CN113928785A - Material transfer device for producing chemical grouting slurry - Google Patents

Abstract

The invention relates to a material transfer device for producing chemical grouting slurry, which comprises a conveying belt and a connecting assembly, wherein the conveying belt is connected with the connecting assembly through a conveying belt; the conveying belt is provided with a conveying surface, and positioning holes are formed in the conveying belt; the connecting assembly comprises a bottom plate, a bearing plate, an anti-roll component, an elastic component and a clamping component, wherein the top of the bottom plate is connected with the bearing plate through the elastic component; the bearing plate is provided with a first position and a second position, when the bearing plate is located at the first position, the other end of the anti-roll part penetrates through the positioning hole, the clamping part clamps the material, when the bearing plate is located at the second position, the other end of the anti-roll part does not penetrate through the positioning hole, and the clamping part releases the material; the problem of frequent opening of solution conveyer belt stop, can lead to the extranal packing above that to have the possibility of empting, if empty, the thick liquid material clearance is very inconvenient, and can influence going on of production, reduction production efficiency.

Description

Material transfer device for producing chemical grouting slurry

Technical Field

The invention relates to the technical field of production of concrete repair protective grout materials, in particular to a material transfer device for producing chemical grouting grout materials.

Background

Structural failure or building function failure caused by various reasons in the world not only influences the normal life of people, but also causes huge economic loss, wherein the conditions of cracks, falling, leakage and the like of a cement concrete structure are the most common problems in the maintenance of concrete products, and the concrete repairing protective slurry can effectively repair the failed cement concrete structure.

Add multiple raw and other materials and stir behind the agitator tank and can make required thick liquids, nevertheless to the thick liquids that makes derive to the packing carton in the storage, be convenient for transport, sell, in order to facilitate the realization automatic production process, can adopt an automatic material device that changes, the splendid attire of extranal packing to thick liquids, transport, for example, application number is CN 201621319426.4's utility model patent provides a drying and solidification equipment who has material device that changes, wherein, send the product to the oven through conveying platform and dry, can realize the removal of product through material device that changes promptly, and the same reason, can place the extranal packing in when changeing the material device, it is the conveyer belt mostly to change the material device, thereby with the continuous discharge gate department of sending to the agitator tank of empty extranal packing, it shifts out along with it after waiting to fill, can effectual improvement production efficiency.

However, in the process of the outer package splendid attire, the conveyer belt need stop for a period of time, and frequent opening and stopping of conveyer belt can lead to the possibility that outer package above that topples over, because the characteristic of thick liquid material, if topple over, the thick liquid material clearance is very inconvenient, and can influence going on of production, reduction production efficiency.

Disclosure of Invention

In view of this, it is necessary to provide a material transferring device for producing chemical grouting slurry, so as to solve the problem that frequent start and stop of a conveyor belt may cause toppling of an outer package thereon, and if toppling occurs, cleaning of the slurry is very inconvenient, production is affected, and production efficiency is reduced.

The invention provides a material transfer device for producing chemical grouting slurry, which comprises a conveying belt and a connecting assembly, wherein the conveying belt is connected with the connecting assembly through a conveying belt; the conveying belt is provided with a conveying surface for conveying materials, and positioning holes are formed in the conveying belt; the connecting assembly comprises a bottom plate, a bearing plate, an anti-roll component, an elastic component and a clamping component, wherein the bottom of the bottom plate is arranged by being attached to a conveying surface of the conveying belt, the top of the bottom plate is connected with the bearing plate through the elastic component, one end of the anti-roll component is connected with the bearing plate, the other end of the anti-roll component penetrates through the bottom plate, and the clamping component is arranged on the bearing plate and used for clamping or loosely placing materials on the bearing plate; the bearing plate is provided with a first position and a second position, when the bearing plate is located at the first position, the other end of the anti-roll part penetrates through the positioning hole, the clamping part clamps the material, when the bearing plate is located at the second position, the other end of the anti-roll part does not penetrate through the positioning hole, and the clamping part releases the material.

Furthermore, the first position and the second position are sequentially arranged along the direction vertical to the conveying surface, and the bearing plate is switched between the first position and the second position under the action of the gravity of materials borne by the bearing plate and the elastic element.

Furthermore, the anti-roll component is an inserted link, the top end of the inserted link is fixedly connected with the bottom plate, the bottom end of the inserted link penetrates through the bottom plate and is in sliding connection with the bottom plate, when the bearing plate is located at the first position, the bottom end of the inserted link penetrates through the positioning hole, and when the bearing plate is located at the second position, the bottom end of the inserted link does not penetrate through the positioning hole.

Furthermore, the inserted bar is perpendicular to the conveying surface and slides along the length direction of the inserted bar.

Furthermore, the top of the bottom plate is provided with a positioning groove, and the bearing plate can move in or out of the positioning groove.

Furthermore, the elastic part is a spring, the spring is arranged on the inserted bar, the top end of the spring is fixedly connected with the bearing plate, and the bottom end of the spring is fixedly connected with the bottom plate.

Furthermore, the number of the anti-roll components is multiple, the number of the elastic components is multiple, the anti-roll components correspond to the elastic components one by one, the anti-roll components are arranged at the bottom of the bearing plate in a matrix manner, a plurality of positioning holes are formed in the conveyor belt, and the positioning holes correspond to the anti-roll components one by one.

Furthermore, the holder includes two clamping bars and two guide arms of clamping bar one-to-one, two the clamping bar is located relatively the both sides of bearing plate, two the bottom of clamping bar all with the bottom plate is articulated, two form a centre gripping clearance between the top of clamping bar, two the one end of guide arm all with correspond the clamping bar slides articulatedly, two the other end of guide arm all with the bearing plate is articulated, the bearing plate be in the removal between primary importance and the second place turns into two the relative rotation of clamping bar for the size in regulation centre gripping clearance.

Furthermore, the top ends of the two clamping rods are respectively sleeved with a flexible tube.

Furthermore, the top ends of the two guide rods are hinged with a sliding block, and the sliding blocks are connected with the clamping rods corresponding to the guide rods hinged with the sliding blocks in a sliding mode through sliding chutes.

Compared with the prior art, the locating hole has been seted up on through setting up the conveyer belt, the one end of preventing the piece that heels is connected with the bearing plate, the other end of preventing the piece that heels passes the bottom plate setting, the holder is located on the bearing plate, be used for pressing from both sides tight or the material of loose placement on the bearing plate, when the bearing plate is located first position, the other end of preventing the piece that heels passes the locating hole setting, the holder presss from both sides tight material, when the bearing plate is located the second position, the other end of preventing the piece that heels does not pass the locating hole setting, the holder is loose to be put the material, place the material on the bearing plate, can realize the relative fixation between material and the conveyer belt, and easy operation, need frequently open and stop at the conveyer belt, also can effectually avoid the material to empty.

Drawings

FIG. 1 is a schematic structural diagram of an entire apparatus for transferring a material used in the production of a chemical grouting material according to the present invention;

FIG. 2 is a schematic view of the operation of the load-bearing material on the connecting member in the present embodiment of the material transfer device for chemical grouting material production according to the present invention;

fig. 3 is a schematic diagram of the operation of the non-load bearing material on the connecting component in the embodiment of the material transfer device for producing chemical grouting material provided by the invention.

Detailed Description

The accompanying drawings, which are incorporated in and constitute a part of this application, illustrate preferred embodiments of the invention and together with the description, serve to explain the principles of the invention and not to limit the scope of the invention.

As shown in fig. 1, the material transferring apparatus for producing chemical grouting slurry in this embodiment includes a conveying belt 100 and a connecting assembly 200, wherein the connecting assembly 200 is placed on the conveying belt 100, and during the process of transferring material, the material is placed on the connecting assembly 200, and the material is automatically locked on the conveying belt 100, so as to effectively prevent the material from tilting.

The conveyer belt 100 in this embodiment has a conveying surface for conveying materials, and the conveyer belt 100 is provided with positioning holes 110.

Wherein the conveyor belt 100 is a structure for conveying materials as would occur to those skilled in the art, while the conveyor belt 100 in this embodiment is a belt conveyor, it is understood that the belt is rotated via a roller drive mechanism and materials are conveyed via friction between the rotating belt and the materials in contact therewith.

As shown in fig. 2, the connecting assembly 200 of this embodiment includes a bottom plate 210, a bearing plate 220, an anti-roll member 230, an elastic member 240, and a clamping member 250, wherein the bottom of the bottom plate 210 is disposed against the conveying surface of the conveyor belt 100, the top of the bottom plate 210 is connected to the bearing plate 220 via the elastic member 240, one end of the anti-roll member 230 is connected to the bearing plate 220, the other end of the anti-roll member 230 is disposed through the bottom plate 210, and the clamping member 250 is disposed on the bearing plate 220 and used for clamping or releasing the material placed on the bearing plate 220.

It can be understood that, the bottom plate 210 is a structure for generating friction with the above belt, so as to drive the material on the bearing plate 220 to move, when the material is placed on the bearing plate 220, the anti-roll member 230 is inserted into the positioning hole 110 on the conveying belt 100, in the process of starting and stopping the conveying belt 100, the bottom plate 210 can be effectively accelerated and decelerated, meanwhile, a clamping member 250 is further provided, because the bearing plate 220 is moved downwards by the weight of the material, at this time, the clamping member 250 can be driven to automatically clamp the material, so as to further prevent the material from rolling.

As shown in fig. 2 to 3, the bearing plate 220 in this embodiment has a first position and a second position, when the bearing plate 220 is located at the first position, the other end of the anti-roll member 230 is disposed through the positioning hole 110, the clamping member 250 clamps the material, and when the bearing plate 220 is located at the second position, the other end of the anti-roll member 230 is not disposed through the positioning hole 110, the clamping member 250 releases the material.

When the bearing plate 220 is in the first position, the elastic member 240 is pressed, and the bearing plate 220 moves downward, it should be noted that there are two cases, one of which is an outer package not containing pulp, and the other is an outer package containing pulp, it should be understood that when the bearing plate 220 only receives the gravity of the outer package not containing pulp, the other end of the anti-roll member 230 should pass through the positioning hole 110, and as the pulp is continuously added into the outer package, the bearing plate 220 continues to move downward, the other end of the anti-roll member 230 continues to move downward, and meanwhile, the clamping member 250 clamps the outer package.

The first position and the second position in this embodiment are sequentially arranged along a direction perpendicular to the conveying surface, the bearing plate 220 is switched between the first position and the second position under the action of the gravity of the materials borne by the bearing plate and the elastic member 240, other controls are not needed, the materials can be automatically clamped only under the weight of the materials, and when the materials are taken out, the materials can be lifted along a direction away from the conveying surface.

The anti-tilting member 230 in this embodiment is an insertion rod, the top end of the insertion rod is fixedly connected to the bottom plate 210, the bottom end of the insertion rod passes through the bottom plate 210 and is slidably connected to the bottom plate 210, when the bearing plate 220 is located at the first position, the bottom end of the insertion rod passes through the positioning hole 110, and when the bearing plate 220 is located at the second position, the bottom end of the insertion rod does not pass through the positioning hole 110.

It should be understood that the anti-roll member 230 can be replaced by other structures, and is not limited to the above structure, as long as it can cooperate with the positioning hole 110 to bring the base plate 210 into quick response.

Wherein, the inserted bar sets up perpendicular to the transport face, and slides along its length direction.

In order to prevent the bearing plate 220 and the bottom plate 210 from moving in a plane parallel to the conveying surface, the top of the bottom plate 210 in this embodiment is provided with a positioning slot, and the bearing plate 220 can move into or out of the positioning slot.

The elastic member 240 in this embodiment is a spring, the spring is disposed on the insertion rod, the top end of the spring is fixedly connected to the bearing plate 220, and the bottom end of the spring is fixedly connected to the bottom plate 210.

In order to further improve the anti-roll effect, the anti-roll members 230 in this embodiment are plural, the elastic members 240 are plural, the anti-roll members 230 correspond to the elastic members 240 one by one, the anti-roll members 230 are disposed at the bottom of the bearing plate 220 in a matrix, the conveyor belt 100 is provided with a plurality of positioning holes 110, and the positioning holes 110 correspond to the anti-roll members 230 one by one.

The clamping member 250 in this embodiment includes two clamping bars 251 and two guide rods 252 corresponding to the two clamping bars 251 one to one, the two clamping bars 251 are disposed on two sides of the bearing plate 220, bottom ends of the two clamping bars 251 are hinged to the bottom plate 210, a clamping gap is formed between top ends of the two clamping bars 251, one end of each of the two guide rods 252 is slidably hinged to the corresponding clamping bar 251, the other end of each of the two guide rods 252 is hinged to the bearing plate 220, and movement of the bearing plate 220 between the first position and the second position is converted into relative rotation of the two clamping bars 251 to adjust the size of the clamping gap.

In order to gradually clamp the material at the other end of the clamping rods 251, the top ends of the two clamping rods 251 in this embodiment are respectively sleeved with a flexible tube 253, specifically, the flexible tube 253 is continuously extruded and deformed along with the increase of the slurry material contained in the outer package, so that the friction force between the flexible tube 253 and the material is continuously increased, and the clamping effect is better.

The top ends of the two guide rods 252 are hinged with a sliding block, and the sliding blocks are connected with the clamping rods 251 corresponding to the guide rods 252 hinged with the sliding blocks in a sliding mode through sliding grooves 254.

The working process is as follows: place coupling assembling 200 on conveyer belt 100, make the inserted bar face locating hole 110 on conveyer belt 100, place empty extranal packing on bearing plate 220, bearing plate 220 receives the gravity downstream of extranal packing, the inserted bar inserts in locating hole 110, and simultaneously, guide arm 252 drives corresponding clamping bar 251 and rotates, tentatively press from both sides tight extranal packing, along with the transport of transmission band, make the extranal packing move the below to the discharge gate of stirred tube, stirred tube adds thick liquid material to the extranal packing, along with the continuous interpolation of thick liquid material, bearing plate 220 constantly moves down, flexible section of thick bamboo 253 constantly extrudees, the clamp force to the extranal packing constantly increases, after adding, the extranal packing is along with conveyer belt 100 accomplishes subsequent work such as screw capping, beat mark, when taking out, upwards mention the extranal packing can.

Compared with the prior art: the positioning hole 110 is formed in the conveying belt 100, one end of the anti-roll member 230 is connected with the bearing plate 220, the other end of the anti-roll member 230 penetrates through the bottom plate 210, the clamping member 250 is arranged on the bearing plate 220 and used for clamping or releasing materials placed on the bearing plate 220, when the bearing plate 220 is located at the first position, the other end of the anti-roll member 230 penetrates through the positioning hole 110, the clamping member 250 clamps the materials, when the bearing plate 220 is located at the second position, the other end of the anti-roll member 230 does not penetrate through the positioning hole 110, the clamping member 250 releases the materials, the materials are placed on the bearing plate 220, relative fixation between the materials and the conveying belt 100 can be achieved, operation is simple, the conveying belt 100 is required to be frequently started and stopped, and the materials can be effectively prevented from falling.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention are also included in the scope of the present invention.

Claims (10)

1. A material transfer device for producing chemical grouting slurry is characterized by comprising a conveying belt and a connecting assembly;

the conveying belt is provided with a conveying surface for conveying materials, and positioning holes are formed in the conveying belt;

the connecting assembly comprises a bottom plate, a bearing plate, an anti-roll component, an elastic component and a clamping component, wherein the bottom of the bottom plate is arranged by being attached to a conveying surface of the conveying belt, the top of the bottom plate is connected with the bearing plate through the elastic component, one end of the anti-roll component is connected with the bearing plate, the other end of the anti-roll component penetrates through the bottom plate, and the clamping component is arranged on the bearing plate and used for clamping or loosely placing materials on the bearing plate;

the bearing plate is provided with a first position and a second position, when the bearing plate is located at the first position, the other end of the anti-roll part penetrates through the positioning hole, the clamping part clamps the material, when the bearing plate is located at the second position, the other end of the anti-roll part does not penetrate through the positioning hole, and the clamping part releases the material.

2. The apparatus as claimed in claim 1, wherein the first and second positions are arranged in sequence in a direction perpendicular to the conveying surface, and the bearing plate is switched between the first and second positions by the weight of the material received by the bearing plate and the elastic member.

3. The apparatus as claimed in claim 1, wherein the anti-roll member is an insertion rod, a top end of the insertion rod is fixedly connected to the base plate, a bottom end of the insertion rod passes through the base plate and is slidably connected to the base plate, the bottom end of the insertion rod is disposed through the positioning hole when the bearing plate is in the first position, and the bottom end of the insertion rod is not disposed through the positioning hole when the bearing plate is in the second position.

4. The material transfer device for manufacturing chemical grouting material as claimed in claim 3, wherein the insert rod is disposed perpendicular to the conveying surface and slides in a length direction thereof.

5. The apparatus as claimed in claim 1, wherein a positioning groove is formed at the top of the base plate, and the bearing plate is movable into and out of the positioning groove.

6. The apparatus as claimed in claim 3, wherein the elastic member is a spring, the spring is disposed on the insertion rod, the top end of the spring is fixedly connected to the bearing plate, and the bottom end of the spring is fixedly connected to the bottom plate.

7. The apparatus as claimed in claim 1, wherein the anti-roll member includes a plurality of anti-roll members, the plurality of elastic members include a plurality of anti-roll members, the plurality of anti-roll members correspond to the plurality of elastic members one by one, the anti-roll members are disposed at the bottom of the bearing plate in a matrix, the conveyor belt includes a plurality of positioning holes, and the plurality of positioning holes correspond to the plurality of anti-roll members one by one.

8. The apparatus as claimed in claim 1, wherein the holder includes two clamping bars and two guide bars corresponding to the two clamping bars one by one, the two clamping bars are disposed at two sides of the bearing plate, bottom ends of the two clamping bars are hinged to the base plate, a clamping gap is formed between top ends of the two clamping bars, one end of each of the two guide bars is slidably hinged to the corresponding clamping bar, the other end of each of the two guide bars is hinged to the bearing plate, and movement of the bearing plate between the first position and the second position is converted into relative rotation of the two clamping bars for adjusting the size of the clamping gap.

9. The material transfer device for manufacturing chemical grouting slurry as claimed in claim 8, wherein a flexible tube is sleeved on the top ends of the two clamping rods.

10. The material transfer device for producing chemical grouting slurry as claimed in claim 8, wherein the top ends of the two guide rods are hinged to a sliding block, and the sliding blocks are slidably connected with the clamping rods corresponding to the guide rods hinged to the sliding blocks.

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