CN215291516U - Concrete grouting device for building construction - Google Patents

Abstract

The utility model discloses a concrete grouting device for building construction, which comprises a fixed block, a vibrator, a hopper and a conveying pipe, wherein the top of the vibrator is connected with the bottom surface of the fixed block through a bolt; the method is characterized in that: the conveying pipeline comprises a connecting block, a pipe body and a dispersing mechanism, the pipe body is close to the middle part of the top end in the connecting block in a nested mode, the top of the dispersing mechanism is installed at the position, close to the right end, of the inner top of the pipe body, and the top end of the pipe body is communicated with the bottom end of the hopper. The material is impacted and dispersed by the thrust swing of the dispersion plate of the dispersion mechanism in the pipe body, so that the sand balls are reduced to be clamped in the material conveying pipe, and the concrete grouting speed is accelerated. The supporting block through the dispersing mechanism receives the thrust horizontal hunting and the reciprocating of material, can promote the discharge velocity of quickening the material with the material to be favorable to the supporting block to reciprocate and drive the dispersion plate constantly to the material striking.

Description

Concrete grouting device for building construction

Technical Field

The utility model belongs to the technical field of the construction, more specifically the theory that says so especially involves a concrete cementer for construction.

Background

The grouting hopper is used for grouting the template with a small gap in the building construction, concrete materials are fed into the hopper, the concrete materials flow along the conveying pipe and are discharged into the gap between the templates, the grouting hopper is provided with a vibrator, the vibrator is started to enable the hopper to vibrate, the concrete materials fall off, and the concrete is prevented from being adhered to the inner wall of the hopper; when the grouting hopper is used for pouring concrete materials in building construction in the prior art, when the concrete materials are not uniformly stirred, sand balls are contained in the materials, the tail end of the conveying pipe is at a horizontal angle, and the phenomenon that the sand balls are clamped in the conveying pipe is easy to occur, so that the concrete grouting speed is reduced.

Disclosure of Invention

When adopting the grout fill to be used for construction to pour into concrete material in order to solve above-mentioned, when concrete material stirring was inhomogeneous, contained husky group in the material, and the conveying pipeline is terminal to horizontal angle, and the husky group card of easy appearance is at the inside phenomenon of conveying pipeline, leads to concrete grouting speed to slow down, the utility model provides a concrete grouting device for construction.

In order to achieve the above purpose, the present invention is realized by the following technical solution:

a concrete grouting device for building construction comprises a fixed block, a vibrator, a hopper and a conveying pipe, wherein the top of the vibrator is connected with the bottom surface of the fixed block through a bolt, the left side surface of the hopper is welded on the surface of the right end of the fixed block, and the top of the conveying pipe is connected with the bottom end of the hopper; the method is characterized in that: the conveying pipeline comprises a connecting block, a pipe body and a dispersing mechanism, the pipe body is close to the middle part of the top end in the connecting block in a nested mode, the top of the dispersing mechanism is installed at the position, close to the right end, of the inner top of the pipe body, and the top end of the pipe body is communicated with the bottom end of the hopper.

As a further improvement of the utility model, dispersion mechanism includes supporting shoe, two dispersion boards, links up axle, a plurality of kickers, and the both sides surface in the supporting shoe bottom is installed through linking up the axle to two dispersion board bottoms, and all kickers bottoms are fixed respectively at two dispersion board inboard surfaces, and the supporting shoe top is installed on the body, and all kickers press from both sides respectively between supporting shoe bottom surface and dispersion board inboard surface, and the dispersion board respectively with all the same kickers clearance fit.

As a further improvement, the dispersion plate includes expansion plate, extension board, a plurality of striking piece, a side surface that an expansion plate tip was fixed near the top at the supporting shoe, a side surface that the extension board is close to the top is connected with another tip of expansion plate, and all striking piece sides are installed in extension board another side, the expansion plate is the folded sheet of rubber material.

As the utility model discloses a further improvement, the striking piece includes block, shape deformation piece, pushing ball, shape deformation piece bottom nestification is put at the top central point in the block, and the middle part sets up an inner chamber perpendicularly in the block, the pushing ball is placed inside the inner chamber, shape deformation piece top is installed on the extension board, the block bottom surface is the closed angle form, the pushing ball is the ball of metal material.

As a further improvement of the utility model, the supporting shoe is including linking up piece, a plurality of draw-in groove, a plurality of pole, sliding ball, and every draw-in groove from top to bottom is sunken in linking up a top surface, and every links up the pole bottom cover inside a draw-in groove, sets up an inside groove in linking up the interior bottom of piece, the sliding ball is located inside the inside groove and can slide, and the top of all poles that link up is installed on the body. The supporting blocks are hung at the bottom in the pipe body through connecting rods, and the number of the connecting rods is three.

As a further improvement, the joint rod includes branch, push pedal, bounce-back board, install at branch bottom surface middle part on the push pedal top, bounce-back board upper surface middle part and push pedal bottom end clearance fit, the diameter ratio draw-in groove of branch both sides is interior big at top, install on the body at the top of branch.

As a further improvement, branch includes the body of rod, side channel, swivel becket, collects the chamber, the side channel is sunken respectively in the body of rod between the left and right sides surface of lower position and the inside, the swivel becket sets up inside the side channel, collect the chamber and set up the bottom in the body of rod, and control both ends top and be linked together with the side channel, swivel becket and draw-in groove inner wall clearance fit, the top of the body of rod is installed on the body.

As a further improvement, the collecting cavity comprises a frame, two stop plates and two supporting bars, the top parts of the two stop plates are hinged with the frame at the inner top parts close to the left and right sides, the two supporting bars are arranged at the bottom surfaces of the two stop plates, and the bottom part in the frame is a sunken semicircular groove.

Advantageous effects

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

1. because when concrete material stirred inhomogeneous, contained sand group in the material, and the conveying pipeline is terminal for horizontal angle, the inside phenomenon of sand group card at the conveying pipeline easily appears, through be equipped with dispersion mechanism in the body inside, dispersion plate among the dispersion mechanism receives the thrust swing of material, with the material striking dispersion after the bounce-back, reduces sand group card inside the conveying pipeline for concrete grouting speed.

2. Because the tail end of the conveying pipeline is at a horizontal angle, the discharging speed of the material is slow, the linking rod is arranged through the supporting block and is hinged with the inner top of the pipeline body, the supporting block can swing left and right under the thrust of the material and move up and down, the material can be pushed to accelerate the discharging speed of the material, and the supporting block can move up and down to drive the dispersion plate to continuously impact the material.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural view of the inside of the feeding pipe of the present invention.

Fig. 3 is a schematic structural diagram of a side sectional view of the dispersing mechanism of the present invention.

Fig. 4 is a schematic structural diagram of the side view of the dispersion plate of the present invention.

Fig. 5 is a schematic structural view of the impact block in a cross-sectional view.

Fig. 6 is a schematic structural view of the supporting block in a side sectional view.

Fig. 7 is a schematic side sectional view of the joint rod according to the present invention.

Fig. 8 is a schematic structural view of a cross-sectional side view of the support rod of the present invention.

Fig. 9 is a schematic structural view of the collection chamber interior side view of the present invention.

In the figure: a fixed block-1, a vibrator-2, a hopper-3, a material conveying pipe-4, a connecting block-41, a pipe body-42, a dispersing mechanism-43, a supporting block-431, a dispersing plate-432, a connecting shaft-433, a push sheet-434, a telescopic plate-32 a, a supporting plate-32 b, an impact block-32 c, a block body-c 1, a deformation block-c 2 and an inner cavity-c 3, push ball-c 4, connecting block-31 a, clamping groove-31 b, connecting rod-31 c, inner groove-31 d, sliding ball-31 e, support rod-r 1, push plate-r 2, rebound plate-r 3, rod body-r 11, side groove-r 12, rotating ring-r 13, collecting cavity-r 14, frame-t 1, blocking plate-t 2 and supporting strip-t 3.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

example 1:

as shown in fig. 1 to 5: the utility model provides a concrete cementer for construction, its structure includes fixed block 1, electromagnetic shaker 2, hopper 3, conveying pipeline 4, 2 tops of electromagnetic shaker and 1 underrun bolted connection of fixed block, the welding of 3 left surfaces of hopper is on 1 right-hand member surface of fixed block, 4 tops of conveying pipeline are connected with 3 bottoms of hopper. As shown in fig. 2, the feed delivery pipe 4 comprises a connecting block 41, a pipe body 42 and a dispersing mechanism 43, the pipe body 42 is embedded in the middle of the connecting block 41 near the top end, the top of the dispersing mechanism 43 is installed at the inner top position of the pipe body 42 near the right end, and the top end of the pipe body 42 is communicated with the bottom end of the hopper 3.

As shown in fig. 3, the dispersing mechanism 43 includes a supporting block 431, two dispersing plates 432, a connecting shaft 433, eight pushing plates 434, the bottom ends of the two dispersing plates 432 are connected and installed on the two side surfaces of the bottom of the supporting block 431 through the connecting shaft 433, the bottom ends of all the pushing plates 434 are fixed on the inner side surfaces of the two dispersing plates 432, the pushing plates 434 are respectively clamped between the bottom surface of the supporting block 431 and the inner side surfaces of the dispersing plates 432, the top of the supporting block 431 is installed on the pipe body 42, and the dispersing plates 432 are respectively in movable fit with the four same pushing plates 434, when the dispersing plates 432 are swung towards the bottom surface of the supporting block 431 by the thrust of the material, the pushing plates 434 are pushed and deformed, the pushing plates 434 can be increased to generate a rebound force after being reset, which is beneficial to pushing the dispersing plates 432 to impact and disperse sand lumps.

As shown in fig. 4, the dispersion plate 432 includes an expansion plate 32a, a support plate 32b, and seven impact blocks 32c, the left end of the expansion plate 32a is fixed to the right side surface of the support block 431 near the top, the left side surface of the support plate 32b near the top is connected to the right end of the expansion plate 32a, the left side surface of the impact block 32c is installed on the right side surface of the support plate 32b, and the expansion plate 32a is a rubber folding plate, and has elasticity, so that the expansion and contraction of the expansion plate 32a along with the swing of the dispersion plate 432 are facilitated, the external concrete material can be blocked, the introduction of the concrete material along the gap between the dispersion plate 432 and the support block 431 is reduced, the phenomenon that the dispersion plate 432 is stuck to the bottom surface of the support block 431 is reduced, and the normal swing of the dispersion plate 432 is facilitated.

As shown in fig. 5, the impact block 32c includes a block c1, a deformation block c2, and a pushball c4, the bottom of the deformation block c2 is nested in the center of the top of the block c1, an inner cavity c3 is vertically arranged in the middle of the block c1, the pushball c4 is placed inside the inner cavity c3, the top of the deformation block c2 is mounted on the support plate 32b, the bottom surface of the block c1 is in a pointed shape, so that the impact force of the block c1 on the sand ball can be increased, the sand ball is sufficiently impacted and dispersed, the pushball c4 is a round ball made of metal, the dispersion plate 432 swings, the pushball c4 moves in the inner cavity c3 to generate power, and the impact block 32c is favorably impacted by the pushball c 4.

The specific use mode and function of the embodiment are as follows:

in the utility model, the vibrator 2 of the grouting hopper is controlled to start, the concrete material after stirring is filled into the hopper 3, the material drops down to the inside of the pipe body 42 of the conveying pipe 4 along the hopper 3, the material is discharged through the conveying pipe 4 and is treated by gap grouting towards the template, when the material flows towards the outside of the right end of the pipe body 42, the two ends of the dispersion plate 432 of the dispersion mechanism 43 are driven by the driving force of the material to swing towards the bottom surface of the supporting block 431 by taking the connecting shaft 433 as a fulcrum, when the dispersion plate 432 swings, the support plate 32b drives the push sheet 434 and the expansion plate 32a to deform and shrink, the push sheet 434 and the expansion plate 32a reset rapidly to generate the reverse driving force, the dispersion plate 432 is pushed and expanded reversely, the impact block 32c of the dispersion plate 432 impacts the material, the impact block 32c impacts the material, the push ball c4 moves in the inner cavity c3 of the block 1, power is generated, the position of the impact block 32c is changed, rebound behind the deformation piece c2 deformation of striking piece 32c, with block c1 backstepping for block c1 constantly strikes the material, accelerates the speed to the material dispersion, through being equipped with dispersion mechanism 43 in body 42 inside, dispersion board 432 in dispersion mechanism 43 receives the thrust swing of material, with the material striking dispersion after the rebound, reduces sand ball card inside conveying pipeline 4, accelerates concrete grouting speed.

Example 2:

as shown in fig. 6, the supporting block 431 includes a connecting block 31a, three slots 31b, three connecting rods 31c, an inner groove 31d, and a sliding ball 31e, each slot 31b is recessed from top to bottom on the top surface of the connecting block 31a, the bottom end of each connecting rod 31c is sleeved inside one slot 31b, the inner groove 31d is disposed at the bottom inside the connecting block 31a, the sliding ball 31e is disposed inside the inner groove 31d and can slide, and the tops of all the connecting rods 31c are mounted on the tube 42. The supporting blocks 431 are hung at the inner bottom of the pipe body 42 through the connecting rods 31c, so that the supporting blocks 431 can swing left and right under the thrust of material flow, the material can be pushed, the discharging speed of the material is accelerated, the three connecting rods 31c are arranged, the supporting force of the supporting blocks 431 can be increased, the phenomenon that one end of the supporting blocks 431 under the thrust of the material inclines is reduced, and the supporting blocks 431 can swing freely.

As shown in fig. 7, the joint rod 31c includes a supporting rod r1, a pushing plate r2 and a rebounding plate r3, the top end of the pushing plate r2 is installed in the middle of the bottom surface of the supporting rod r1, the middle of the upper surface of the rebounding plate r3 is movably matched with the bottom end of the pushing plate r2, the top of the supporting rod r1 is installed on the pipe body 42, the diameter of the two sides of the supporting rod r1 is larger than that of the inner top of the clamping groove 31b, so that the two sides of the supporting rod r1 are movably clamped with the inner top of the clamping groove 31b, the position of the joint rod 31c moving up and down is limited, the joint rod 31c moves up and down in the clamping groove 31b, the supporting block 431 can be driven to move up and down, and the impact force of the supporting block 431 on sand lumps can be further increased.

As shown in fig. 8, the supporting rod r1 includes a rod body r11, a side groove r12, a rotating ring r13 and a collecting cavity r14, the side groove r12 is respectively recessed between the left and right side surfaces and the inside of the middle-lower position of the rod body r11, the rotating ring r13 is disposed inside the side groove r12, the collecting cavity r14 is disposed at the bottom of the rod body r11, the top of the left and right ends of the collecting cavity r14 are communicated with the side groove r12, the rotating ring r13 is movably matched with the inner wall of the slot 31b, the top of the rod body r11 is mounted on the tube body 42, so that the friction between the supporting rod r1 and the inner wall of the slot 31b can be reduced, the up-and-down moving speed of the supporting rod r1 can push the material remaining on the inner wall of the slot 31b up and towards the outside of the slot 31b for discharging, and the material can be blocked, and the material can be prevented from entering the bottom of the slot 31 b.

As shown in fig. 9, the collecting cavity r14 includes a frame t1, two blocking plates t2, two supporting strips t3, two blocking plates t2 are hinged to the frame t1 near the top of the left and right sides, two supporting strips t3 are disposed on the bottom of the blocking plate t2, the bottom of the frame t1 is a recessed semi-circular groove, so as to increase the volume inside the collecting cavity r14, and facilitate the material which is not completely discharged inside the clamping groove 31b to flow into the frame t1 for collection.

The specific use mode and function of the embodiment are as follows:

in the utility model, when the material flows in the pipe 42, the dispersing mechanism 43 is pushed by the material to swing left and right with the connecting rod 31c as a pivot, and the sliding ball 31e moves in the inner groove 31d to generate power to accelerate the left and right swinging speed of the supporting block 431, and when the material passes through more, the supporting block 431 is pushed by the material to move upwards, so that the connecting rod 31c is movably matched with the clamping groove 31b in the connecting block 31a, and the rotating rings r13 at the two sides of the support rod r1 are contacted with the inner wall of the clamping groove 31b to accelerate the upward moving speed of the connecting block 31a, and the material at the inner wall of the clamping groove 31b is pushed by the rotating rings r13 to flow and discharge outside the clamping groove 31b, after the connecting block 31a moves upwards to a certain distance, the push plate r2 and the rebound plate r3 at the bottom of the support rod r1 are deformed by the pushing force of the connecting block 31a, and the rebound force is generated by resetting to rebound and reset the connecting block 31a, when the material is reset, the rotating ring r13 is movably clamped and limited with the inner top of the clamping groove 31b, the connecting block 31a moves up and down to drive the dispersing plate 432 to continuously impact the material, a small part of the material remained in the clamping groove 31n is led into the side groove r12 of the rod body r11, the material is led into the frame t1 along the collecting cavity r14 again, the material is firstly accumulated above the blocking plate t2, when the gravity of the material is larger, the blocking plate t2 is pressed downwards, the blocking plate t2 pushes the supporting strip t3 to shrink, the blocking plate t2 is inclined, the material slides to the inner bottom of the frame t1 to be collected, after the material falls, the supporting strip t3 pushes the blocking plate t2 to reset, the material at the inner bottom of the frame t1 can be blocked, the phenomenon of material occurrence is reduced, the connecting rod 31c is arranged on the supporting block 431, the connecting rod 31c is hinged with the inner top of the tube body 42, the supporting block 431 can enable the supporting block 431 to swing left and right and move up and down, the material can be pushed to accelerate the discharge speed of the material, and the supporting block 431 is favorable to move up and down to drive the dispersion plate 432 to continuously impact the material.

Utilize technical scheme, or technical personnel in the field are in the utility model discloses under technical scheme's the inspiration, design similar technical scheme, and reach above-mentioned technological effect, all fall into the utility model discloses a protection scope.

Claims (10)

1. The utility model provides a concrete cementer for construction, includes fixed block (1), electromagnetic shaker (2), hopper (3), conveying pipeline (4), electromagnetic shaker (2) top and fixed block (1) underrun bolted connection, hopper (3) left surface welding is on fixed block (1) right-hand member surface, conveying pipeline (4) top is connected its characterized in that with hopper (3) bottom:

conveying pipeline (4) are including connecting block (41), body (42), dispersion mechanism (43), body (42) are close to the top and nestification is middle part in connecting block (41), dispersion mechanism (43) top is installed and is being close to the interior top position of right-hand member at body (42), body (42) top is linked together with hopper (3) bottom.

2. The concrete grouting device for building construction according to claim 1, wherein: dispersing mechanism (43) are including supporting shoe (431), two dispersion plates (432), join axle (433), a plurality of kickers (434), two dispersion plate (432) bottoms are through joining axle (433) link up and install the both sides surface at supporting shoe (431) bottom, all kickers (434) bottom are fixed respectively at two dispersion plate (432) inboard surface, install on body (42) at supporting shoe (431) top, all kickers press from both sides respectively between supporting shoe bottom surface and dispersion plate inboard surface, and the dispersion plate respectively with all the same kickers clearance fit.

3. The concrete grouting device for building construction according to claim 2, wherein: the dispersion plate (432) comprises a telescopic plate (32a), a support plate (32b) and a plurality of impact blocks (32c), one end of the telescopic plate (32a) is fixed on one side surface of the support block (431) close to the top, one side surface of the support plate (32b) close to the top end is connected with the other end of the telescopic plate (32a), and one side surface of each impact block (32c) is installed on the other side surface of the support plate (32 b).

4. The concrete grouting device for building construction according to claim 3, wherein: the impact block (32c) comprises a block body (c1), a deformation block (c2) and a push ball (c4), the bottom of the deformation block (c2) is nested in the center of the top of the block body (c1), an inner cavity (c3) is vertically arranged in the middle of the block body (c1), the push ball (c4) is placed inside the inner cavity (c3), and the top of the deformation block (c2) is mounted on the support plate (32 b).

5. The concrete grouting device for building construction according to claim 2, wherein: the supporting shoe (431) is including linking up piece (31a), a plurality of draw-in groove (31b), a plurality of pole (31c), sliding ball (31e) that links up, and every draw-in groove (31b) from top to bottom is sunken in linking up piece (31a) top surface, and every links up pole (31c) bottom cover inside a draw-in groove (31b), and the bottom sets up an inside groove (31d) in linking up piece (31a), sliding ball (31e) are located inside groove (31d) and can slide, and the top of all poles (31c) that link up is installed on body (42).

6. The concrete grouting device for building construction according to claim 5, wherein: join pole (31c) and include branch (r1), push pedal (r2), bounce-back board (r3), install at branch (r1) bottom surface middle part on push pedal (r2) top, bounce-back board (r3) upper surface middle part and push pedal (r2) bottom end clearance fit, the top of branch (r1) is installed on body (42).

7. The concrete grouting device for building construction according to claim 6, wherein: the supporting rod (r1) comprises a rod body (r11), a side groove (r12), a rotating ring (r13) and a collecting cavity (r14), wherein the side groove (r12) is respectively recessed between the surfaces of the left side and the right side of the middle-lower position of the rod body (r11) and the inner portion of the middle-lower position of the rod body, the rotating ring (r13) is arranged inside the side groove (r12), the collecting cavity (r14) is formed in the inner bottom of the rod body (r11), the tops of the left end and the right end of the left end of the rod body are communicated with the side groove (r12), the rotating ring (r13) is movably matched with the inner wall of the clamping groove (31b), and the top of the rod body (r11) is installed on the pipe body (42).

8. The concrete grouting device for building construction according to claim 7, wherein: the collecting cavity (r14) comprises a frame (t1), two blocking plates (t2) and two supporting bars (t3), wherein top end subsections of the two blocking plates (t2) are hinged to the inner tops of the left side and the right side of the frame (t1), and the two supporting bars (t3) are respectively arranged on the bottom surfaces of the two blocking plates (t 2).

9. The concrete grouting device for building construction according to claim 3, wherein: the expansion plate (32a) is a folding plate made of rubber.

10. The concrete grouting device for building construction according to claim 4, wherein: the bottom surface of the block body (c1) is in a sharp-horn shape, and the push ball (c4) is a round ball made of metal.

Images