CN219672138U - Reinforced building concrete template - Google Patents

Abstract

The utility model discloses a reinforced building concrete template, which comprises: the base is provided with a square groove penetrating in the length direction in a recessed mode on the top surface; the side dies are in cuboid shapes, and the opposite side surfaces and the bottom surfaces of the side dies are arranged in an open mode, so that the side dies slide along the square grooves to be in butt joint to form a die plate body with a die cavity; the ring fixing component is detachably arranged along the circumference of the template body so as to fix the template body. The utility model has the beneficial effects that the mould cavity is formed by arranging the pair of side moulds in a butt joint way, the precast concrete slab is directly displayed after the pair of side moulds are removed without ejection, and the pair of side moulds in a butt joint way form a U-shaped butt joint seam, so that the cross joint seam can be reduced, and the influence of the cross joint seam on pouring quality is reduced.

Description

Reinforced building concrete template

Technical Field

The utility model relates to the technical field of concrete templates. More particularly, the present utility model relates to reinforced building concrete forms.

Background

The reinforced building concrete is high-strength concrete with the strength grade of C60 and above, and has the advantages of high compressive strength, strong deformation resistance, high density and low porosity.

In the prior art, when reinforced building concrete is produced, mixed concrete slurry is often poured and formed through a concrete template, after traditional concrete is solidified and formed in the template, a worker is generally required to take apart the template and then tilt out a fixed concrete block, the concrete block is possibly damaged in the tilting process of the concrete block, and the use effect of mixed concrete blocks is reduced; the utility model provides a 2020232706527, the name is a reinforced energy-conserving building concrete template device, the setting through elevating gear is disclosed, the motor drives two-way lead screw and rotates, two-way lead screw drives sliding sleeve and connecting rod and removes, the connecting rod drives fixing base and bottom plate lift, the bottom plate is ejecting with the shaping building model in the lower mould, the shaping building model has realized taking out fast, but its top erects the lifting system, influence shaping building model and by the operation of taking after ejecting, and it includes the upper and lower mould, there is the butt joint seam of round along circumference, how to reduce the template butt joint seam, improve and pour the quality, also be the urgent problem that needs to solve at present.

Disclosure of Invention

It is an object of the present utility model to solve at least the above problems and to provide at least the advantages to be described later.

Still another object of the present utility model is to provide a reinforced concrete form for construction, in which a pair of side forms are abutted to form a cavity, and after the pair of side forms are removed, the concrete precast slab is directly exhibited without ejection, and the pair of side forms are abutted to form a U-shaped butt joint, so that the effect of the butt joint on the pouring quality can be reduced.

To achieve these objects and other advantages and in accordance with the purpose of the utility model, there is provided a reinforced building concrete form comprising:

the base is provided with a square groove penetrating in the length direction in a recessed mode on the top surface;

the side dies are in cuboid shapes, and the opposite side surfaces and the bottom surfaces of the side dies are arranged in an open mode, so that the side dies slide along the square grooves to be in butt joint to form a die plate body with a die cavity;

the ring fixing component is detachably arranged along the circumference of the template body so as to fix the template body.

Preferably, one of the opposite sides of the pair of side molds is provided with a bump at intervals, and the other opposite side is provided with a groove matched with the bump, wherein the depth of the groove is larger than the height of the bump.

Preferably, the length of the square groove is longer than that of the template body, so that when the square groove is matched with a pair of side dies to form the template body, positioning steps are formed at two ends of the square groove in the length direction;

the loop-securing assembly includes a base loop-securing assembly that includes:

the lower tensioning rods are respectively abutted to two sides of the template body along the width direction, and two ends of each lower tensioning rod are provided with lower threaded rods;

the pair of tight parts support, a pair of tight parts support respectively with a pair of location step one-to-one, every tight part that supports includes the filler that matches with the location step, set firmly in the lower tight board that supports of filler top, support down tight board along length direction's both ends and set up for corresponding side form protrusion, and all run through and have the through-hole, when a pair of tight parts support with a pair of side form tightly after, the lower threaded rod of a pair of lower tensioning lever passes the through-hole of a pair of tight parts respectively to be fixed.

Preferably, the side walls of the lower tensioning rods of each side die are provided with lower positioning plates, and the bottom surfaces of the lower positioning plates are in butt joint with the top surfaces of the corresponding lower tensioning rods.

Preferably, the ring fixing assembly further includes a top ring fixing assembly, which includes:

the clamping piece comprises U-shaped rods which are covered at the top end of the template body, the two side rods of the U-shaped rods are respectively abutted with two sides of the template body along the length direction, the bottom end of each U-shaped rod is fixedly connected with an upper abutting plate, and two ends of the upper abutting plate along the length direction are arranged in a protruding mode relative to the corresponding side dies and all penetrate through grooves;

the upper tensioning rods are respectively abutted to two sides of the template body along the width direction, and the two ends of each upper tensioning rod are provided with upper threaded rods;

after the clamping piece is abutted against the pair of side dies, the upper threaded rods of the pair of upper tensioning rods respectively penetrate through the through grooves of the clamping piece and are fixed.

Preferably, the ejector rod of the U-shaped rod is a telescopic rod.

Preferably, the ejector rod of the U-shaped rod is a square rod and comprises a pair of supporting rods in sliding butt joint, wherein one opposite side of the pair of supporting rods is provided with a sliding block, and the other opposite side of the pair of supporting rods is provided with a sliding groove matched with the sliding block.

Preferably, the side walls of each side mold with the upper tensioning rods are provided with upper positioning plates, and the bottom surfaces of the upper positioning plates are in butt joint with the top surfaces of the corresponding upper tensioning rods.

Preferably, the top surface of the base is provided with a cushion layer in a protruding mode, and the circumference of the cushion layer is abutted with the circumference of the die cavity.

Preferably, the universal wheels are fixedly arranged at the bottom of the base.

The utility model at least comprises the following beneficial effects:

the mold cavity is formed by butt joint of the pair of side molds, the concrete precast slab is directly displayed after the pair of side molds are removed without ejection, and the pair of side molds are in butt joint to form a U-shaped butt joint, so that the cross joint can be reduced, and the influence of the cross joint on pouring quality is reduced;

through solid subassembly of end ring, the solid subassembly setting of top ring, form the circumference to the central compressive fixed force of lower extreme on the template body, provide simultaneously to the template body along fore-and-aft fixed force, improve the fixed stability of whole template.

Additional advantages, objects, and features of the utility model will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the utility model.

Drawings

FIG. 1 is a schematic structural view of a reinforced building concrete form according to one embodiment of the present utility model;

FIG. 2 is an exploded view of a reinforced construction concrete form according to one embodiment of the present utility model;

FIG. 3 is a schematic structural view of the base according to one embodiment of the present utility model;

fig. 4 is an enlarged schematic view of the portion a in fig. 2 according to the present utility model.

The reference numerals specifically are: a base 1; a square groove 10; a cushion layer 11; a force ring 12; a template body 2; a side die 20; a bump 21; a lower positioning plate 30; an upper positioning plate 31; a lower tension rod 4; a lower threaded rod 40; a tightening piece 5; a filler block 50; a side plate 51; a lower abutment plate 52; a through hole 53; a U-shaped rod 6; a jack 60; a strut 61; a slider 62; a chute 63; a side bar 64; the abutting plate 7 is arranged; a through slot 70; a tensioning rod 8 is arranged on the upper part; an upper threaded rod 80; and a universal wheel 9.

Detailed Description

The present utility model is described in further detail below with reference to the drawings to enable those skilled in the art to practice the utility model by referring to the description.

It will be understood that terms, such as "having," "including," and "comprising," as used herein, do not preclude the presence or addition of one or more other elements or groups thereof.

As shown in fig. 1-3, the present utility model provides a reinforced building concrete form comprising:

the base 1 is rectangular, the top surface of the base 1 is recessed with a square groove 10 penetrating along the length direction, namely, the square groove 10 is arranged along the length direction of the base 1, and two ends of the square groove penetrate through the base 1, preferably, universal wheels 9 are fixedly arranged at the bottom of the base 1, the number of the universal wheels 9 is preferably 4, the universal wheels 9 are respectively arranged at the angles 4 close to the base 1, and at least one universal wheel 9 can be arranged in a locking mode, namely, the direction is positioned when the universal wheels move to the working position;

a pair of side molds 20, each of which is rectangular parallelepiped, the opposite sides and bottom surfaces of the pair of side molds 20 being disposed so as to be opened, so that the pair of side molds 20 are slidably butted along the square groove 10 to form a die plate body 2 having a die cavity, the die plate body 2 being provided with a pouring hole (not shown in the drawings, determined according to the specific case), in communication with the die cavity, preferably, the width (in the width direction of the base 1) of the pair of side molds 20 is set so that when the pair of side molds 20 form the die plate body 2, both sides of the pair of side molds 20 in the width direction are in contact with both sides of the square groove 10 in the width direction; further, it is preferable that one of the opposite sides of the pair of side molds 20 is provided with the protruding blocks 21 at intervals, the other opposite side is provided with the grooves matching with the protruding blocks 21, and the number of the protruding blocks 21 is set according to the specific practical situation, wherein the depth of the grooves is larger than the height (along the depth direction of the grooves) of the protruding blocks 21;

the ring fixing component is detachably arranged along the circumferential direction of the template body 2 to fix the template body 2.

In the above technical solution, as shown in fig. 2, the pair of side dies 20 includes a left die and a right die, the force-bearing rings 12 are arranged in a matching manner on the left die and the right die, the specific positions of the force-bearing rings are set according to actual requirements, and the force-bearing rings are used for holding by a human hand and pulling under mechanical action, so as to provide force-bearing points and remove the side dies 20; the opposite sides of the left die and the right die are respectively opened, and the opposite sides of the right die and the left die are respectively opened, so that when the opposite sides of the left die and the right die are in butt joint, the inner spaces of the left die and the right die are communicated; the bottom surfaces of the left die and the right die are all open, so that when the opposite side surfaces of the left die and the right die are in butt joint, the top surfaces of the base 1 are matched to form the bottom surface of the die cavity; in one specific embodiment, a bump 21 is arranged on one side of the left die, which is opposite to the right die, a groove is arranged on one side of the right die, which is opposite to the left die, the bump 21 is cylindrical, polygonal, and the like, so that sliding insertion and extraction relative to the groove are realized, the matching performance of the butt joint is improved, in the use process, a pair of side dies 20 are in sliding butt joint along a square groove 10 to form a die cavity-containing die plate body 2, the die plate body 2 is fixed by using a ring fixing component, concrete is poured, the ring fixing component is disassembled after molding, and the pair of side dies 20 are disassembled; by adopting the technical scheme, the pair of side dies 20 are butted to form the die cavity, the concrete precast slabs are directly displayed after the pair of side dies 20 are dismantled without ejection, and the pair of side dies 20 are butted to form the U-shaped butt joint seam, so that the cross joint seam can be reduced, and the influence of the cross joint seam on pouring quality is reduced.

In another technical scheme, the length of the square groove 10 is greater than the length of the template body 2 (along the length direction of the square groove 10), so that when the square groove 10 is matched with a pair of side dies 20 to form the template body 2, positioning steps are formed at two ends of the square groove 10 in the length direction;

the loop-securing assembly includes a base loop-securing assembly that includes:

the pair of lower tension rods 4, the pair of lower tension rods 4 are respectively abutted against two sides of the template body 2 along the width direction, the two ends of each lower tension rod 4 are provided with a lower threaded rod 40, the extending direction of the lower threaded rod 40 is the same as that of the lower tension rod 4, wherein one side surface of each lower tension rod 4 abutted against the template body 2 is a plane, and specifically, the abutting part of each lower tension rod 4 against the template body 2 is in a quadrangular shape or an arc shape with one end surface plane and the other end surface being an arc surface;

the pair of abutting pieces 5, the pair of abutting pieces 5 corresponds to the pair of positioning steps one by one respectively, each abutting piece 5 comprises a filling block 50 matched with the positioning step, and a lower abutting plate 52 fixedly arranged at the top end of the filling block 50, two ends of the lower abutting plate 52 along the length direction are arranged in a protruding mode relative to the corresponding side dies 20 and are respectively provided with through holes 53 in a penetrating mode, when the pair of abutting pieces 5 (in particular the pair of lower abutting plates 52) abut against the pair of side dies 20, the lower threaded rods 40 of the pair of lower tensioning rods 4 respectively penetrate through the through holes 53 of the pair of abutting pieces 5 and are fixed, wherein the through holes 53 are arranged at a certain distance along the length direction of the lower abutting plates 52 so as to adjust the fact that when the lower threaded rods 40 of the pair of lower tensioning rods 4 respectively penetrate through the through holes 53 of the pair of abutting pieces 5 and are fixed, the pair of lower tensioning rods 4 respectively abut against two sides of the template body 2 along the width direction, preferably, the outer side faces of each filling block 50 downwards extend to form side plates 51, and the side plates 51 can be in threaded connection with the bottom plates through bolts; by adopting the scheme, the fixing force for compressing the circumference of the bottom end of the template body 2 towards the center is formed by the cooperation of the pair of lower tension rods 4 and the pair of abutting pieces 5, so that the fixing stability of the whole device is improved.

In another technical scheme, the side walls of each side die 20 with the lower tensioning rods 4 are provided with lower positioning plates 30, and the bottom surfaces of the lower positioning plates 30 are abutted with the top surfaces of the corresponding lower tensioning rods 4. With this arrangement, the lower tie bar 4 is positioned by the lower positioning plate 30 to achieve longitudinal positioning of the die plate body 2.

In another aspect, the ring fixing assembly further includes a top ring fixing assembly, which includes:

the clamping piece comprises U-shaped rods 6 which are covered at the top end of the template body 2, two side rods 64 of the U-shaped rods 6 are respectively abutted against two sides of the template body 2 along the length direction, the bottom end of each U-shaped rod 6 is fixedly connected with an upper abutting plate 7, two ends of the upper abutting plate 7 along the length direction are arranged in a protruding mode relative to the corresponding side die 20, through grooves 70 are formed in a penetrating mode, and the through grooves 70 are arranged in a recessed mode along the end parts of the corresponding upper abutting plates 7;

the upper tensioning rods 8 are respectively abutted against two sides of the template body 2 along the width direction, the two ends of each upper tensioning rod 8 are provided with upper threaded rods 80, the extending direction of each upper threaded rod 80 is the same as that of each upper tensioning rod 8, one side surface of each upper tensioning rod 8 abutted against the template body 2 is a plane, and specifically, the abutting part of each upper tensioning rod 8 against the template body 2 is in a quadrangular shape or an arc shape with one end surface plane and the other end surface being an arc surface;

after the clamping member abuts against the pair of side dies 20, specifically, the ejector rod 60 of the U-shaped rod 6 abuts against the top surface of the die plate body 2, a pair of measuring rods of the U-shaped rod 6 abut against two sides of the die plate body 2 along the length direction, and the upper threaded rods 80 of the pair of upper tensioning rods 8 respectively penetrate through the through grooves 70 of the clamping member and are fixed, wherein the through grooves 70 are arranged with a certain distance along the length direction of the upper tensioning plates 7, so that when the upper threaded rods 80 of the pair of upper tensioning rods 8 respectively penetrate through the through grooves 70 of the pair of upper tensioning plates 7 and are fixed, the pair of upper tensioning rods 8 respectively abut against two sides of the die plate body 2 along the width direction. By adopting the scheme, the fixing force for compressing the circumference direction center of the upper end of the template body 2 is formed by matching the pair of upper tension rods 8 and the clamping pieces, and the fixing force for the top end of the template body 2 is provided at the same time, so that the fixing stability of the whole device is improved.

In another technical solution, the ejector pin 60 of the U-shaped rod 6 is a telescopic rod, specifically: the ejector rod 60 of the U-shaped rod 6 is a square rod and comprises a pair of support rods 61 in sliding butt joint, one opposite side of the pair of support rods 61 is provided with a sliding block 62, and the other opposite side is provided with a sliding groove 63 matched with the sliding block 62. Preferably, the front end of the sliding block 62 is provided with a clamping block, the sliding groove 63 is matched with a clamping groove for enabling the clamping block to slide and position, so that a pair of supporting rods 61 slide relatively and are not separated, by adopting the scheme, the telescopic arrangement of the U-shaped rod 6 is realized, the pair of measuring rods of the U-shaped rod 6 are further respectively abutted with two sides of the template body 2 along the length direction, and the abutting effect is improved by matching with the tensioning effect of a pair of upper tensioning rods 8.

In another technical scheme, each side mold 20 is provided with an upper locating plate 31 on the side wall of the upper tensioning rod 8, and the bottom surface of the upper locating plate 31 is abutted with the top surface of the corresponding upper tensioning rod 8. With this arrangement, the upper tie bar 8 is positioned by the upper positioning plate 31, and the vertical positioning of the die plate body 2 is achieved by cooperating with the ejector pins 60 of the U-shaped bar 6.

In another technical solution, as shown in fig. 4, the top surface of the base 1 is protruded and provided with a cushion layer 11, and the circumferential direction of the cushion layer 11 is abutted with the circumferential direction of the die cavity. With this arrangement, a pair of side molds 20 are provided for mounting and positioning along the longitudinal direction of the base 1.

The number of equipment and the scale of processing described herein are intended to simplify the description of the present utility model. The use, modification and variation of a reinforced building concrete form of the present utility model will be apparent to those skilled in the art.

Although embodiments of the present utility model have been disclosed above, it is not limited to the details and embodiments shown and described, it is well suited to various fields of use for which the utility model would be readily apparent to those skilled in the art, and accordingly, the utility model is not limited to the specific details and illustrations shown and described herein, without departing from the general concepts defined in the claims and their equivalents.

Claims (10)

1. A reinforced building concrete form, comprising:

the base is provided with a square groove penetrating in the length direction in a recessed mode on the top surface;

the side dies are in cuboid shapes, and the opposite side surfaces and the bottom surfaces of the side dies are arranged in an open mode, so that the side dies slide along the square grooves to be in butt joint to form a die plate body with a die cavity;

the ring fixing component is detachably arranged along the circumference of the template body so as to fix the template body.

2. The reinforced building concrete form of claim 1, wherein one of the opposing sides of a pair of side forms is provided with spaced apart projections and the other opposing side is provided with grooves matching the projections, wherein the depth of the grooves is greater than the height of the projections.

3. The reinforced concrete form of claim 1, wherein the square groove has a length greater than that of the form body so as to form a positioning step at both ends of the square groove in a length direction thereof when the square groove is fitted with a pair of side forms to form the form body;

the loop-securing assembly includes a base loop-securing assembly that includes:

the lower tensioning rods are respectively abutted to two sides of the template body along the width direction, and two ends of each lower tensioning rod are provided with lower threaded rods;

the pair of tight parts support, a pair of tight parts support respectively with a pair of location step one-to-one, every tight part that supports includes the filler that matches with the location step, set firmly in the lower tight board that supports of filler top, support down tight board along length direction's both ends and set up for corresponding side form protrusion, and all run through and have the through-hole, when a pair of tight parts support with a pair of side form tightly after, the lower threaded rod of a pair of lower tensioning lever passes the through-hole of a pair of tight parts respectively to be fixed.

4. A reinforced building concrete form as claimed in claim 3, wherein the side walls of each side mould having lower tie rods are provided with lower locating plates, the bottom surfaces of which are in abutment with the top surfaces of the corresponding lower tie rods.

5. A reinforced building concrete form as claimed in claim 3, wherein said collar securing assembly further comprises a top collar securing assembly comprising:

the clamping piece comprises U-shaped rods which are covered at the top end of the template body, the two side rods of the U-shaped rods are respectively abutted with two sides of the template body along the length direction, the bottom end of each U-shaped rod is fixedly connected with an upper abutting plate, and two ends of the upper abutting plate along the length direction are arranged in a protruding mode relative to the corresponding side dies and all penetrate through grooves;

the upper tensioning rods are respectively abutted to two sides of the template body along the width direction, and the two ends of each upper tensioning rod are provided with upper threaded rods;

after the clamping piece is abutted against the pair of side dies, the upper threaded rods of the pair of upper tensioning rods respectively penetrate through the through grooves of the clamping piece and are fixed.

6. The reinforced building concrete form of claim 5, wherein the roof bar of the U-shaped bar is a telescoping bar.

7. The reinforced building concrete form of claim 6, wherein the top bar of the U-shaped bar is a square bar comprising a pair of slidably abutted bars, one of the opposite sides of the pair of bars being provided with a slider and the other opposite side being provided with a runner mating with the slider.

8. The reinforced building concrete form of claim 5, wherein each side form has upper tie-bar side walls provided with upper locating plates, the bottom surfaces of the upper locating plates abutting the top surfaces of the corresponding upper tie-bars.

9. A reinforced building concrete form as claimed in claim 1, wherein the top surface of the base is convex with a shim, the shim being circumferentially abutted against the circumference of the mould cavity.

10. The reinforced building concrete form of claim 1, wherein the bottom of the base is fixedly provided with universal wheels.