CN219884863U - Conveying equipment with high-precision multipoint unloading function - Google Patents

Abstract

The utility model discloses a conveying device with high-precision multipoint discharging, which belongs to the field of conveying devices and comprises a conveying assembly, wherein the conveying assembly comprises a conveying structure, a feeding barrel, a supporting plate, a discharging structure and an opening and closing structure, the discharging structure comprises a discharging pipe, a material dividing pipe, a triangular block and a non-sticky layer.

Description

Conveying equipment with high-precision multipoint unloading function

Technical Field

The present utility model relates to a conveying apparatus, and more particularly, to a conveying apparatus with high-precision multipoint discharge.

Background

A conveyor is a mechanical device that transports bulk and finished goods along a path from a loading point to an unloading point in a continuous manner. The conveyor is a friction-driven machine that transports materials in a continuous manner. By using the device, a material conveying process can be formed on a certain conveying line from an initial feeding point to a final discharging point. It can not only transport broken materials, but also transport finished articles. At present, when conveying materials, the spiral conveying equipment is often used for conveying the materials, but when the spiral conveying equipment is used, one end is usually used for feeding, the other end is usually used for discharging, and the conveying equipment is large in size and inconvenient to move, and only can perform fixed-point discharging on the materials, so that the materials are inconvenient to perform multi-position discharging as required, and the use is limited.

Disclosure of Invention

The utility model aims to overcome the defects that in the prior art, when spiral conveying equipment is used, one end is usually fed and the other end is usually discharged, and because the conveying equipment is large in size and inconvenient to move, only fixed-point discharging can be performed on materials, and multi-position discharging is performed according to requirements, the use is limited, and the conveying equipment with high-precision multi-point discharging is provided, so that the defects are overcome, and the use is convenient.

In order to achieve the above purpose, the technical scheme provided by the utility model is as follows:

the utility model relates to a conveying device with high-precision multipoint discharging, which comprises a conveying assembly, wherein the conveying assembly comprises a conveying structure and a feeding cylinder which is communicated with the conveying structure and is used for feeding, a supporting plate for supporting is fixedly arranged at the lower end of the conveying structure, a discharging structure for discharging is further communicated at the lower end of the conveying structure, and an opening and closing structure is further arranged at the upper end of the feeding cylinder;

the discharging structure comprises a discharging pipe communicated with the conveying structure and a distributing pipe arranged on two sides of the lower end of the discharging pipe, wherein the shape formed by the distributing pipe and the discharging pipe is of an inverted Y-shaped structure, the inner walls of the discharging pipe and the distributing pipe are respectively coated with a non-sticky layer, and triangular blocks for distributing materials are further arranged in the discharging pipe.

Preferably, a storage cavity for storing materials is formed in the feeding barrel, a connecting pipe is communicated with the lower end of the feeding barrel, and an outer protection pipe for protection is arranged on the outer side of the connecting pipe.

Preferably, a plurality of vibrating blocks are uniformly distributed on the outer wall of the connecting pipe, the vibrating blocks are externally connected with a vibrating motor, and a buffer piece is further arranged in the connecting pipe.

Preferably, the buffer piece includes the buffer board of swing joint on the inner wall of linking pipe and sets up the spring in buffer board one side, and the other end of spring is connected with the inner wall of linking pipe, and the buffer board is the slope setting for cushion the material.

Preferably, the conveying structure comprises a conveying cylinder and a conveying motor arranged outside the conveying cylinder, the output end of the conveying motor is connected with the screw shaft, and the conveying motor drives the screw shaft to rotate so as to convey materials.

Preferably, the outer wall of the conveying cylinder is provided with an air cylinder part A, the inner wall of the conveying cylinder is provided with an inner groove, one end of the air cylinder part A penetrates through the conveying cylinder and is connected with a connecting rod, and the other end of the connecting rod is connected with a pushing plate.

Preferably, the bottom wall of the pushing plate is contacted with the inner wall of the conveying cylinder, and the connecting rod and the pushing plate can be moved through the air cylinder part A for pushing materials.

Preferably, the opening and closing structure comprises a vertical plate arranged on the outer side of the feeding cylinder and a connecting block arranged on one side of the vertical plate, the inner side of the connecting block is movably connected with a cylinder part B, the connecting block is provided with two groups, and the other end of the cylinder part B is connected with the door body through a group of connecting blocks.

Compared with the prior art, the technical scheme provided by the utility model has the following beneficial effects:

compared with the prior art, the utility model has the following beneficial effects:

(1) According to the conveying equipment with high-precision multipoint discharging, the materials are input from the feeding barrel through the feeding barrel, the buffer plate, the springs, the vibrating blocks, the conveying barrel, the conveying motor, the screw shafts, the discharging pipes, the material dividing pipes and the triangular blocks, the materials can be contacted with the buffer plate under the action of gravity and are buffered by matching with the elasticity of the springs, the vibrating motors are started at the same time, the vibrating blocks can vibrate, the connecting pipes are prevented from being blocked by the materials, the conveying of the materials are prevented from being influenced, the conveying motors are started after the materials enter the conveying barrel, the screw shafts can be rotated, the conveying of the materials can be realized, meanwhile, the materials can be discharged from the discharging pipes, when the materials enter the discharging pipes, the materials can be divided by the triangular blocks, then the materials can be discharged from the two material dividing pipes respectively, the purpose of multipoint discharging can be realized, and the materials are prevented from being stained on the inner walls of the discharging pipes and the material dividing pipes by the polytetrafluoroethylene coating;

(2) According to the conveying equipment with high-precision multipoint discharging, through the arranged cylinder part B, the door body and the feeding barrel, an operator can adjust the position of the door body by means of the arranged cylinder part B, when the cylinder part B is reversely started, the door body can be inclined from the horizontal, at the moment, the opening of the feeding barrel is opened, materials can be conveniently fed into the feeding barrel, manual opening is not needed, and the operation is simple.

Drawings

FIG. 1 is an overall block diagram of the present utility model;

FIG. 2 is a schematic diagram of the opening and closing structure of the present utility model;

FIG. 3 is a schematic view of a connecting tube structure according to the present utility model;

FIG. 4 is a schematic diagram of a conveying structure according to the present utility model;

FIG. 5 is a schematic view of a discharge structure according to the present utility model;

fig. 6 is an enlarged schematic view of fig. 3 a in accordance with the present utility model.

In the figure: 1. a transport assembly; 11. a feeding cylinder; 111. a storage cavity; 112. a connecting pipe; 113. an outer protective tube; 114. a vibrating block; 115. a buffer member; 1151. a buffer plate; 1152. a spring; 12. a conveying structure; 121. a delivery cylinder; 122. a conveying motor; 123. a screw shaft; 124. a cylinder member A; 125. an inner tank; 126. a connecting rod; 127. a pushing plate; 13. a support plate; 14. a discharging structure; 141. a discharge tube; 142. a material dividing pipe; 143. a non-stick layer; 144. triangular blocks; 15. an opening and closing structure; 151. a vertical plate; 152. a joint block; 153. a cylinder member B; 154. a door body.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

For a further understanding of the present utility model, the present utility model will be described in detail with reference to the drawings.

Referring to fig. 1, the conveying device with high-precision multipoint discharging comprises a conveying assembly 1, wherein the conveying assembly 1 comprises a conveying structure 12 and a feeding cylinder 11 communicated with the conveying structure 12 and used for feeding, a supporting plate 13 used for supporting is fixedly arranged at the lower end of the conveying structure 12, a discharging structure 14 used for discharging is further communicated at the lower end of the conveying structure 12, and an opening and closing structure 15 is further arranged at the upper end of the feeding cylinder 11.

The utility model is further described below with reference to examples.

Embodiment one:

referring to fig. 2 to 6, the discharging structure 14 includes a discharging pipe 141 connected to the conveying structure 12 and a distributing pipe 142 disposed at two sides of the lower end of the discharging pipe 141, the two groups of the distributing pipe 142 and the discharging pipe 141 are in an inverted Y-shaped structure, the inner walls of the discharging pipe 141 and the distributing pipe 142 are coated with a non-stick layer 143, a triangle block 144 for distributing materials is further disposed inside the discharging pipe 141, a storage cavity 111 for storing materials is disposed inside the feeding cylinder 11, a connecting pipe 112 is communicated with the lower end of the feeding cylinder 11, an outer protecting pipe 113 for protecting is disposed outside the connecting pipe 112, the connecting pipe 112 and the vibrating block 114 can be protected by the arrangement of the outer protecting pipe 113, a plurality of vibrating blocks 114 are uniformly distributed on the outer wall of the connecting pipe 112, the vibrating block 114 is externally connected with a vibrating motor, a buffer 115 is disposed inside the connecting pipe 112, the buffer member 115 comprises a buffer plate 1151 movably connected to the inner wall of the connecting tube 112 and a spring 1152 arranged at one side of the buffer plate 1151, wherein the other end of the spring 1152 is connected to the inner wall of the connecting tube 112, the buffer plate 1151 is obliquely arranged and is used for buffering materials so as to prevent the damage of the screw shaft 123 caused by the direct input of the materials, the conveying structure 12 comprises a conveying cylinder 121 and a conveying motor 122 arranged at the outer side of the conveying cylinder 121, the output end of the conveying motor 122 is connected with the screw shaft 123, the conveying motor 122 drives the screw shaft 123 to rotate so as to convey the materials, a cylinder member A124 is arranged on the outer wall of the conveying cylinder 121, an inner groove 125 is formed in the inner wall of the conveying cylinder 121, one end of the cylinder member A124 penetrates through the conveying cylinder 121 and is connected with the connecting rod 126, the other end of the connecting rod 126 is connected with the pushing plate 127, the bottom wall of the pushing plate 127 is contacted with the inner wall of the conveying cylinder 121, the connecting rod 126 and the pushing plate 127 can be moved through the cylinder member A124, for pushing the material so that the material on the inner wall of the conveying cylinder 121 is pushed to the discharge pipe 141, thereby facilitating discharging.

In this embodiment, the material is thrown into the feeding barrel 11, at this time, under the action of gravity, the material will contact with the buffer plate 1151 and cooperate with the elasticity of the spring 1152, the material can be buffered, meanwhile, the vibrating motor is started, the vibrating block 114 can vibrate, so as to prevent the material from blocking the connecting pipe 112, the material is affected, after the material enters the conveying barrel 121, the conveying motor 122 is started, the screw shaft 123 can be rotated, the conveying of the material can be realized, meanwhile, the material can be discharged from the discharging pipe 141, when the material enters the discharging pipe 141, the material can be separated by using the set triangular blocks 144, and then the material can be discharged from the two-component material pipes 142 respectively, so that the aim of multi-point discharging can be realized, and the non-sticky layer 143 is a polytetrafluoroethylene coating, so that the material cannot be stained on the inner walls of the discharging pipe 141 and the separating pipe 142.

Embodiment two:

referring to fig. 2, the opening and closing structure 15 includes a vertical plate 151 disposed at an outer side of the feeding cylinder 11 and a connection block 152 disposed at one side of the vertical plate 151, an air cylinder member B153 is movably connected to an inner side of the connection block 152, two groups of connection blocks 152 are disposed, the other end of the air cylinder member B153 is connected to a door body 154 through one group of connection blocks 152, and the door body 154 is hinged to an edge of the feeding cylinder 11.

In this embodiment, the operator can adjust the position of the door body 154 with the aid of the cylinder member B153, and when the cylinder member B153 is reversely started, the door body 154 can be inclined from the horizontal, at this time, the opening of the feeding barrel 11 is opened, so that the feeding barrel 11 is convenient to throw materials into the feeding barrel 11, manual opening is not needed, and the operation is simple.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. Conveying equipment with high accuracy multiple spot is unloaded, including conveying assembly (1), its characterized in that: the conveying assembly (1) comprises a conveying structure (12) and a feeding cylinder (11) which is communicated with the conveying structure (12) and used for feeding, a supporting plate (13) used for supporting is fixedly arranged at the lower end of the conveying structure (12), a discharging structure (14) used for discharging is further communicated at the lower end of the conveying structure (12), and an opening and closing structure (15) is further arranged at the upper end of the feeding cylinder (11);

the discharging structure (14) comprises a discharging pipe (141) communicated with the conveying structure (12) and a distributing pipe (142) arranged on two sides of the lower end of the discharging pipe (141), the shape formed by the two groups of the distributing pipes (142) and the discharging pipe (141) is of an inverted Y-shaped structure, the inner walls of the discharging pipe (141) and the distributing pipe (142) are respectively coated with a non-stick layer (143), and triangular blocks (144) for distributing materials are further arranged in the discharging pipe (141).

2. A conveying apparatus with high precision multi-point discharge according to claim 1, characterized in that: the inside of pan feeding section of thick bamboo (11) is offered and is used for storing storage chamber (111) of material, and the lower extreme intercommunication of pan feeding section of thick bamboo (11) has linking pipe (112), and the outside of linking pipe (112) is provided with outer pillar (113) that are used for the protection.

3. A conveying apparatus with high precision multi-point discharge according to claim 2, characterized in that: a plurality of vibrating blocks (114) are uniformly distributed on the outer wall of the connecting pipe (112), the vibrating blocks (114) are externally connected with a vibrating motor, and a buffer piece (115) is further arranged inside the connecting pipe (112).

4. A conveying apparatus with high precision multi-point discharge as claimed in claim 3, wherein: the buffer piece (115) comprises a buffer plate (1151) movably connected to the inner wall of the connecting tube (112) and a spring (1152) arranged on one side of the buffer plate (1151), wherein the other end of the spring (1152) is connected with the inner wall of the connecting tube (112), and the buffer plate (1151) is obliquely arranged and used for buffering materials.

5. A conveying apparatus with high precision multi-point discharge according to claim 1, characterized in that: the conveying structure (12) comprises a conveying cylinder (121) and a conveying motor (122) arranged on the outer side of the conveying cylinder (121), the output end of the conveying motor (122) is connected with a screw shaft (123), and the conveying motor (122) drives the screw shaft (123) to rotate so as to convey materials.

6. A conveyor apparatus with high precision multiple point discharge as claimed in claim 5 wherein: an air cylinder part A (124) is arranged on the outer wall of the conveying cylinder (121), an inner groove (125) is formed in the inner wall of the conveying cylinder (121), one end of the air cylinder part A (124) penetrates through the conveying cylinder (121) and is connected with a connecting rod (126), and the other end of the connecting rod (126) is connected with a pushing plate (127).

7. A conveyor apparatus with high precision multiple point discharge as claimed in claim 6 wherein: the bottom wall of the pushing plate (127) is contacted with the inner wall of the conveying cylinder (121), and the connecting rod (126) and the pushing plate (127) can be moved through the air cylinder part A (124) to push materials.

8. A conveyor apparatus with high precision multiple point discharge as claimed in claim 7 wherein: the start-stop structure (15) comprises a vertical plate (151) arranged on the outer side of the feeding barrel (11) and a connecting block (152) arranged on one side of the vertical plate (151), an air cylinder piece B (153) is movably connected to the inner side of the connecting block (152), two groups of connecting blocks are arranged on the connecting block (152), and the other end of the air cylinder piece B (153) is connected with a door body (154) through a group of connecting blocks (152).