure of the conveying equipment is improved, the feeding flow line and the feeding flow channel which are respectively used for conveying different types of materials are integrated, and meanwhile, the limiting component A which can limit the materials is arranged on the transfer flow line, so that the conveying equipment can realize conveying and transferring of various different types of materials with different sizes, and the applicability of the conveying equipment is greatly expanded; in another aspect, the present utility model provides improvements in the structural layout of a conveying apparatus, such as: the conveying part B and the conveying part A are designed to be arranged side by side, the guide assembly for guiding the material flow direction is arranged above the blanking side of the conveying part B, the feeding runner is designed and arranged above the feeding streamline and the transfer streamline, and the like; thereby effectively reducing the occupied space of the conveying equipment and facilitating the installation of the conveying equipment. ② The conveying equipment has a simple and reasonable structure, and reasonable and convenient control logic.

Drawings

FIG. 1 is a schematic view of a conveying apparatus for transporting multiple types of materials according to the present utility model at a first view angle;

FIG. 2 is an enlarged schematic view of the portion A shown in FIG. 1;

FIG. 3 is an enlarged schematic view of the portion B shown in FIG. 1;

fig. 4 is a schematic structural view of a conveying apparatus for transferring multiple types of materials according to the present utility model at a second view angle.

The following description is made with reference to the accompanying drawings:

1. A transfer line; 10. a conveying part A; 11. a limiting assembly A; 110. a stop bar; 120. a mounting support; 121. a connecting rod; 122. an adjusting bolt; 13. a photoelectric sensor; 140. a stop block; 141. a stop plate; 150. blocking the cylinder; 151. a stop block; 2. a feeding streamline; 20. a conveying section B; 21. a guide assembly; 210. a guide plate; 211. an inclined side; 3. a feeding runner; 4. a frame; 5. a discharge flow line; 50. a conveying section C; 51. a limiting component B; 6. a driving device.

Detailed Description

The preferred embodiments of the present utility model will be described in detail below with reference to the accompanying drawings.

Example 1:

Referring to fig. 1 to 4, the present utility model provides a conveying device suitable for transferring multiple types of materials, which mainly includes a transfer line 1, a loading line 2 and a loading flow channel 3, wherein the transfer line 1 is provided with a conveying portion a10 capable of conveying the materials, and a limiting component a11 capable of limiting the materials is optionally arranged above the conveying portion a 10; the feeding streamline 2 is provided with a conveying part B20 capable of conveying a first type of material (the first type of material is a block material), the conveying part B20 and the conveying part A10 are arranged side by side, and the conveying directions are opposite (the conveying direction refers to the direction in which the conveying part conveys the material); the blanking side of the conveying part B20 is also provided with a guide component 21 which can guide the first type material to flow into the conveying part A10; the feeding runner 3 is used for conveying a second type of material (the second type of material is a rod-shaped material), the feeding runner 3 is arranged beside the transfer line 1, and the discharging side of the feeding runner 3 is suspended above the conveying part A10; in addition, the feeding work of the feeding streamline 2 and the feeding runner 3 is performed in a staggered manner and does not interfere with each other.

Compared with the prior art, on one hand, the utility model improves the structure of the conveying equipment, integrates the feeding streamline and the feeding runner which are respectively used for conveying different types of materials, and simultaneously, is provided with the limiting component A which can limit the materials on the transfer streamline, thereby the conveying equipment can realize conveying and transferring of a plurality of different types of materials with different sizes, and greatly expands the applicability of the conveying equipment; in another aspect, the present utility model provides improvements in the structural layout of a conveying apparatus, such as: the conveying part B and the conveying part A are designed to be arranged side by side, the guide assembly for guiding the material flow direction is arranged above the blanking side of the conveying part B, the feeding runner is designed and arranged above the feeding streamline and the transfer streamline, and the like; thereby effectively reducing the occupied space of the conveying equipment and facilitating the installation of the conveying equipment.

The following describes in detail the specific construction of the conveying apparatus for transporting multiple types of materials according to the present utility model.

First, the intermediate flow line 1 and the feed flow line 2 are referred to.

In this embodiment, since the first type material is a block material and the second type material is a rod material, the limiting component a11 is disposed above the conveying portion a10 when the feeding runner 3 performs feeding operation in order to ensure that the first type material and the second type material smoothly flow into the transfer line 1 and that the transfer line 1 smoothly conveys the first type material and the second type material; in the feeding operation of the feeding streamline 2, the limiting component a11 is not disposed above the conveying portion a10, however, the limiting component a11 may be disposed above the conveying portion a10, but the length of the stop strip 110 in the limiting component a11 needs to be optimally controlled, so as to avoid interference effect of the stop strip 110 on smooth flow of the first type material into the transfer streamline 1.

With continued reference to fig. 1 to fig. 4, in this embodiment, preferably, the conveying directions of the conveying portion a10 and the conveying portion B20 are both along a horizontal straight line direction; the distance between the conveying part A10 and the conveying part B20 is smaller than the size of the first type of material, so that the first type of material can be prevented from being clamped between the conveying part B20 and the conveying part A10; and the conveying speed of the conveying part A10 is faster than that of the conveying part B20, so that the first type of material can be prevented from being directly deflected onto the conveying part A10 without being transferred to the discharging side of the conveying part B20.

In addition, since the conveying directions of the conveying portion a10 and the conveying portion B20 are all along a horizontal straight line direction, it is understood that the feeding side and the discharging side of the conveying portion B20 are disposed opposite to each other, and similarly, the feeding side and the discharging side of the conveying portion a10 are disposed opposite to each other; the layout direction of the feeding side and the discharging side of the conveying unit B20 is opposite to the layout direction of the feeding side and the discharging side of the conveying unit a 10.

Further preferably, the conveying part a10 and the conveying part B20 are both closed link plate ring structures. Description: the link plate ring structure is formed by sequentially connecting a plurality of link plates, which belongs to the known technology and is not described in detail herein.

With continued reference to fig. 1 to fig. 4, in this embodiment, it is preferable that the limiting assembly a11 includes two stop bars 110 extending along the conveying direction of the conveying portion a10, the two stop bars 110 can be arranged above the conveying portion a10 side by side along the width direction of the conveying portion a10, and the distance between the two stop bars 110 can be adjusted to adapt to different types of materials; in addition, the gap between the stop strip 110 and the conveying portion a10 can be adjusted according to the production requirement, and the present utility model is not limited too much.

The guiding assembly 21 includes a guiding plate 210, the guiding plate 210 is positioned and suspended above the feeding side of the conveying portion B20 (the gap between the guiding plate 210 and the conveying portion B20 can be adjusted according to the production requirement), the first side of the guiding plate 210 facing the conveying portion a10 is close to the conveying portion a10, the second side of the guiding plate 210 facing the feeding side of the conveying portion B20 is an inclined side 211, and the inclined side 211 also extends obliquely to the first side of the guiding plate 210, so as to stop the first type of material and drain the first type of material onto the conveying portion a 10.

Further preferably, the specific mounting manner of the stop strip 110 and the guide plate 210 is as follows: with continued reference to fig. 1 to 4, a frame 4 is further provided, and the conveying portion a10 and the conveying portion B20 are arranged side by side and rotatably mounted on the frame 4; in addition, the side-by-side direction of the conveying portion a10 and the conveying portion B20 is defined as the left-right direction, and accordingly, the conveying direction of the conveying portion B20 is from front to back, and the conveying direction of the conveying portion a10 is from back to front; the guide plate 210 is detachably and fixedly connected with the rear side of the frame 4 through a connecting piece (such as a connecting plate or a connecting bracket), and the inclined side 211 extends obliquely from right to left; the two stop bars 110 are arranged side by side along the left-right direction, and a first stop bar 110 is detachably and fixedly connected between a first side (i.e. the left side) of the guide plate 210 and the front side of the frame 4, a second stop bar 110 is connected to the left side of the frame 4 through an adjusting component, and the second stop bar 110 is close to or far away from the first stop bar 110 through the adjusting component.

Still further preferably, regarding the adjusting member, it may preferably adopt the following structure: referring to fig. 2, the adjusting assembly includes a plurality of mounting brackets 120, a plurality of connecting rods 121 and a plurality of adjusting bolts 122, wherein the plurality of mounting brackets 120 are arranged on the left side of the frame 4 at intervals along the front-rear direction, and the plurality of mounting brackets 120 are provided with perforations; the connecting rods 121 are respectively and movably arranged through the plurality of through holes and are fixedly connected with the second stop strip 110; the adjusting bolts 122 respectively pass through the mounting supports 120 and then correspondingly abut against the connecting rods 121.

In addition, in the present embodiment, preferably, a stop component for stopping the material and a photoelectric sensor 13 for sensing the material are disposed on the discharging side of the conveying part a 10; and a blocking component for blocking the materials on the conveying part A10 is arranged beside the conveying part A10 and near the discharging side of the conveying part A10.

Further preferably, referring to fig. 3, regarding the stop assembly, the stop assembly includes two stop blocks 140 and a stop plate 141, where the two stop blocks 140 are disposed in a splayed shape on the discharging side of the conveying portion a10, so as to stop the first type of material; the stop plate 141 is disposed on the discharging side of the conveying portion a10 and is located in front of the two stop blocks 140, so as to stop the second type of material.

With respect to the blocking assembly, please continue to refer to fig. 3, it includes a blocking cylinder 150 and a stop 151 connected to an output end of the blocking cylinder 150, and the blocking assembly is integrally located above the conveying portion a10 through a bracket. By providing the blocking assembly, it is possible to prevent the material from being deposited on the discharging side of the conveying portion a10 when the conveying speeds of the conveying portion a10 and the conveying portion C50 described below are not identical.

Next, the feeding flow path 3 is referred to.

With continued reference to fig. 1 and fig. 4, in this embodiment, preferably, the feeding runner 3 is fixedly mounted on the guide plate 210, and the feeding runner 3 is inclined with respect to the guide plate 210.

Further preferably, the feeding runner 3 adopts a U-shaped runner structure. And the feeding runner 3 cooperates with a feeding device for feeding the second type of material, which may be a vibrating tray, a robot or the like.

And then, with respect to other devices.

With continued reference to fig. 1 to fig. 4, in this embodiment, it is preferable that a discharging flow line 5 is further provided, the discharging flow line 5 is provided with a conveying portion C50 capable of conveying materials, the conveying portion C50 has the same structure as the conveying portion a10 and is rotatably mounted on the frame 4, meanwhile, the conveying portion C50 is arranged side by side with the conveying portion a10 and has a conveying direction opposite to that of the conveying portion a10, and the conveying speeds of the conveying portion C50 and the conveying portion a10 may be the same or different, specifically configured according to the production requirement. A restricting unit B51 that restricts the material is further provided above the conveying unit C50, and the restricting unit B51 has the same structure as the restricting unit a11, and therefore, will not be described in detail here.

With continued reference to fig. 1 and fig. 4, in this embodiment, a carrying device and three sets of driving devices 6 are preferably further provided, where the carrying device can move the material on the conveying portion a10 onto the conveying portion C50; the three groups of driving devices 6 are independently mounted on the frame 4, and respectively control the conveying part a10, the conveying part B20 and the conveying part C50 to work correspondingly.

Further preferably, as the transporting device, a robot, a two-axis or three-axis linear driving device, or the like may be used.

As for the driving device 6, the following structure may be preferably adopted: the driving device 6 comprises a motor, a speed reducer, two gear sets and two transmission chains, wherein each gear set consists of a driving gear and a driven gear, the driving gear and the driven gear in each gear set are arranged along the front-back direction and are respectively connected with the rack 4 in a rotating way, and the two gear sets are symmetrically arranged along the left-right direction; the two transmission chains are respectively in one-to-one correspondence with the two gear sets, each transmission chain is wound on the driving gear and the driven gear which are corresponding to the transmission chain, and the two transmission chains are respectively connected with the conveying part A and/or the conveying part B and/or the conveying part C; the motor drives the driving gear to rotate through the speed reducer, so that the conveying part A and/or the conveying part B and/or the conveying part C are driven to rotate.

In conclusion, the conveying equipment disclosed by the utility model can be used for conveying and transferring various materials with different types and sizes, and has strong applicability; and the structure is simple and reasonable, the occupied space is small, and the installation is convenient.

In the above description, numerous specific details are set forth in order to provide a thorough understanding of the present utility model. The foregoing description is only of a preferred embodiment of the utility model, which can be practiced in many other ways than as described herein, so that the utility model is not limited to the specific implementations disclosed above. While the foregoing disclosure has been described with reference to certain embodiments, it will be understood by those skilled in the art that various changes and modifications may be made and equivalents may be substituted for elements thereof without departing from the scope of the utility model. Any simple modification, equivalent variation and modification of the above embodiments according to the technical substance of the present utility model without departing from the technical solution of the present utility model still falls within the scope of the technical solution of the present utility model.

Claims (10)

1. Conveying equipment suitable for multi-type material transfer, characterized in that: comprises a middle flow line (1), a feeding flow line (2) and a feeding flow channel (3), wherein,

The transfer line (1) is provided with a conveying part A (10) capable of conveying materials, and a limiting assembly A (11) capable of limiting the materials is optionally arranged above the conveying part A (10);

The feeding streamline (2) is provided with a conveying part B (20) capable of conveying a first type of material, and the conveying part B (20) and the conveying part A (10) are arranged side by side and have opposite conveying directions; the blanking side of the conveying part B (20) is also provided with a guide component (21) which can guide the first type material to flow into the conveying part A (10);

The feeding runner (3) is used for conveying a second type of material, the feeding runner (3) is arranged beside the transfer line (1), and the discharging side of the feeding runner (3) is suspended above the conveying part A (10);

in addition, feeding work of the feeding streamline (2) and the feeding runner (3) is performed in a staggered manner.

2. The conveying apparatus for transporting multiple types of materials according to claim 1, wherein: when the feeding streamline (2) performs feeding work, the limiting component A (11) is not arranged above the conveying part A (10);

And when the feeding runner (3) performs feeding operation, the limiting component A (11) is arranged above the conveying part A (10).

3. A conveying apparatus for use in transporting multiple types of materials according to claim 2, wherein: the conveying direction of the conveying part A (10) and the conveying direction of the conveying part B (20) are arranged along a horizontal straight line direction;

And the distance between the conveying part A (10) and the conveying part B (20) is smaller than the size of the first type of materials; and the conveying speed of the conveying part A (10) is faster than that of the conveying part B (20).

4. A conveying apparatus for use in transporting multiple types of materials according to claim 3, wherein: the conveying part A (10) and the conveying part B (20) are of closed chain plate ring structures.

5. A conveying apparatus for use in transporting multiple types of materials according to claim 3, wherein: the limiting assembly A (11) comprises two stop strips (110) extending along the conveying direction of the conveying part A (10), the two stop strips (110) can be arranged above the conveying part A (10) side by side along the width direction of the conveying part A (10), and the distance between the two stop strips (110) can be adjusted;

The guide assembly (21) comprises a guide plate (210), the guide plate (210) is positioned and suspended above the blanking side of the conveying part B (20), the guide plate (210) faces towards the first side of the conveying part A (10) and is close to the conveying part A (10), the second side of the guide plate (210) facing towards the feeding side of the conveying part B (20) is an inclined side surface (211), and the inclined side surface (211) also obliquely extends to the first side of the guide plate (210) so as to realize stopping of a first type of material and drainage of the first type of material onto the conveying part A (10).

6. The conveying apparatus for transporting multiple types of materials according to claim 5, wherein: the conveying part A (10) and the conveying part B (20) are arranged side by side and rotatably mounted on the frame (4);

In addition, the side-by-side direction of the conveying part A (10) and the conveying part B (20) is defined as a left-right direction, and correspondingly, the conveying direction of the conveying part B (20) is from front to back, and the conveying direction of the conveying part A (10) is from back to front;

The guide plate (210) is detachably and fixedly connected with the rear side of the frame (4), and the inclined side surface (211) extends obliquely from right to left;

Two backstop strips (110) are arranged side by side along the left-right direction, and first backstop strip (110) detachably fixed connection in between the first side of guide board (210) and frame (4) front side, second backstop strip (110) pass through adjusting part connect in frame (4) left side, and second backstop strip (110) still pass through adjusting part come close to or keep away from first backstop strip (110).

7. A conveying apparatus for use in transporting multiple types of materials according to claim 3, wherein: a stop component for stopping the material and a photoelectric sensor (13) for sensing the material are arranged on the discharging side of the conveying part A (10); a blocking component for blocking the material on the conveying part A (10) is also arranged beside the conveying part A (10).

8. The conveying apparatus for transporting multiple types of materials according to claim 5, wherein: the feeding runner (3) is fixedly installed on the guide plate (210), and the feeding runner (3) is obliquely arranged relative to the guide plate (210).

9. The conveying apparatus for transporting multiple types of materials according to claim 6, wherein: the device is also provided with a discharging streamline (5), the discharging streamline (5) is provided with a conveying part C (50) capable of conveying materials, the conveying part C (50) has the same structure as the conveying part A (10) and is rotatably arranged on the frame (4), and meanwhile, the conveying part C (50) is arranged side by side with the conveying part A (10) and has the opposite conveying direction; further, a restricting unit B (51) capable of restricting the material is provided above the conveying unit C (50), and the restricting unit B (51) has the same structure as the restricting unit a (11).

10. The conveying apparatus for transporting multiple types of materials according to claim 9, wherein: the conveying device is also provided with a conveying device and three groups of driving devices (6), and the conveying device can convey the materials on the conveying part A (10) to the conveying part C (50);

The three groups of driving devices (6) are independently arranged on the frame (4) and respectively control the conveying part A (10), the conveying part B (20) and the conveying part C (50) to work correspondingly.