CN112298968A

CN112298968A - Storage bin device

Info

Publication number: CN112298968A
Application number: CN202011505842.4A
Authority: CN
Inventors: 康怀旺
Original assignee: Jiangxi Jiayu Intelligent Technology Co Ltd
Current assignee: Jiangxi Jiayu Intelligent Technology Co Ltd
Priority date: 2020-12-18
Filing date: 2020-12-18
Publication date: 2021-02-02

Abstract

The invention provides a material bin device which comprises a rack, wherein a hopper is arranged in the rack, a blanking port is arranged at the bottom of the hopper, a support is arranged on one side of the rack, a discharge port is arranged at the top of the support, a conveyor belt assembly used for conveying materials discharged from the blanking port at the bottom of the hopper upwards to the discharge port is also arranged in the support, and a plurality of material receiving discs used for sequentially receiving the materials discharged from the blanking port are arranged on a conveyor belt of the conveyor belt assembly; one side of hopper is equipped with the opening that is used for supplying the take-up (stock) pan that has received the material to pass through, and the opening is in the top of blanking mouth. Compared with the prior art, this feed bin device is with a large amount of material storage in the hopper, when carrying out the material loading, and the take-up (stock) pan on the conveyer belt receives the material from the blanking mouth of hopper, and along with the rotation of conveyer belt, the material rises gradually to the discharge gate and carries out the ejection of compact in driving the take-up (stock) pan, and whole material loading mode is simple and convenient, even ejection of compact to can be as required, interval material loading time.

Description

Storage bin device

Technical Field

The invention relates to the field of machining, in particular to a material bin device.

Background

When carrying out the machining material loading, in usually directly adding the feed bin with the material, the material freely falls in the feed bin under the action of gravity in order to carry out the material loading, but current feed bin volume is usually less, can not even ejection of compact when the blanking to the time of material loading is not controlled well, and sometimes because the needs of follow-up machining, can not carry out the material loading in succession, needs interval material loading.

Disclosure of Invention

Aiming at the problems, the invention provides a storage bin device which can store a large amount of materials, can uniformly and quantitatively discharge materials, and is simple and convenient.

The technical scheme adopted by the invention is as follows:

a material bin device comprises a rack, wherein a hopper is arranged in the rack, a blanking port is formed in the bottom of the hopper, a support is arranged on one side of the rack, a discharge port is formed in the top of the support, a conveying belt assembly used for conveying materials coming out of the blanking port in the bottom of the hopper upwards to the discharge port is further arranged in the support, and a plurality of material receiving discs used for sequentially receiving the materials coming out of the blanking port are arranged on a conveying belt of the conveying belt assembly; one side of hopper is equipped with the opening that is used for supplying the take-up (stock) pan that has received the material to pass through, and the opening is in the top of blanking mouth.

Preferably, the blanking port is connected with a blanking channel, and the distance between two adjacent material receiving discs is not greater than the length of the blanking channel.

Preferably, the size of the receiving disc is matched with that of the blanking port, and the size of the blanking port is the same as the caliber of the blanking channel.

Preferably, a vibration motor is arranged below the hopper.

Preferably, a top feeding hole of the hopper is matched with a cover body.

More preferably, the cover body comprises a fixed cover body and a movable cover body hinged with the fixed cover body, and the fixed cover body is fixedly arranged on the frame.

Preferably, the conveyor belt assembly further comprises a driving wheel and a driven wheel, the conveyor belt is sleeved on the driving wheel and the driven wheel, the driving wheel is connected with a driver, and the driver is arranged in the rack.

Preferably, the support includes vertical support and horizontal stand, and the one end of horizontal stand is connected with the top of vertical support, and the discharge gate setting is at the other end of horizontal stand.

More preferably, the driving wheel is arranged at the bottom of the vertical support, the driven wheel is arranged in the discharge port, and a guide wheel for guiding the conveying belt is further arranged at the connecting part of the horizontal support and the vertical support.

Preferably, a laser sensor is further arranged below the discharge hole.

Compared with the prior art, the invention has the beneficial effects that: the invention provides a material bin device, which is used for storing a large amount of materials in a hopper, wherein a material receiving disc on a conveying belt receives the materials from a blanking port of the hopper when the materials are loaded, and the materials in the material receiving disc are driven to gradually rise to a material outlet to be discharged along with the rotation of the conveying belt.

Drawings

Fig. 1 is a first schematic view of a material bin device provided by the present invention;

fig. 2 is a second schematic view of a material bin device provided by the present invention;

fig. 3 is a cross-sectional view of a material bin device according to the present invention;

fig. 4 is a schematic view of a hopper in the bunker device according to the present invention.

Detailed Description

Preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Fig. 1 to 4 show a preferred embodiment of a material storage device according to the present invention. As shown in fig. 1 to 4, the storage bin device includes a frame 10, a hopper 20 is arranged in the frame 10, a blanking port 21 is arranged at the bottom of the hopper, a support 30 is arranged at one side of the frame 10, a discharge port 31 is arranged at the top of the support, a conveyor belt assembly 32 for conveying materials discharged from the blanking port at the bottom of the hopper upwards to the discharge port is further arranged in the support, and a plurality of receiving trays 322 for sequentially receiving the materials discharged from the blanking port are arranged on a conveyor belt 321 of the conveyor belt assembly 32; one side of hopper 21 is equipped with the opening 22 that is used for supplying the take-up (stock) pan that has the material to pass through, and opening 22 is in the top of blanking mouth 21, when carrying out the material loading, and take-up (stock) pan 322 that is in blanking mouth 21 below rotates the in-process gradually at conveyer belt 321, rises to the take-up (stock) pan 21 and receives the interior material of blanking mouth 21, and at the continuous rotation in-process of conveyer belt 321, take-up (stock) pan 322 passes the opening 22 on the hopper 20, and take-up (stock) pan 322 drives the material and continues to rise, and the ejection of compact is followed from.

As shown in fig. 4, the blanking opening 21 is connected to the blanking channel 23, the distance between two adjacent receiving trays 322 is not greater than the length of the blanking channel 23, the previous receiving tray 322 is located at the bottom end of the blanking channel 23 to receive the material, and when the previous receiving tray 322 rises to the top end of the blanking channel 23, the next receiving tray 322 is located at the bottom end of the blanking channel 23 or at a position above the bottom end, so as to prevent the material from sliding down from the blanking channel 23. It should be noted that the size of the receiving tray 322 matches the size of the apertures of the blanking opening 21 and the blanking channel 23 to prevent the material from leaking from the gap between the receiving tray 322 and the blanking opening 21 and the blanking channel 23.

As shown in fig. 3, a vibration motor 40 is disposed below the hopper 20, and the vibration motor 40 generates uniform vibration to the hopper 20, so that the material in the hopper 20 automatically moves toward the blanking port 21, and the blanking is uniform.

As shown in fig. 2, a cover 50 is fitted to a top feed inlet of the hopper 20, the cover 50 includes a fixed cover 51 and a movable cover 52 hinged to the fixed cover, the fixed cover 51 is fixedly disposed on the frame 10, and when the hopper 20 is filled with materials, the movable cover 52 is turned over to expose the hopper 20; after the material is added, the movable cover 52 is closed.

As shown in fig. 3, the belt assembly 32 further includes a driving wheel 323 and a driven wheel 324, the belt 321 is sleeved on the driving wheel 323 and the driven wheel 324, the driving wheel 323 is connected with a driver 325, the driver 325 is disposed in the frame 10, and the driver 325 drives the driving wheel 323 to rotate, so that the belt 321 rotates around the driving wheel and the driven wheel 324.

The support 30 comprises a vertical support 301 and a horizontal support 302, one end of the horizontal support 302 is connected with the top of the vertical support 301, and the discharge hole 31 is arranged at the other end of the horizontal support. The conveying belt 321 is positioned in the vertical support 301 and the horizontal support 302, the driving wheel 323 is arranged at the bottom of the vertical support 301, the driven wheel 324 is arranged in the discharge hole 31, the connecting part of the horizontal support and the vertical support is also provided with a guide wheel 326 used for guiding the conveying belt, the receiving disc 322 filled with materials rises to the top of the vertical support 301 and turns 90 degrees through the guide wheel 326, the receiving disc 322 overturns 90 degrees, the materials on the receiving disc 322 fall on the conveying belt 321, and the materials continue to move towards the discharge hole 31 until the materials on the conveying belt 321 reach the discharge hole.

The below of discharge gate 31 still is equipped with laser inductor 311, when carrying out the ejection of compact, utilizes laser inductor 311 response to be in the receiving device of discharge gate 31 below, and when sensing receiving device, conveyer belt assembly 32 starts, transmits the material to receiving device.

The working process of the stock bin device is as follows: 1) turning the movable cover 52 over to expose the hopper 20 and adding a large amount of material; 2) starting the vibration motor 40, and moving the material to the blanking port 21 of the hopper 20; 3) when the laser sensor 311 senses the material receiving device below the discharge port 31, the conveyor belt assembly 32 is started; 4) a receiving tray 322 is located at the bottom end of the blanking channel 23 and receives the material falling from the blanking port 21, the conveyor belt 321 rotates to drive the receiving tray 322 to ascend, the receiving tray 322 passes through the opening 22 on the side wall of the hopper 20 and ascends to the top of the vertical support 301, and turns 90 degrees through the guide wheel 326, the receiving tray 322 turns over 90 degrees, the material on the receiving tray 322 is poured and falls on the conveyor belt 321 and continues to move towards the direction of the discharging port 31 until the material on the conveyor belt 321 reaches the discharging port, and when the conveyor belt 321 turns 180 degrees through the driven wheel 322, the material on the conveyor belt 321 is discharged from the discharging port 31.

In summary, the technical solutions of the present invention can fully and effectively achieve the above objects, and the structural and functional principles of the present invention have been fully verified in the embodiments, so as to achieve the expected efficacy and objects, and various changes or modifications can be made to the embodiments of the present invention without departing from the principles and spirit of the present invention. Accordingly, this invention includes all modifications encompassed within the scope of the claims appended hereto, and any equivalents thereof which fall within the scope of the claims appended hereto.

Claims

1. The utility model provides a feed bin device, includes the frame, is equipped with the hopper in the frame, and the bottom of hopper is equipped with blanking mouth, its characterized in that: a support is arranged on one side of the rack, a discharge port is formed in the top of the support, a conveying belt assembly used for conveying materials coming out of a blanking port in the bottom of the hopper upwards to the discharge port is further arranged in the support, and a plurality of material receiving discs used for sequentially receiving the materials coming out of the blanking port are arranged on a conveying belt of the conveying belt assembly; one side of hopper is equipped with the opening that is used for supplying the take-up (stock) pan that has received the material to pass through, and the opening is in the top of blanking mouth.

2. The bunker device of claim 1, wherein: the blanking port is connected with a blanking channel, and the distance between every two adjacent receiving discs is not more than the length of the blanking channel.

3. The bunker device of claim 2, wherein: the size of the receiving disc is matched with that of the blanking port, and the size of the blanking port is the same as the caliber of the blanking channel.

4. The bunker device of claim 1, wherein: and a vibration motor is arranged below the hopper.

5. The bunker device of claim 1, wherein: a cover body is matched with a top feeding hole of the hopper.

6. The bunker device of claim 5, wherein: the lid includes fixed lid and the movable cover body articulated with fixed lid, and fixed lid is fixed to be set up in the frame.

7. The bunker device of claim 1, wherein: the conveyer belt subassembly still includes the action wheel and follows the driving wheel, and the conveyer belt cover is connected with the driver on action wheel and follow driving wheel, and the driver setting is in the frame.

8. The bunker device of claim 7, wherein: the support comprises a vertical support and a horizontal support, one end of the horizontal support is connected with the top of the vertical support, and a discharge port is formed in the other end of the horizontal support.

9. The bunker device of claim 7, wherein: the driving wheel is arranged at the bottom of the vertical support, the driven wheel is arranged in the discharge port, and a guide wheel used for guiding the conveying belt is further arranged at the connecting part of the horizontal support and the vertical support.

10. The bunker device of claim 1, wherein: and a laser sensor is also arranged below the discharge hole.