CN219990399U - A feed system for calcium hydrate production - Google Patents

Abstract

The utility model discloses a feeding system for calcium hydroxide production, which comprises: the conveying belt is connected with the bottom plate through the supporting mechanism and the support column; the supporting mechanism is connected with a cleaning mechanism, the cleaning mechanism moves along the top surface of the bottom plate, the top surface of the bottom plate is provided with a protective cover, the protective cover is provided with an ash sucking mechanism and a material blocking mechanism, the ash sucking mechanism is distributed along the inner wall of the protective cover, and the two groups of material blocking mechanisms are symmetrically distributed above the conveying belt. The utility model not only can protect the materials on two sides of the conveyor belt and reduce the falling of the materials from the edge of the conveyor belt in the conveying process, but also can absorb the dust generated in the conveying process and reduce the pollution to workshops, and can clean the dust accumulated on the bottom plate, thereby being beneficial to prolonging the service life of a feeding system.

Description

A feed system for calcium hydrate production

Technical Field

The utility model relates to a feeding system for calcium hydroxide production.

Background

Calcium hydroxide is an inorganic compound commonly known as slaked lime or slaked lime.

At present, raw materials such as iron ore and the like need to be conveyed to a workshop for processing through a conveying belt in the production process, and because the conveying belt has no protective structure, the raw materials generate dust or dust in the conveying process, and the environment of the workshop is polluted, so that the cleaning is not facilitated.

Disclosure of Invention

The utility model aims to provide a technical scheme of a feeding system for calcium hydroxide production, which aims at overcoming the defects of the prior art, not only can protect materials on two sides of a conveying belt and reduce the falling of the materials from the edge of the conveying belt in the conveying process, but also can absorb dust generated in the conveying process, reduce the pollution to workshops, and can clean dust accumulated on a bottom plate, thereby being beneficial to prolonging the service life of the feeding system.

In order to solve the technical problems, the utility model adopts the following technical scheme:

a feed system for calcium hydroxide production comprising:

the conveying belt is connected with the bottom plate through the supporting mechanism and the support column;

the method is characterized in that:

the supporting mechanism is connected with a cleaning mechanism, the cleaning mechanism moves along the top surface of the bottom plate, a protective cover is arranged on the top surface of the bottom plate, an ash sucking mechanism and a material blocking mechanism are arranged on the protective cover, the ash sucking mechanism is distributed along the inner wall of the protective cover, and the two groups of material blocking mechanisms are symmetrically distributed above the conveying belt; through the design of above-mentioned structure, not only can protect the material of conveyer belt both sides, reduce the material and drop from the edge of conveyer belt in the transportation process, can absorb the dust that produces in the transportation process moreover, reduce the pollution to the workshop, can clear up the dust of gathering on the bottom plate simultaneously, be favorable to prolonging feed system's life.

Further, the clearance mechanism includes fixed strip, the second cylinder, the connecting rod, L shape pole, clearance board and guide rail, on the supporting mechanism was located along the direction of movement of conveyer belt to the fixed strip, two second cylinders symmetric distributions are in the both sides of fixed strip, the second cylinder passes through the second piston rod and connects in the connecting rod, the connecting rod passes through L shape pole and connects in the clearance board, be equipped with the clearance brush on the bottom surface of clearance board, the guide rail is located on the bottom plate, the clearance board is along guide rail horizontal migration, the second cylinder can carry out fixed mounting through the fixed strip, and drive connecting rod horizontal round trip movement through the second piston rod, and then can drive clearance board and clearance brush clear up the top surface of bottom plate through L shape pole, stability and reliability when the guide rail has improved clearance board and removed.

Further, the length of the cleaning plate is smaller than the distance between two adjacent struts, so that the cleaning plate can move from one side close to the protective cover to one side of the trapezoid groove, and the cleaning plate cannot collide with the struts.

Further, the top of fixed strip is equipped with the motor, is equipped with the guide slot on the fixed strip, and the motor is connected with the screw rod, and the screw rod is located the guide slot, is connected with the help push rod on the screw rod, and the bottom of help push rod is equipped with U-shaped clearance frame, drives the screw rod through the motor and rotates, and then can drive U-shaped clearance frame along dovetail groove horizontal migration through help push rod, clear up the dust in the dovetail groove.

Further, the ash absorbing mechanism comprises a fan, an upper ash absorbing pipe, a lower ash absorbing pipe, a collecting pipe, a connecting pipe and an ash discharging pipe, wherein the fan is arranged at the top of the protective cover, the upper ash absorbing pipe and the lower ash absorbing pipe are fixed on the inner wall of the protective cover through mounting blocks, the upper ash absorbing pipe is positioned above the lower ash absorbing pipe, the upper ash absorbing pipe is communicated with the lower ash absorbing pipe through the collecting pipe, the collecting pipe is connected with the fan through the connecting pipe, the fan is connected with the ash discharging pipe, wind power is generated through the fan, dust and dust in the protective cover can be absorbed into the collecting pipe through the upper ash absorbing pipe and the lower ash absorbing pipe, and the dust is output through the connecting pipe by the ash discharging pipe through the fan, so that pollution to a workshop can be reduced.

Further, the striker mechanism comprises a striker plate, a first air cylinder, a first piston rod and a reinforcing plate, wherein the first air cylinder is connected to the inner wall of the protective cover through the reinforcing plate, the first air cylinder is connected with the striker plate through the first piston rod, the striker plate is located above the conveying belt, the striker plate is driven to horizontally move through the first air cylinder through the first piston rod, the horizontal position of the striker plate can be adjusted, and the falling of materials on the conveying belt from the edge is reduced.

Further, supporting mechanism includes horizon bar, crossbeam, stand and bearing roller, and the crossbeam is fixed in on the pillar along the direction of movement of conveyer belt, and horizon bar evenly distributed is between two crossbeams, and the stand is located on the horizon bar, and between two adjacent stands on the same horizon bar were located to the bearing roller, be convenient for support the conveyer belt, stability and reliability when improving the conveyer belt and remove.

Further, be equipped with the dovetail groove on the bottom plate, the bottom in dovetail groove is equipped with the clearance pipe, and the dust that gathers on the bottom plate can fall into the dovetail groove through clearance mechanism to discharge through the clearance pipe.

Further, a supporting frame is arranged on the bottom plate and used for supporting the bottom plate.

Further, the protective cover is detachably connected to the bottom plate through a fastening mechanism.

Due to the adoption of the technical scheme, the utility model has the following beneficial effects:

1. the utility model not only can protect the materials on two sides of the conveyor belt and reduce the falling of the materials from the edge of the conveyor belt in the conveying process, but also can absorb the dust generated in the conveying process and reduce the pollution to workshops, and can clean the dust accumulated on the bottom plate, thereby being beneficial to prolonging the service life of a feeding system.

2. The second cylinder can carry out fixed mounting through the fixed strip to drive connecting rod level round trip movement through the second piston rod, and then can drive clearance board and cleaning brush through L shape pole and clear up the top surface of bottom plate, stability and reliability when the guide rail has improved clearance board and has removed.

3. The motor drives the screw rod to rotate, and then the U-shaped cleaning frame can be driven by the push-assisting rod to horizontally move along the trapezoid groove so as to clean dust in the trapezoid groove.

4. The wind power is generated by the fan, dust and dust in the protective cover can be sucked into the collecting pipe through the upper dust suction pipe and the lower dust suction pipe, and the dust and dust are output through the connecting pipe and the dust discharge pipe by the fan, so that the pollution to workshops can be reduced.

5. The first cylinder drives the striker plate to horizontally move through the first piston rod, so that the horizontal position of the striker plate can be adjusted, and the falling of materials on the conveying belt from the edge is reduced.

Description of the drawings:

the utility model is further described below with reference to the accompanying drawings:

FIG. 1 is an effect diagram of a feed system for calcium hydroxide production according to the present utility model;

FIG. 2 is a schematic view of the structure of the direction A in FIG. 1;

FIG. 3 is a schematic diagram of the installation of a dam mechanism and an ash handling mechanism of the present utility model;

fig. 4 is a schematic structural view of a cleaning mechanism in the present utility model.

In the figure: 1-a protective cover; 2-a bottom plate; 3-trapezoid grooves; 4-supporting frames; 5-a fastening mechanism; 6-a fan; 7-connecting pipe; 8-a fixing mechanism; 9-ash discharge pipe; 10-supporting columns; 11-a conveyor belt; 12-a supporting mechanism; 13-cleaning the pipe; 14-a striker plate; 15-a first cylinder; 16-a first piston rod; 17-reinforcing plates; 18-an upper ash suction pipe; 19-a lower ash suction pipe; 20-an electric motor; 21-a manifold; 22-mounting blocks; 23-horizontal bars; 24-stand columns; 25-carrier rollers; 26-a cross beam; 27-fixing strips; 28-a second cylinder; 29-a second piston rod; 30-connecting rods; 31-L-shaped bar; 32-cleaning plate; 33-a guide rail; 34-a guide slot; 35-a booster rod; 36-U-shaped cleaning frame.

Detailed Description

It should be noted that, without conflict, the embodiments of the present utility model and features of the embodiments may be combined with each other. The utility model will be described in detail below with reference to the drawings in connection with embodiments.

In order that those skilled in the art will better understand the present utility model, a technical solution in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in which it is apparent that the described embodiments are only some embodiments of the present utility model, 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, shall fall within the scope of the utility model.

It should be noted that the terms "first," "second," and the like in the description and the claims of the present utility model and the above figures are used for distinguishing between similar objects and not necessarily for describing a particular sequential or chronological order. Furthermore, the terms "comprise" and "have," as well as any variations thereof, are intended to cover a non-exclusive inclusion.

As shown in fig. 1 to 4, a feeding system for calcium hydroxide production according to the present utility model comprises a conveyor belt 11, wherein the conveyor belt 11 is connected to a base plate 2 through a supporting mechanism 12 and a supporting column 10; the supporting mechanism 12 comprises horizontal rods 23, cross beams 26, upright posts 24 and carrier rollers 25, the cross beams 26 are fixed on the supporting columns 10 along the moving direction of the conveying belt 11, the horizontal rods 23 are uniformly distributed between the two cross beams 26, the upright posts 24 are arranged on the horizontal rods 23, the carrier rollers 25 are arranged between two adjacent upright posts 24 on the same horizontal rod 23, the conveying belt 11 is supported conveniently, and the stability and the reliability of the conveying belt 11 during moving are improved. The utility model adopts four upright posts 24, the heights of the upright posts 24 on the two sides on the same horizontal rod 23 are larger than the heights of the upright posts 24 in the middle, so that the middle carrier rollers 25 are horizontally distributed, the carrier rollers 25 on the two sides are obliquely distributed, and the conveying requirement of the V-shaped belt is met.

The supporting mechanism 12 is connected with a cleaning mechanism, the cleaning mechanism moves along the top surface of the bottom plate 2, the cleaning mechanism comprises a fixing strip 27, a second air cylinder 28, a connecting rod 30, an L-shaped rod 31, a cleaning plate 32 and a guide rail 33, the fixing strip 27 is arranged on the supporting mechanism 12 along the moving direction of the conveying belt 11, the two second air cylinders 28 are symmetrically distributed on two sides of the fixing strip 27, the second air cylinder 28 is connected with the connecting rod 30 through a second piston rod 29, the connecting rod 30 is connected with the cleaning plate 32 through the L-shaped rod 31, a cleaning brush is arranged on the bottom surface of the cleaning plate 32, the guide rail 33 is arranged on the bottom plate 2, the cleaning plate 32 moves horizontally along the guide rail 33, the second air cylinder 28 can be fixedly installed through the fixing strip 27 and can drive the connecting rod 30 to move horizontally back and forth through the second piston rod 29, and then the cleaning plate 32 and the cleaning brush can be driven by the L-shaped rod 31 to clean the top surface of the bottom plate 2, and the guide rail 33 improves the stability and reliability when the cleaning plate 32 moves. The length of the cleaning plate 32 is smaller than the distance between two adjacent struts 10, so that the cleaning plate 32 can move from the side close to the protective cover 1 to the side of the trapezoid groove 3 without colliding with the struts 10.

The top of fixed strip 27 is equipped with motor 20, is equipped with guide slot 34 on the fixed strip 27, and motor 20 is connected with the screw rod, and the screw rod is located guide slot 34, is connected with boosting rod 35 on the screw rod, and the bottom of boosting rod 35 is equipped with U-shaped clearance frame 36, drives the screw rod through motor 20 and rotates, and then can drive U-shaped clearance frame 36 along trapezoidal channel 3 horizontal migration through boosting rod 35, clears up the dust in the trapezoidal channel 3.

The bottom plate 2 is provided with the trapezoid groove 3, the bottom of the trapezoid groove 3 is provided with the cleaning pipe 13, and dust accumulated on the bottom plate 2 can fall into the trapezoid groove 3 through the cleaning mechanism and is discharged through the cleaning pipe 13. The bottom plate 2 is provided with a supporting frame 4 for supporting the bottom plate 2.

The top surface of the bottom plate 2 is provided with a protective cover 1, and the protective cover 1 is detachably connected to the bottom plate 2 through a fastening mechanism 5. The fastening mechanism 5 may include a fastening plate and a bolt, the fastening plate is disposed on the side surfaces of the protective cover 1 and the bottom plate 2, and the upper fastening plate and the lower fastening plate are fixedly connected through the bolt, so that the protective cover 1 is convenient to be installed and detached.

The dust suction mechanism and the material blocking mechanism are arranged on the protective cover 1, the dust suction mechanism is distributed along the inner wall of the protective cover 1 and comprises a fan 6, an upper dust suction pipe 18, a lower dust suction pipe 19, a collecting pipe 21, a connecting pipe 7 and a dust discharge pipe 9, the fan 6 is arranged at the top of the protective cover 1, the upper dust suction pipe 18 and the lower dust suction pipe 19 are fixed on the inner wall of the protective cover 1 through mounting blocks 22, the upper dust suction pipe 18 is positioned above the lower dust suction pipe 19, the upper dust suction pipe 18 is communicated with the lower dust suction pipe 19 through the collecting pipe 21, the collecting pipe 21 is connected with the fan 6 through the connecting pipe 7, the fan 6 is connected with the dust discharge pipe 9, wind power is generated through the fan 6, dust and dust in the protective cover 1 can be sucked into the collecting pipe 21 through the upper dust suction pipe 18 and the lower dust suction pipe 19, and the dust discharge pipe 9 is output through the connecting pipe 7 by the fan 6, and pollution to workshops can be reduced. The ash discharge pipe 9 is connected to the protective cover 1 through the fixing mechanism 8, and the fixing mechanism 8 improves the stability and reliability of the installation of the ash discharge pipe 9. The fixing mechanism 8 can be assembled by adopting two clamping plates which are detachably connected, so that the ash discharge pipe 9 can be conveniently and fixedly assembled.

Two sets of striker mechanisms are symmetrically distributed above the conveying belt 11, each striker mechanism comprises a striker plate 14, a first air cylinder 15, a first piston rod 16 and a reinforcing plate 17, the first air cylinder 15 is connected to the inner wall of the protective cover 1 through the reinforcing plate 17, the first air cylinder 15 is connected with the striker plate 14 through the first piston rod 16, the striker plate 14 is located above the conveying belt 11, the striker plate 14 is driven to horizontally move through the first air cylinder 15 through the first piston rod 16, the horizontal position of the striker plate 14 can be adjusted, and the falling of materials on the conveying belt 11 from the edge is reduced. Through the design of above-mentioned structure, not only can protect the material of both sides on the conveyer belt 11, reduce the material and drop from the edge of conveyer belt 11 in the transportation process, can absorb the dust that produces in the transportation process moreover, reduce the pollution to the workshop, can clear up the dust that gathers on bottom plate 2 simultaneously, be favorable to prolonging feed system's life.

The first cylinder 15 and the second cylinder 28 can be connected with external air supply equipment, the motor 20 and the fan 6 can be connected with an external control system, and the outlet end of the ash discharge pipe 9 can be connected with a cyclone filter.

When the novel dust collector is in practical use, firstly, materials required by calcium hydroxide production are conveyed through the conveying belt, the material blocking mechanism is adjusted, the materials are reduced from falling from the conveying belt, then the dust absorbing mechanism is started, dust and dust generated in the conveying process are absorbed, the dust is input into the external cyclone separator for unified treatment, after the conveying belt is used for a period of time, the cleaning mechanism is started, dust on the bottom plate is cleaned into the trapezoid groove, the motor is started, the U-shaped cleaning frame is driven by the push assisting rod to clean the dust in the trapezoid groove, and the dust is discharged through the cleaning pipe.

The above is only a specific embodiment of the present utility model, but the technical features of the present utility model are not limited thereto. Any simple changes, equivalent substitutions or modifications made on the basis of the present utility model to achieve substantially the same technical effects are included in the scope of the present utility model.

Claims (10)

1. A feed system for calcium hydroxide production comprising:

the conveying belt is connected to the bottom plate through the supporting mechanism and the support column;

the method is characterized in that:

the cleaning device is characterized in that a cleaning mechanism is connected to the supporting mechanism and moves along the top surface of the bottom plate, a protective cover is arranged on the top surface of the bottom plate, an ash sucking mechanism and a material blocking mechanism are arranged on the protective cover, the ash sucking mechanism is distributed along the inner wall of the protective cover, and the two groups of material blocking mechanisms are symmetrically distributed above the conveying belt.

2. A feed system for calcium hydroxide production according to claim 1, wherein: the cleaning mechanism comprises a fixing strip, a second cylinder, a connecting rod, an L-shaped rod, a cleaning plate and a guide rail, wherein the fixing strip is arranged on the supporting mechanism along the moving direction of the conveying belt, the second cylinders are symmetrically distributed on two sides of the fixing strip, the second cylinder is connected with the connecting rod through a second piston rod, the connecting rod is connected with the cleaning plate through the L-shaped rod, the cleaning brush is arranged on the bottom surface of the cleaning plate, the guide rail is arranged on the bottom plate, and the cleaning plate moves horizontally along the guide rail.

3. A feed system for calcium hydroxide production according to claim 2, wherein: the length of the cleaning plate is smaller than the distance between two adjacent support posts.

4. A feed system for calcium hydroxide production according to claim 2, wherein: the top of fixed strip is equipped with the motor, be equipped with the guide slot on the fixed strip, the motor is connected with the screw rod, the screw rod is located in the guide slot, be connected with the boost lever on the screw rod, the bottom of boost lever is equipped with the U-shaped clearance frame.

5. A feed system for calcium hydroxide production according to claim 1, wherein: the ash absorbing mechanism comprises a fan, an upper ash absorbing pipe, a lower ash absorbing pipe, a collecting pipe, a connecting pipe and an ash discharging pipe, wherein the fan is arranged at the top of the protective cover, the upper ash absorbing pipe and the lower ash absorbing pipe are fixed on the inner wall of the protective cover through mounting blocks, the upper ash absorbing pipe is positioned above the lower ash absorbing pipe, the upper ash absorbing pipe is communicated with the lower ash absorbing pipe through the collecting pipe, the collecting pipe is connected with the fan through the connecting pipe, and the fan is connected with the ash discharging pipe.

6. A feed system for calcium hydroxide production according to claim 1, wherein: the material blocking mechanism comprises a material blocking plate, a first air cylinder, a first piston rod and a reinforcing plate, wherein the first air cylinder is connected to the inner wall of the protective cover through the reinforcing plate, the first air cylinder is connected with the material blocking plate through the first piston rod, and the material blocking plate is located above the conveying belt.

7. A feed system for calcium hydroxide production according to claim 1, wherein: the supporting mechanism comprises horizontal rods, cross beams, stand columns and carrier rollers, the cross beams are fixed on the support columns along the moving direction of the conveying belt, the horizontal rods are uniformly distributed between the two cross beams, the stand columns are arranged on the horizontal rods, and the carrier rollers are arranged between the adjacent two stand columns on the same horizontal rods.

8. A feed system for calcium hydroxide production according to claim 1, wherein: the bottom plate is provided with a trapezoid groove, and the bottom of the trapezoid groove is provided with a cleaning pipe.

9. A feed system for calcium hydroxide production according to claim 1, wherein: the bottom plate is provided with a supporting frame which is used for supporting the bottom plate.

10. A feed system for calcium hydroxide production according to claim 1, wherein: the protective cover is detachably connected to the bottom plate through a fastening mechanism.