CN214289237U - A discharge apparatus for copper sulfate packing - Google Patents

Abstract

A discharge device for copper sulfate packages, comprising: the device comprises a screen, a turnover driving component, a blanking container, a discharging brush and a stripping driving component; the drive assembly that takes off includes: a turnover frame and a stripping moving driver; the output end of the overturning driving component is connected with the screen mesh and is used for driving the screen mesh to overturn towards the opening position of the blanking container; the stripping mobile driver is arranged on the overturning rack; the output end of the stripping moving driver is connected with the unloading brush and used for driving the unloading brush to move, so that the unloading brush passes through the surface of the screen. The unloading device is used for unloading copper sulfate, and the unloading brush has a brushing effect on the copper sulfate at the screen mesh so as to realize the effect of automatically unloading the copper sulfate.

Description

A discharge apparatus for copper sulfate packing

Technical Field

The utility model relates to a discharge apparatus technical field especially relates to a discharge apparatus for copper sulfate packing.

Background

Generally, the preparation of copper sulfate sequentially comprises the steps of reaction, filtration for impurity removal, cooling crystallization, drying, packaging and the like; in the packing step, the existing copper sulfate preparation production line generally pours copper sulfate manually or mechanically, and the surface of the dried copper sulfate has a certain temperature, which can damage workers or equipment; meanwhile, the existing automatic discharging device has incomplete discharging of copper sulfate and is easy to have residue or has material leakage phenomenon in the discharging process.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a discharge apparatus for copper sulfate packing, it is through the swing of screen cloth, arranges the copper sulfate on screen cloth surface in the unloading container.

To achieve the purpose, the utility model adopts the following technical proposal:

a discharge device for copper sulfate packages, comprising: the device comprises a screen, a turnover driving component, a blanking container, a discharging brush and a stripping driving component;

the output end of the overturning driving assembly is connected with the screen and is used for driving the screen to overturn towards the opening position of the blanking container;

the stripping drive assembly comprises: a turnover frame and a stripping moving driver;

the stripping moving driver is arranged on the overturning rack; the output end of the stripping mobile driver is connected with the unloading brush and used for driving the unloading brush to move, so that the unloading brush passes through the surface of the screen.

Preferably, the stripping drive assembly comprises: a stripping rotary drive;

the output end of the stripping moving driver is connected with the stripping rotating driver and is used for driving the stripping rotating driver to move; the output end of the stripping rotary driver is connected with the discharging brush and used for driving the discharging brush to rotate.

Preferably, the brush head of the discharging brush is provided with elasticity.

Preferably, the overturning frame is provided with a material supporting plate on at least one side of the screen; the material supporting plate is used for supporting the screen after rotation.

Preferably, the overturning frame is provided with a limiting track; one end of the stripping rotation driver is provided with a limiting clamping block; the limiting clamping block is clamped in the limiting track, so that the stripping rotation driver moves along the extending direction of the limiting track.

More preferably, the stripping drive assembly comprises: a material removing rotating seat;

one end of the discharging brush is connected with the discharging rotating driver, and the other end of the discharging brush is rotatably arranged on the discharging rotating seat.

Preferably, the turnover frames are respectively positioned at two sides of the blanking container; the stripping rotating seat is arranged on the overturning rack on one side, and the stripping rotating driver is arranged on the overturning rack on the other side.

Preferably, the tumble drive assembly includes: the overturning device comprises a cushion frame, an overturning driving seat and an overturning driver;

the overturning driving seat is arranged on the cushion frame, and the overturning driving seat is detachably fixed with the screen; the output end of the turnover driver is connected with the turnover driving seat and used for driving the turnover driving seat to rotate, so that the screen is turned over towards the opening position of the blanking container.

Preferably, the tumble drive assembly includes: a compression assembly;

the compression assembly comprises: a compaction driver and a pressure block;

the compaction driver and the pressing block are arranged on the cushion frame and positioned on two sides of the screen; the output end of the compaction driver can reset and stretch and is used for contacting the side wall of the screen mesh so as to compact the screen mesh on the briquetting.

Preferably, the tumble drive assembly includes: an inclined guide plate;

the inclined guide plate is arranged in an inclined mode, the two ends of the inclined guide plate form a height difference, the upper end of the inclined guide plate is close to the cushion frame, and the lower end of the inclined guide plate is aligned to the opening position of the blanking container.

The utility model has the advantages that:

the unloading device is used for unloading copper sulfate, and the unloading brush has a brushing effect on the copper sulfate at the screen mesh so as to realize the effect of automatically unloading the copper sulfate.

Drawings

FIG. 1 is a schematic diagram of the construction of the discharge device before the screen is turned over;

fig. 2 is a schematic structural diagram of the discharging device after the screen is overturned.

Wherein:

the device comprises a screen 1, a turnover driving component 2, a blanking container 3, a discharging brush 4 and a stripping driving component 5;

the cushion frame 21, the overturning driving seat 22, the overturning driver 23, the pressing component 24 and the inclined guide plate 25;

a pressing driver 241, a pressing block 242; a brush head 41;

a turnover frame 51, a stripping moving driver 52, a stripping rotating driver 53 and a stripping rotating seat 54; the retainer plate 511, the limiting rail 512 and the limiting fixture block 513.

Detailed Description

The technical solution of the present invention is further explained by the following embodiments with reference to the accompanying drawings.

A discharge device for copper sulfate packages, comprising: the device comprises a screen 1, a turnover driving component 2, a blanking container 3, a discharging brush 4 and a stripping driving component 5;

the output end of the overturning driving component 2 is connected with the screen mesh 1 and is used for driving the screen mesh 1 to overturn towards the opening position of the blanking container 3;

the stripping drive assembly 5 comprises: a reversing machine frame 51 and a stripping movement driver 52;

the stripping moving driver 52 is arranged on the overturning frame 51; the output end of the material removing and moving driver 52 is connected to the discharging brush 4, and is used for driving the discharging brush 4 to move, so that the discharging brush 4 passes through the surface of the screen cloth 1.

The discharging device is used for discharging copper sulfate, and the discharging brush 4 has a brushing effect on the copper sulfate at the screen mesh 1 so as to realize the effect of automatically discharging the copper sulfate.

Specifically, after copper sulfate is cooled and crystallized, the surface of the copper sulfate often has certain moisture, namely the copper sulfate needs to be dried; during drying, the screen mesh 1 is selected to load copper sulfate, so that hot air can contact the copper sulfate from multiple angles through the screen mesh 1 in the drying process to take away water on the surface of the copper sulfate; in the scheme, copper sulfate is positioned at the screen mesh 1; when the materials need to be unloaded, the overturning driving assembly 2 is started to drive the screen mesh 1 to rotate through the overturning driving assembly 2, so that the screen mesh 1 is driven to carry out angle adjustment, one end of the screen mesh 1 takes the output end of the overturning driver 23 as an axis, the other end of the screen mesh is overturned by more than 90 degrees towards the opening position of the blanking container 3 after angle adjustment, copper sulfate is poured towards the blanking container 3 at the position of the screen mesh 1, and automatic blanking of the copper sulfate is realized; at this time, as the screen mesh 1 is provided with the residual card positioned on the mesh opening of the screen mesh 1, the material-removing moving driver 52 can be started to drive the discharging brush 4 to move towards the surface of the screen mesh 1; after the discharging brush 4 moves, the meshes of the screen mesh 1 are brushed to completely discharge the copper sulfate on the surface of the screen mesh 1, so that the effect of automatic and complete discharge of the copper sulfate is realized.

The stripping moving driver 52 in the present scheme can be replaced by a known mechanism with a moving function, such as: the air cylinder is connected with the unloading brush 4 through the output end of the air cylinder and drives the unloading brush 4 to move; or the conveying belt device is formed by a conveying belt structure and drives the discharging brush 4 to move linearly through the rotation of the conveying belt; or the motor, the screw rod and the nut seat are matched, the motor drives the screw rod to rotate, the nut seat is driven to move on the screw rod, the unloading brush 4 is connected to the nut seat, and the unloading brush 4 is moved.

Preferably, the stripping drive assembly 5 comprises: a stripping rotation driver 53;

the output end of the stripping moving driver 52 is connected with a stripping rotating driver 53 and is used for driving the stripping rotating driver 53 to move; the output end of the stripping rotation driver 53 is connected with the discharging brush 4 and is used for driving the discharging brush 4 to rotate.

According to the scheme, the discharging brush 4 can be preferably connected to the output end of the material removing rotary driver 53 and is driven to rotate by the material removing rotary driver 53; when the unloading brush 4 has a rotating function, the unloading brush can sweep out copper sulfate at the mesh in the screen mesh 1, thereby improving the cleaning capability of the unloading brush 4 and leading the copper sulfate to be completely unloaded.

Preferably, the brush head 41 of the discharge brush 4 is provided with elasticity.

When the brush head 41 of the unloading brush 4 is elastic, the contact type of the brush head 41 and the copper sulfate is elastic contact; the brush head 41 can not damage and influence copper sulfate when rotating, the phenomenon that the brush head 41 abrades the surface of the copper sulfate to reduce the particle size of the copper sulfate is reduced, and the loss of the copper sulfate in the unloading process is effectively prevented.

Preferably, the overturning frame 51 is provided with a retainer plate 511 on at least one side of the screen mesh 1;

the retainer plate 511 is used for supporting the screen mesh 1 after rotation.

After the screen cloth 1 rotates, the screen cloth 1 abuts against the material supporting plate 511 to stabilize the position of the screen cloth 1 after overturning, so that the screen cloth 1 is prevented from shaking during the cleaning of the brush head 41, the stability of the position of the screen cloth 1 is improved, and the load of the overturning driver 23 is reduced.

The retainer plates 511 of the present embodiment may be located on a single side of the screen cloth 1, or on both sides of the screen cloth 1.

Preferably, the overturning frame 51 is provided with a limiting rail 512;

one end of the stripping rotating driver 53 is provided with a limiting fixture block 513; the limiting fixture block 513 is clamped in the limiting track 512, so that the stripping rotation driver 53 moves along the extending direction of the limiting track 512.

The material-removing rotating driver 53 can move under the guiding action of the limiting clamping block 513 in the limiting track 512, so that the material-removing rotating driver 53 moves along the extending direction of the limiting track 512, the brush head 41 can act on the screen mesh 1 only after moving, and the moving smoothness of the material-removing rotating driver 53 can be improved.

Further preferably, the stripping drive assembly 5 comprises: a stripping rotary seat 54;

one end of the discharging brush 4 is connected with the stripping rotating driver 53, and the other end is rotatably mounted on the stripping rotating base 54.

The discharging brush 4 comprises a straight rod, a brush head 41 is positioned in the middle of the straight rod, one end of the straight rod is connected with a stripping rotating driver 53, and the other end of the straight rod is connected with a stripping rotating seat 54; the straight rod can be driven to rotate only by the driving action of the stripping rotating driver 53 at one end of the straight rod, so that the brush head 41 in the middle is driven to rotate, and the cleaning action of the brush head 41 is realized.

Preferably, the overturning frames 51 are respectively positioned at two sides of the blanking container 3; the stripping rotating seat 54 is mounted on one side of the turning frame 51, and the stripping rotating driver 53 is mounted on the other side of the turning frame 51.

Preferably, the tumble drive assembly 2 comprises: a cushion frame 21, a turning driving seat 22 and a turning driver 23;

the overturning driving seat 22 is arranged on the cushion frame 21, and the overturning driving seat 22 is detachably fixed with the screen mesh 1; the output end of the turning driver 23 is connected with the turning driving seat 22 and is used for driving the turning driving seat 22 to rotate, so that the screen mesh 1 is turned towards the opening position of the blanking container 3.

The output end of the turnover driver 23 drives the turnover driving seat 22 to rotate so as to drive the screen mesh 1 on the turnover driving seat 22 to rotate; in the scheme, the screen mesh 1 can be placed at the position of the material supporting plate 511 firstly, the output end of the overturning driver 23 resets and drives the overturning driving seat 22 to reset, and the screen mesh 1 is retained in the material supporting plate 511; or the overturning driving seat 22 is set to be not larger than the bottom of the screen mesh 1, so that the original bottom is exposed after overturning, and the original bottom is cleaned by the brush head 41.

The screen mesh 1 can be detachably fixed on the overturning driving seat 22 by a known mode, such as a clamp, a clamp and the like; the tumble drive 23 may be replaced by a known mechanism having a drive for rotation, such as a motor, or a motor in cooperation with a reducer.

Further optimally, the tumble drive assembly 2 comprises: a compression assembly 24;

the hold-down assembly 24 includes: a compression driver 241 and a pressure piece 242;

the pressing driver 241 and the pressing block 242 are arranged on the cushion frame 21 and are positioned on two sides of the screen mesh 1; the output end of the pressing driver 241 is resettable and retractable, and is used for contacting the side wall of the screen mesh 1 to press the screen mesh 1 against the pressing block 242.

The pressing driver 241 is used for detachably fixing the screen 1 to the pressing block 242, that is, the screen 1 is pressed to the pressing block 242 after being output through the output end of the pressing driver 241, so that the position of the screen 1 on the overturning driving seat 22 is not easy to loosen.

The compacting drive 241 may be replaced by a known mechanism having a drive for rotation, such as a motor, or a motor coupled to a speed reducer.

Preferably, the tumble drive assembly 2 comprises: an inclined guide plate 25;

the inclined guide plate 25 is disposed obliquely, and has two ends forming a height difference, an upper end close to the cushion frame 21 and a lower end aligned with the opening of the blanking container 3.

The inclined guide plate 25 is disposed between the pad frame 21 and the discharging container 3, and can receive copper sulfate separated from the screen mesh 1 in advance during the turnover of the screen mesh 1, so as to guide the copper sulfate into the discharging container 3 through the height difference between the two ends, prevent the copper sulfate from being lost during the discharging process, and improve the integrity of the copper sulfate during the discharging process.

The technical principle of the present invention is described above with reference to specific embodiments. The description is made for the purpose of illustrating the principles of the invention and should not be construed in any way as limiting the scope of the invention. Based on the explanations herein, those skilled in the art will be able to conceive of other embodiments of the present invention without any inventive effort, which would fall within the scope of the present invention.

Claims (10)

1. A discharge apparatus for copper sulfate packages, comprising: the device comprises a screen, a turnover driving component, a blanking container, a discharging brush and a stripping driving component;

the output end of the overturning driving assembly is connected with the screen and is used for driving the screen to overturn towards the opening position of the blanking container;

the stripping drive assembly comprises: a turnover frame and a stripping moving driver;

the stripping moving driver is arranged on the overturning rack; the output end of the stripping mobile driver is connected with the unloading brush and used for driving the unloading brush to move, so that the unloading brush passes through the surface of the screen.

2. The discharge apparatus as claimed in claim 1, wherein said stripping drive assembly comprises: a stripping rotary drive;

the output end of the stripping moving driver is connected with the stripping rotating driver and is used for driving the stripping rotating driver to move; the output end of the stripping rotary driver is connected with the discharging brush and used for driving the discharging brush to rotate.

3. The discharge device of claim 1, wherein the brush head of the discharge brush is resilient.

4. The discharging device according to claim 1, wherein the overturning frame is provided with a retainer plate on at least one side of the screen;

the material supporting plate is used for supporting the screen after rotation.

5. The discharge device according to claim 2, wherein the reversing frame is provided with a limit rail;

one end of the stripping rotation driver is provided with a limiting clamping block; the limiting clamping block is clamped in the limiting track, so that the stripping rotation driver moves along the extending direction of the limiting track.

6. The discharge apparatus as claimed in claim 5, wherein said stripping drive assembly comprises: a material removing rotating seat;

one end of the discharging brush is connected with the discharging rotating driver, and the other end of the discharging brush is rotatably arranged on the discharging rotating seat.

7. The discharge device according to claim 6, wherein the turnover frame is respectively positioned at two sides of the blanking container; the stripping rotating seat is arranged on the overturning rack on one side, and the stripping rotating driver is arranged on the overturning rack on the other side.

8. The discharge apparatus as claimed in any one of claims 1 to 7, wherein said tumble drive assembly comprises: the overturning device comprises a cushion frame, an overturning driving seat and an overturning driver;

the overturning driving seat is arranged on the cushion frame, and the overturning driving seat is detachably fixed with the screen; the output end of the turnover driver is connected with the turnover driving seat and used for driving the turnover driving seat to rotate, so that the screen is turned over towards the opening position of the blanking container.

9. The discharge apparatus of claim 8, wherein the tumble drive assembly comprises: a compression assembly;

the compression assembly comprises: a compaction driver and a pressure block;

the compaction driver and the pressing block are arranged on the cushion frame and positioned on two sides of the screen; the output end of the compaction driver can reset and stretch and is used for contacting the side wall of the screen mesh so as to compact the screen mesh on the briquetting.

10. The discharge apparatus of claim 8, wherein the tumble drive assembly comprises: an inclined guide plate;

the inclined guide plate is arranged in an inclined mode, the two ends of the inclined guide plate form a height difference, the upper end of the inclined guide plate is close to the cushion frame, and the lower end of the inclined guide plate is aligned to the opening position of the blanking container.

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