CN215589539U - Efficient concrete production line - Google Patents

Abstract

The utility model discloses a high-efficiency concrete production line, which relates to the field of concrete production and comprises a first bottom plate, wherein the top of the first bottom plate is provided with a plurality of groups of supports, a batching mechanism is arranged at the top of the support at one end of the top of the first bottom plate, a forming mechanism is arranged at the top of the support at the other end of the top of the first bottom plate, one end of the forming mechanism is connected with a connecting bent pipe, a support is arranged between the bottom of the connecting bent pipe and the first bottom plate, and the top of the connecting bent pipe is connected with a mixing mechanism matched with the batching mechanism. According to the utility model, the mixing tank is arranged, the mixing column is rotatably connected in the mixing tank, the motor is arranged on the outer wall of the mixing tank to drive the mixing column to rotate through the belt, the sand and stone cement are stirred and mixed uniformly through the mixing column in the mixing tank before being mixed with water, and then the uniformly mixed sand and stone and cement are conveyed into the forming tank to be stirred with water integrity, so that the concrete mixing and forming efficiency is higher.

Description

Efficient concrete production line

Technical Field

The utility model relates to the field of concrete production, in particular to an efficient concrete production line.

Background

The concrete is an artificial stone which is prepared by taking cement as a main cementing material, mixing water, sand, stones and chemical additives and mineral admixtures as necessary according to a proper proportion, uniformly stirring, densely forming, curing and hardening. The quality of concrete production is determined to a large extent by the nature of the raw materials and their relative contents, with the size of the sand and stones (aggregates) having a particularly pronounced effect on the quality of the concrete.

In the prior art, when concrete is produced, raw materials are generally piled in a pile, then shoveled by a forklift to be fed into a storage bin for storage, and when the raw materials are required to be mixed, the raw materials stored in the storage bin are conveyed to a stirring mechanism to be stirred together with water, cement, sand and stone, and the like, so that the concrete is prepared.

But the sand and stone can be adhered after contacting with the cement and water, so that the cement or the sand and stone are not easy to separate when being mixed, the mixture can be uniformly mixed in a long time, the mixing efficiency is low, and the proportion of materials in the concrete and the weight of a final finished product are not easy to control when the concrete is mixed at present.

SUMMERY OF THE UTILITY MODEL

Based on the above, the utility model aims to provide an efficient concrete production line, so as to solve the technical problems that the existing concrete production line is low in mixing efficiency and is not easy to control the proportion of materials in concrete and the weight of a final finished product.

In order to achieve the purpose, the utility model provides the following technical scheme: the utility model provides a high-efficient concrete production line, includes first bottom plate, first bottom plate top is provided with the multiunit support, and first bottom plate top one end support top installs dosing mechanism, forming mechanism is installed at the support top of the first bottom plate top other end, and forming mechanism one end is connected with the connecting bend, there is the support between connecting bend bottom and the first bottom plate, and the connecting bend top be connected with dosing mechanism complex mixing mechanism, dosing mechanism includes installing frame, connecting plate, storage frame, the frame of weighing, first electric valve, second bottom plate, electric roller bearing, first telescopic link and guide door, mixing mechanism includes the blending tank, connects material baffle, motor, belt, first support frame, mounting panel, mixing column, guide plate and second telescopic link.

Through adopting above-mentioned technical scheme, the support can be convenient for install dosing mechanism, connection return bend and forming mechanism, and the weight and the proportion of cement and gravel that the steerable concrete of dosing mechanism goes out when mixing, forming mechanism can make cement and gravel and sand final mix be the concrete, and the connection return bend is convenient for to be connected between forming mechanism and the mixing mechanism, and mixing mechanism can be with gravel and sand and cement misce bene earlier.

The utility model is further arranged in such a way that the top of the bracket at one end of the top of the first bottom plate is connected with an installation frame, a connecting plate is connected between the brackets and below the installation frame, the top of the installation frame is provided with a storage frame, the storage frame is divided into three spaces, the bottom of each space of the storage frame is provided with a first electric valve, the bottom of the installation frame is rotatably connected with a plurality of second bottom plates which are respectively matched with each first electric valve, the top of each second bottom plate is provided with a weighing frame matched with the first electric valve, one side of each weighing frame is connected with a material guide door through an electric rolling shaft, and a first telescopic rod is rotatably connected between the bottom of each second bottom plate and the top of the connecting plate.

Through adopting above-mentioned technical scheme, the installing frame is convenient for install other structures, and the storage frame divide into three space, can store cement, sand and stone respectively, and the frame of weighing sand stone and the weight of cement are in order to control the opening and shutting of first electric valve door, and the controllable guide feed gate of electric roller rotates, and first electric telescopic handle is flexible can drive first bottom plate and rotate, and with the cooperation of guide gate, can be with in the leading-in mixing mechanism of sand stone and cement in the frame of weighing.

The utility model is further set that the top of the connecting elbow is connected with a mixing tank, the top of the mixing tank is connected with a material receiving guide plate matched with the material guide door, the middle of the bottom of the mixing tank is fixedly connected with a mounting plate through a rotating shaft, the upper half part of the interior of the mixing tank is provided with a first support frame, a mixing column is rotatably connected between the first support frame and the mounting plate and positioned in the mixing tank, the outer wall of the mixing tank is provided with a motor, the output end of the motor is in transmission connection with the top of the mixing column, the bottom of the mixing tank is rotatably connected with a material guide plate, and a second telescopic rod is rotatably connected between one side of the bottom of the mixing tank and one side of the bottom of the material guide plate.

Through adopting above-mentioned technical scheme, connect the material baffle can be convenient for receive the cement and the gravel and sand of dosing mechanism output, first support frame can be convenient for connect the installation mixing column with the mounting panel, and the mixing column can mix the material in the blending tank, and it is rotatory that the motor can drive the mixing column through the belt, and the stock guide rotates the gravel and sand and cement that can be convenient for derive the interior completion of blending tank, the steerable stock guide of second electric telescopic handle that opens and shuts.

The utility model is further set that the forming mechanism comprises a forming tank, a second support frame, an electric stirring column, a spray head and a second electric valve, the top of the support frame at the top of the first bottom plate far away from one end of the batching mechanism is connected with the forming tank, the second support frame is arranged at two ends in the forming tank, the electric stirring column is rotatably connected between the second support frames, one end of the forming tank close to the batching mechanism is connected with a connecting bent pipe, the second electric valve is arranged at the other end of the forming tank, and a group of spray heads are arranged at the top of the forming tank.

Through adopting above-mentioned technical scheme, the electronic stirring post of installation can be convenient for to the second support frame, and electronic stirring post can make cement gravel and sand and water final mixing for mixing earth, and the blending tank is connected with the rabbling mechanism through connecting bend, is convenient for receive the gravel and sand and cement of misce bene, and the steerable concrete that mixes the completion of second electric valve is discharged, and the shower nozzle can be convenient for make water get into the shaping jar and make more diffusion, makes gravel and sand and cement and water mixing become the concrete more high-efficient.

The utility model is further arranged in such a way that a touch pad is arranged on one side of the support at the bottom of the batching mechanism, and the touch pad is electrically connected with the weighing frame, the first electric valve, the electric rolling shaft, the first telescopic rod, the motor, the second telescopic rod, the electric stirring column and the spray head and the second electric valve.

Through adopting above-mentioned technical scheme, the steerable frame of weighing of touch pad, first electric valve, electric roller, first telescopic link, motor, second telescopic link, electric stirring post, shower nozzle and second electric valve's operating condition.

In summary, the utility model mainly has the following beneficial effects:

1. according to the utility model, the mixing tank is arranged, the mixing column is rotatably connected in the mixing tank, the motor is arranged on the outer wall of the mixing tank to drive the mixing column to rotate through the belt, the sand and stone cement are stirred and mixed uniformly through the mixing column in the mixing tank before being mixed with water, and then the uniformly mixed sand and stone and cement are conveyed into the forming tank to be stirred with water in good faith, so that the concrete mixing and forming efficiency is higher;

2. according to the utility model, the bottom of the mounting frame is rotatably connected with the plurality of second bottom plates, the weighing frames matched with the storage frame are mounted at the tops of the second bottom plates, and the first electric valves are mounted at the bottoms of the storage frames, so that the opening and closing of the first electric valves can be controlled according to the required concrete proportion and the final weight, and the proportion of sand and cement in the concrete and the weight of the finally formed concrete can be controlled.

Drawings

FIG. 1 is a schematic cross-sectional view of the present invention;

FIG. 2 is a schematic structural view of the present invention;

FIG. 3 is an enlarged view of A of FIG. 1 according to the present invention;

FIG. 4 is an enlarged view of B of FIG. 1 according to the present invention.

In the figure: 1. a first base plate; 2. a support; 3. a touch panel; 4. a batching mechanism; 41. installing a frame; 42. A connecting plate; 43. a material storage frame; 44. a weighing frame; 45. a first electrically operated valve; 46. a second base plate; 47. An electric roller; 48. a first telescopic rod; 49. a material guiding door; 5. a mixing mechanism; 51. a mixing tank; 52. a material receiving guide plate; 53. a motor; 54. a belt; 55. a first support frame; 56. mounting a plate; 57. a mixing column; 58. A material guide plate; 59. a second telescopic rod; 6. connecting a bent pipe; 7. a molding mechanism; 71. forming a can; 72. a second support frame; 73. an electric stirring column; 74. a spray head; 75. a second electrically operated valve.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. The embodiments described below with reference to the accompanying drawings are illustrative only for the purpose of explaining the present invention, and are not to be construed as limiting the present invention.

The following describes an embodiment of the present invention based on its overall structure.

The utility model provides a high-efficient concrete production line, as shown in fig. 1 and 2, including first bottom plate 1, 1 top of first bottom plate is provided with multiunit support 2, can be convenient for install dosing mechanism 4, connect return bend 6 and forming mechanism 7, and dosing mechanism 4 is installed at 1 top one end support 2 tops of first bottom plate, the weight and the proportion of cement and gravel and sand that go out when steerable concrete mixes, forming mechanism 7 is installed at 2 tops of the support of the 1 top other end of first bottom plate, can make the final mixture of cement and gravel and sand be the concrete, and 7 one end of forming mechanism is connected with connection return bend 6, be convenient for be connected between forming mechanism 7 and the mixing mechanism 5, there is support 2 between 6 bottoms of connection return bend and the first bottom plate 1, and 6 tops of connection return bend be connected with 4 complex mixing mechanism 5 of dosing mechanism, can be with gravel and sand mix even earlier.

Referring to fig. 1 and 3, the batching mechanism 4 includes a mounting frame 41, a connecting plate 42, a material storage frame 43, a weighing frame 44, a first electric valve 45, a second bottom plate 46, an electric roller (or electric roller) 47, a first telescopic rod 48 and a material guiding door 49, the mounting frame 41 is connected to the top of the support 2 at one end of the top of the first bottom plate 1 for facilitating the installation of other structures, the connecting plate 42 is connected between the supports 2 below the mounting frame 41, the material storage frame 43 is arranged on the top of the mounting frame 41, the material storage frame 43 is divided into three spaces for storing cement, sand and stone respectively, the first electric valve 45 is installed at the bottom of each space of the material storage frame 43, the second bottom plate 46 which is respectively matched with each first electric valve 45 is rotatably connected to the bottom of the mounting frame 41, the weighing frame 44 which is matched with the first electric valve 45 is installed at the top of each second bottom plate 46, frame 44 of weighing can weigh gravel and sand and cement weight in order to control opening and shutting of first electric valve 45, and every frame 44 side of weighing is connected with guide door 49 through electric roller 47, the controllable guide door 49 of electric roller 47 rotates, all rotate between every second bottom plate 46 bottom and the connecting plate 42 top and be connected with first telescopic link 48, first telescopic link 48 is flexible can drive second bottom plate 46 and rotate, and with the cooperation of guide door 49, can be with in the frame 44 of weighing gravel and sand and cement leading-in mixing mechanism 5. In this embodiment, (1) one end of the second bottom plate 46 far away from the first telescopic rod 48 is rotatably mounted at the bottom of the mounting frame 41; (2) the mounting and fixing part of the electric roller (or electric roller) 47 is connected with the second bottom plate 46 at the bottom of the weighing frame 44, the rotating part of the electric roller (or electric roller) 47 is connected with the material guiding door 49, and after the material guiding door 49 rotates in place, a material guiding channel is formed with the second bottom plate 46 and is used for guiding the weighed materials into the mixing mechanism 5; (3) weighing frame 44 is the U style of calligraphy, and weighing mechanism has been laid at the top of second bottom plate 46, and weighing frame 44, second bottom plate 46 and guide door 49 enclose to establish and form the weighing space that is used for weighing.

Referring to fig. 1 and 4, the mixing mechanism 5 includes a mixing tank 51, a material receiving guide plate 52, a motor 53, a belt 54, a first support frame 55, a mounting plate 56, a mixing column 57, a material guiding plate 58 and a second telescopic rod 59, the top of the connecting elbow 6 is connected with the mixing tank 51, the top of the mixing tank 51 is connected with the material receiving guide plate 52 matched with the material guiding door 49, which is convenient for receiving cement and sand and stone output by the batching mechanism 4, the middle of the bottom of the mixing tank 51 is fixedly connected with the mounting plate 56 through a rotating shaft, the first support frame 55 is arranged at the upper part inside of the mixing tank 51, the first support frame 55 and the mounting plate 56 are convenient for connecting and mounting the mixing column 57, the mixing column 57 inside the mixing tank 51 is rotatably connected between the first support frame 55 and the mounting plate 56, the material inside the mixing tank 51 can be mixed, the motor 53 is arranged on the outer wall of the mixing tank 51, and the output end of the motor 53 is in transmission connection with the top of the mixing column 57 through the belt 54, the motor 53 can drive the mixing column 57 to rotate through the belt 54, the bottom of the mixing tank 51 is rotatably connected with the material guide plate 58, the material guide plate 58 can rotate to guide out sand and cement mixed in the mixing tank 51, a second telescopic rod 59 is rotatably connected between one side of the bottom of the mixing tank 51 and one side of the bottom of the material guide plate 58, and the opening and closing of the material guide plate 58 can be controlled.

Referring to fig. 1, the forming mechanism 7 includes a forming tank 71, a second supporting frame 72, an electric stirring column 73, a spraying head 74 and a second electric valve 75, the forming tank 71 is connected to the top of the bracket 2 at the end of the top of the first bottom plate 1 far from the batching mechanism 4, the second supporting frame 72 is installed at both ends of the inside of the forming tank 71, the electric stirring columns 73 can be conveniently installed, the electric stirring columns 73 are rotatably connected between the second supporting frames 72, so that the cement, gravel and sand and water are finally mixed into concrete, one end of the forming tank 71 close to the batching mechanism 4 is connected with the connecting elbow 6, so as to receive the uniformly mixed gravel and sand, the other end of the forming tank 71 is provided with a second electric valve 75, the discharge of the mixed concrete can be controlled, a group of spray heads 74 are arranged at the top of the forming tank 71, the water can be conveniently led into the forming tank 71 to be diffused more, and the concrete mixed by the sand and the cement and the water is more efficient. In this embodiment, the device further includes a driving motor installed on the connecting elbow 6, and an output shaft of the driving motor is coaxially connected to the electric stirring column 73, and is used for driving the electric stirring column 73 to rotate circumferentially.

Referring to fig. 2, a touch panel 3 is installed on one side of the support 2 at the bottom of the batching mechanism 4, the touch panel 3 is electrically connected to the weighing frame 44, the first electric valve 45, the electric roller 47, the first telescopic rod 48, the motor 53, the second telescopic rod 59, the electric stirring column 73, the spray head 74 and the second electric valve 75, and the touch panel 3 can control the working states of the weighing frame 44, the first electric valve 45, the electric roller 47, the first telescopic rod 48, the motor 53, the second telescopic rod 59, the electric stirring column 73, the spray head 74 and the second electric valve 75.

In the utility model, stirring blades are uniformly distributed on the surfaces of the electric stirring column 73 and the mixing column 57 respectively.

The working principle of the utility model is as follows: when in use, sand, cement and stones are respectively put into corresponding spaces in the material storage frame 43, the spray head 74 is connected with a water pipe, the proportion of concrete to be mixed and the final weight of the concrete are input on the touch panel 3, then the first electric valve 45 is opened to enable the materials in the material storage frame 43 to respectively fall into the weighing frame 44, when the weighing frame 44 detects that the materials in the weighing frame reach the input data, the first electric valve 45 is closed, the electric roller 47, namely the controllable material guiding door 49, is rotated to be opened, simultaneously the first telescopic rod 48 is contracted to enable the first bottom plate 1 to drive the weighing frame 44 and the material guiding door 49 to incline, the materials are poured onto the material receiving guide plate 52, the material receiving guide plate 52 can convey the materials into the mixing tank 51, then the motor 53 is started, the mixing column 57 is driven to rotate at the top of the mounting plate 56 through the belt 54 to uniformly mix the dry materials, the first support frame 55 is convenient for mounting the mixing column, after the dry materials are uniformly mixed, the second telescopic rod 59 contracts to drive the material guide plate 58 to rotate and open, so that the dry materials enter the forming tank 71 through the connecting bent pipe 6, the electric stirring column 73 rotates, meanwhile, the spray head 74 sprays water into the forming tank 71, the dry materials and the uniformly mixed dry materials are turned and mixed through the electric stirring column 73 to form concrete, and after the concrete is formed by mixing, the second electric valve 75 can be opened and discharged.

Although embodiments of the present invention have been shown and described, the present embodiments are merely illustrative of the present invention and are not intended to limit the present invention, and the described specific features, structures, materials or characteristics may be combined in any suitable manner in any one or more embodiments or examples, and those skilled in the art can make modifications, substitutions, variations, etc. of the embodiments as required without departing from the principle and spirit of the present invention, but within the scope of the claims of the present invention.

Claims (5)

1. The utility model provides a high-efficient concrete production line, includes first bottom plate (1), its characterized in that: first bottom plate (1) top is provided with multiunit support (2), and first bottom plate (1) top one end support (2) top installs batching mechanism (4), forming mechanism (7) are installed at support (2) top of the first bottom plate (1) top other end, and forming mechanism (7) one end is connected with connecting bend (6), there is support (2) between connecting bend (6) bottom and first bottom plate (1), and connecting bend (6) top be connected with batching mechanism (4) complex mixing mechanism (5), batching mechanism (4) are including installing frame (41), connecting plate (42), storage frame (43), frame of weighing (44), first electric valve (45), second bottom plate (46), electric roller bearing (47), first telescopic link (48) and guide door (49), mixing mechanism (5) are including blending tank (51), The material receiving guide plate (52), the motor (53), the belt (54), the first support frame (55), the mounting plate (56), the mixing column (57), the material guide plate (58) and the second telescopic rod (59).

2. The high efficiency concrete production line of claim 1, wherein: the top of the bracket (2) at one end of the top of the first bottom plate (1) is connected with a mounting frame (41), and a connecting plate (42) is connected between the brackets (2) and positioned below the mounting frame (41), a material storage frame (43) is arranged at the top of the mounting frame (41), the storage frame (43) is divided into three spaces, the bottom of each space of the storage frame (43) is provided with a first electric valve (45), the bottom of the mounting frame (41) is rotatably connected with a plurality of second bottom plates (46) respectively matched with each first electric valve (45), the top of each second bottom plate (46) is provided with a weighing frame (44) matched with each first electric valve (45), one side of each weighing frame (44) is connected with a material guide door (49) through an electric roller (47), a first telescopic rod (48) is rotatably connected between the bottom of each second bottom plate (46) and the top of the connecting plate (42).

3. The high efficiency concrete production line of claim 1, wherein: connect return bend (6) top to be connected with blending tank (51), and blending tank (51) top be connected with guide door (49) complex connect material baffle (52), be connected with mounting panel (56) through pivot fixedly connected with in the middle of blending tank (51) bottom, and blending tank (51) inside the first half be provided with first support frame (55), it is connected with mixing column (57) to be located blending tank (51) internal rotation between first support frame (55) and mounting panel (56), motor (53) are installed to blending tank (51) outer wall, and the transmission is connected with belt (54) between motor (53) output and mixing column (57) top, blending tank (51) bottom rotates and is connected with stock guide (58), and rotates between blending tank (51) bottom one side and stock guide (58) bottom one side and is connected with second telescopic link (59).

4. The high efficiency concrete production line of claim 1, wherein: forming mechanism (7) are including shaping jar (71), second support frame (72), electric mixing post (73), shower nozzle (74) and second electric valve (75), support (2) top of batching mechanism (4) one end is kept away from at first bottom plate (1) top is connected with shaping jar (71), and all installs second support frame (72) at the inside both ends of shaping jar (71), it is connected with electric mixing post (73) to rotate between second support frame (72), the one end that shaping jar (71) are close to batching mechanism (4) is connected with connection return bend (6), and second electric valve (75) are installed to shaping jar (71) other end, shaping jar (71) top is provided with a set of shower nozzle (74).

5. The high efficiency concrete production line of claim 4, wherein: touch pad (3) are installed to support (2) one side of batching mechanism (4) bottom, and touch pad (3) and frame (44), first electric valve (45), electric roller (47), first telescopic link (48), motor (53), second telescopic link (59), electric stirring post (73), shower nozzle (74) and second electric valve (75) electric connection weigh.

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