CN209873494U - Chute pouring template - Google Patents

Abstract

The utility model discloses a rapid trough pouring template, which comprises two external templates which are vertically arranged relatively, wherein a U-shaped internal template is separately arranged between the upper parts of the inner sides of the two external templates, a top plate is detachably connected between two side plates of the U-shaped internal template and the top end of the corresponding external template, and an end plate is detachably connected between the bottom end of the U-shaped internal template and the bottom end part of the corresponding external template; a rapid flow channel pouring cavity is formed among the outer template, the U-shaped inner template, the top plate and the end plate. The advantages are that: the pouring template is made of aluminum alloy materials, is light in weight, good in rigidity, not easy to crack, long in service life and reusable, and can be melted and recycled after being discarded, so that construction waste is reduced, and environmental pollution is avoided; and the reinforcing support piece is arranged to reinforce and support the U-shaped inner template and the outer template, so that the inner template and the outer template are prevented from expanding and deforming in the pouring process, and the appearance line of the formed rapid trough is straight and smooth, which indicates that the rapid trough is smooth and clean.

Description

Chute pouring template

The technical field is as follows:

the utility model relates to a template technical field, specifically speaking relate to a template is pour to rapid trough.

Background art:

the rapid grooves are arranged on two sides of the highway pavement or two sides of the side ditch and used as the discharge ports of road surface catchment, residual accumulated water on the cutting side slope can be quickly led out, and damages such as side slope collapse, landslide and debris flow caused by the fact that the side slope is soaked by the accumulated water can be prevented.

The rapid trough generally adopts a cast-in-place technology in the road construction process, the existing rapid trough is mostly poured by adopting a wood template, but the rigidity of the wood template is poor, and the template is easy to expand and deform during pouring, so that on one hand, the poured rapid trough has poor smoothness, low precision, a rough concrete surface and difficult appearance quality control; on the other hand, the wood formwork is easy to deform and crack, the service life is short, the production cost is increased, and meanwhile, building waste and environmental pollution are caused.

The utility model has the following contents:

an object of the utility model is to provide a can make the straight chute in the same direction as of mass flow groove outward appearance line type pour the template.

The utility model discloses by following technical scheme implement: the rapid flow channel pouring template comprises two outer templates which are vertically arranged relatively, the U-shaped inner template is separately arranged between the upper parts of the inner sides of the two outer templates, a top plate is detachably connected between two side plates of the U-shaped inner template and the top end of the corresponding outer template, and an end plate is detachably connected between the bottom end of the U-shaped inner template and the bottom end of the corresponding outer template; a rapid flow channel pouring cavity is formed among the outer template, the U-shaped inner template, the top plate and the end plate; and a plurality of air outlets communicated with the torrent groove pouring cavity are formed in the middle bottom plate of the U-shaped inner template, and sealing covers are detachably connected in the air outlets.

Furthermore, the outer template is formed by sequentially connecting a plurality of outer template modules arranged along the length direction of the rapid trough pouring cavity; the U-shaped inner template is formed by sequentially connecting a plurality of inner template modules arranged along the length direction of the rapid flow groove pouring cavity.

Furthermore, every two adjacent outside of the tip of outer template module, and every two adjacent inboard of the tip of inner template module all is fixed with the fixed otic placode that corresponds the setting, corresponding two can dismantle between the fixed otic placode and be connected with the connecting piece.

Furthermore, the connecting piece comprises a pin rod which is arranged between the two corresponding fixed ear plates in a penetrating mode, a clamping plate which is in movable contact with the adjacent fixed ear plate is fixed at one end of the pin rod, a pin hole is formed in the other end of the pin rod, a plug pin is movably inserted in the pin hole, and the plug pin is in movable contact with the adjacent fixed ear plate.

Furthermore, the U-shaped inner template further comprises a reinforcing support piece, wherein the reinforcing support piece comprises a U-shaped connecting plate movably clamped on the inner side of the U-shaped inner template, and horizontal connecting plates are horizontally fixed on the tops of two ends of the U-shaped connecting plate; connecting bolts are respectively screwed between the U-shaped connecting plate and the U-shaped inner template, and between the horizontal connecting plate and the top end of the U-shaped inner template and the top end of the outer template.

Furthermore, the U-shaped inner template comprises a middle bottom plate, two sides of the middle bottom plate are respectively detachably connected with an L-shaped angle plate, the two L-shaped angle plates are oppositely arranged, and the top end of each L-shaped angle plate is respectively detachably connected with a side plate which is vertically arranged.

Furthermore, the U-shaped inner template comprises a middle bottom plate, two sides of the middle bottom plate are respectively detachably connected with an L-shaped angle plate, the two L-shaped angle plates are oppositely arranged, and the top end of each L-shaped angle plate is respectively detachably connected with a side plate which is vertically arranged.

Furthermore, the outer template, the U-shaped inner template, the top plate and the end plate are all aluminum alloy plates.

Furthermore, a vibration motor is fixed on the outer template or the U-shaped inner template.

The utility model has the advantages that: the pouring template is made of aluminum alloy materials, is light in weight, good in rigidity, not easy to crack, long in service life and reusable, and can be melted and recycled after being discarded, so that construction waste is reduced, and environmental pollution is avoided; and the reinforcing support piece is arranged to reinforce and support the U-shaped inner template and the outer template, so that the inner template and the outer template are prevented from expanding and deforming in the pouring process, and the appearance line of the formed rapid trough is straight and smooth, which indicates that the rapid trough is smooth and clean.

Description of the drawings:

fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a sectional view a-a of fig. 1.

Fig. 3 is a schematic view of the structure of the connector.

The U-shaped die comprises an outer die plate 1, an outer die plate module 1.1, a U-shaped inner die plate 2, a middle bottom plate 2.1, an air outlet 2.2, a sealing cover 2.3, an inner die plate module 2.4, an L-shaped angle plate 2.5, a side plate 2.6, a top plate 3, an end plate 4, a rapid trough pouring cavity 5, a fixing lug plate 6, a connecting piece 7, a pin rod 7.1, a clamping plate 7.2, a pin hole 7.3, a bolt 7.4, a reinforcing support piece 8, a U-shaped connecting plate 8.1, a horizontal connecting plate 8.2, a connecting bolt 8.3 and a vibrating motor 9.

The specific implementation mode is as follows:

in the description of the present invention, it should be noted that, as the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. appear, the indicated orientation or positional relationship is based on the orientation or positional relationship shown in the drawings, and is only for convenience of description and simplification of description, but does not indicate or imply that the indicated device or element must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" as appearing herein are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

As shown in fig. 1 to 3, the rapid flow channel pouring template comprises two external templates 1 which are vertically arranged relatively, a U-shaped internal template 2 is separately arranged between the upper parts of the inner sides of the two external templates 1, and the external template 1 is formed by sequentially connecting a plurality of external template modules 1.1 which are arranged along the length direction of a rapid flow channel pouring cavity 5; the U-shaped inner template 2 is formed by sequentially connecting a plurality of inner template modules 2.4 arranged along the length direction of the rapid flow groove pouring cavity 5; the inner and outer templates are formed by splicing a plurality of modules arranged along the length direction through bolts, so that the disassembly, assembly and transportation are convenient; the outer sides of the end parts of every two adjacent outer template modules 1.1 and the inner sides of the end parts of every two adjacent inner template modules 2.4 are respectively fixed with a corresponding fixed lug plate 6, and a connecting piece 7 is detachably connected between the two corresponding fixed lug plates 6; the adjacent modules are matched with the fixed ear plates 6 through the connecting pieces 7 to realize fixation, and the disassembly and the assembly are convenient; the connecting piece 7 comprises a pin rod 7.1 penetrating between two corresponding fixed ear plates 6, a clamping plate 7.2 movably contacted with the adjacent fixed ear plate 6 is fixed at one end of the pin rod 7.1, a pin hole 7.3 is formed at the other end of the pin rod 7.1, a plug pin 7.4 is movably inserted in the pin hole 7.3, and the plug pin 7.4 is movably contacted with the adjacent fixed ear plate 6; the clamping plate 7.2 and the bolt 7.4 are respectively clamped on two sides of the two fixed ear plates 6 to realize fixation;

the U-shaped inner template 2 comprises a middle bottom plate 2.1, two sides of the middle bottom plate 2.1 are respectively detachably connected with an L-shaped angle plate 2.5, the two L-shaped angle plates 2.5 are oppositely arranged, and the top end of each L-shaped angle plate 2.5 is respectively detachably connected with a side plate 2.6 which is vertically arranged; the U-shaped inner template 2 is formed by connecting an intermediate bottom plate 2.1, an L-shaped angle plate 2.5 and a side plate 2.6 through bolts, is convenient to assemble and disassemble and is convenient to transport;

a top plate 3 is detachably connected between two side plates 2.6 of the U-shaped inner template 2 and the top end of the corresponding outer template 1, and an end plate 4 is detachably connected between the bottom end of the U-shaped inner template 2 and the bottom end of the corresponding outer template 1; a rapid trough pouring cavity 5 is formed among the outer template 1, the U-shaped inner template 2, the top plate 3 and the end plate 4; pouring concrete from an opening at the top end of the collecting groove pouring cavity 5; the vibrating motors 9 are fixed on the outer template 1 or the U-shaped inner template 2, the concrete can be uniformly distributed by starting the vibrating motors 9 in the pouring process, bubbles are reduced, and a plurality of vibrating motors 9 can be arranged according to the length of the flow collecting groove; a plurality of air outlets 2.2 communicated with the rapid trough pouring cavity 5 are formed in the middle bottom plate 2.1 of the U-shaped inner template 2, sealing covers 2.3 are detachably connected in the air outlets 2.2, the top ends of the sealing covers 2.3 are connected with the middle bottom plate 2.1 through bolts, the bottom ends of the sealing covers 2.3 are cut into the air outlets 2.2, and the bottoms of the rapid trough bottoms can be smooth; after pouring is completed, standing for a certain time, and then removing the sealing cover 2.3 to enable the air outlet 2.2 to be communicated with the external connection, so as to accelerate forming; the outer template 1, the U-shaped inner template 2, the top plate 3 and the end plate 4 are all aluminum alloy plates.

The U-shaped die further comprises a reinforcing support member 8 arranged between the top ends of the U-shaped inner die plate 2 and the outer die plate 1, wherein the reinforcing support member 8 can play a role of reinforcing and supporting the U-shaped inner die plate 2 and the outer die plate 1, so that the inner die plate and the outer die plate are prevented from expanding and deforming in the pouring process, and the appearance of a formed rapid trough is straight and smooth; the reinforced support member 8 comprises a U-shaped connecting plate 8.1 movably clamped on the inner side of the U-shaped inner template 2, horizontal connecting plates 8.2 are horizontally fixed on the tops of two ends of the U-shaped connecting plate 8.1, and the bottom ends of the horizontal connecting plates 8.2 are respectively abutted with the top ends of the U-shaped inner template 2 and the outer template 1; connecting bolts 8.3 are respectively screwed between the U-shaped connecting plate 8.1 and the U-shaped inner template 2, and between the horizontal connecting plate 8.2 and the top ends of the U-shaped inner template 2 and the outer template 1; the U-shaped connecting plates 8.1 and the horizontal connecting plates 8.2 are of an integrated structure, the U-shaped connecting plates 8.1 can support the U-shaped inner template 2 to prevent the U-shaped inner template 2 from expanding and deforming, the horizontal connecting plates 8.2 and the U-shaped connecting plates 8.1 are connected into a whole to further stretch the outer template 1 to prevent the outer template 1 from expanding and deforming;

instructions for use: firstly, connecting and assembling each middle bottom plate 2.1, each L-shaped angle plate 2.5 and each side plate 2.6 into an inner template module 2.4 through bolts, and connecting and assembling each inner template module 2.4 and each outer template module 1.1 into an outer template 1 and a U-shaped inner template 2 through connecting pieces; then, the outer templates 1 are placed on two sides of the U-shaped inner template 2, and the side plates 2.6 of the U-shaped inner template 2 and the top ends of the corresponding outer templates 1 are connected and fixed with the top plate 3 through bolts; then, an end plate 4 is fixed among the outer template 1, the U-shaped inner template 2 and the bottom end of the top plate 3; then the reinforcing support piece 8 is fixed between the top ends of the U-shaped inner template 2 and the outer template 1 through the connecting bolt 8.3; finally, concrete is poured from the top end of the rapid trough pouring cavity 5, the rapid trough pouring cavity is kept still for a period of time after pouring is finished, so that the collecting trough is basically formed, then the sealing cover 2.3 is opened, air circulation inside the rapid trough pouring cavity 5 is accelerated, and forming is accelerated; and after pouring is finished, reversely operating and removing the template.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; and in the embodiments shown, the detachable connection to the general bolt connection, although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention.

Claims (10)

1. The rapid flow channel pouring template is characterized by comprising two outer templates which are vertically arranged relatively, a U-shaped inner template is separately arranged between the upper parts of the inner sides of the two outer templates, a top plate is detachably connected between two side plates of the U-shaped inner template and the top end of the corresponding outer template, and an end plate is detachably connected between the bottom end of the U-shaped inner template and the bottom end part of the corresponding outer template; a rapid flow channel pouring cavity is formed among the outer template, the U-shaped inner template, the top plate and the end plate; and a plurality of air outlets communicated with the torrent groove pouring cavity are formed in the middle bottom plate of the U-shaped inner template, and sealing covers are detachably connected in the air outlets.

2. The rapid trough casting template according to claim 1, wherein the outer template is formed by sequentially connecting a plurality of outer template modules arranged along the length direction of the rapid trough casting cavity; the U-shaped inner template is formed by sequentially connecting a plurality of inner template modules arranged along the length direction of the rapid flow groove pouring cavity.

3. The rapid trough casting formwork of claim 2, wherein a corresponding fixing lug plate is fixed on the outer side of the end part of each two adjacent outer formwork modules and the inner side of the end part of each two adjacent inner formwork modules, and a connecting member is detachably connected between the corresponding two fixing lug plates.

4. The rapid trough casting template according to claim 3, wherein the connecting member comprises a pin rod inserted between two corresponding fixed lugs, a clamping plate movably contacting with the adjacent fixed lugs is fixed at one end of the pin rod, a pin hole is formed at the other end of the pin rod, and a plug pin is movably inserted in the pin hole and movably contacts with the adjacent fixed lugs.

5. The rapid flow channel pouring template according to any one of claims 1 to 4, further comprising a reinforcing support member, wherein the reinforcing support member comprises a U-shaped connecting plate movably clamped inside the U-shaped inner template, and horizontal connecting plates are horizontally fixed on tops of two ends of the U-shaped connecting plate; connecting bolts are respectively screwed between the U-shaped connecting plate and the U-shaped inner template, and between the horizontal connecting plate and the top end of the U-shaped inner template and the top end of the outer template.

6. The rapid flow channel pouring template as claimed in any one of claims 1 to 4, wherein said U-shaped inner template comprises said middle bottom plate, two L-shaped corner plates are detachably connected to two sides of said middle bottom plate respectively, two of said L-shaped corner plates are oppositely arranged, and a vertically arranged side plate is detachably connected to the top end of each of said L-shaped corner plates respectively.

7. The rapid flow channel casting template as recited in claim 5, wherein said U-shaped inner template comprises said middle bottom plate, two L-shaped corner plates are detachably connected to two sides of said middle bottom plate, two L-shaped corner plates are oppositely arranged, and a vertically arranged side plate is detachably connected to the top end of each L-shaped corner plate.

8. The rapid trough casting template according to any one of claims 1, 2, 3, 4 or 7, wherein the outer template, the inner template, the top plate and the end plates are all aluminum alloy plates.

9. The rapid flow channel casting template according to any one of claims 1, 2, 3, 4 or 7, wherein a vibration motor is fixed to the outer template or the inner template.

10. The rapid flow channel casting template according to claim 5, wherein a vibration motor is fixed on the outer template or the U-shaped inner template.