CN213563453U - Concrete production facility that impermeability is high - Google Patents

Abstract

The utility model discloses a concrete production facility that impermeability is high relates to construction machinery technical field. The utility model discloses a first base station, the storage bin, stirring shell and proportioning machine, the rear of first base station is fixed with the second base station, first base station top is fixed with the stirring shell through the fixed block, the stirring shell is kept away from and is fixed with agitator motor on the first base station of second base station, the inside central authorities of stirring shell link up there is the pivot, the pivot is fixed with agitator motor's output, the top of second base station is fixed with the storage bin, the stirring pan feeding mouth has been seted up to the lower part of stirring shell one side, first base station is close to the stirring shell and sets up the upper portion of stirring pan feeding mouth one side and is fixed with the successor conveyer belt, the subaerial proportioning machine that is fixed with of first base station is kept away from to the successor conveyer. The utility model discloses a set up first base platform, storage silo, stirring shell and proportioning machine, solved the material and joined in marriage the problem that condenses easily in the product measurement difficulty and the transportation of more loaded down with trivial details, multiple ratio.

Description

Concrete production facility that impermeability is high

Technical Field

The utility model belongs to the technical field of construction machinery, especially, relate to a concrete production facility that impermeability is high.

Background

Concrete production equipment is equipment capable of producing concrete and is widely applied to the fields of building manufacturing and the like, and the concrete production equipment is divided into an intermittent type mode (batch mode) and a continuous mode according to working properties; according to the stirring principle, the method is divided into a self-falling type method and a forced type method; the device is divided into a fixed type and a movable type according to the installation mode; dividing a tilting type and a non-tilting type according to a discharging mode; according to the structure of the mixing drum, the mixing drum is divided into a pear type, a drum type, a double cone, a disc vertical shaft type, a circular groove horizontal shaft type and the like.

However, the existing concrete production equipment has the following disadvantages:

1. the existing concrete production equipment needs to repeatedly weigh and proportion each material when producing concrete, the process is complex, the repeated operation is needed when the ingredients are replaced, and the proportion is complex.

2. The concrete produced by the existing concrete production equipment is wet, is inconvenient to store and transport, and is easy to coagulate in the transport process, so that the transport equipment is damaged.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a concrete production facility that impermeability is high, through setting up first base frame, storage storehouse, stirring shell and proportioning machine, solved the material and joined in marriage the problem that condenses easily in more loaded down with trivial details, the product measurement difficulty of multiple ratio and the transportation.

In order to solve the technical problem, the utility model discloses a realize through following technical scheme:

the utility model relates to a concrete production device with high impermeability, which comprises a first base platform, a storage bin, a stirring shell and a proportioning machine, wherein the rear part of the first base platform is fixedly connected with a second base platform, the stirring shell is fixedly connected above the first base platform through a fixed block, the stirring shell is fixedly connected on the first base platform far away from the second base platform, the stirring motor drives a rotating shaft to rotate, the center inside the stirring shell is connected with a rotating shaft in a through way, the rotating shaft is fixedly connected with the output end of the stirring motor, the storage bin is fixedly connected above the second base platform, the lower part of one side of the stirring shell is provided with a stirring feeding port, the upper part of the first base platform close to the side of the stirring shell provided with the stirring feeding port is fixedly connected with a subsequent conveyor belt, and the subsequent conveyor belt transports the proportioned materials of the proportioning machine to the inside of the stirring shell, the ground, far away from the first base platform, of the subsequent conveying belt is fixedly connected with a proportioning machine, and materials needing proportioning are proportioned by the proportioning machine.

Further, the stirring shell is close to the lower extreme fixedly connected with stirring of storage bin one side and goes out the hopper, the last stirring of stirring shell goes out the outer fixed surface of hopper and is connected with the stirring dust cover, and the stirring dust cover blocks the dust that the stirring process produced and blocks, agitator motor fixes on first sill through the stirring brace table, the week side fixedly connected with stirring propulsion piece of pivot, stirring propulsion piece stir the material and impel.

Further, the storage material mouth has been seted up to the position that storage silo top is close to the stirring hopper, the bottom fixedly connected with sloping platform of storage silo, the storage silo keeps away from the bottom fixedly connected with of first sill one side and stores out the hopper, the one end of storing out the hopper and being close to the storage silo is provided with ejection of compact bolt, and the cooperation of storage silo and its inside each structure makes the storage silo have the storage effect of material.

Further, the batching machine comprises a fixed support column, a first batching bin, a batching conveyor belt, a batching support, a batching discharge hopper, a batching bolt, a batching motor, a batching support table, a batching output shaft, a second batching bin, a third batching bin, a fourth batching bin and a fifth batching bin, wherein four corners of the first batching bin, the second batching bin, the third batching bin, the fourth batching bin and the fifth batching bin are fixedly connected with the fixed support column, the lower parts of the first batching bin, the second batching bin, the third batching bin, the fourth batching bin and the fifth batching bin are fixedly connected with the batching discharge hopper, the batching bolt is arranged at the top of the batching discharge hopper and controls the opening and closing of the batching bin, the batching bolt comprises a scale pin and a pull block, one end of the scale pin, which is close to the inner wall of the batching discharge hopper, is fixedly connected with the pull block, and the scale displayed on the scale pin displays the ratio of materials, the below of batching play hopper is provided with the batching conveyer belt, the side fixedly connected with batching support of batching conveyer belt, the rear fixedly connected with batching motor of batching conveyer belt, the power input end fixedly connected with batching output shaft at the rear of batching conveyer belt, the output fixed connection of batching output shaft and batching motor, the below fixedly connected with batching brace table of batching motor, the batching conveyer belt will dispose the material and convey next processing step.

Further, a transmission relay block is fixedly connected to the upper portion of one side, close to the dosing machine, of the first base platform, a subsequent conveying belt is fixedly connected to the transmission relay block, the subsequent conveying belt conveys materials into the stirring shell, a subsequent support is fixedly connected to one end, far away from the first base platform, of the subsequent conveying belt, a subsequent motor is fixedly connected to the rear portion of the subsequent support, the subsequent motor provides power for the subsequent conveying belt, a subsequent support platform is fixedly connected to the lower portion of the subsequent motor, and an output shaft of the subsequent motor is rotatably connected with a power input end of the subsequent conveying belt.

Furthermore, fixedly connected with feeding dust cover on the surface that stirring pan feeding mouth was seted up to stirring shell, the feeding dust cover carries out the feeding dustproof, stirring shell sets up fixedly connected with guide block on the internal surface of stirring pan feeding mouth bottom side, and the guide block is led the material that gets into in the stirring shell.

The utility model discloses following beneficial effect has:

1. the utility model discloses a set up the proportioning machine, solved the material and joined in marriage the problem that the ratio is more loaded down with trivial details, the product measurement difficulty of multiple ratio, through batching machine on the batching bolt scale on the scale pin, the ratio of accurate control material, as long as add the material in the production regulation of the concrete that the impermeability is high of the same kind and all can guarantee the unanimity of ratio in toward the feed bin, the ratio of changing the concrete only needs the adjustment to go out the batching bolt on the hopper, the scale display according to the scale pin on the batching bolt just can confirm the proportion of the ejection of compact.

2. The utility model discloses a set up first base station, storage bin and stirring shell, the problem of condensing easily in the transportation has been solved, the dry material in the stirring shell of first base station top will be inputed the stirring shell stirs, input storage bin stores after the stirring is accomplished, take out from the storage bin when needs use, the change of nature can not take place for the raw materials that mix, the concrete of production stirring when producing the concrete is the dry material, can not lead to the damage of haulage equipment because of condensing at the in-process of storing and transporting, the equipment loss that leads to because of the accident in the transportation has been reduced, in the production process, the efficiency with production improves.

Of course, it is not necessary for any particular product to achieve all of the above-described advantages at the same time.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic view of an assembly structure of the present invention;

FIG. 2 is a front view of a stirring and feeding structure of the present invention;

FIG. 3 is a rear view of the stirring and feeding structure of the present invention;

FIG. 4 is a side view of the stirring and storage structure of the present invention;

FIG. 5 is a main view of the batching machine of the present invention;

fig. 6 is the utility model discloses the proportioning machine side view:

in the drawings, the components represented by the respective reference numerals are listed below:

100. a first base table; 101. a second base table; 102. a fixed block; 200. a storage bin; 201. a storage discharge hopper; 202. a discharging bolt; 203. a sloping table; 204. a material storage port; 300. stirring the shell; 301. stirring the propelling sheet; 302. a rotating shaft; 303. a stirring motor; 304. a stirring support table; 305. a stirring discharge hopper; 306. a material guide block; 307. a stirring feeding port; 400. a dosing machine; 401. fixing the support columns; 402. a first proportioning bin; 403. a batching conveyor belt; 404. a batching support; 405. a batching discharging hopper; 406. a burdening bolt; 4061. a scale pin; 4062. pulling the block; 407. a batching motor; 408. a material preparation supporting table; 409. a burdening output shaft; 410. a second proportioning bin; 411. a third proportioning bin; 412. a fourth proportioning bin; 413. a fifth proportioning bin; 500. stirring the dust cover; 600. a subsequent conveyor belt; 601. transmitting a relay block; 602. a subsequent bracket; 603. a subsequent motor; 604. a subsequent supporting table; 700. a feed dust cap.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the protection scope of the present invention.

Referring to fig. 1-3, the present invention relates to a concrete production apparatus with high impermeability, which comprises a first base 100, a storage bin 200, a stirring shell 300 and a dispensing machine 400, wherein a second base 101 is fixedly connected to the rear of the first base 100, the first base 100 is higher than the second base 101, the stirring shell 300 is fixedly connected to the upper portion of the first base 100 through a fixing block 102, the proportioned material is uniformly stirred in the stirring shell 300, a stirring motor 303 is fixedly connected to the first base 100, which is far away from the second base 101, of the stirring shell 300, a rotating shaft 302 is connected to the center of the inner portion of the stirring shell 300, the rotating shaft 302 is fixedly connected to the output end of the stirring motor 303, the rotation generated by the stirring motor 303 is transmitted to the inner portion of the stirring shell 300 through the rotating shaft 302 to drive a stirring pushing plate 301 to stir, the storage bin 200 is fixedly connected to the upper portion of the second base 101, the storage bin 200 stores materials which are stirred from the inside of the stirring shell 300, a stirring material inlet 307 is formed in the lower portion of one side of the stirring shell 300, the materials enter the stirring shell 300 through the stirring material inlet 307, a subsequent conveyor belt 600 is fixedly connected to the upper portion, close to the stirring shell 300, of one side of the first base platform 100, where the stirring material inlet 307 is formed, the subsequent conveyor belt 600 is fixedly connected to the upper portion, close to the stirring shell 300, of the subsequent conveyor belt 600, after the materials which are proportioned by the proportioning machine 400 are received, the proportioned materials are conveyed into the stirring shell 300 through the stirring material inlet 307, the proportioning machine 400 is fixedly connected to the ground, far away from the first base platform 100, of.

As shown in fig. 4, the lower end of the stirring housing 300 close to the storage bin 200 is fixedly connected with the stirring discharge hopper 305, the working component of the stirring discharge hopper 305 in the stirring housing 300 uniformly stirs the material and then guides the material into the storage bin 200, the outer surface of the stirring discharge hopper 305 on the stirring housing 300 is fixedly connected with the stirring dust cover 500, the stirring dust cover 500 blocks the dust generated in the working process of the stirring housing 300, the stirring motor 303 is fixed on the first base 100 through the stirring support platform 304, the circumferential side of the rotating shaft 302 is fixedly connected with the stirring propulsion blade 301, the rotating force generated by the stirring motor 303 is transmitted to the stirring propulsion blade 301 fixed on the circumferential side of the rotating shaft 302 in the stirring housing 300 through the rotating shaft 302, and then the stirring propulsion blade 301 generates the stirring propulsion force for the material, so as to uniformly stir the material and guide the material out through the stirring discharge hopper 305.

Wherein as shown in fig. 4, the material storage port 204 has been seted up to the position that storage silo 200 top is close to stirring ejection of compact fill 305, material storage port 204 is used for receiving the material that stirring ejection of compact fill 305 stirred in via agitator motor 303, and store the material in storage silo 200, the bottom fixedly connected with sloping platform 203 of storage silo 200, sloping platform 203 piles up even material in storage silo 200 lower part, storage silo 200 keeps away from the bottom fixedly connected with of first sill 100 one side and stores ejection of compact fill 201, store the material that ejection of compact fill 201 will store in the storage silo 200 and derive, the one end of storing ejection of compact fill 201 and being close to storage silo 200 is provided with ejection of compact bolt 202, ejection of compact bolt 202 controls the switch of storage silo 200.

As shown in FIG. 5, the batching machine 400 comprises a fixed support column 401, a first batching bin 402, a batching conveyor belt 403, a batching support 404, a batching hopper 405, a batching bolt 406, a batching motor 407, a batching support table 408, a batching output shaft 409, a second batching bin 410, a third batching bin 411, a fourth batching bin 412 and a fifth batching bin 413, wherein the four corners of the first batching bin 402, the second batching bin 410, the third batching bin 411, the fourth batching bin 412 and the fifth batching bin 413 are all fixedly connected with the fixed support column 401, the fixed support column 401 fixes the first batching bin 402, the second batching bin 410, the third batching bin 411, the fourth batching bin 412 and the fifth batching bin 413 at a certain height from the ground, the lower parts of the first batching bin 402, the second batching bin 410, the third batching bin 411, the fourth batching bin 412 and the fifth batching bin 413 are all fixedly connected with the batching hopper 405, the batching hopper 405 guides out the materials stored in the first batching hopper 402, the second batching hopper 410, the third batching hopper 411, the fourth batching hopper 412 and the fifth batching hopper 413, the top of the batching hopper 405 is provided with a batching bolt 406, the batching bolt 406 comprises a scale pin 4061 and a pull block 4062, one end, close to the inner wall of the batching hopper 405, of the scale pin 4061 is fixedly connected with the pull block 4062, when in use, the batching bolt 406 is pulled, the upper surface marked with scales is exposed, the batching bolt 406 is pulled to corresponding display scales, the batching bolt 406 displays the proportion of each material through the scales on the display scale pin 4061, the batching conveyor belt 403 is arranged below the batching hopper 405, the batching conveyor belt 403 is used for receiving the materials guided out by the batching hopper 405 and conveying the materials to the subsequent conveyor belt 600, the batching support 404 is fixedly connected to the side surface of the batching conveyor belt 403, batching support 404 fixes batching conveyer belt 403 subaerial, batching motor 407 is fixedly connected with in the rear of batching conveyer belt 403, the power input end fixedly connected with batching output shaft 409 in the rear of batching conveyer belt 403, the output fixed connection of batching output shaft 409 and batching motor 407, the one end of batching output shaft 409 rotates with batching conveyer belt 403's power input end to be connected, the other end and batching motor 407's output fixed connection, the turning force that will produce batching motor 407 inputs to batching conveyer belt 403 on, the below fixedly connected with batching brace table 408 of batching motor 407, batching brace table 408 fixes batching motor 407 in the above ground.

As shown in fig. 1-3, a transfer relay block 601 is fixedly connected to the upper portion of the first base table 100 near the dispensing machine 400, a subsequent conveyor belt 600 is fixedly connected to the transfer relay block 601, a fixed end of the subsequent conveyor belt 600 is fixed by the transfer relay block 601, so that the subsequent conveyor belt 600 moves stably, a subsequent support 602 is fixedly connected to one end of the subsequent conveyor belt 600 far away from the first base table 100, a power input end of the subsequent conveyor belt 600 is rotatably connected to the subsequent support 602, a subsequent motor 603 is fixedly connected to the rear of the subsequent support 602, the subsequent motor 603 provides power for the subsequent conveyor belt 600, a subsequent support table 604 is fixedly connected to the lower portion of the subsequent motor 603, and an output shaft of the subsequent motor 603 is rotatably connected to the power input end of the.

As shown in fig. 1 to 3, a feeding dust cover 700 is fixedly connected to the outer surface of the stirring housing 300 with the stirring material inlet 307, the feeding dust cover 700 blocks dust generated during the operation of the stirring housing 300, a material guiding block 306 is fixedly connected to the inner surface of the stirring housing 300 with the stirring material inlet 307, and the material guiding block 306 guides the material conveyed into the stirring housing 300 by the subsequent conveyor belt 600 to the stirring propelling piece 301.

The utility model discloses a theory of operation does: the first base station 100 and the second base station 101 fix the stirring shell 300 and the storage bin 200 at different heights, because the stirring shell 300 is of a cylindrical structure and is fixed on the first base station 100 by the fixing block 102, the first base station 100 and the second base station 101 fixedly connect the stirring shell 300 and the storage bin 200 with the ground, the fixed support column 401 on the proportioning machine 400 fixes the first proportioning bin 402, the second proportioning bin 410, the third proportioning bin 411, the fourth proportioning bin 412 and the fifth proportioning bin 413 on the ground, the proportioning discharging hoppers 405 fixedly connected below the first proportioning bin 402, the second proportioning bin 410, the third proportioning bin 411, the fourth proportioning bin 412 and the fifth proportioning bin 413 are controlled by arranging the proportioning bolts 406, the pulling blocks 4062 on the proportioning bolts 406 control the discharging speed of the proportioning discharging hoppers 405, the graduated pins 4061 display the discharging speed, the materials flowing out through the proportioning hoppers 405 and the proportioning bolts 406 fall onto the proportioning conveyor belt 403 arranged below the proportioning discharging hoppers 405, the batching conveyor belt 403 is fixed on the ground through the batching bracket 404, the batching motor 407 provides power for the batching conveyor belt 403, the material received by the batching conveyor belt 403 is transmitted to the subsequent conveyor belt 600, the material on the subsequent conveyor belt 600 is driven by the subsequent motor 603 to be conveyed into the stirring inlet 307 arranged on the stirring shell 300, the material is guided onto the stirring propelling blade 301 driven by the rotating shaft 302 driven by the stirring motor 303 through the material guide block 306, the material is uniformly stirred and pushed to the stirring outlet hopper 305 through the stirring propelling blade 301, the stirred material is guided into the storage hopper 200 through the storage port 204 arranged on the storage hopper 200 by the stirring outlet hopper 305, the material in the storage hopper 200 is piled up to the discharge latch 202 arranged in front of the storage outlet hopper 201 through the inclined platform 203, the discharge latch 202 is opened when the material is needed to be used, the material is guided out from the storage outlet hopper 201, the dust cover 500 blocks the dust generated by the stirring outlet hopper 305, the feeding dust cover 700 blocks dust generated when the agitation feeding port 307 feeds.

In the description herein, references to the description of "one embodiment," "an example," "a specific example," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The preferred embodiments of the present invention disclosed above are intended only to help illustrate the present invention. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments 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 invention and its practical applications, to thereby enable others skilled in the art to best understand the invention for and utilize the invention. The present invention is limited only by the claims and their full scope and equivalents.

Claims (6)

1. A concrete production facility that impermeability is high, includes first sill (100), storage silo (200), stirring shell (300) and proportioning machine (400), its characterized in that: a second base platform (101) is fixedly connected with the rear part of the first base platform (100), a stirring shell (300) is fixedly connected with the upper part of the first base platform (100) through a fixed block (102), a stirring motor (303) is fixedly connected to the first base (100) of the stirring shell (300) far away from the second base (101), the center inside the stirring shell (300) is connected with a rotating shaft (302) in a through way, the rotating shaft (302) is fixedly connected with the output end of the stirring motor (303), a storage bin (200) is fixedly connected above the second bottom table (101), a stirring feeding port (307) is formed in the lower part of one side of the stirring shell (300), the upper part of the first bottom table (100) close to the side of the stirring shell (300) provided with the stirring feeding port (307) is fixedly connected with a subsequent conveyor belt (600), the subsequent conveyor belt (600) is fixedly connected with a dosing machine (400) on the ground far away from the first base table (100).

2. The concrete production equipment with high impermeability according to claim 1, wherein the lower end of the mixing shell (300) near the storage bin (200) is fixedly connected with a mixing discharge hopper (305), the outer surface of the mixing discharge hopper (305) on the mixing shell (300) is fixedly connected with a mixing dust cover (500), the mixing motor (303) is fixed on the first base (100) through a mixing support platform (304), and the circumferential side surface of the rotating shaft (302) is fixedly connected with a mixing propulsion blade (301).

3. The concrete production equipment with high impermeability according to claim 1, wherein a material storage port (204) is provided above the storage bin (200) near the stirring material discharge hopper (305), the bottom of the storage bin (200) is fixedly connected with an inclined platform (203), the bottom of the storage bin (200) far away from the first base platform (100) is fixedly connected with a material storage discharge hopper (201), and a material discharge bolt (202) is provided at one end of the material storage discharge hopper (201) near the storage bin (200).

4. The concrete production equipment with high impermeability according to claim 1, wherein the batching machine (400) comprises a fixed support column (401), a first batching bin (402), a batching conveyor belt (403), a batching support (404), batching discharging hoppers (405), batching bolts (406), a batching motor (407), a batching support table (408), a batching output shaft (409), a second batching bin (410), a third batching bin (411), a fourth batching bin (412) and a fifth batching bin (413), four corners of the first batching bin (402), the second batching bin (410), the third batching bin (411), the fourth batching bin (412) and the fifth batching bin (413) are all fixedly connected with the fixed support column (401), and the batching hoppers (405) are all fixedly connected below the first batching bin (402), the second batching bin (410), the third batching bin (411), the fourth batching bin (412) and the fifth batching bin (413), the top of batching play hopper (405) is provided with batching bolt (406), batching bolt (406) include scale pin (4061) and draw piece (4062), one end that scale pin (4061) are close to batching play hopper (405) inner wall with draw piece (4062) fixed connection, the below that the batching goes out hopper (405) is provided with batching conveyer belt (403), the side fixedly connected with batching support (404) of batching conveyer belt (403), rear fixedly connected with batching motor (407) of batching conveyer belt (403), the power input end fixedly connected with batching output shaft (409) at the rear of batching conveyer belt (403), the output fixed connection of batching output shaft (409) and batching motor (407), the below fixedly connected with batching brace table (408) of batching motor (407).

5. The concrete production equipment with high impermeability according to claim 1, wherein a transfer relay block (601) is fixedly connected above one side of the first base platform (100) close to the batching machine (400), a subsequent conveyor belt (600) is fixedly connected to the transfer relay block (601), a subsequent support (602) is fixedly connected to one end of the subsequent conveyor belt (600) far away from the first base platform (100), a subsequent motor (603) is fixedly connected to the rear of the subsequent support (602), a subsequent support platform (604) is fixedly connected to the lower side of the subsequent motor (603), and an output shaft of the subsequent motor (603) is rotatably connected with a power input end of the subsequent conveyor belt (600).

6. The concrete production equipment with high impermeability according to claim 1, wherein a feeding dust cover (700) is fixedly connected to the outer surface of the mixing housing (300) provided with the mixing inlet (307), and a material guiding block (306) is fixedly connected to the inner surface of the mixing housing (300) provided with the bottom side of the mixing inlet (307).

Images