CN220784422U

CN220784422U - Automatic concrete mixing equipment of batching

Info

Publication number: CN220784422U
Application number: CN202322354250.2U
Authority: CN
Inventors: 王银寿
Original assignee: Shanghai Changhao Engineering Construction Group Co ltd
Current assignee: Shanghai Changhao Engineering Construction Group Co ltd
Priority date: 2023-08-31
Filing date: 2023-08-31
Publication date: 2024-04-16
Anticipated expiration: 2033-08-31

Abstract

The utility model discloses automatic batching concrete stirring equipment which comprises a concrete pump, a multi-bin batching machine, a stirring bin, a water storage tank, a conveying pipe, a control box and the like. According to the utility model, the multi-bin batching machine conveys various raw materials to the stirring bin through the corresponding feeding conveying bin, and each component batching machine can be freely combined or independently disassembled according to construction requirements, so that the influence of the limitation of the field size and the ground flatness on the construction machinery is reduced. The control box is provided with control switches which are respectively operated, can be independently switched or started and stopped, and can adjust the feeding speed for controlling and ensuring the mixing ratio and the mixing quality of the concrete mixture. Compared with the traditional automobile crane for hoisting perlite, mortar materials and the like to a roof, the combined equipment is time-saving and labor-saving, and can effectively reduce the vertical transportation machinery and material transportation cost and labor cost and greatly improve the working efficiency.

Description

Automatic concrete mixing equipment of batching

Technical Field

The utility model belongs to the technical field of concrete mixing equipment, and particularly relates to concrete mixing equipment capable of automatically mixing materials.

Background

The concrete stirring equipment is used for mixing and stirring raw materials such as cement, yellow sand, perlite and the like into concrete, and is generally composed of a stirring bin, a manual feeding system and a batching system, wherein the stirring bin is a core part of the concrete stirring equipment and is provided with stirring blades, the raw materials are mixed and stirred inside, the manual feeding system is used for adding the raw materials into the stirring bin and generally comprises a conveying device (such as a conveying belt or a bucket elevator) and a discharge opening, and the batching system is used for accurately metering and controlling the input amount of various raw materials and ensuring the quality and stability of the mixture.

At present, the concrete mixing equipment used at present is generally integrated with a common multi-bin batching machine, and the equipment occupies a large space without an independent control box, is troublesome to replace and carry, and requires manual batching and feeding of staff during batching, does not have automatic batching and feeding functions, and is very laborious and low in efficiency.

Disclosure of Invention

The utility model provides automatic batching concrete stirring equipment, which comprises a concrete pump, wherein a water storage tank is fixed at the rear end of the concrete pump, a stirring bin is fixed at one end of the concrete pump, a first conveying belt is arranged above the stirring bin, a stirring paddle is rotatably arranged at one end of an inner cavity of the stirring bin, a liquid pump is fixed at one side of the inner cavity of the water storage tank, a material guide pipe is connected to the other side of the water storage tank in a penetrating way, a water guide pipe is fixed at the upper end surface of the liquid pump, an opening and closing valve is arranged at the middle end of the water guide pipe, a material guide pump is fixed at the extension end of the material guide pipe, a material discharge pipe is fixed at the extension end of the material guide pump, a plurality of feeding components are arranged at one end of the first conveying belt, and a material storage component is arranged at the upper end of the feeding components;

the feeding assembly comprises a mounting frame, a second conveying belt is rotatably mounted in an inner cavity of the mounting frame, a driven wheel is rotatably mounted on the outer side of one end of the second conveying belt, a support frame is fixed at one end of the second conveying belt, a driving motor is fixed on the upper end face of the support frame, a driving wheel is fixed at the output end of the driving motor, a synchronous belt is sleeved between the driving wheel and the driven wheel, sliding grooves are respectively formed in two sides of the second conveying belt, a hydraulic telescopic rod is mounted at one end of the mounting frame through a rotating shaft, and a sliding block is rotatably mounted at the telescopic end of the hydraulic telescopic rod through the rotating shaft;

the material storage assembly comprises a hopper frame fixed at one end of the mounting frame, a feed hopper is fixed on the upper end face of the hopper frame, a discharge hopper is fixed on the lower end face of the feed hopper, slots are respectively fixed on two sides of the inner wall of the discharge hopper, cutting strips are movably sleeved in the inner cavity of the slots, a shielding plate is fixed between the two cutting strips, and a handle is fixed at one end of the shielding plate;

the terminal surface is fixed with the switch board before the mounting bracket.

Further, the sliding block is in sliding sleeve connection with the inner cavity of the sliding groove, and the telescopic end of the hydraulic telescopic rod forms a sliding structure with the sliding groove through the sliding block.

Further, the driven wheel and the driving wheel form a transmissible structure through the synchronous belt, and the transmissible structure is used for driving the second conveyor belt crawler belt to move.

Further, the second conveyor belt output end is arranged at the upper end of the first conveyor belt.

Further, a turnover structure is formed between the second conveyor belt and the mounting frame through the hydraulic telescopic rod and is used for adjusting the mounting angle of the second conveyor belt.

Further, the control cabinet is connected with the driving motor through a connecting wire and used for controlling the driving motor to work.

Further, the shielding plate is in penetrating sleeve joint with one end of the discharge hopper, the shielding plate forms a drawable structure between the cutting and the slot, and the output end of the discharge hopper is arranged at the upper end of the second conveyor belt.

Compared with the prior art, the utility model has the following beneficial effects:

1. in the utility model, each component proportioning machine can be disassembled and assembled independently according to construction requirements, and also can be independently opened and closed or started and stopped to adjust the feeding speed so as to control and ensure the proportioning ratio and stirring quality of concrete mixture.

2. According to the utility model, the output channel of the discharge hopper can be opened and closed through the shielding plate, so that the feeding operation of the feed hopper can be started and stopped, and the feed hopper can store raw materials when concrete stops mixing operation.

3. According to the utility model, the height of one end of the second conveyer belt can be adjusted in a lifting manner, so that the distance between the second conveyer belt and the first conveyer belt can be adjusted, and the proper distance can be adjusted to prevent dust emission of materials during feeding.

Of course, it is not necessary for any one product to practice the utility model to achieve all of the advantages set forth above at the same time.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings that are needed for the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic front view of an automatic batching concrete mixing plant according to the present utility model;

FIG. 2 is a schematic rear view of an automatic batching concrete mixing plant according to the present utility model;

FIG. 3 is a schematic view of the structure of the water storage tank and the stirring bin in the utility model;

FIG. 4 is a schematic diagram of a front view of a feeding assembly and a storage assembly according to the present utility model;

FIG. 5 is a schematic diagram of a rear view of a feeding assembly and a storage assembly according to the present utility model;

FIG. 6 is a schematic view of a cross-section of a discharge hopper according to the present utility model.

In the figure: 1. concrete pump; 2. a water storage tank; 3. a stirring bin; 4. a first conveyor belt; 5. stirring paddles; 6. a liquid pump; 7. a water conduit; 8. opening and closing the valve; 9. a material guiding pipe; 10. a material guiding pump; 11. a discharge pipe; 12. a feeding assembly; 1201. a mounting frame; 1202. a second conveyor belt; 1203. driven wheel; 1204. a support frame; 1205. a driving motor; 1206. a driving wheel; 1207. a synchronous belt; 1208. a chute; 1209. a hydraulic telescopic rod; 1210. a slide block; 13. a storage component; 1301. a hopper frame; 1302. a feed hopper; 1303. a discharge hopper; 1304. a slot; 1305. cutting; 1306. a shielding plate; 1307. a handle; 14. and a control cabinet.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but 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, are intended to be within the scope of the utility model.

1-6, an automatic batching concrete stirring device comprises a concrete pump 1, wherein a water storage tank 2 is fixed at the rear end of the concrete pump 1, a stirring bin 3 is fixed at one end of the concrete pump 1, a first conveying belt 4 is arranged above the stirring bin 3, a stirring paddle 5 is rotatably arranged at one end of an inner cavity of the stirring bin 3, a liquid pump 6 is fixed at one side of the inner cavity of the water storage tank 2, a material guide pipe 9 is connected to the other side of the water storage tank 2 in a penetrating way, a water guide pipe 7 is fixed at the upper end surface of the liquid pump 6, an opening and closing valve 8 is arranged at the middle end of the water guide pipe 7, a material guide pump 10 is fixed at the extension end of the material guide pipe 9, a material discharge pipe 11 is fixed at the extension end of the material guide pump 10, a plurality of feeding components 12 are arranged at one end of the first conveying belt 4, and a material storage component 13 is arranged at the upper end of the feeding components 12;

the feeding assembly 12 comprises a mounting frame 1201, a second conveying belt 1202 is rotatably mounted in an inner cavity of the mounting frame 1201, a driven wheel 1203 is rotatably mounted at the outer side of one end of the second conveying belt 1202, a support frame 1204 is fixed at one end of the second conveying belt 1202, a driving motor 1205 is fixed at the upper end face of the support frame 1204, a driving wheel 1206 is fixed at the output end of the driving motor 1205, a synchronous belt 1207 is sleeved between the driving wheel 1206 and the driven wheel 1203, sliding grooves 1208 are respectively fixed at two sides of the second conveying belt 1202, a hydraulic telescopic rod 1209 is mounted at one end of the mounting frame 1201 through a rotating shaft, and a sliding block 1210 is rotatably mounted at the telescopic end of the hydraulic telescopic rod 1209 through the rotating shaft;

the material storage assembly 13 comprises a hopper frame 1301 fixed at one end of a mounting frame 1201, a feed hopper 1302 is fixed at the upper end surface of the hopper frame 1301, a discharge hopper 1303 is fixed at the lower end surface of the feed hopper 1302, slots 1304 are respectively fixed at two sides of the inner wall of the discharge hopper 1303, inserting strips 1305 are movably sleeved in the inner cavity of the slots 1304, a shielding plate 1306 is fixed between the two inserting strips 1305, and a handle 1307 is fixed at one end of the shielding plate 1306;

the front end face of the mounting frame 1201 is fixed with a control cabinet 14;

respectively placing cement, yellow sand and perlite concrete raw materials into the inner cavities of three feed hoppers 1302 to store the raw materials in the feed hoppers 1302;

the telescopic end of the hydraulic telescopic rod 1209 moves to drive the sliding block 1210 to slide in the sliding groove 1208, so that one end of the second conveying belt 1202 is propped up to move up and down, one end of the second conveying belt 1202 is regulated to the upper end face of the first conveying belt 4, an operator controls the driving motor 1205 to operate through the control cabinet 14, the output end drives the driving wheel 1206 to rotate, the driving wheel 1206 drives the driven wheel 1203 to rotate through the synchronous belt 1207, and the driven wheel 1203 enables the moving end of the second conveying belt 1202 to move;

the driving motor 1205 is a servo motor, and the rotation speed of the output shaft of the driving motor 1205 is controlled through a control button of the control cabinet 14;

the handle 1307 is manually pulled to enable the shielding plates 1306 to move in the slots 1304 through the cutting strips 1305 at the two sides, so that the shielding plates 1306 are pulled out of the inner cavity of the discharge hopper 1303 to expose the output channel of the discharge hopper 1303, the cement, yellow sand and perlite raw materials stored in the three feed hoppers 1302 fall onto the surface of the second conveying belt 1202, the raw materials are conveyed to the surface of the first conveying belt 4 through the second conveying belt 1202, and then the cement, yellow sand and perlite raw materials are conveyed into the stirring bin 3 through the first conveying belt 4;

the liquid pump 6 and the on-off valve 8 are opened, so that the liquid pump 6 can convey the water stored in the water storage tank 2 into the stirring bin 3 from the water guide pipe 7, the stirring paddle 5 arranged in the stirring bin 3 can stir and mix the raw materials with water to form concrete, the concrete is sucked out from the material guide pipe 9 through the concrete material guide pump 10, and the mixed material is pumped to a designated construction area from the material discharge pipe 11.

Wherein, slider 1210 and the inner chamber of spout 1208 slide and cup joint, but the flexible end of hydraulic telescoping rod 1209 constitutes sliding structure through between slider 1210 and the spout 1208, and slider 1210 removes in the spout 1208 when the flexible end of hydraulic telescoping rod 1209 moves, pushes up the lift adjustment of second conveyer belt 1202 one end.

The driven wheel 1203 is configured between the synchronous belt 1207 and the driving wheel 1206 to form a transmissible structure, and is used for driving the second conveyor belt 1202 to move in a caterpillar manner, the driven wheel 1203 is connected with a conveyor belt roller of the second conveyor belt 1202, the driven wheel 1203 can control the conveyor belt of the second conveyor belt 1202 to move when rotating, and the rotating speed of the driven wheel 1203 can control the feeding speed of the second conveyor belt 1202.

Wherein the output end of the second conveying belt 1202 is arranged at the upper end of the first conveying belt 4.

The second conveyor belt 1202 forms a reversible structure with the mounting frame 1201 through the hydraulic telescopic rod 1209, and is used for adjusting the mounting angle of the second conveyor belt 1202.

The control cabinet 14 is connected to the driving motor 1205 through a connection line, and is used for controlling the driving motor 1205 to operate.

Wherein, the shielding plate 1306 is sleeved with one end of the discharge hopper 1303, the shielding plate 1306 forms a drawable structure between the cutting 1305 and the slot 1304, and the output end of the discharge hopper 1303 is arranged at the upper end of the second conveying belt 1202.

The batching method of the automatic batching concrete stirring equipment comprises the following steps:

cement, yellow sand and perlite concrete raw materials are respectively put into the inner cavities of three feed hoppers 1302, so that the raw materials are stored in the feed hoppers 1302, the telescopic ends of hydraulic telescopic rods 1209 move to drive sliding blocks 1210 to slide in sliding grooves 1208, one end of a second conveying belt 1202 is pushed to move up and down, one end of the second conveying belt 1202 is regulated to the upper end face of a first conveying belt 4, an operator controls a driving motor 1205 to operate through a control cabinet 14, the output end drives a driving wheel 1206 to rotate, the driving wheel 1206 drives a driven wheel 1203 to rotate through a synchronous belt 1207, the driven wheel 1203 enables the movable end of the second conveying belt 1202 to move, a handle 1307 is manually pulled to enable shielding plates 1306 to move in slots 1304 through cutting strips 1305 at two sides, the shielding plates 1306 are pulled out of the inner cavities of a discharge hopper 1303, the output channels of the discharge hoppers 1303 are exposed, the raw materials of cement, yellow sand and perlite stored in the three feed hoppers 1302 fall onto the surface of the second conveying belt 1202, the raw materials are conveyed to the surface of the first conveying belt 4 through the second conveying belt 1202, the raw materials of cement, yellow sand and perlite are conveyed into the stirring bin 3 through the first conveying belt 4, the liquid pump 6 and the on-off valve 8 are opened, the liquid pump 6 is enabled to convey the water stored in the water storage tank 2 into the stirring bin 3 from the water guide pipe 7, the stirring paddles 5 arranged in the stirring bin 3 stir and mix the raw materials with water, the raw materials are stirred and mixed into concrete, the concrete is sucked out from the material guide pipe 9 through the concrete material guide pump 10, and then the mixture is pumped to a designated construction area from the material discharge pipe 11, so that the working principle of the utility model is completed.

The preferred embodiments of the utility model disclosed above are intended only to assist in the explanation of the utility model. The preferred embodiments are not intended to be exhaustive or to limit the utility model to the precise form disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the utility model and the practical application, to thereby enable others skilled in the art to best understand and utilize the utility model. The utility model is limited only by the claims and the full scope and equivalents thereof.

Claims

1. The automatic batching concrete stirring equipment comprises a concrete pump (1), and is characterized in that a water storage tank (2) is fixed at the rear end of the concrete pump (1), a stirring bin (3) is fixed at one end of the concrete pump (1), a first conveying belt (4) is arranged above the stirring bin (3), a stirring paddle (5) is rotatably arranged at one end of an inner cavity of the stirring bin (3), a liquid pump (6) is fixed at one side of the inner cavity of the water storage tank (2), a material guide pipe (9) is connected to the other side of the water storage tank (2) in a penetrating manner, a water guide pipe (7) is fixed at the upper end surface of the liquid pump (6), an opening and closing valve (8) is arranged at the middle end of the water guide pipe (7), a material guide pump (10) is fixed at the extending end of the material guide pipe (9), a plurality of material feeding components (12) are arranged at one end of the first conveying belt (4), and a material storage component (13) is arranged at the upper end of the material feeding component (12).

The feeding assembly (12) comprises a mounting frame (1201), a second conveying belt (1202) is rotatably mounted in an inner cavity of the mounting frame (1201), a driven wheel (1203) is rotatably mounted at the outer side of one end of the second conveying belt (1202), a support frame (1204) is fixed at one end of the second conveying belt (1202), a driving motor (1205) is fixed on the upper end face of the support frame (1204), a driving wheel (1206) is fixed at the output end of the driving motor (1205), a synchronous belt (1207) is sleeved between the driving wheel (1206) and the driven wheel (1203), sliding grooves (1208) are respectively fixed at two sides of the second conveying belt (1202), a hydraulic telescopic rod (1209) is mounted at one end of the mounting frame (1201) through a rotating shaft, and a sliding block (1210) is rotatably mounted at the telescopic end of the hydraulic telescopic rod (1209) through the rotating shaft;

the material storage assembly (13) comprises a hopper frame (1301) fixed at one end of a mounting frame (1201), a feed hopper (1302) is fixed on the upper end face of the hopper frame (1301), a discharge hopper (1303) is fixed on the lower end face of the feed hopper (1302), slots (1304) are respectively fixed on two sides of the inner wall of the discharge hopper (1303), cutting strips (1305) are movably sleeved in the inner cavities of the slots (1304), a shielding plate (1306) is fixed between the two cutting strips (1305), and a handle (1307) is fixed at one end of the shielding plate (1306);

the front end face of the mounting frame (1201) is fixed with a control cabinet (14).

2. The automatic batching concrete mixing plant according to claim 1, wherein the sliding block (1210) is slidably sleeved with the inner cavity of the chute (1208), and the telescopic end of the hydraulic telescopic rod (1209) is formed into a slidable structure between the sliding block (1210) and the chute (1208).

3. The automatic batching concrete mixing apparatus according to claim 1, wherein the driven wheel (1203) is configured to drive the second conveyor belt (1202) track movement by means of a transmissible structure between the timing belt (1207) and the driving wheel (1206).

4. An automatic batching concrete mixing plant according to claim 1, characterized in that the output end of the second conveyor belt (1202) is arranged at the upper end of the first conveyor belt (4).

5. An automatic batching concrete mixing plant according to claim 1, characterized in that the second conveyor belt (1202) is formed by a reversible structure between the hydraulic telescopic rod (1209) and the mounting bracket (1201) for adjusting the mounting angle of the second conveyor belt (1202).

6. An automatic batching concrete mixing plant according to claim 1, characterized in that the control cabinet (14) is connected to the driving motor (1205) by means of a connecting line for controlling the operation of the driving motor (1205).

7. The automatic batching concrete mixing plant according to claim 1, wherein the shielding plate (1306) is sleeved with one end of the discharge hopper (1303) in a penetrating way, the shielding plate (1306) forms a drawable structure between the cutting (1305) and the slot (1304), and the output end of the discharge hopper (1303) is arranged at the upper end of the second conveying belt (1202).