CN211006230U - Curbstone cementation of fissures auxiliary device - Google Patents

Abstract

The utility model discloses a curbstone cementation of fissures auxiliary device, including the hopper on osculum end embedding double-phase adjacent curbstone clearance upper portion, in sliding connection has on the hopper and is used for pouring into the filler subassembly in double-phase adjacent curbstone clearance by the osculum end of hopper with the concrete in the hopper under the exogenic push-and-pull. The utility model has the characteristics of easy operation, packing are efficient, and the concrete packing is closely knit, the utility model is suitable for a carry out the technical field that the concrete was filled to the gap in the construction.

Description

Curbstone cementation of fissures auxiliary device

Technical Field

The utility model belongs to the technical field of carry out the concrete filling to the seam in the construction, specifically speaking relates to a curbstone cementation of fissures auxiliary device.

Background

Currently, in the process of paving the road edge stones, concrete needs to be injected into the gap between the two road edge stones so as to realize the connection and fixation of the road edge stones. The existing concrete injection method is to gradually fill the concrete into the gap by using a plastering plate, but the method has low filling efficiency and high labor intensity, and the concrete filling is not compact, so that the connection between two road edge stones is unstable.

SUMMERY OF THE UTILITY MODEL

The utility model provides an easy operation, packing efficiency are high, and the closely knit curbstone cementation of fissures auxiliary device is filled to the concrete.

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

the utility model provides a curbstone cementation of fissures auxiliary device, includes the hopper on the upper portion of the two adjacent curbstones clearance of osculum end embedding, in sliding connection has on the hopper and pushes away the lower filler subassembly that is used for pouring into the concrete in the hopper into the two adjacent curbstones clearance by the osculum end of hopper under the exogenic push-and-pull.

Furthermore, the packing assembly comprises a vertically arranged inserting plate which can reciprocate between a large opening end and a small opening end of the feeding hopper under the driving of external force, and a push-pull handle which is in sliding connection with the feeding hopper is constructed at the end part of one end of the inserting plate, which is far away from the road edge stone.

Furthermore, one end of the flashboard close to the small opening end of the feeding hopper is provided with a material pushing portion, the end face of the material pushing portion close to the small opening end of the feeding hopper is an arc-shaped face, and the arc-shaped face is sunken upwards along the vertical direction.

Furthermore, a holding rod for holding by an operator is constructed at one end of the feeding hopper far away from the small opening end of the feeding hopper, and the push-pull handle is connected with the holding rod in a sliding manner.

Furthermore, a guide piece is arranged between the push-pull handle and the handheld rod, the guide piece and the handheld rod are detachably fastened, and the guide piece is connected with the push-pull handle in a sliding mode.

Further, the guide member includes a hoop fastened to the hand-held pole by a fastening bolt, and a guide tube configured on the hoop and having an axis extending in a vertical direction, and the push-pull handle penetrates the guide tube along the axis of the guide tube and is slidably coupled to the guide tube.

Furthermore, two surfaces of the feeding hopper, which are contacted with the two paths of edge stones, are respectively provided with a jacking piece.

Further, the top connects the roof that the piece includes that its surface offsets with the upper surface of corresponding curbstone, and construct as an organic whole with the roof and with the regulating plate of the corresponding side laminating of hopper, in it has the bar hole to open on the regulating plate, the bar hole upwards extends along the side slope of regulating plate and hopper contact, in be equipped with the locking bolt who runs through the bar hole between regulating plate and the corresponding side of hopper.

Furthermore, two sides of the feeding hopper, which are close to the gap between the two road edge stones, are respectively and rotatably connected with a limited material plate.

Furthermore, elastic telescopic rods are respectively fixed on the feeding hopper and the corresponding side surfaces of the two material limiting plates, the axis of each elastic telescopic rod is the same as the thickness direction of the two curbs, each material limiting plate is rotatably connected to the corresponding elastic telescopic rod, and the material limiting plates abut against the gap between the two curbs or the side surface of one of the two curbs under the elastic force of the elastic telescopic rods.

The utility model discloses owing to adopted foretell structure, it compares with prior art, and the technical progress who gains lies in: the feeding hopper is provided with a large opening end and a small opening end, and concrete is injected into the feeding hopper from the large opening end and discharged from the small opening end; the filler assembly is connected to the feeding hopper in a sliding mode, concrete in the feeding hopper is injected into a gap between two adjacent road edge stones from a small opening end of the feeding hopper under the pushing and pulling of external force, the filler assembly is pushed and pulled in a reciprocating mode in such a way that the concrete gradually enters the gap, continuous feeding is always kept in the gap filling process, and the phenomenon that filling is not compact due to intermittent feeding is avoided; and because the osculum end of hopper inlays on the upper portion in double-phase adjacent curbstone clearance, the in-process hopper that packs in succession is difficult to take place the incline for it is accurate to pack, simultaneously the utility model discloses compare conventional claying board and pack and have easy operation, fill efficient characteristics.

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 invention and not to limit 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 hopper according to an embodiment of the present invention;

FIG. 3 is a schematic structural view of a packing assembly according to an embodiment of the present invention;

fig. 4 is a schematic view of a partial structure of a plug board according to an embodiment of the present invention;

FIG. 5 is a schematic structural view of a guide according to an embodiment of the present invention;

fig. 6 is a schematic view of a partial structure at another angle according to an embodiment of the present invention.

Labeling components: 1-a feeding hopper, 2-a handheld rod, 3-an inserting plate, 301-a material pushing part, 4-a push-pull handle, 5-a guide piece, 501-a guide pipe, 502-a hoop, 503-a fastening bolt, 6-a jacking piece, 601-a top plate, 602-an adjusting plate, 603-a strip-shaped hole, 604-a locking bolt, 7-a material limiting plate and 8-an elastic telescopic rod.

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.

Embodiment road edge stone cementation of fissures auxiliary device

The embodiment discloses a road edge stone crack pouring auxiliary device, which comprises a feeding hopper 1 and a filling assembly, as shown in fig. 1. As shown in fig. 2, the feeding hopper 1 is tapered downward along the vertical direction to form a large opening end and a small opening end, concrete is injected into the feeding hopper 1 from the large opening end and discharged from the small opening end, and the cross section of the feeding hopper 1 is a rectangle with the length gradually reduced. The small end of the feeding hopper 1 extends into the upper part of the gap between two adjacent road edge stones, and the feeding hopper 1 is clamped at the gap with the corresponding side surfaces of the two road edge stones. In order to facilitate the constructor to hold the hopper 1, a holding rod 2 for the operator to hold is installed at one end of the hopper 1 away from the small opening end. Pack the subassembly and 1 sliding connection of hopper, and pack the subassembly and push away under the exogenic thrust and pull down with the concrete in the hopper 1 pour into two adjacent curbstones gaps into by the osculum end of hopper 1 in to the realization is to the packing in this gap. The working principle of the embodiment is as follows: the filler assembly is pushed and pulled by external force to inject concrete in the feeding hopper 1 into the gap between two adjacent road edge stones from the small opening end of the feeding hopper 1, so that the filler assembly is pushed and pulled in a reciprocating manner to enable the concrete to gradually enter the gap, continuous feeding is always kept in the gap filling process, the phenomenon that intermittent feeding cannot be avoided in the filling process of the plastering trowel is avoided, and further the concrete is tightly filled; and because the osculum end of hopper 1 inlays on the upper portion in two adjacent curbstone clearances, hopper 1 is difficult to take place the skew at the in-process that packs in succession for it is accurate to pack, avoids local insufficient phenomenon of packing to take place, and conventional claying board filler has easy operation, the efficient characteristics of packing are compared to this embodiment simultaneously.

The preferred structure of the packing assembly of this embodiment is, as shown in fig. 3, the packing assembly includes a vertically arranged insertion plate 3, a push-pull handle 4 is fixedly installed at one end of the insertion plate 3 far away from the curbstone, wherein, the push-pull handle 4 is slidably connected with the handheld rod 2 of the feeding hopper 1, and a constructor can push and pull the push-pull handle 4 up and down in a reciprocating manner, so as to realize the reciprocating motion of the insertion plate 3 between the large-mouth end and the small-mouth end of the feeding hopper 1, and further to gradually and continuously supply the concrete in the feeding hopper 1 to the gap between two adjacent curbstones. In order to enable the insert plate 3 to fully drive the concrete to enter the gap through the small opening end of the feeding hopper 1, as shown in fig. 4, a material pushing portion 301 is integrally formed at one end of the insert plate 3 close to the small opening end of the feeding hopper 1, the end face of the material pushing portion 301 close to the small opening end of the feeding hopper 1 is an arc-shaped face, and the arc-shaped face is recessed upwards along the vertical direction.

In the sliding connection between the push-pull handle 4 and the handheld rod 2 of the present embodiment, as shown in fig. 1 and 5, two guiding members 5 are preferably disposed between the push-pull handle 4 and the handheld rod 2, and the two guiding members 5 are respectively located at vertical positions where the push-pull handle 4 and the handheld rod 2 are parallel to each other. Wherein, the guiding piece 5 and the handheld rod 2 are detachably fastened together, and the guiding piece 5 is connected with the push-pull handle 4 in a sliding way. The guide piece 5 comprises an anchor ear 502 and a guide pipe 501, the anchor ear 502 and the guide pipe 501 are integrally cast, the anchor ear 502 is fastened on the handheld rod 2 through a fastening bolt 503, the axial direction of the guide pipe 501 is the same as the movement direction of the inserting plate 3, the push-pull handle 4 penetrates through the guide pipe 501 along the axial line of the guide pipe 501, namely the guide pipe 501 is sleeved outside the vertical position of the push-pull handle 4, and the push-pull handle 4 can slide relative to the guide pipe 501.

In order to prevent the lateral deviation and to adapt to the gaps with different widths, the top joint members 6 are respectively installed on both surfaces of the hopper 1 contacting with the two curbstones. As shown in fig. 1 and 2, the top connection member 6 includes a top plate 601 and an adjusting plate 602 integrally formed with the top plate 601, a lower surface of the top plate 601 abuts against an upper surface of a corresponding curb stone, the adjusting plate 602 is attached to a side surface corresponding to the hopper 1, a strip-shaped hole 603 is formed in the adjusting plate 602, the strip-shaped hole 603 extends upwards along a side surface of the adjusting plate 602 contacting with the hopper 1 in an inclined manner, a locking bolt 604 penetrating through the strip-shaped hole 603 is arranged between the adjusting plate 602 and the side surface corresponding to the hopper 1, and the locking bolt 604 is in threaded connection with the hopper 1. Constructor realizes the regulation of roof 601 height through loosening locking bolt 604 to make roof 601 erect hopper 1 to predetermined height, in order to adapt to the clearance of the adjacent curbstone of various different widths, later, screws locking bolt 604, realizes the fixed between regulating plate 602 and hopper 1.

In this embodiment, in order to avoid waste of concrete during the filling process and simultaneously detect the filling condition, as shown in fig. 1 and 6, two limiting plates 7 are respectively rotatably connected to the feeding hopper 1 and the two sides close to the gap between two adjacent curbstones. The concrete link mode of limit flitch 7 does, is fixed with elasticity telescopic link 8 respectively on hopper 1 and the corresponding side of two limit flitchs 7, and this elasticity telescopic link 8 adopts the spring and the both ends of spring are fixed with the stereoplasm pole respectively and the shaft-like structure that forms for the middle part, and wherein, the axis of elasticity telescopic link 8 is the same with the thickness direction of curbstone, and every limit flitch 7 rotates to be connected on corresponding elasticity telescopic link 8. In the construction process, a constructor manually pulls the material limiting plate 7 to enable the material limiting plate 7 to drive the corresponding elastic telescopic rod 8 to stretch, then the material limiting plate 7 is abutted to the gap of the two road edge stones, the material limiting plate 7 is tightened at the gap under the elastic action of the elastic telescopic rod 8 and exposes the lower half section of the gap, the lower part of the gap is gradually filled with concrete along with the injection of the concrete, the concrete overflows from the exposed part of the gap after being filled, thus the lower half section of the gap is proved to be filled, then the material limiting plate 7 is rotated to enable the material limiting plate 7 to be abutted to the side face of one of the two road edge stones and completely expose the gap, the gap is continuously fed in the process until the upper half section of the gap is completely filled, and finally the part of the concrete overflowing the gap is scraped.

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 in the foregoing embodiments, 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 curbstone cementation of fissures auxiliary device which characterized in that: the concrete filling device comprises a feeding hopper with a small opening end embedded into the upper part of the gap between the two adjacent road edge stones, and a filling component which is pushed and pulled by external force and is used for filling concrete in the feeding hopper into the gap between the two adjacent road edge stones through the small opening end of the feeding hopper is connected onto the feeding hopper in a sliding mode.

2. The curbstone crack pouring auxiliary device of claim 1, wherein: the filler assembly comprises a vertically arranged inserting plate which can reciprocate at a large-opening end and a small-opening end of the feeding hopper under the driving of external force, and a push-pull handle which is in sliding connection with the feeding hopper is constructed at the end part of one end of the inserting plate, which is far away from the curb stone.

3. The curbstone crack pouring auxiliary device of claim 2, wherein: the flashboard is close to one end of the small opening end of the feeding hopper is provided with a material pushing portion, the end face of the material pushing portion close to the small opening end of the feeding hopper is an arc-shaped face, and the arc-shaped face is sunken upwards along the vertical direction.

4. The curbstone crack pouring auxiliary device of claim 2, wherein: and a handheld rod for an operator to hold is constructed at one end of the feeding hopper, which is far away from the small opening end of the feeding hopper, and the push-pull handle is connected with the handheld rod in a sliding manner.

5. The curbstone crack pouring auxiliary device of claim 4, wherein: and a guide piece is arranged between the push-pull handle and the handheld rod, the guide piece and the handheld rod are detachably fastened, and the guide piece is connected with the push-pull handle in a sliding manner.

6. The curbstone crack pouring auxiliary device of claim 5, wherein: the guide piece comprises a hoop fastened on the handheld rod through a fastening bolt, and a guide pipe which is constructed on the hoop and has an axis extending along the vertical direction, and the push-pull handle penetrates through the guide pipe along the axis of the guide pipe and is connected with the guide pipe in a sliding mode.

7. The curbstone crack pouring auxiliary device of claim 1, wherein: and the two surfaces of the feeding hopper, which are contacted with the two paths of edge stones, are respectively provided with a jacking piece.

8. The curbstone crack pouring aid of claim 7, wherein: the top connects the roof that the piece includes its surface and the upper surface counterbalance of corresponding curbstone, and construct as an organic whole with the roof and with the regulating plate of the corresponding side laminating of hopper, in it has the bar hole to open on the regulating plate, the bar hole upwards extends along the side slope of regulating plate and hopper contact, in be equipped with the locking bolt who runs through the bar hole between regulating plate and the corresponding side of hopper.

9. The curbstone crack pouring auxiliary device of claim 1, wherein: and two sides of the feeding hopper, which are close to the gap between the two road edge stones, are respectively and rotatably connected with a limited material plate.

10. The curbstone crack pouring aid of claim 9, wherein: and elastic telescopic rods are respectively fixed on the feeding hopper and the corresponding side surfaces of the two material limiting plates, the axis of each elastic telescopic rod is the same as the thickness direction of the road edge stones, each material limiting plate is rotatably connected to the corresponding elastic telescopic rod, and the material limiting plates abut against the gap between the two road edge stones or the side surface of one of the two road edge stones under the elastic action of the elastic telescopic rods.

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