CN217554977U - Continuous grain unloading machine - Google Patents

Abstract

The utility model relates to an unload grain machine technical field, and disclose a unload grain machine in succession, including metal baffle and metal support, the left end welding of metal support has slewing mechanism, and metal support's top surface mounting has connecting device, and installation mechanism is installed to connecting device's upper end, and installation mechanism's rear end is connected with the connection pad, and connecting device's upper end is connected with roller bearing, and the conveyer belt is installed to slewing mechanism's upper end, metal baffle welding and metal support's bottom surface. This unload grain machine in succession rotates hex bolts and T type bolt, need not dismantle whole device to the metal drum is changed to the cost a small amount of time, can increase the live time of the device, can reduce the fund of purchasing the metal drum cost simultaneously, rubber cushion and connecting block surface connection, and transportation polygon fixture block joint advances metal drum and connecting block, can be fixed with metal drum and connecting block, thereby increases metal drum's live time.

Description

Continuous grain unloading machine

Technical Field

The utility model relates to an unload grain machine technical field, specifically be a unload grain machine in succession.

Background

The history of the conveyor is long, the ancient Chinese high-rotating-barrel car and the water-lifting car turnover are rudiments of a modern bucket elevator and a scraper conveyor, and the conveyor can be divided into the following parts according to the operation mode: a loading and repairing integrated conveyor, a belt conveyor, a screw conveyor, a bucket elevator, a roller conveyor, a plate chain conveyor, a mesh belt conveyor and a chain conveyor.

The cylinder of the existing grain unloading machine drives the conveyer belt to move, the metal cylinder needs to be replaced after being damaged, and the whole device needs to be disassembled, so that a large amount of time is spent on replacing the cylinder.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a unload grain machine in succession to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a unload grain machine in succession, includes metal baffle and metal support, the left end welding of metal support has slewing mechanism, metal support's top surface mounting has connecting device, installation mechanism is installed to connecting device's upper end, installation mechanism's rear end is connected with the connection pad, connecting device's upper end is connected with roller bearing, the conveyer belt is installed to slewing mechanism's upper end, metal baffle welding and metal support's bottom surface.

The installation mechanism comprises a metal roller and a rubber cushion block, a connecting block is inserted inside the metal roller, the rear end of the connecting block is connected with a hexagon bolt, a T-shaped bolt is inserted at the rear end of the connecting block, a fixing rod is installed inside the rear end of the metal roller, a polygonal clamping block is connected to the surface of the fixing rod, an alloy plate spring is connected to the bottom surface of the polygonal clamping block, and the rubber cushion block is connected to the rear end inside the metal roller.

Preferably, slewing mechanism includes fixed block and inverter motor, the bottom surface of fixed block is connected with linking bridge, conveyer is installed in inverter motor's front, conveyer's upper end is connected with the rubber drum, inverter motor installs in the top surface of fixed block.

Preferably, the quantity of rubber cylinder is two, two rubber cylinder connects in the left end and the right-hand member of conveyer belt, the conveyer belt is connected in metal support's upper end, rubber cylinder connects in metal support's upper end, metal support connects in linking bridge's right side surface, and rubber cylinder can drive the conveyer belt and remove inside the conveyer belt to can unload the grain operation, increase the device's live time.

Preferably, the metal support is connected to the surface of the conveying device, the metal support is connected to the left side of the fixing block, the metal support is connected to the left side of the variable frequency motor, and the variable frequency motor drives the conveying device to drive the rubber roller to rotate so as to enable the conveying belt to move.

Preferably, the number of the metal rollers is two, the two metal rollers are connected to the front section and the rear end of the connecting device, the metal rollers are connected to the inner surface of the roller bearing, the two metal rollers are connected to the front and the rear of the connecting disc, and the connecting disc is connected to the rear end of the inner part of the connecting device.

Preferably, the polygonal clamping block is connected to the inner portion of the rear end of the metal roller, the polygonal clamping block is connected to the front section of the connecting block, the connecting block is connected to the inner surface of the rubber cushion block, the polygonal clamping block moves up and down at the rear end of the metal roller, the alloy plate spring starts to push the polygonal clamping block, the polygonal clamping block is clamped into the connecting block, and the metal roller and the connecting block are fixed.

Preferably, the hexagonal bolt is connected in the metal drum rear end, the connecting block is connected in the anterior segment of rubber cushion, hexagonal bolt is connected in the place ahead of T type bolt, T type bolt is connected in the rear of connection pad, rotates the hexagonal bolt, and the hexagonal bolt is connected connecting block and metal drum to connect the rear end of connecting block and metal drum, increase the device's stability.

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

1. this unload grain machine in succession rotates hex bolts and T type bolt, need not dismantle whole device to cost a small amount of time and change metal drum, can increase the live time of the device, can reduce the fund of purchasing the metal drum cost simultaneously.

2. This unload grain machine in succession, rubber cushion and connecting block surface connection, transportation polygon fixture block joint advances metal drum and connecting block, can be fixed with metal drum and connecting block to increase metal drum's live time.

Drawings

FIG. 1 is a front view of the structure of the present invention;

FIG. 2 is a schematic view of the present invention;

FIG. 3 is a schematic view of the front view of the internal structure of the present invention;

FIG. 4 is a schematic view of the internal structure of the structural mounting mechanism of the present invention;

FIG. 5 is a schematic view of the inner structure of the structural metal roller of the present invention;

fig. 6 is a partially enlarged schematic view of a structure shown in fig. 5 according to the present invention.

In the figure: 1. a metal baffle plate; 2. a metal bracket; 3. a rotating mechanism; 301. a fixed block; 302. a variable frequency motor; 303. a conveying device; 304. a rubber roller; 305. connecting a bracket; 4. an installation mechanism; 401. a metal drum; 402. a rubber cushion block; 403. a hexagon bolt; 404. connecting blocks; 405. a T-shaped bolt; 406. a polygonal fixture block; 407. an alloy plate spring; 408. a fixing rod; 5. a conveyor belt; 6. connecting the disc; 7. a roller bearing; 8. and (4) a connecting device.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-6, the present invention provides a technical solution: the utility model provides a unload grain machine in succession, includes metal baffle 1 and metal support 2, and the left end welding of metal support 2 has slewing mechanism 3, and the top surface mounting of metal support 2 has connecting device 8, and installation mechanism 4 is installed to connecting device 8's upper end, and installation mechanism 4's rear end fixedly connected with connection pad 6, connecting device 8's upper end fixedly connected with roller bearing 7, and conveyer belt 5 is installed to slewing mechanism 3's upper end, and metal baffle 1 welds the bottom surface with metal support 2.

The mounting mechanism 4 comprises two metal rollers 401 and a rubber cushion block 402, the number of the metal rollers 401 is two, the two metal rollers 401 are movably connected with the front section and the rear end of the connecting device 8, the metal rollers 401 are fixedly connected with the inner surface of the roller bearing 7, the two metal rollers 401 are movably connected with the front surface and the rear surface of the connecting disc 6, the connecting disc 6 is movably connected with the rear end of the inner part of the connecting device 8, a connecting block 404 is inserted in the metal rollers 401, the rear end of the connecting block 404 is rotatably connected with a hexagon bolt 403, a T-shaped bolt 405 is inserted in the rear end of the connecting block 404, a fixing rod 408 is mounted in the rear end of the metal rollers 401, a polygonal clamping block 406 is fixedly connected with the surface of the fixing rod 408, the polygonal clamping block 406 is movably connected in the rear end of the metal rollers 401, and the polygonal clamping block 406 is movably connected with the front section of the connecting block 404, the connecting block 404 is movably connected to the inner surface of the rubber pad 402, the polygonal clamping block 406 moves up and down at the rear end of the metal roller 401, the alloy plate spring 407 starts to push the polygonal clamping block 406, the polygonal clamping block 406 is clamped into the connecting block 404, the metal roller 401 is fixed to the connecting block 404, the alloy plate spring 407 is fixedly connected to the bottom end surface of the polygonal clamping block 406, the rubber pad 402 is connected to the inner rear end of the metal roller 401, the hexagonal bolt 403 is rotatably connected to the rear end of the metal roller 401, the connecting block 404 is movably connected to the front section of the rubber pad 402, the hexagonal bolt 403 is slidably connected to the front section of the T-shaped bolt 405, the T-shaped bolt 405 is inserted to the rear section of the connecting disc 6, the hexagonal bolt 403 is rotated, the hexagonal bolt 403 connects the connecting block 404 and the metal roller 401, the connecting block 404 and the rear end of the metal roller 401 are connected, and the stability of the device is improved.

Slewing mechanism 3 includes fixed block 301 and inverter motor 302, the bottom fixed surface of fixed block 301 is connected with linking bridge 305, conveyer 303 is installed to inverter motor 302's front, 2 fixed connection in conveyer 303's surface of metal support, 2 fixed connection in 301's left side of metal support, metal support 2 is connected in inverter motor 302's left side, inverter motor 302 drives conveyer 303 and drives rubber drum 304 rotatory, let conveyer belt 5 remove, conveyer 303's upper end fixed connection has rubber drum 304, rubber drum 304's quantity is two, two rubber drum 304 swing joint are in conveyer belt 5's left end and right-hand member, 5 swing joint in 2's upper end of conveyer belt, rubber drum 304 swing joint is in 2's upper end of metal support, 2 fixed connection in linking bridge 305's right side surface, rubber drum 304 is inside 5, can drive conveyer belt 5 and remove, thereby can unload the grain operation, increase the live time of the device, inverter motor 302 installs in 301's top surface.

In use, the front end of the metal drum 401 is held, the metal drum 401 is pushed forward, the metal drum 401 is inserted into the upper end of the connecting device 8, the metal drum 401 is inserted into the inner surface of the roller bearing 7, the front end of the connecting block 404 is held, the connecting block 404 is pushed to be inserted into the temporal portion of the metal drum 401, so that the metal drum 401 and the connecting block 404 are preliminarily fixed, the connecting block 404 pushes the polygonal fixture block 406 to move up and down, the polygonal fixture block 406 moves up and down inside the metal drum 401, the polygonal fixture block 406 starts to compress the alloy plate spring 407, the polygonal fixture block 406 moves on the surface of the fixing rod 408, the left side surface of the connecting block 404 is connected with the rear end surface inside the metal drum 401, the alloy plate spring 407 starts to rebound, the alloy plate spring 407 pushes the polygonal fixture block 406 to move up and down, the polygonal fixture block 406 is inserted into the connecting block 404, so that the connecting block 404 and the metal drum 401 are fixed, the edge of the connecting block 6 is held, the connecting block 6 is pushed forward, the connecting block 6 is inserted into the rear end of the connecting block 404, the connecting block 404 and the connecting block 404 is preliminarily fixed, the connecting block 403 is connected with the connecting block 404, and the connecting disc 404 is pushed, and the connecting disc 404 is fixed, and the connecting disc 404 is connected with the connecting disc 404 and the connecting disc 404.

Claims (7)

1. The utility model provides a unload grain machine in succession, includes metal baffle (1) and metal support (2), its characterized in that: the left end of the metal support (2) is welded with a rotating mechanism (3), the top end surface of the metal support (2) is provided with a connecting device (8), the upper end of the connecting device (8) is provided with an installing mechanism (4), the rear end of the installing mechanism (4) is connected with a connecting disc (6), the upper end of the connecting device (8) is connected with a roller bearing (7), the upper end of the rotating mechanism (3) is provided with a conveying belt (5), and the metal baffle (1) is welded with the bottom end surface of the metal support (2);

installation mechanism (4) include metal drum (401) and rubber cushion block (402), metal drum (401) inside is pegged graft and is had connecting block (404), the rear end of connecting block (404) is connected with hex bolts (403), it has T type bolt (405) to peg graft in the rear end of connecting block (404), metal drum (401) rear end internally mounted has dead lever (408), the surface connection of dead lever (408) has polygon fixture block (406), the bottom surface connection of polygon fixture block (406) has alloy leaf spring (407), rubber cushion block (402) are connected in metal drum (401) inside rear end.

2. The continuous grain unloader of claim 1, wherein: slewing mechanism (3) include fixed block (301) and inverter motor (302), the bottom surface connection of fixed block (301) has linking bridge (305), conveyer (303) are installed in the front of inverter motor (302), the upper end of conveyer (303) is connected with rubber drum (304), inverter motor (302) are installed in the top surface of fixed block (301).

3. The continuous grain unloader of claim 2, wherein: the number of the rubber rollers (304) is two, the two rubber rollers (304) are connected to the left end and the right end of the conveying belt (5), the conveying belt (5) is connected to the upper end of the metal support (2), the rubber rollers (304) are connected to the upper end of the metal support (2), and the metal support (2) is connected to the right side surface of the connecting support (305).

4. The continuous grain unloader of claim 3, wherein: the metal support (2) is connected to the surface of the conveying device (303), the metal support (2) is connected to the left side of the fixing block (301), and the metal support (2) is connected to the left side of the variable-frequency motor (302).

5. The continuous grain unloader of claim 1, wherein: the number of the metal rollers (401) is two, the two metal rollers (401) are connected to the front end and the rear end of the connecting device (8), the metal rollers (401) are connected to the inner surface of the roller bearing (7), the two metal rollers (401) are connected to the front face and the rear face of the connecting disc (6), and the connecting disc (6) is connected to the rear end of the inner portion of the connecting device (8).

6. The continuous grain unloader of claim 1, wherein: the polygonal fixture block (406) is connected to the inner part of the rear end of the metal roller (401), the polygonal fixture block (406) is connected to the front end of the connecting block (404), and the connecting block (404) is connected to the inner surface of the rubber cushion block (402).

7. The continuous grain unloader of claim 1, wherein: the hexagonal bolt (403) is connected to the rear end of the metal roller (401), the connecting block (404) is connected to the front end of the rubber cushion block (402), the hexagonal bolt (403) is connected to the front of the T-shaped bolt (405), and the T-shaped bolt (405) is connected to the rear of the connecting disc (6).

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