CN214456493U - Automatic feeding device for crushing zirconium dioxide granules - Google Patents

Abstract

The utility model discloses an automatic feeding device for crushing zirconium dioxide granules, which comprises a hoisting machine and a rotary connecting assembly, wherein the hoisting machine comprises a portal frame and a hoisting unit, and the hoisting unit comprises a hoisting frame, a supporting plate and hoisting equipment; the hoisting equipment is fixed on a cross beam at the top of the gantry, the hoisting frame is a hollow square frame, and the cross beam at the top of the hoisting frame is connected with the hoisting equipment, so that the hoisting frame is positioned between upright columns at two sides of the gantry; one side of the supporting plate is fixed on the operating platform through the rotating connecting assembly to form a fixed side, the other side of the supporting plate is a free side, and the free side penetrates through the hollow part of the hanging frame and is arranged on a cross beam at the bottom of the hanging frame; when the hanging frame is lifted, the cross beam at the bottom of the hanging frame and the supporting plate generate relative displacement and drive the supporting plate to rotate around the fixed side of the supporting plate. The automatic feeding device is simple in design, can realize automatic feeding, is mechanically operated in the whole process, and effectively solves the problems of high labor intensity and low working efficiency in the prior art.

Description

Automatic feeding device for crushing zirconium dioxide granules

Technical Field

The utility model relates to a throw material technical field, especially relate to a throw material device, especially a broken automatic material device of throwing of zirconium dioxide granule material.

Background

Zirconium dioxide is a major oxide of zirconium, is chemically inert, has properties of high melting point, zirconium resistivity, high refractive index and low coefficient of thermal expansion, and is a major raw material for producing important high temperature resistant materials, ceramic insulating materials and ceramic opacifiers. When producing above-mentioned product, need smash the zirconium dioxide granule material earlier, and at present mostly dig the granule zirconium dioxide material in the silo into the hopper of breaker through artifical material shovel and smash through the rubbing crusher, but this kind of method workman intensity of labour is big, and work efficiency is low.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the not enough and defect of prior art, provide a broken automatic feeding device of zirconium dioxide granule material.

The utility model discloses a realize through following technical scheme: the automatic feeding device for crushing the zirconium dioxide granules comprises a lifter and a rotary connecting assembly, wherein the lifter comprises a portal frame and a lifting unit, and the lifting unit comprises lifting equipment, a lifting frame and a supporting plate;

the hoisting equipment is fixed on a frame top beam of the gantry, the hoisting frame is a hollow square frame, and the top beam of the hoisting frame is connected with the hoisting equipment so that the hoisting frame is positioned between upright columns on two sides of the gantry;

the supporting plate is used for placing a trough, one side of the supporting plate is fixed on the operating platform through the rotating connecting assembly to form a fixed side, the other side of the supporting plate is a free side, the free side penetrates through the hollow part of the hanging frame and is arranged on a bottom cross beam of the hanging frame, and when the hanging frame is lifted, the bottom cross beam of the hanging frame and the supporting plate generate relative displacement and drive the supporting plate to rotate around the fixed side of the supporting plate.

When the material is thrown, the material groove for loading the material can be arranged on the supporting plate, the hoisting equipment is started, and the hoisting frame is lifted, so that the material groove on the supporting plate is inclined, and the material in the material groove is poured out.

Compared with the prior art, the utility model discloses a set up the lifting machine, the silo that will load the material transports to the lifting machine and places in the layer board on, makes the silo slope through the lifting machine, utilizes the action of gravity of inslot material self, realizes automatic feeding, and whole process mechanized operation solves among the prior art problem that intensity of labour is big, work efficiency hangs down.

The rotating connecting assembly comprises a plurality of hinges, and each hinge is fixedly connected with the fixed side edge position of the supporting plate and the operating platform respectively, so that the supporting plate can rotate around the shaft core of the hinge.

Furthermore, the hoisting equipment is an electric hoist which comprises a transmission motor, a pull rope and a hook;

the transmission motor is fixed with one end of the pull rope, and the other end of the pull rope is fixed with the hook; the hook is connected with the hanging frame.

Furthermore, the lifting unit also comprises a plurality of bearings, the bearings are nested on the cross beam at the bottom of the hanging frame, and the supporting plate penetrates through the hanging frame and is arranged on the bearings, so that the hanging frame is lifted to drive the supporting plate to rotate around the fixed side more smoothly.

Furthermore, a limiting ring is arranged in the middle of the top cross beam of the hanging frame, and the limiting ring and the hanging frame are positioned on the same plane; the electric block couple is fixed in the spacing ring, realize the electric block with hang the connection of frame, the restriction simultaneously the position of couple avoids hang the frame rise or descend the in-process with the couple takes place the dislocation.

Furthermore, guide rails are arranged on the inner sides of the upright columns on two sides of the portal frame; the outer sides of the upright columns on the two sides of the hanging frame are respectively provided with a plurality of pulleys, and the pulleys are respectively clamped in the pair of opposite guide rails and slide on the guide rails, so that the hanging frame can ascend or descend more smoothly, and the front and back swinging of the hanging frame is avoided.

Furthermore, the fixed side edge position of layer board is equipped with the silo limiting plate parallel with it to the silo position when restricting layer board slope prevents that the silo from landing.

Furthermore, the device also comprises a stopper which is arranged on the inner side of one of the upright posts of the portal frame to limit the ascending height of the hanging frame, so that the maximum inclination angle of the supporting plate is controlled.

The device further comprises a specially-made trough, wherein the trough comprises a charging part, a discharging part and an inserting plate, the charging part is of a groove structure with an unsealed upper part, and one side wall of the groove is provided with an opening;

the discharging part is a hollow square body, the opening areas of two opposite sides of the hollow square body are different, the opening of one side with larger area is communicated with the opening of the side wall of the charging part, and the opening of the other side with smaller area of the hollow square body is a discharging hole; the top of the discharging part is provided with a linear jack which is parallel to the side wall of the charging part provided with an opening; the thickness of the inserting plate is smaller than the width of the inserting hole, the length of the inserting plate is larger than the height of the inserting hole from the bottom plate of the discharging part, and the area of the inserting plate is larger than that of the discharging hole; the thickness of the inserting plate is smaller than the width of the inserting hole, the length of the inserting plate is larger than the height of the inserting hole from the bottom plate of the discharging part, and the area of the inserting plate is larger than that of the discharging hole.

Furthermore, the trough also comprises a supporting part, and the supporting part is two cuboids; the two supporting parts are fixed at the bottom of the charging part of the material tank in parallel and extend towards the discharging part, so that the fork arms of the forklift can extend into the bottom of the material tank, and the transportation is convenient; the lateral wall of silo and the bottom plate outside all are equipped with the reinforcement strip of square lattice type to strengthen the atress intensity of silo.

In order to make the present invention more clearly understood, the following description will be made in conjunction with the accompanying drawings.

Drawings

FIG. 1 is a side view of the automatic zirconium dioxide granule crushing and feeding device of the present invention before operation,

FIG. 2 is a side view of the automatic zirconium dioxide granule crushing and feeding device of the present invention during operation,

FIG. 3 is a front view of the automatic zirconium dioxide granule crushing and feeding device of the present invention during operation,

figure 4 is a front view of the trough of the present invention,

figure 5 is a side view of the trough of the present invention,

figure 6 is a top view of the trough of the present invention,

description of the drawings: 10-a portal frame, 12-a guide rail, 20-a lifting unit, 22-a hanging frame, 24-a supporting plate, 26-a lifting device, 220-a bearing, 222-a pulley, 224-a limiting ring, 240-a trough limiting plate, 260-a transmission motor, 262-a pull rope, 30-a special trough, 32-a loading part, 34-a discharging part, 36-an inserting plate, 38-a supporting part, 320-a reinforcing strip, 342-a discharging hole, 40-a rotating connecting component and 50-a limiting stopper.

Detailed Description

The utility model discloses an effect of lifting machine makes the silo that is loading the material take place to incline, utilizes inslot material self weight, realizes the automatic material of throwing, and whole process mechanized operation is big, the problem that work efficiency is low when effectively having solved among the prior art and relying on the manual work to shift the material.

Referring to fig. 1, 2 and 3, there are shown a side view before operation, a side view during operation and a front view during operation of the zirconium dioxide particle crushing automatic feeding device of the present application. The device comprises a lifter and a rotary connecting assembly 40; the elevator comprises a portal frame 10, a lifting unit 20 and a limiter 50;

the lifting unit 20 includes a lifting device 26, a lifting frame 22, and a pallet 24;

the hoisting equipment 26 is fixed on a top cross beam of the portal frame 10, the hanging frame 22 is a hollow square frame, and the top cross beam of the hanging frame 22 is connected with the hoisting equipment 26, so that the hanging frame 22 is positioned between two side columns of the portal frame 10;

the supporting plate 24 is used for placing a trough, one side of the supporting plate 24 is fixed on the operating platform through the rotating connecting assembly 40 to form a fixed side, so that the supporting plate 24 can rotate around the fixed side; the other side of the support plate 24 is a free side, and the free side of the support plate 24 passes through the hollow part of the hanging frame 22 and is placed on the bottom cross beam of the hanging frame 22. When the hanging frame 22 is lifted, the bottom cross beam of the hanging frame 22 and the support plate 24 are relatively displaced, and the support plate 24 is driven to rotate around the fixed side of the support plate.

When the material is thrown, the trough loaded with the material can be placed on the supporting plate 24, the hoisting equipment 26 is started, and the hoisting frame 22 is lifted, so that the trough on the supporting plate 24 is inclined, and the material in the trough is poured out.

The stopper 50 is provided on one of the side columns of the gantry 10 to limit the height of the lifting frame 22, thereby controlling the maximum tilting angle of the pallet 24.

Specifically, a limiting ring 224 is disposed at the middle position of the top beam of the hanging frame 22, and the limiting ring 224 and the hanging frame 22 are located on the same plane; the supporting plate 24 is a rectangular plate, and a trough limiting plate 240 parallel to the supporting plate is arranged at the position of the fixed side edge of the supporting plate to limit the position of the trough when the supporting plate 24 inclines, so that the trough is prevented from sliding down.

The pivot connection assembly 40 includes a plurality of hinges, each of which is fixedly connected to a fixed side edge location of the platform 24 and to the operating platform, respectively, so that the platform 24 can pivot about the axis of the hinge itself.

The hoisting device 26 is an electric hoist, and comprises a transmission motor 260, a pull rope 262 and a hook (not shown), wherein the transmission motor 260 is fixed with one end of the pull rope 262, and the other end of the pull rope 262 is fixed with the hook (not shown); the hook (not shown) is fixed in the limiting ring 224, so that the connection between the electric hoist and the hanging frame 22 is realized, the position of the hook (not shown) is limited, and the dislocation between the hanging frame 22 and the hook (not shown) in the ascending or descending process is avoided.

Furthermore, two bearings 220 are nested on the bottom cross beam of the hanging frame 22, and the distance between the two bearings and the upright posts on the two sides of the hanging frame 22 is the same, and the support plate 24 passes through the hollow part of the hanging frame 22 and is placed on the bearings 220, so that the relative displacement between the hanging frame 22 and the support plate 24 due to the lifting is smoother.

Further, the inner sides of the two side columns of the portal frame 10 are respectively provided with a guide rail 12, the outer sides of the two side columns of the hanging frame 22 are respectively provided with two pulleys 222, and the pulleys 222 are respectively clamped in the pair of opposite guide rails 12 and slide on the guide rails 12, so that the hanging frame 22 can ascend or descend more smoothly, and the hanging frame 22 is prevented from swinging back and forth.

Further, the apparatus further includes a special trough 30, which is shown in fig. 4, 5 and 6, which are a front view, a side view and a top view of the trough of the apparatus of the present application, respectively. The tailored trough 30 includes a charging portion 32, a discharging portion 34, an insert plate 36, and a support portion 38.

The loading portion 32 is of an upper unsealed groove structure, and one side wall of the groove is provided with an opening.

The discharging part 34 is a hollow square body, the areas of the openings at the two opposite sides of the hollow square body are different, wherein the opening at the side with the larger area is communicated with the opening at the side wall of the charging part 32, and the opening at the other side of the hollow square body with the smaller area is a discharging hole 342.

The top of the discharging part 34 is provided with a linear insertion hole (not shown) which is parallel to the side wall of the charging part 32 provided with an opening.

The thickness of the insert plate 36 is smaller than the width of the insertion hole (not shown), the length of the insert plate 36 is larger than the height of the insertion hole (not shown) from the bottom plate of the discharging part 34, and the area of the insert plate 36 is larger than that of the discharging hole 342.

When charging, the insert plate 36 is inserted into the receptacle (not shown), and when discharging, the insert plate 36 is removed from the receptacle (not shown) and material flows out through the discharge opening 342.

The supporting portion 38 is two cuboids, which are fixed in parallel at the outer side of the bottom plate of the charging portion 32 of the special trough 30 and both face the extending direction of the discharging portion 34, so that the forklift arm can extend into the bottom of the special trough 30 for convenient carrying.

Furthermore, the lateral walls around the special trough 30 and the outer side of the bottom plate are provided with the grid-shaped reinforcing strips 320, so as to enhance the stress strength of the special trough 30.

Before using this application device, arrange crushing apparatus charging hopper the place ahead earlier with the lifting machine of this device to on being fixed in the operation platform at this lifting machine place layer board 24 one side through rotating coupling assembling 40, the charging hopper entry that the fixed side of layer board 24 is close to the rubbing crusher. Before the material is fed, the support plate 24 is placed on the cross beam at the bottom of the hanging frame 22. When feeding, the material is loaded in the loading part 32 of the special trough 30, the special trough 30 is pushed to the lifting machine supporting plate 24 by a forklift, and the discharging part 34 of the special trough 30 faces to the feeding hopper inlet of the crusher. The electric hoist is started, the hanging frame 22 is lifted through the action of the transmission motor 260 and the pull rope 262, the hanging frame drives the supporting plate 24 to rotate along the fixed side of the supporting plate 24, and the special trough 30 on the supporting plate 24 tilts along with the rotation. At this time, the chute limiting plate 240 on the pallet 24 prevents the special chute 30 from sliding further. When the hanging frame 22 is lifted to the position of the position limiter 50, the continuous lifting is stopped, the inclination angle of the supporting plate 24 is fixed, at this time, the inserting plate 344 positioned in the inserting hole (not shown) of the discharging part 34 of the special trough 30 is pulled out, and the material in the special trough 30 automatically falls into the charging hopper of the crusher from the discharging hole 342 under the action of the self gravity.

Compared with the prior art, the utility model discloses a set up the lifting machine, the special silo that will load the material transports to the lifting machine and places in the layer board on, makes the silo slope through the lifting machine, utilizes the action of gravity of inslot material self, realizes throwing the material automatically, and whole process mechanized operation solves among the prior art problem that intensity of labour is big, work efficiency is low.

The present invention is not limited to the above embodiment, and if various modifications or variations of the present invention do not depart from the spirit and scope of the present invention, they are intended to be covered if they fall within the scope of the claims and the equivalent technology of the present invention.

Claims (10)

1. The utility model provides a broken automatic feeding device of zirconium dioxide granule material which characterized in that includes:

the lifting unit comprises lifting equipment, a lifting frame and a supporting plate;

the hoisting equipment is fixed on a frame top beam of the gantry, the hoisting frame is a hollow square frame, and the top beam of the hoisting frame is connected with the hoisting equipment so that the hoisting frame is positioned between upright columns on two sides of the gantry;

the supporting plate is used for placing a trough, one side of the supporting plate is fixed on the operating platform through the rotating connecting assembly to form a fixed side, the other side of the supporting plate is a free side, the free side penetrates through the hollow part of the hanging frame and is arranged on a bottom cross beam of the hanging frame, and when the hanging frame is lifted, the bottom cross beam of the hanging frame and the supporting plate generate relative displacement and drive the supporting plate to rotate around the fixed side of the supporting plate.

2. The automatic feeding device for crushing zirconium dioxide granules according to claim 1, wherein:

the rotating connecting assembly comprises a plurality of hinges, and each hinge is fixedly connected with the fixed side edge position of the supporting plate and the operating platform respectively, so that the supporting plate can rotate around the shaft core of the hinge.

3. The automatic feeding device for crushing zirconium dioxide granules according to claim 2, wherein:

the hoisting equipment is an electric hoist which comprises a transmission motor, a pull rope and a hook;

the transmission motor is fixed with one end of the pull rope, and the other end of the pull rope is fixed with the hook;

the hook is connected with the hanging frame.

4. The automatic feeding device for crushing zirconium dioxide granules according to claim 1, wherein:

the lifting unit further comprises a plurality of bearings, the bearings are nested on the cross beam at the bottom of the hanging frame, and the supporting plate penetrates through the hanging frame and is arranged on the bearings.

5. The automatic feeding device for crushing zirconium dioxide granules according to claim 3, wherein:

a limiting ring is arranged in the middle of the top cross beam of the hanging frame, and the limiting ring and the hanging frame are positioned on the same plane; the electric hoist hook is fixed in the limiting ring.

6. The automatic feeding device for crushing zirconium dioxide granules according to claim 1, wherein:

guide rails are arranged on the inner sides of the upright columns on the two sides of the portal frame;

the outer sides of the upright columns on the two sides of the hanging frame are respectively provided with a plurality of pulleys, and the pulleys are respectively clamped in the pair of opposite guide rails and slide on the guide rails.

7. The automatic feeding device for crushing zirconium dioxide granules according to claim 1, wherein:

and a trough limiting plate parallel to the supporting plate is arranged at the edge of the fixed side of the supporting plate to prevent the trough from sliding down.

8. The automatic feeding device for crushing zirconium dioxide granules according to claim 1, wherein:

the device also comprises a limiter, wherein the limiter is arranged on the inner side of one upright post of the portal frame so as to limit the ascending height of the hanging frame.

9. The zirconia particle material crushing automatic feeding device according to any one of claims 1 to 8, characterized in that:

the device also comprises a specially-made trough, wherein the trough comprises a charging part, a discharging part and an inserting plate;

the charging part is of a groove structure with an unsealed upper part, and one side wall of the groove is provided with an opening;

the discharging part is a hollow square body, the opening areas of two opposite sides of the hollow square body are different, the opening of one side with larger area is communicated with the opening of the side wall of the charging part, and the opening of the other side with smaller area of the hollow square body is a discharging hole;

the top of the discharging part is provided with a linear jack which is parallel to the side wall of the charging part provided with an opening;

the thickness of the inserting plate is smaller than the width of the inserting hole, the length of the inserting plate is larger than the height of the inserting hole from the bottom plate of the discharging part, and the area of the inserting plate is larger than that of the discharging hole.

10. The automatic feeding device for crushing zirconium dioxide granules according to claim 9, wherein:

the trough also comprises two support parts which are cuboids, and the two support parts are fixed on the outer side of the bottom plate of the charging part of the trough in parallel and face the extending direction of the discharging part;

and the lateral wall of the trough and the outer side of the bottom plate are both provided with a grid-shaped reinforcing strip.

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