CN217703921U - Reinforced concrete prefabricated cover plate production and distribution system - Google Patents

Abstract

The utility model discloses a prefabricated apron production cloth system of reinforced concrete, including cloth machine and vibrator, the cloth machine includes the frame, and the frame top is equipped with walking structure, and running gear is connected with elevating system, and the elevating system top is equipped with control system, and the bottom is equipped with the distributing device, and the distributing device includes the storage silo, and the storage silo inboard is equipped with branch material stirring unit, and the storage silo bottom is equipped with first branch material unit, and the storage silo lateral wall is equipped with vibration stirring unit and second branch material unit, and first branch material unit is equipped with the weighing device. The utility model provides a production cloth system is used for producing the prefabricated apron of reinforced concrete, has overcome the mode that adopts manual stirring, stirs one by one through a plurality of moulds on spade or vibrating spear class thing to the mould seat, and workman intensity of labour is big, and the problem that production efficiency hangs down, and work piece weight is stable, and thickness is unified, has guaranteed the processingquality of apron, is applicable to building engineering production facility technical field.

Description

Reinforced concrete prefabricated cover plate production and distribution system

Technical Field

The utility model belongs to the technical field of building engineering production facility, specific theory relates to a reinforced concrete prefabricated cover plate production cloth system.

Background

The prefabricated apron of reinforced concrete is used for the cable pit or the covering of escape canal, prevents that the foreign matter from dropping to guarantee that the road surface is level and smooth, play the safety protection effect. When its prefabricated apron of reinforced concrete pours among the conventional art, place framework of steel reinforcement back in the mould, often through manual work or hopper directly to the inside concrete that fills of mould, the prefabricated apron that processes out like this, weight is unstable, and thickness is not unified, influences the processingquality of apron.

After the concrete is poured in the mould from the cloth machine, need vibrate the stirring to the concrete in the mould, under the usual situation, often adopt the mode of manual stirring, stir one by one through spade or vibrating spear class thing to a plurality of moulds on the mould seat, workman intensity of labour is big, and production efficiency is low.

SUMMERY OF THE UTILITY MODEL

The utility model provides a prefabricated apron of reinforced concrete production cloth system for solve the technical problem who exists in the prefabricated apron production process of above-mentioned reinforced concrete.

In order to achieve the above object, the utility model adopts the following technical scheme:

the utility model provides a reinforced concrete prefabricated cover plate production cloth system which characterized in that: the material distributing device comprises a material distributing machine and a vibrating device, wherein the material distributing machine comprises a rack, a walking structure is arranged at the top of the rack, the walking structure is connected with a lifting mechanism, a control system is arranged at the top of the lifting mechanism, a material distributing device is arranged at the bottom of the lifting mechanism, the walking structure, the lifting mechanism and the material distributing device are electrically connected with the control system, the material distributing device comprises a material storage bin, a material distributing and stirring unit is arranged on the inner side of the material storage bin, a first material distributing unit is arranged at the bottom of the material storage bin, a vibrating and stirring unit and a second material distributing unit are arranged on the side wall of the material storage bin, the first material distributing unit corresponds to the second material distributing unit in position, a weighing device is arranged on the first material distributing unit, and the material distributing and stirring unit, the weighing device, the first material distributing unit and the second material distributing unit are electrically connected with the control system;

the utility model discloses a vibrating device, including vibrating die platform and mould seat, fixed mounting has a plurality of to be used for the prefabricated apron of reinforced concrete to pour the mould of shaping usefulness on the mould seat, and the mould below is equipped with a plurality of footing, and the mould is installed on the mould seat through the cross axle that runs through the footing to relatively fixed through locating component and mould seat, in the frame of cloth machine below walking frame was located to vibrating die platform, mould seat bottom was equipped with the supporting component with vibrating die platform adaptation, and vibrating die platform bottom is equipped with lifting unit and vibrates the subassembly.

Furthermore, the material distributing and stirring unit comprises two first stirring mechanisms, the two first stirring mechanisms are rotatably installed on the inner side of the storage bin, a material distributing plate is arranged in the middle of the two first stirring mechanisms and is of a herringbone structure, the material distributing plate is fixedly connected to the side wall of the storage bin, and a first driving motor for driving the first stirring mechanisms to rotate is arranged on the side wall of the storage bin; the first stirring mechanism comprises a first stirring shaft, two ends of the first stirring shaft are rotatably arranged on the side wall of the storage bin through first bearing assemblies, the cross section of a shaft body of the first stirring shaft is of a polygonal structure, and a plurality of first stirring parts are respectively arranged on the side wall of the shaft body along the circumferential direction and the axial direction of the shaft body.

Furthermore, first stirring portion includes first base, and first base is circular structure, and two arc mounting grooves of fixed usefulness with first (mixing) shaft are seted up to the symmetry on the first base, and the first stirring body of fixedly connected with on the first base.

Furthermore, first stirring body is T type structure, and the bottom and the first base welded fastening of first stirring body, and first stirring body is different angles through first base and arranges on first (mixing) shaft.

Furthermore, a second stirring mechanism is arranged above the material distributing plate, two ends of the second stirring mechanism are rotatably arranged on the side wall of the storage bin, and a second driving motor for driving the second stirring mechanism to rotate is arranged on the side wall of the storage bin; the second stirring mechanism comprises a second stirring shaft, the second stirring shaft is rotatably arranged on the side wall of the storage bin through a second bearing component, the cross section of the shaft body of the second stirring shaft is of a polygonal structure, and a plurality of second stirring parts are respectively arranged on the side wall of the shaft body along the circumferential direction and the axial direction of the shaft body.

Furthermore, the first material distribution unit comprises a plurality of material distribution hoppers which are uniformly distributed at the bottom of the storage bin, the positions of the material distribution hoppers correspond to the positions of the molds below the material distribution hoppers one by one, the second material distribution unit comprises a plurality of push-pull plates which are correspondingly arranged above the material distribution hoppers, a rotating mechanism is arranged at the bottom of each material distribution hopper, the rotating mechanism is movably connected with the material distribution hoppers through a first air cylinder, and the push-pull plates are slidably arranged on the side walls of the storage bin and movably connected with the side walls of the storage bin through second air cylinders; the storage silo lateral wall sets firmly a plurality of stull, and each branch hopper is located on the stull, all is equipped with the weight device between storage hopper and the stull.

Furthermore, the positioning assembly comprises a positioning sleeve, the positioning sleeve is sleeved on the outer side of the cross shaft, one end of the positioning sleeve abuts against the bottom feet of the mold, the other end of the positioning sleeve abuts against the inner wall of one side of the mold base, the two ends of the cross shaft are axially limited through pins, and round holes matched with the cross shaft are formed in the two sides of the mold base.

Further, the vibration mould platform includes the mould platform body, and mould platform body top is equipped with the vibration board with supporting component looks adaptation, and the bottom is equipped with a plurality of groups support column and guide post, and mould platform body bottom still is equipped with mould platform lifting unit and the subassembly that vibrates.

Furthermore, lifting unit includes the pneumatic cylinder, and the expansion end of pneumatic cylinder links to each other with mould platform body bottom, and the stiff end of pneumatic cylinder links to each other with ground, and the subassembly that vibrates includes vibrating motor, and vibrating motor sets firmly in the bottom of mould platform body.

Furthermore, the supporting component comprises a supporting sleeve and a supporting spring of a telescopic structure, one end of the supporting sleeve is connected with the die seat through a supporting beam, the other end of the supporting sleeve is provided with a supporting plate, and the supporting spring is sleeved outside the supporting sleeve and positioned between the supporting beam and the supporting plate.

The utility model discloses owing to adopted foretell structure, it compares with prior art, and the technical progress who gains lies in:

(1) By arranging the travelling mechanism and the lifting mechanism, the position of the material distribution device can be adjusted, so that the material distribution device corresponds to the position of the lower die, and the accuracy of the blanking position is ensured; the concrete in the storage bin is fully stirred by the material distributing and stirring unit, so that the uniformity of the concrete is ensured, and the quality of the cover plate is ensured; through the weighing device and the control system, weighing and distributing of the first distributing unit to the second distributing unit are achieved, then automatic distributing of the materials into the lower die is achieved through the second distributing unit, accurate control is achieved in distributing, the weight and the thickness of the cover plate are uniform and uniform, and the production efficiency is improved;

(2) Fix the mould on the mould seat through locating component and cross axle, after the cloth machine is accomplished and is carried out the concrete cloth to the mould in, lifting unit makes the vibration die platform rise, and the vibration die platform props up the mould seat through supporting component, under the effect of subassembly that vibrates for the stirring is vibrated to the concrete completion in the mould, then the mould seat is followed the walking frame and is transported to next process. The utility model provides a prefabricated apron production of reinforced concrete is with vibration device, its vibration stirring does not need the manual work to vibrate the stirring, has reduced workman's intensity of labour, has further improved work efficiency.

To sum up, the utility model provides a production cloth system is used for producing the prefabricated apron of reinforced concrete, has overcome the mode that adopts manual stirring, stirs one by one through the thing of spade or vibrting spear class to a plurality of moulds on the mould seat, and workman intensity of labour is big, and the problem that production efficiency is low, and work piece weight is stable, and thickness is unified, has guaranteed the processingquality of apron, is applicable to building engineering production facility technical field.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the principles of the invention.

In the drawings:

fig. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is a schematic structural view of a material distribution device in an embodiment of the present invention;

FIG. 3 is a schematic structural view of a material-distributing stirring unit in an embodiment of the present invention;

fig. 4 is another schematic structural diagram of the material-distributing stirring unit in the embodiment of the present invention;

fig. 5 is a schematic perspective view of the material-distributing and stirring unit in the embodiment of the present invention;

fig. 6 is a schematic structural view of a second stirring portion in the embodiment of the present invention;

fig. 7 is a schematic structural view of the first stirring portion in the embodiment of the present invention;

fig. 8 is another schematic structural view of the first stirring portion in the embodiment of the present invention;

fig. 9 is a schematic structural view of a vibrating device according to an embodiment of the present invention;

fig. 10 is a schematic structural view of a mold base according to an embodiment of the present invention;

fig. 11 is another perspective view of the mold base according to the embodiment of the present invention;

fig. 12 is a schematic structural view of a vibration mold table according to an embodiment of the present invention;

fig. 13 is a partially enlarged view of fig. 11 at C.

Labeling components: 01-a frame, 02-a walking mechanism, 03-a lifting mechanism, 04-a control system, 05-a material distribution device, 500-a first stirring mechanism, 5001-a first stirring shaft, 5002-a first bearing component, 5003-a first stirring part, 50031-a first base, 50032-a first mounting hole, 50033-a first stirring body, 50034-an arc-shaped mounting groove, 501-a material separating plate, 502-a second stirring mechanism, 5021-a second stirring shaft, 5022-a second bearing component, 5023-a second stirring part, 50231-a second base, 50232-a second mounting hole, 50233-a second stirring body, 51-a storage bin, 52-a vibrating motor, 53-a driving cylinder, 54-a push-pull plate, 55-a rotating mechanism, 56-a material separating hopper, 57-a meter, 58-a first driving motor and 59-a second driving motor;

10-a walking frame, 13-a mould seat, 14-a walking mechanism, 15-a mould, 40-a mould table body, 41-a vibrating plate, 42-a supporting column, 43-a supporting component, 44-a supporting beam, 45-a vibrating motor, 46-a hydraulic cylinder, 47-a guiding column, 48-a transverse shaft, 480-a positioning pin and 49-a positioning sleeve.

Detailed Description

The preferred embodiments of the present invention will be described below with reference to the accompanying drawings. It should be understood that the preferred embodiments described herein are for purposes of illustration and explanation only and are not intended to limit the invention.

The utility model discloses a prefabricated apron production cloth system of reinforced concrete, as shown in figure 1, including cloth machine and vibrating device, the cloth machine includes the frame, frame 01 top is equipped with walking structure, and running gear 02 is connected with elevating system 03, and elevating system 03 top is equipped with control system 04, and the bottom is equipped with distributing device 05, and running gear 02 and elevating system 03 and distributing device 05 all are connected with control system 04 electricity, distributing device 05 includes storage silo 51, and storage silo 51 inboard is equipped with branch material stirring unit, and storage silo 51 bottom is equipped with first branch material unit, and storage silo 51 lateral wall is equipped with vibration stirring unit and second branch material unit, and first branch material unit is corresponding with second branch material unit position, and first branch material unit is equipped with the weighing device, divides material stirring unit, weighing device, first branch material unit and second branch material unit to be connected with control system 04 electricity. The vibratory mixing unit includes a vibration motor 52 fixedly installed on a sidewall of the storage silo 51. By arranging the vibrating motor 52, the concrete in the storage bin can be further uniformly mixed, and smooth discharging is ensured.

The beneficial effect of this embodiment lies in: by arranging the travelling mechanism 02 and the lifting mechanism 03, the position of the distributing device 05 can be adjusted, so that the distributing device 05 corresponds to the lower die, and the accuracy of the blanking position is ensured; the concrete in the storage bin 51 is fully stirred through the material distributing and stirring unit, so that the uniformity of the concrete is ensured, and the quality of the cover plate is ensured; through weighing device and control system 04, realize that first branch material unit divides the material to the second branch material unit weighing, then the rethread second divides the material unit to divide the material in the mould downwards automatically, and accurate the accuse is accomplished to the cloth, guarantees that the weight and the thickness of apron are even unified, and has improved the efficiency of putting into production.

As shown in fig. 2, the first material distribution unit includes a plurality of material distribution hoppers 56 uniformly distributed at the bottom of the storage bin 51, the second material distribution unit includes a plurality of push-pull plates 54 correspondingly disposed above the material distribution hoppers 56, a rotating mechanism 55 is disposed at the bottom of the material distribution hoppers 56, the rotating mechanism 55 is movably connected with the material distribution hoppers 56 through a first air cylinder, and the push-pull plates 54 are slidably mounted on the side walls of the storage bin 51 and are movably connected with the side walls of the storage bin 51 through a second air cylinder 53. The positions of the material distributing hoppers 56 correspond to the positions of the lower dies one by one, and the material can be distributed in the dies through the material distributing hoppers 56. The lower part of the material distributing hopper 56 is of an arc structure, the rotating mechanism 55 comprises a fan-shaped plate matched with the arc structure below the material distributing hopper 56, and two ends of the first air cylinder are respectively hinged with the fan-shaped plate and the material distributing hopper 56.

The lateral wall of the storage bin 51 is fixedly provided with a plurality of cross braces, each distributing hopper 56 is arranged on the cross brace, and a weighing device is arranged between the storage hopper and the cross braces.

Specifically, the side wall of the storage bin 51 is provided with a plurality of discharge ports matched with a push-pull plate 54, two ends of a second air cylinder 53 are respectively hinged with the push-pull plate 54 and the side wall of the storage bin 51, the second air cylinder 53 is controlled by a control system 04 to move so as to realize the up-and-down movement of the push-pull plate 54, thereby controlling the concrete in the storage bin 51 to flow into a distributing hopper 56, distributing the concrete to a first distributing unit through a second distributing unit, and the distributing weight can be accurately controlled by a meter 57 and the control system 04 of a weighing device so as to ensure that the weight and the thickness of the distributed concrete in each mould are uniform and uniform, thereby ensuring the quality of a cover plate; the two ends of the second air cylinder 53 are hinged to the material distribution hopper 56 and the rotating mechanism 55 respectively, the second air cylinder 53 is controlled to move through the control system 04, the sector plates are rotated, accordingly, concrete in the material distribution hopper 56 is controlled to flow into the molds, the second material distribution unit can automatically distribute materials to the multiple molds at the same time, and production efficiency is improved.

As a preferred embodiment of the present invention, as shown in fig. 3, the material-dividing stirring unit includes two first stirring mechanisms 500, two first stirring mechanisms 500 are rotated and installed in the storage silo 51, and two first stirring mechanisms 500 intermediate positions are provided with a material-dividing plate 501, the material-dividing plate 501 is a herringbone structure, the material-dividing plate 501 is fixedly connected to the side wall of the storage silo 51, and the side wall of the storage silo 51 is provided with a first driving motor 58 for driving the first stirring mechanism 500 to rotate. Divide flitch 501 to divide equally into two stirring spaces with storage silo 51 bottom, stir respectively through two rabbling mechanisms 500, its stirring effect is better, and the direction of arranging of first rabbling mechanism 500 is unanimous with the direction of arranging of two branch hoppers 56 in the below, guarantees that the concrete that flows into in each branch hopper 56 in every row is even.

As another embodiment, as shown in fig. 4, a second stirring mechanism 502 is further disposed above the material distributing plate 501, two ends of the second stirring mechanism 502 are rotatably mounted on a sidewall of the storage bin 51, and a second driving motor 59 for driving the second stirring mechanism 502 to rotate is disposed on the sidewall of the storage bin 51.

The concrete above the storage bin 51 can be uniformly stirred by arranging the second stirring mechanism 502, so that the concrete uniformly flows into the stirring spaces at the positions of the first stirring mechanisms 500 at the two sides below under the shunting action of the material distributing plate 501, the concrete in the stirring spaces at the two sides of the material distributing plate 501 can be further stirred by the first stirring mechanisms 500, the concrete is in a uniform and non-precipitation state when entering the material distributing hopper 56, the second stirring mechanism 502 performs large-area premixing and stirring on the concrete in the storage bin 51, and the first stirring mechanism 500 performs accurate stirring on the small areas at the two sides of the material distributing plate 501. Through from top to bottom in to storage silo 51 like this, stir by thick to smart while, can guarantee the homogeneity of concrete in the storage silo 51 to guarantee to flow into the concrete homogeneity in the mould of below, and then guarantee to lap the quality.

As a preferred embodiment of the present invention, as shown in fig. 5, the first stirring mechanism 500 comprises a first stirring shaft 5001, both ends of the first stirring shaft 5001 are rotatably mounted on the side wall of the storage silo 51 through a first bearing assembly 5002, the cross section of the shaft body of the first stirring shaft 5001 is a quadrilateral structure, and a plurality of first stirring portions 5003 are respectively disposed on the side wall of the shaft body along the circumferential direction and the axial direction thereof. As shown in fig. 7, the first stirring portion 5003 includes a first base 50031, the first base 50031 is rectangular, two first mounting holes 50032 for fixing with the first stirring shaft 5001 are symmetrically formed on the first base 50031, and a first stirring body 50033 is fixedly connected to the first base 50031. The first stirring body 50033 is a T-shaped structure, the bottom of the first stirring body 50033 is welded to the first base 50031, and the first stirring bodies 50033 are arranged on the first stirring shaft 5001 at different angles through the first base 50031. Two first stirring bodies 50033 are 180 degrees and form a set of, distribute on the lateral wall of first (mixing) shaft 5001 along circumference, and the first stirring body 50033 of multiunit is evenly arranged along the axial of first (mixing) shaft, is 90 degrees between the adjacent two sets of first stirring bodies and arranges.

By arranging the first stirring bodies 50033 at different angles, the concrete on the two sides of the material distributing plate 501 can be stirred in different directions, and the uniformity of the concrete before flowing into the material distributing hopper 56 is further ensured. And the first stirring body 50033 and the first stirring shaft 5001 are detachable structures, so that the replacement and installation are convenient.

As a preferred embodiment of the present invention, as shown in fig. 8, the first stirring portion 5003 includes a first base 50031, the first base 50031 is a circular structure, two arc-shaped mounting grooves 50034 for fixing with the first stirring shaft 5001 are symmetrically disposed on the first base 50031, and a first stirring body 50033 is fixedly connected to the first base 50031. First base 50031 is circular structure, and has seted up arc mounting groove 50034, installs it on first (mixing) shaft 5001 through the bolt, makes things convenient for the direction of rotation of first stirring body 50033 to more conveniently realize the adjustment of angle.

Further, as shown in fig. 6, the second stirring mechanism 502 includes a second stirring shaft 5021, the second stirring shaft 5021 is rotatably mounted on the sidewall of the storage silo 51 through a second bearing assembly 5022, the cross section of the shaft body of the second stirring shaft 5021 is a quadrilateral structure, and a plurality of second stirring parts 5023 are respectively arranged on the sidewall of the shaft body along the circumferential direction and the axial direction of the shaft body. Second stirring portion 5023 includes second base 50231 and second stirring body 50233, two second mounting holes 50232 have been seted up on the second base, second stirring body 50233 passes through second base 50231 fixed mounting on second (mixing) shaft 5021, the long bar-shaped structure of second stirring portion 5023 bit, the shaft body cross-section of its second (mixing) shaft 5021 is the quadrangle, two second stirring bodies 50233 are 180 degrees and form a set ofly, distribute on the lateral wall of second (mixing) shaft 5021 along circumference, multiunit second stirring body 50233 is evenly arranged along the axial of second (mixing) shaft, be 90 degrees between the adjacent two sets of second stirring bodies and arrange.

To sum up, the utility model provides a cloth machine is used for the production of the prefabricated apron of reinforced concrete, can guarantee the processingquality of prefabricated apron, and its weight and thickness are evenly unified, and production efficiency improves greatly.

As a preferred embodiment of the utility model, the device of vibrating includes vibration die platform and mould seat 13, as shown in fig. 9, fixed mounting has a plurality of to be used for the prefabricated apron of reinforced concrete to pour the mould 15 of shaping usefulness on the mould seat 13, and mould 15 below is equipped with a plurality of footing, and mould 15 installs on mould seat 13 through the cross axle 48 that runs through the footing to through locating component and mould seat 13 relatively fixed, in the frame of cloth machine below walking frame 10 was located to the vibration die platform, mould seat 13 bottom was equipped with the supporting component 43 with vibration die platform adaptation, and vibration die platform bottom is equipped with lifting unit and vibrates the subassembly.

The beneficial effect of this embodiment lies in: the mould 15 is fixed on the mould base 13 through the positioning assembly and the transverse shaft 48, after the material distributor finishes distributing concrete into the mould 15, the lifting assembly enables the vibration mould table to ascend, the vibration mould table props up the mould base 13 through the supporting assembly 43, under the action of the vibration assembly, the concrete in the mould 15 is vibrated and stirred, and then the mould base 13 is transported to the next process under the driving of the travelling mechanism 14 along the travelling frame 10. The link that the worker manually vibrates and stirs the concrete poured in the die 15 one by one is omitted, the vibration and the stirring are uniform, the automation degree is high, the labor force of the worker is reduced, and the working efficiency is improved.

As a preferred embodiment of the present invention, as shown in fig. 11 and 13, the positioning assembly includes a positioning sleeve 49, the positioning sleeve 49 is sleeved outside the cross shaft 48, one end of the positioning sleeve 49 abuts against the bottom of the mold 15, the other end of the positioning sleeve abuts against one side of the inner wall of the mold base 13, the two ends of the cross shaft 48 are axially limited by the pin 480, and the two sides of the mold base 13 are provided with round holes adapted to the cross shaft 48. The transverse shaft 48 passes through the foot of the mold 15 and secures the mold 15 in the front-to-back and up-and-down directions. The positioning sleeve 49 can select a proper length according to the number of the dies 15, and the dies 15 are limited in the axial direction of the transverse shaft 48 through the positioning sleeve 49, so that the dies 15 and the die base 13 are relatively fixed, and the vibrating and stirring effect is prevented from being influenced by the looseness of the dies 15 in the vibrating and stirring process.

As a preferred embodiment of the present invention, as shown in fig. 12, the vibration mold table includes a mold table body 40, the top of the mold table body 40 is provided with a vibration plate 41 adapted to a support component 43, the bottom of the mold table body is provided with a plurality of support columns 42 and guide columns 47, and the bottom of the mold table body 40 is further provided with a mold table lifting component and a vibration component. The mould platform lifting assembly comprises a hydraulic cylinder 46, the movable end of the hydraulic cylinder 46 is connected with the bottom of the mould platform body 40, the fixed end of the hydraulic cylinder 46 is connected with the ground, the vibrating assembly comprises a vibrating motor 45, and the vibrating motor 45 is fixedly arranged at the bottom of the mould platform body 40.

As a preferred embodiment of the present invention, as shown in fig. 10, the supporting component 43 comprises a supporting sleeve of a telescopic structure and a supporting spring, one end of the supporting sleeve is connected with the die base 13 through a supporting beam 44, the other end is provided with a supporting plate, and the supporting spring is sleeved outside the supporting sleeve and between the supporting beam 44 and the supporting plate. Through setting up supporting component 43, can make mould seat 13 elasticity set up on mould platform body 40, realize the elastic connection between mould 15 and the mould platform to realize the vibration stirring.

As a preferred embodiment of the present invention, the bottom of the mold 15 is provided with four bottom feet, and the bottom feet are provided with via holes adapted to the cross shaft 48. Two vibration mould tables are arranged at the bottom of each mould base 13, four groups of supporting columns 42 and guide sleeves, four hydraulic cylinders 46 and two vibration motors 45 are arranged at the bottom of each vibration mould table. The supporting balance and the vibration stirring effect of the vibration die table are ensured to be uniform.

In a preferred embodiment of the present invention, as shown in fig. 9, the vibrating plate 41 is made of rubber. By providing the vibration plate 41, the frictional force between the die holder 13 and the vibration die table is increased, and the die holder 13 and the die table body 40 can be prevented from being positionally displaced during vibration.

To summer up, the utility model provides a vibrating device is used in production of prefabricated apron of reinforced concrete, its vibration stirring does not need the manual work to vibrate the stirring, has reduced workman's intensity of labour, has further improved work efficiency.

To sum up, the utility model provides a production distributing system is used for producing the prefabricated apron of reinforced concrete, has overcome the mode that adopts manual stirring, stirs one by one through the thing of spade or vibrting spear class to a plurality of moulds on the mould seat, and workman intensity of labour is big, and the problem that production efficiency is low, and work piece weight is stable, and thickness is unified, has guaranteed the processingquality of apron, is applicable to building engineering production facility technical field.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described above, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the scope of the protection of the claims of the present invention.

Claims (10)

1. The utility model provides a reinforced concrete prefabricated cover plate production cloth system which characterized in that: the material distributing device comprises a material distributing machine and a vibrating device, wherein the material distributing machine comprises a rack, the top of the rack is provided with a walking structure, the walking structure is connected with a lifting mechanism, the top of the lifting mechanism is provided with a control system, the bottom of the lifting mechanism is provided with a material distributing device, the walking structure, the lifting mechanism and the material distributing device are electrically connected with the control system, the material distributing device comprises a material storage bin, the inner side of the material storage bin is provided with a material distributing and stirring unit, the bottom of the material storage bin is provided with a first material distributing unit, the side wall of the material storage bin is provided with a vibrating and stirring unit and a second material distributing unit, the first material distributing unit corresponds to the second material distributing unit in position, the first material distributing unit is provided with a weighing device, and the material distributing and stirring unit, the weighing device, the first material distributing unit and the second material distributing unit are electrically connected with the control system;

the utility model discloses a material distributor, including the prefabricated apron of reinforced concrete, the device of vibrating includes vibration die platform and mould seat, fixed mounting has a plurality of to be used for the prefabricated apron of reinforced concrete to pour the mould of shaping usefulness on the mould seat, and the mould below is equipped with a plurality of footing, and the mould is installed on the mould seat through the cross axle that runs through the footing to relatively fixed through locating component and mould seat, in the frame of cloth machine below walking frame was located to the vibration die platform, the mould seat bottom was equipped with the supporting component with vibration die platform adaptation, and vibration die platform bottom is equipped with lifting unit and vibrates the subassembly.

2. The reinforced concrete prefabricated cover plate production and distribution system as claimed in claim 1, wherein: the material distributing and stirring unit comprises two first stirring mechanisms, the two first stirring mechanisms are rotatably arranged on the inner side of the storage bin, a material distributing plate is arranged in the middle of the two first stirring mechanisms, the material distributing plate is of a herringbone structure and is fixedly connected to the side wall of the storage bin, and a first driving motor for driving the first stirring mechanisms to rotate is arranged on the side wall of the storage bin; the first stirring mechanism comprises a first stirring shaft, two ends of the first stirring shaft are rotatably arranged on the side wall of the storage bin through first bearing assemblies, the cross section of a shaft body of the first stirring shaft is of a polygonal structure, and a plurality of first stirring parts are respectively arranged on the side wall of the shaft body along the circumferential direction and the axial direction of the shaft body.

3. The reinforced concrete prefabricated cover plate production and distribution system of claim 2, wherein: the first stirring part comprises a first base, the first base is of a circular structure, two arc-shaped mounting grooves for fixing the first stirring shaft are symmetrically formed in the first base, and a first stirring body is fixedly connected to the first base.

4. The reinforced concrete prefabricated cover plate production and distribution system of claim 3, wherein: the first stirring body is of a T-shaped structure, the bottom of the first stirring body is fixedly welded with the first base, and the first stirring body is arranged on the first stirring shaft at different angles through the first base.

5. The reinforced concrete prefabricated cover plate production and distribution system of claim 2, wherein: a second stirring mechanism is arranged above the material distributing plate, two ends of the second stirring mechanism are rotatably arranged on the side wall of the storage bin, and a second driving motor for driving the second stirring mechanism to rotate is arranged on the side wall of the storage bin; the second stirring mechanism comprises a second stirring shaft, the second stirring shaft is rotatably arranged on the side wall of the storage bin through a second bearing assembly, the cross section of the shaft body of the second stirring shaft is of a polygonal structure, and a plurality of second stirring parts are respectively arranged on the side wall of the shaft body along the circumferential direction and the axial direction of the shaft body.

6. The reinforced concrete prefabricated cover plate production and distribution system as claimed in claim 1, wherein: the first material distribution unit comprises a plurality of material distribution hoppers which are uniformly distributed at the bottom of the storage bin, the positions of the material distribution hoppers correspond to the positions of the molds below the material distribution hoppers one by one, the second material distribution unit comprises a plurality of push-pull plates which are correspondingly arranged above the material distribution hoppers, a rotating mechanism is arranged at the bottom of each material distribution hopper, the rotating mechanism is movably connected with the material distribution hoppers through a first air cylinder, and the push-pull plates are slidably arranged on the side walls of the storage bin and movably connected with the side walls of the storage bin through second air cylinders; the storage silo lateral wall sets firmly a plurality of stull, and each branch hopper is located on the stull, all is equipped with the meter heavy device between storage hopper and the stull.

7. The reinforced concrete prefabricated cover plate production and distribution system of claim 1, wherein: the positioning assembly comprises a positioning sleeve, the positioning sleeve is sleeved on the outer side of the cross shaft, one end of the positioning sleeve abuts against the bottom foot of the mold, the other end of the positioning sleeve abuts against the inner wall of one side of the mold base, the two ends of the cross shaft are axially limited through pins, and round holes matched with the cross shaft are formed in the two sides of the mold base.

8. The reinforced concrete prefabricated cover plate production and distribution system of claim 1, wherein: the vibration mould platform includes the mould platform body, and mould platform body top is equipped with the vibration board with supporting component looks adaptation, and the bottom is equipped with a plurality of groups support column and guide post, and mould platform body bottom still is equipped with mould platform lifting unit and the subassembly that vibrates.

9. The reinforced concrete prefabricated cover plate production and distribution system of claim 8, wherein: the lifting assembly comprises a hydraulic cylinder, the movable end of the hydraulic cylinder is connected with the bottom of the die table body, the fixed end of the hydraulic cylinder is connected with the ground, the vibrating assembly comprises a vibrating motor, and the vibrating motor is fixedly arranged at the bottom of the die table body.

10. The reinforced concrete prefabricated cover plate production and distribution system as claimed in claim 1, wherein: the supporting assembly comprises a supporting sleeve and a supporting spring of a telescopic structure, one end of the supporting sleeve is connected with the die seat through a supporting beam, the other end of the supporting sleeve is provided with a supporting plate, and the supporting spring is sleeved outside the supporting sleeve and located between the supporting beam and the supporting plate.

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