CN214059088U

CN214059088U - High-efficient conveyor

Info

Publication number: CN214059088U
Application number: CN202023081147.8U
Authority: CN
Inventors: 刘宏; 梁开军; 曹传宣
Original assignee: Changzhou Wanjia Intelligent Equipment Co ltd
Current assignee: Changzhou Wanjia Intelligent Equipment Co ltd
Priority date: 2020-12-21
Filing date: 2020-12-21
Publication date: 2021-08-27
Anticipated expiration: 2030-12-21

Abstract

The utility model discloses a high-efficient conveyor, its structure includes: the conveying device is arranged in the shell; the shell comprises an upper section, a middle section and a lower section, wherein the upper section comprises a flared pipe and a feeding pipe arranged below the flared pipe; the conveying device comprises a first conveying belt and a second conveying belt, the first conveying belt comprises first driving rollers arranged at the upper part of the middle section and the tail part of the lower section and a conveying belt driven by the first driving rollers, and a guide roller is arranged at the joint of the middle section and the lower section in the middle of the first conveying belt; the second conveyor belt comprises second transmission rollers arranged at the head end and the tail end of the lower section and particularly driven conveyor belts, and is positioned below the first conveyor belt; the lower section tail part is a discharge hole, and the device can realize the rapid transmission of powdery and granular materials and improve the transmission efficiency.

Description

High-efficient conveyor

Technical Field

The utility model belongs to the material field of carrying especially relates to a device of carrying fast to solid material.

Background

In production and processing, materials are often required to be conveyed from one place to another place, and for powdery and granular materials, the materials are easily influenced by external forces such as air flow and vibration due to unfixed shapes and fall off in the conveying process.

Disclosure of Invention

The utility model discloses an above-mentioned problem of solving current conveyer belt class conveyor existence has designed a high-efficient conveyor, and its structure includes: the conveying device is arranged in the shell; the shell comprises an upper section, a middle section and a lower section, wherein the upper section comprises a flared pipe and a feeding pipe arranged below the flared pipe; the conveying device comprises a first conveying belt and a second conveying belt, the first conveying belt comprises first driving rollers arranged at the upper part of the middle section and the tail part of the lower section and a conveying belt driven by the first driving rollers, and a guide roller is arranged at the joint of the middle section and the lower section in the middle of the first conveying belt; the second conveyor belt comprises second transmission rollers arranged at the head end and the tail end of the lower section and particularly driven conveyor belts, and is positioned below the first conveyor belt; the tail part of the lower section is a discharge hole.

Preferably, the middle section is inclined at 45 degrees, and the width of the second conveyor belt is larger than that of the first conveyor belt.

Preferably, the lower surface of the middle section is an arc surface, and the second transmission roller close to the middle section is positioned below the bottom end of the arc surface.

Preferably, the lower surface of the lower section is obliquely arranged, and the oblique direction is oblique to the direction of the discharge hole.

Preferably, the guide roller is fixed to the side wall of the housing, the first driving roller and the second driving roller pass through the side wall of the housing through a shaft seal structure, and both the first driving roller and the second driving roller are connected with a power device.

Preferably, the guide roller is fixed to the side wall of the housing, the first driving roller and the second driving roller pass through the side wall of the housing through a shaft seal structure, the first driving roller and the second driving roller at the tail of the lower section are provided with gears and connected by a chain, and one of the first driving roller and the second driving roller is connected with a power source.

Preferably, the lower section wraps the bottom end of the arc surface.

Preferably, the side walls of the middle section and the lower section of the shell are provided with access holes.

This conveyor is by horn tube department pan feeding, and the pan feeding part is carried by first conveyer belt, and the part that is not carried by first conveyer belt in the middle section falls into the middle section lower surface and falls into the second conveyer belt through gravity, and the second conveyer belt then conveys the material that arc surface and first conveyer belt dropped, and the material that drops in both transmission course can fall into the hypomere lower surface by inclined plane roll-off discharge gate, the utility model discloses allow power device to work with great rotational speed, the conveyer belt can have faster transmission speed, has promoted transmission efficiency by a wide margin.

Drawings

Fig. 1 is a front view of the present invention.

Fig. 2 is a bottom plan view.

Fig. 3 is a lower side view.

In the figure: 1. a housing; 2. a conveying device; 11. a flare tube; 12. a feed pipe; 13. a middle section; 14. a lower section; 21. a first conveyor belt; 22. a second conveyor belt; 141. a bevel; 211. a first drive roller; 212. a guide roller; 221. a second driving roller.

Detailed Description

Example 1

As shown in fig. 1-3, an embodiment of the high-efficiency conveying device 2 of the present invention comprises: the device comprises a shell 1 and a conveying device 2 arranged in the shell 1; the shell 1 comprises an upper section, a middle section 13 and a lower section 14, wherein the upper section comprises a flared pipe 11 and a feeding pipe 12 arranged below the flared pipe, the middle section 13 is connected with the bottom of the feeding pipe 12 and is obliquely arranged, and the lower section 14 is arranged at the lower part of the middle section 13 and is horizontally arranged; the conveying device 2 comprises a first conveying belt 21 and a second conveying belt 22, the first conveying belt 21 comprises a first driving roller 211 arranged at the upper part of the middle section 13 and the tail part of the lower section 14 and a conveying belt driven by the first driving roller 211, and a guide roller 212 is arranged at the joint of the middle section 13 and the lower section 14 in the middle of the first conveying belt 21; the second conveyor belt 22 comprises second driving rollers 221 arranged at the head end and the tail end of the lower section 14 and a particularly driven conveyor belt, and the second conveyor belt 22 is positioned below the first conveyor belt 21; the tail part of the lower section 14 is a discharge hole.

More specifically, the middle section 13 is inclined at 45 °, and the width of the second conveyor belt 22 is larger than that of the first conveyor belt 21.

More specifically, the lower surface of the middle section 13 is an arc surface, and the second driving roller 221 near the middle section 13 is located below the bottom end of the arc surface.

More specifically, the lower surface of the lower section 14 is inclined in the direction of the discharge opening, and the inclined surface 141 is shown in the figure.

More specifically, the guide roller 212 is fixed to the sidewall of the housing 1, and the first driving roller 211 and the second driving roller 221 penetrate through the sidewall of the housing 1 through a shaft seal structure, and both are connected to a power device.

In a more specific embodiment, the lower segment 14 wraps the bottom end of the arc surface.

In a more specific embodiment, the side walls of the middle section 13 and the lower section 14 of the shell 1 are provided with access holes.

Example 2

As shown in fig. 1 to 3, another embodiment of the high-efficiency conveying device 2 of the present invention comprises: the device comprises a shell 1 and a conveying device 2 arranged in the shell 1; the shell 1 comprises an upper section, a middle section 13 and a lower section 14, wherein the upper section comprises a flared pipe 11 and a feeding pipe 12 arranged below the flared pipe, the middle section 13 is connected with the bottom of the feeding pipe 12 and is obliquely arranged, and the lower section 14 is arranged at the lower part of the middle section 13 and is horizontally arranged; the conveying device 2 comprises a first conveying belt 21 and a second conveying belt 22, the first conveying belt 21 comprises a first driving roller 211 arranged at the upper part of the middle section 13 and the tail part of the lower section 14 and a conveying belt driven by the first driving roller 211, and a guide roller 212 is arranged at the joint of the middle section 13 and the lower section 14 in the middle of the first conveying belt 21; the second conveyor belt 22 comprises second driving rollers 221 arranged at the head end and the tail end of the lower section 14 and a particularly driven conveyor belt, and the second conveyor belt 22 is positioned below the first conveyor belt 21; the tail part of the lower section 14 is a discharge hole.

More specifically, the guide roller 212 is fixed to the sidewall of the housing 1, the first driving roller 211 and the second driving roller 221 penetrate through the sidewall of the housing 1 through a shaft seal structure, the first driving roller 211 and the second driving roller 221 at the tail of the lower section 14 are provided with gears and connected by a chain, and one of the two is connected with a power source.

This conveyor can locate the hopper below, through horn pipe department pan feeding, the pan feeding part is carried by first conveyer belt, the part that is not carried by first conveyer belt in the middle section falls into the middle section lower surface and falls into the second conveyer belt through gravity, the second conveyer belt then conveys the material that middle section lower surface and first conveyer belt dropped, the material that first conveyer belt and second conveyer belt dropped in transmission process can fall into the hypomere lower surface, by inclined plane roll-off discharge gate, the utility model discloses a design three discharging channel, allow power device to work with great rotational speed, the material is because of high-speed transmission and the conveyer belt that drops does not influence the transmission of material yet for the conveyer belt can have faster transmission speed, has promoted transmission efficiency by a wide margin.

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

Claims

1. An efficient conveying device is characterized in that: the method comprises the following steps: the conveying device is arranged in the shell; the shell comprises an upper section, a middle section and a lower section, wherein the upper section comprises a flared pipe and a feeding pipe arranged below the flared pipe; the conveying device comprises a first conveying belt and a second conveying belt, the first conveying belt comprises first driving rollers arranged at the upper part of the middle section and the tail part of the lower section and a conveying belt driven by the first driving rollers, and a guide roller is arranged at the joint of the middle section and the lower section in the middle of the first conveying belt; the second conveyor belt comprises second transmission rollers arranged at the head end and the tail end of the lower section and particularly driven conveyor belts, and is positioned below the first conveyor belt; the tail part of the lower section is a discharge hole.

2. The high efficiency conveyor of claim 1, wherein: the middle section is 45 degrees of inclination, and the width of the second conveyor belt is larger than that of the first conveyor belt.

3. The high efficiency conveyor of claim 2, wherein: the lower surface of the middle section is an arc surface, and the second transmission roller close to the middle section is located below the bottom end of the arc surface.

4. The high efficiency conveyor of claim 3, wherein: the lower surface of the lower section is obliquely arranged, and the oblique direction is oblique to the direction of the discharge hole.

5. The high efficiency conveyor of claim 4, wherein: the guide roller is fixed on the side wall of the shell, the first transmission roller and the second transmission roller penetrate through the side wall of the shell through shaft seal structures, and the first transmission roller and the second transmission roller are both connected with a power device.

6. The high efficiency conveyor of claim 4, wherein: the guide roller is fixed on the side wall of the shell, the first transmission roller and the second transmission roller penetrate through the side wall of the shell through a shaft seal structure, the first transmission roller and the second transmission roller which are positioned at the tail of the lower section are provided with gears and connected through a chain, and one of the first transmission roller and the second transmission roller is connected with a power source.

7. The high efficiency conveyor of claim 6, wherein: the lower section wraps the bottom end of the arc surface.

8. The high efficiency conveyor apparatus of any one of claims 1-6, wherein: and the side walls of the middle section and the lower section of the shell are provided with access holes.