CN221069930U

CN221069930U - High-precision bidirectional feeder

Info

Publication number: CN221069930U
Application number: CN202322418715.6U
Authority: CN
Inventors: 刘宝金
Original assignee: Jilin Jiuqiang Machinery Manufacturing Co ltd
Current assignee: Jilin Jiuqiang Machinery Manufacturing Co ltd
Priority date: 2023-09-06
Filing date: 2023-09-06
Publication date: 2024-06-04
Anticipated expiration: 2033-09-06

Abstract

The utility model discloses a high-precision bidirectional feeder, which relates to the technical field of bidirectional feeding and comprises a supporting main board and a feeding device, wherein supporting piles are arranged on the bottom surface of the supporting main board, feeding devices are arranged on the top surface and the bottom surface of the supporting main board, telescopic piles are arranged in the middle of the bottom surface of the supporting main board, a right conveying channel is arranged on the right side of the supporting main board, and a right motor is arranged on the top surface of the supporting main board. According to the utility model, the detector on the inner side of the material conveying device is used for detecting the material in the material conveying device, so that the material reaches a proper conveying channel, the material flows out from the material conveying device and then reaches the diversion table, the diversion table picks the material and then conveys the material to the right conveying channel or the left conveying channel, the right magnetic attraction device is arranged in the right conveying channel, so that the friction force of the rotation of the right conveying crawler belt can be reduced, the energy loss is reduced, the left magnetic attraction device is also arranged in the left conveying channel, and the right motor and the left motor respectively provide kinetic energy for the work of the right conveying channel and the left conveying channel.

Description

High-precision bidirectional feeder

Technical Field

The utility model relates to the technical field of bidirectional feeding, in particular to a high-precision bidirectional feeder.

Background

The high-precision bidirectional feeder is a device applied in the fields of powder, particle or other material supply and conveying, has the capability of accurately controlling the material supply direction and quantity, can be designed based on the traditional conveyor principle, comprises a belt conveyor, a screw conveyor, a vibrating conveyor and the like, utilizes a motion mechanism to convey materials from one point to another point, is a key for ensuring the supply precision and stability, is driven by a motor to rotate, is used for monitoring the speed and the position of material supply, is regulated by a controller according to a real-time feedback signal, and is usually required to realize accurate supply control by using a feedback mechanism, and therefore, the high-precision bidirectional feeder is provided.

According to the search of Chinese utility model bulletin number: CN219428975U discloses a circular vibration type bidirectional feeder device, the tank body is hung on the damping spring through hanging combination; flange type vibration motors are respectively arranged on two sides of the groove body; the flange type vibrating motors which are oppositely arranged are connected through an intermediate transmission shaft, and the intermediate transmission shaft is transversely arranged in the groove body. The flange type vibration motor is used as a power source and is fixed on side plates at two sides of the tank body, one side is arranged coaxially; the two flange type vibration motors are connected through an intermediate transmission shaft; the flange motor comprises a stator winding and a rotor shaft. When the power is on, the rotor shaft rotates under the action of the magnetic field force of the stator winding, and the groove body of the circular vibration type bidirectional feeder moves in a regular circle. The scheme provided by the embodiment has the advantages of low failure rate, low maintenance cost and low manufacturing difficulty.

However, when the above technical scheme is implemented, there are the following problems: first, above-mentioned equipment is after the circular telegram, and the rotor shaft rotates under stator winding magnetic field effect, and the cell body of circular vibration type bidirectional feeder is regular circular motion. The scheme provided by the embodiment has the advantages of low failure rate, low maintenance cost and low manufacturing difficulty, but the equipment lacks a supporting device and a pressure reducing device, and the equipment does not have a performance device for accurate control; second, current equipment can lose a majority kinetic energy when conveying the material, causes the waste of energy, and does not carry out preliminary processing to the material, makes equipment make required kinetic energy bigger at conveying material.

Disclosure of utility model

The utility model aims to provide a high-precision bidirectional feeder to solve the problems in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a two-way batcher of high accuracy, includes support mainboard and feeder, the bottom surface of support mainboard is provided with the support stake, the top surface and the bottom surface of support mainboard are provided with feeder, the centre of support mainboard bottom surface is provided with flexible stake, the right side of support mainboard is provided with right conveying channel, the top surface of support mainboard is provided with right motor, the top of right motor is provided with the support frame, the inboard of support frame is provided with the control box, the top surface of support frame is provided with the reposition of redundant personnel platform, the top surface of reposition of redundant personnel platform is provided with feeder, the left side of support mainboard is provided with left conveying channel.

Preferably, the bottom surface welded connection who supports the mainboard has the support stake, the middle welded connection who supports the mainboard bottom surface has the telescopic pile, telescopic pile's fixed mounting has the hydraulic stem all around, the end welded connection of hydraulic stem has the brace table, the bottom surface welded connection of brace table has the removal base, the front fixed mounting who supports the mainboard has the operation panel, the front fixed mounting of operation panel has the display screen.

Preferably, the right side fixedly connected with right conveying channel of support mainboard, the inboard bottom surface of right conveying channel is pegged graft and is connected with right magnetism and inhale the device, the inboard both sides fixed mounting of right conveying channel has right backup pad, one side of right backup pad is pegged graft and is connected with right transmission shaft, the outside of right transmission shaft has cup jointed and has been connected right conveying track, the top surface fixed mounting of support mainboard has right motor.

Preferably, a supporting frame is fixedly arranged above the right motor, a control box is fixedly arranged on the inner side of the supporting frame, and a shunt table is welded on the top surface of the supporting frame.

Preferably, the top surface fixed mounting of reposition of redundant personnel platform has the feeding device, the inside bottom surface plug-in connection of feeding device has the (mixing) shaft, the inside both sides plug-in connection of feeding device has the extrusion axle, the inside back fixed mounting of feeding device has the detector.

Preferably, the left side fixedly connected with left conveying channel of support mainboard, the inboard bottom surface of left conveying channel is pegged graft and is connected with left magnetism and inhale the device, the inboard both sides fixed mounting of left conveying channel has a left backup pad, one side of left backup pad is pegged graft and is connected with left transmission shaft, the outside of left transmission shaft has cup jointed and has been connected with left conveying track, the left fixed mounting of right motor has left motor.

Preferably, the bottom surface inside the control box is fixedly provided with a voltage protector, the right side of the voltage protector is fixedly provided with a transmission speed control device, the right side of the transmission speed control device is fixedly provided with a storage module, the right side of the storage module is fixedly provided with a radiator, the rear side of the storage module is fixedly provided with a control chip, and the left side of the control chip is fixedly provided with a signal connector.

Compared with the prior art, the utility model has the beneficial effects that:

1. According to the utility model, the equipment is lifted to a certain height through the telescopic piles, then the equipment is moved to a required position through the movable base, the supporting piles on the bottom surface of the equipment are used for supporting the equipment main body, the hydraulic rods around the telescopic piles are used for relieving pressure of the equipment in the working process, the pressure generated by the equipment in the working process is reduced, after the equipment is moved to the required position, the equipment is started and controlled through the operation desk, various values of the equipment can be displayed on the display screen on the operation desk, a control box is arranged on the inner side of the support frame, a voltage protector is arranged in the control box and used for protecting the stability of the internal voltage of the equipment, a transmission speed control device is used for controlling the material conveying speed of the equipment, a storage module is used for storing data required by the equipment, the equipment can be called in time conveniently, the radiator is used for radiating the inside the control box, and the signal connector is used for inputting and outputting the data of the equipment and other equipment;

2. According to the utility model, the materials are extruded and crushed through the extrusion shaft in the material conveying device, then the stirring shaft is used for stirring the materials, so that the materials are prevented from accumulating to block the material conveying device, the detector at the inner side of the material conveying device is used for detecting the materials in the material conveying device, so that the materials reach a proper conveying channel, the materials flow out of the material conveying device and then reach the distribution table, the distribution table is used for picking the materials and then conveying the materials to a right conveying channel or a left conveying channel, the right conveying channel is internally provided with the right magnetic attraction device, so that the friction force of rotation of a right conveying crawler belt can be reduced, the energy loss is reduced, the left conveying channel is internally provided with the left magnetic attraction device, and the right motor and the left motor respectively provide kinetic energy for the work of the right conveying channel and the left conveying channel.

Drawings

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

Fig. 2 is a schematic diagram of the internal structure of the feeding device according to the present utility model.

Fig. 3 is a schematic view of the internal structure of the present utility model.

Fig. 4 is a schematic diagram of the internal structure of the control box according to the present utility model.

In the figure: 1. supporting a main board; 2. supporting piles; 3. a feeding device; 301. a telescopic pile; 302. a hydraulic rod; 303. a support table; 304. a movable base; 305. an operation table; 306. a display screen; 307. a right conveying channel; 308. a right magnetic attraction device; 309. a right support plate; 310. a right transmission shaft; 311. a right conveying track; 312. a right motor; 313. a support frame; 314. a control box; 315. a diversion table; 316. a material conveying device; 317. a stirring shaft; 318. an extrusion shaft; 319. a detector; 320. a left conveying channel; 321. a left magnetic attraction device; 322. a left support plate; 323. a left transmission shaft; 324. a left conveying crawler belt; 325. a left motor; 326. a voltage protector; 327. a transmission speed control device; 328. a storage module; 329. a heat sink; 330. a control chip; 331. a signal connector.

Detailed Description

The utility model is further described in connection with the following detailed description, in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the utility model easy to understand.

In the description of the present utility model, it should be noted that the directions or positional relationships indicated by the terms "upper", "lower", "inner", "outer", "front", "rear", "both ends", "one end", "the other end", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present utility model and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific direction, be configured and operated in the specific direction, and thus should not be construed as limiting the present utility model. Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present utility model, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "provided," "connected," and the like are to be construed broadly, and may be fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model will be understood in specific cases by those of ordinary skill in the art.

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.

Referring to fig. 1-4, an embodiment of the present utility model is provided: the utility model provides a two-way batcher of high accuracy, including supporting mainboard 1 and feeder 3, the bottom surface that supports mainboard 1 is provided with support stake 2, the top surface and the bottom surface that supports mainboard 1 are provided with feeder 3, the centre that supports mainboard 1 bottom surface is provided with flexible stake 301, the right side that supports mainboard 1 is provided with right conveying channel 307, the top surface that supports mainboard 1 is provided with right motor 312, the top of right motor 312 is provided with support frame 313, the inboard of support frame 313 is provided with control box 314, the top surface of support frame 313 is provided with reposition of redundant personnel platform 315, the top surface of reposition of redundant personnel platform 315 is provided with conveying device 316, the left side that supports mainboard 1 is provided with left conveying channel 320.

Specifically, support pile 2 is welded and connected to the bottom surface of support mainboard 1, the middle welded and connected with telescopic pile 301 of support mainboard 1 bottom surface, telescopic pile 301 is fixed and installed around hydraulic stem 302, hydraulic stem 302's end welded and connected with brace table 303, brace table 303's bottom surface welded and connected with movable base 304, support mainboard 1's front fixed and installed operation panel 305, display screen 306 is fixed and installed in operation panel 305's front, support pile 2 is used for supporting the equipment main part, telescopic pile 301 can rise the equipment main part be convenient for the equipment and remove through movable base 304, hydraulic stem 302 is used for equipment to carry out the pressure release in the course of the work, reduce the pressure that equipment produced in the course of the work, brace table 303 is used for supporting equipment main part and movable base 304's connection, movable base 304 makes the equipment remove more convenient, operation panel 305 is used for controlling equipment, display screen 306 can show each item numerical value of equipment.

Specifically, the right side of supporting main board 1 is fixedly connected with right conveying channel 307, the bottom surface of the inner side of right conveying channel 307 is connected with right magnetic attraction device 308 in a plugging manner, right supporting board 309 is fixedly installed on two sides of the inner side of right conveying channel 307, right transmission shaft 310 is connected with one side of right supporting board 309 in a plugging manner, right conveying crawler 311 is connected with the outer side of right transmission shaft 310 in a sleeving manner, right motor 312 is fixedly installed on the top surface of supporting main board 1, right conveying channel 307 is a channel for conveying materials rightwards by equipment, right magnetic attraction device 308 can reduce the friction force of rotation of right conveying crawler 311, loss of energy is reduced, right supporting board 309 is used for supporting right transmission shaft 310, right transmission shaft 310 is used for conveying kinetic energy for rotation of right conveying crawler 311, right conveying crawler 311 is used for conveying materials, and right motor 312 is used for providing kinetic energy for right transmission shaft 310.

Specifically, support frame 313 is fixedly installed to right motor 312's top, and support frame 313's inboard fixed mounting has control box 314, and support frame 313's top surface welded connection has reposition of redundant personnel platform 315, and support frame 313 is used for supporting the reposition of redundant personnel platform 315 and the material conveying device 316 of top, and control box 314 is used for protecting inside performance device, and reposition of redundant personnel platform 315 is used for carrying out reposition of redundant personnel processing to the material.

Specifically, the top surface fixed mounting of reposition of redundant personnel platform 315 has material conveying device 316, the inside bottom surface plug-in connection of material conveying device 316 has (mixing) shaft 317, the inside both sides plug-in connection of material conveying device 316 has extrusion axle 318, the inside back fixed mounting of material conveying device 316 has detector 319, material conveying device 316 is used for handling the material and carries reposition of redundant personnel platform 315, thereby the (mixing) shaft 317 is used for stirring the material, thereby prevent that the material from piling up and blocking material conveying device 316, extrusion axle 318 is used for carrying out extrusion crushing to the material and handles, detector 319 is used for detecting the material of material conveying device 316 inside, make the material reach suitable transmission path.

Specifically, the left side fixedly connected with left conveying passageway 320 of support mainboard 1, the inboard bottom surface of left conveying passageway 320 is pegged graft and is connected with left magnetism and inhale device 321, the inboard both sides fixed mounting of left conveying passageway 320 has left backup pad 322, one side of left backup pad 322 is pegged graft and is connected with left transmission shaft 323, the outside of left transmission shaft 323 is cup jointed and is connected with left conveying track 324, the left side fixed mounting of right motor 312 has left motor 325, left conveying passageway 320 is the passageway of equipment left transmission material, left magnetism is inhaled device 321 can reduce left conveying track 324 pivoted frictional force, reduce the loss of energy, left backup pad 322 is used for supporting left transmission shaft 323, left transmission shaft 323 is used for the rotation transmission kinetic energy of left conveying track 324, left conveying track 324 is used for transporting the material, left motor 325 is used for providing the kinetic energy for left transmission shaft 323.

Specifically, the voltage protector 326 is fixedly installed on the bottom surface inside the control box 314, the transmission speed control device 327 is fixedly installed on the right side of the voltage protector 326, the storage module 328 is fixedly installed on the right side of the transmission speed control device 327, the radiator 329 is fixedly installed on the right side of the storage module 328, the control chip 330 is fixedly installed at the rear of the storage module 328, the signal connector 331 is fixedly installed on the left side of the control chip 330, the voltage protector 326 is used for protecting the stability of the internal voltage of equipment, the transmission speed control device 327 is used for controlling the speed of the equipment for conveying materials, the storage module 328 is used for storing data required by the equipment, the equipment can be conveniently and timely called when needed, the radiator 329 is used for radiating the inside of the control box 314, and the signal connector 331 is used for inputting and outputting data of the equipment and other equipment.

Working principle: firstly, equipment is lifted to a certain height through a telescopic pile 301, then the equipment is moved to a required position through a moving base 304, a supporting pile 2 on the bottom surface of the equipment is used for supporting a main body of the equipment, a hydraulic rod 302 around the telescopic pile 301 is used for decompressing the equipment in the working process, the pressure generated by the equipment in the working process is reduced, after the equipment is moved to the required position, the equipment is started and controlled through an operation console 305, various numerical values of the equipment can be displayed on a display screen 306 on the operation console 305, a control box 314 is arranged on the inner side of a supporting frame 313, a voltage protector 326 is arranged in the control box 314 and used for protecting the stability of the internal voltage of the equipment, a transmission speed control device 327 is used for controlling the speed of the equipment for conveying materials, a storage module 328 is used for storing data required by the equipment, the equipment can be called in time conveniently when the equipment is required to be used, a radiator 329 is used for radiating the inside of the control box 314, and a signal connector 331 is used for inputting and outputting data of the equipment and other equipment.

When the equipment works, the material firstly enters the material conveying device 316, the extrusion shaft 318 in the material conveying device 316 firstly extrudes and pulverizes the material, then the stirring shaft 317 stirs the material, the material is prevented from piling up to block the material conveying device 316, the detector 319 on the inner side of the material conveying device 316 is used for detecting the material in the material conveying device 316, the material reaches a proper conveying channel, the material flows out of the material conveying device 316 and then reaches the distribution table 315, the distribution table 315 picks the material and then conveys the material to the right conveying channel 307 or the left conveying channel 320, the right magnetic attraction device 308 in the right conveying channel 307 can reduce the friction force of the rotation of the right conveying crawler 311, the energy loss is reduced, the left magnetic attraction device 321 is also arranged in the left conveying channel 320, and the right motor 312 and the left motor 325 respectively provide kinetic energy for the work of the right conveying channel 307 and the left conveying channel 320.

The foregoing is merely exemplary embodiments of the present utility model, and specific structures and features that are well known in the art are not described in detail herein. It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present utility model may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims

1. The utility model provides a two-way batcher of high accuracy, includes support mainboard (1) and feeder (3), its characterized in that: support the bottom surface of mainboard (1) and be provided with support stake (2), the top surface and the bottom surface of supporting mainboard (1) are provided with feeder (3), the centre of supporting mainboard (1) bottom surface is provided with telescopic pile (301), the right side of supporting mainboard (1) is provided with right conveying channel (307), the top surface of supporting mainboard (1) is provided with right motor (312), the top of right motor (312) is provided with support frame (313), the inboard of support frame (313) is provided with control box (314), the top surface of support frame (313) is provided with reposition of redundant personnel platform (315), the top surface of reposition of redundant personnel platform (315) is provided with material conveying device (316), the left side of supporting mainboard (1) is provided with left conveying channel (320).

2. The high precision bi-directional feeder of claim 1, wherein: support the bottom surface welded connection of mainboard (1) has support stake (2), the centre welded connection of supporting the mainboard (1) bottom surface has flexible stake (301), the fixed mounting all around of flexible stake (301) has hydraulic stem (302), the end-to-end welded connection of hydraulic stem (302) has brace table (303), the bottom surface welded connection of brace table (303) has movable base (304), the front fixed mounting of supporting mainboard (1) has operation panel (305), the front fixed mounting of operation panel (305) has display screen (306).

3. The high precision bi-directional feeder of claim 1, wherein: the right side fixedly connected with right conveying passageway (307) of support mainboard (1), the inboard bottom surface of right conveying passageway (307) is pegged graft and is connected with right magnetism and inhale device (308), the inboard both sides fixed mounting of right conveying passageway (307) has right backup pad (309), the one side of right backup pad (309) is pegged graft and is connected with right transmission shaft (310), right transmission track (311) have been cup jointed in the outside of right transmission shaft (310), the top surface fixed mounting of support mainboard (1) has right motor (312).

4. The high precision bi-directional feeder of claim 1, wherein: the upper portion of right motor (312) fixed mounting has support frame (313), the inboard fixed mounting of support frame (313) has control box (314), the top surface welding of support frame (313) is connected with reposition of redundant personnel platform (315).

5. The high precision bi-directional feeder of claim 1, wherein: the top surface fixed mounting of reposition of redundant personnel platform (315) has conveyer (316), the inside bottom surface plug-in connection of conveyer (316) has (317), the inside both sides plug-in connection of conveyer (316) has extrusion axle (318), the inside back fixed mounting of conveyer (316) has detector (319).

6. The high precision bi-directional feeder of claim 1, wherein: the left side fixedly connected with left conveying channel (320) of support mainboard (1), the inboard bottom surface of left conveying channel (320) is pegged graft and is connected with left magnetism and inhale device (321), the inboard both sides fixed mounting of left conveying channel (320) have left backup pad (322), one side of left backup pad (322) is pegged graft and is connected with left transmission shaft (323), the outside of left transmission shaft (323) is cup jointed and is connected with left conveying track (324), the left side fixed mounting of right motor (312) has left motor (325).

7. The high precision bi-directional feeder of claim 1, wherein: the control box is characterized in that a voltage protector (326) is fixedly arranged on the bottom surface inside the control box (314), a transmission speed control device (327) is fixedly arranged on the right side of the voltage protector (326), a storage module (328) is fixedly arranged on the right side of the transmission speed control device (327), a radiator (329) is fixedly arranged on the right side of the storage module (328), a control chip (330) is fixedly arranged at the rear of the storage module (328), and a signal connector (331) is fixedly arranged on the left side of the control chip (330).