CN215443122U - Connection angle mould for construction - Google Patents

Abstract

The utility model discloses a connecting angle mould for building construction, which relates to the technical field of building templates and comprises a bottom plate, a reinforcing structure for preventing the angle mould from deforming, a water seepage preventing structure for preventing rainwater from permeating and a lifting structure for improving the applicability, wherein a first mounting groove is formed in the top end of the bottom plate, an angle aluminum groove is formed in the rear end of the bottom plate, the water seepage preventing structure is positioned at the front end of the inside of the first mounting groove, second mounting studs are mounted on two sides of the rear end of the inside of the first mounting groove, the rear ends of the second mounting studs extend into the angle aluminum groove, second mounting nuts are connected to the outer wall of the second mounting studs in the angle aluminum groove through threads, and a mounting vertical plate is arranged at the top end of the angle aluminum groove. According to the utility model, the threaded rod is provided, the threaded rod is screwed out of the inner part of the threaded groove, then the movable groove is lifted upwards, and when the size meets the requirement, the threaded rod is screwed into the upper threaded groove, so that the height of the diagonal mold is adjusted by the structure.

Description

Connection angle mould for construction

Technical Field

The utility model relates to the technical field of building templates, in particular to a connecting angle mold for building construction.

Background

In the building construction, all windowsills are required to be subjected to anti-leakage treatment, so that high and low sill sectional materials can be customized, but in practical construction, because the requirements of each project are different, the width of a wall body during window installation is also different, and the width of an anti-leakage step is also different, so that the customized high and low sill sectional materials cannot meet the requirement of any anti-leakage step width, and the problem can be conveniently solved by applying a novel connecting angle mould for building construction.

Traditional angle mould for construction connects in-service use, connecting plate length is fixed, is difficult to adjust, can not be applicable to the building of multiple height.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a connecting angle die for building construction, which solves the problem of poor applicability of the connecting angle die for building construction in the background technology.

In order to achieve the purpose, the utility model provides the following technical scheme: a connecting angle mould for building construction comprises a bottom plate, a reinforcing structure for preventing the angle mould from deforming, a water seepage preventing structure for preventing rainwater from infiltrating and a lifting structure for improving applicability;

a first mounting groove is formed in the top end of the bottom plate, an angular aluminum groove is formed in the rear end of the bottom plate, and the anti-seepage structure is located at the front end of the interior of the first mounting groove;

second mounting studs are mounted on two sides of the rear end of the interior of the first mounting groove, the rear ends of the second mounting studs extend into the angle aluminum groove, second mounting nuts are connected to the outer walls of the second mounting studs in the angle aluminum groove through threads, a mounting vertical plate is arranged at the top end of the angle aluminum groove, a second mounting groove is formed in the front end of the mounting vertical plate, first mounting studs are mounted on two sides of the bottom end of the interior of the second mounting groove, the bottom end of each first mounting stud extends into the angle aluminum groove, first mounting nuts are connected to the outer walls of the first mounting studs in the angle aluminum groove through threads, and the lifting structures are located on two sides of the mounting vertical plate;

the movable groove is installed through elevation structure in the both sides of installation riser, and reinforced structure all is located the both sides in angle aluminium groove.

Preferably, reinforced structure includes second installation paster, second installation paster sets up in the front end of angle aluminium groove both sides, and the second installation paster keeps away from one side in angle aluminium groove and evenly installs four second fixation screw bolts, the second fixation screw bolt outer wall of first mounting groove and angle aluminium inslot portion all has second fixation nut through threaded connection, and the top of angle aluminium groove both sides all is provided with first installation paster, one side that first installation paster keeps away from angle aluminium groove evenly installs four first fixation screw bolts, and the first fixation screw bolt outer wall of first mounting groove and second mounting groove inside all has first fixation nut through threaded connection.

Preferably, one end of the first fixing stud penetrates through the first mounting patch and extends to the inside of the angle aluminum groove and the inside of the second mounting groove, and one end of the second fixing stud penetrates through the second mounting patch and extends to the inside of the first mounting groove and the inside of the angle aluminum groove.

Preferably, the water seepage prevention structure comprises a rubber plate, movable rods, movable springs and a push plate, the rubber plate is arranged at the front end of the bottom plate, the movable rods are arranged on two sides of the rear end of the rubber plate, the movable springs are sleeved on the outer walls of the movable rods in the first mounting groove, and the push plate is arranged at the rear end of the movable rods;

the rear end of the movable rod penetrates through the bottom plate, and the rear end of the movable rod extends to the inside of the first mounting groove.

Preferably, elevation structure includes thread groove, threaded rod, slider, spout and connecting block, the spout is all installed in the both sides of installation riser, and the inside of spout all is provided with the slider, the connecting block is all installed to one side of slider, and the thread groove evenly sets up in the inside of installation riser both sides, there is the threaded rod in the inside of thread groove through threaded connection.

Preferably, one end of the threaded rod sequentially penetrates through the sliding block, the connecting block and the movable groove to extend to one side of the movable groove, the connecting block is installed on one side of the inner portion of the movable groove, and the connecting block and the sliding groove form a sliding structure.

Compared with the prior art, the utility model has the beneficial effects that:

(1) the utility model provides a threaded rod, wherein a knob at one end of the threaded rod is rotated to screw out the threaded rod from the inside of a threaded groove, then a movable groove is pulled upwards, a sliding block is driven by a connecting block to slide upwards in a sliding groove, when the size meets the requirement, a worker stops pulling, and the knob at one end of the threaded rod is rotated reversely to screw the threaded rod into the upper threaded groove;

(2) the utility model provides a first mounting patch, wherein the first mounting patch and a second mounting patch are respectively arranged at two sides of an angle aluminum groove and are respectively attached to a mounting vertical plate and a bottom plate;

(3) the utility model provides a rubber plate, wherein two same angle dies are oppositely arranged, the rubber plates are close to each other, the movable rod is pushed to contract towards the inside of a first mounting groove by mutual extrusion of the rubber plates, the movable spring is stretched, the push plate moves backwards, the gaps, close to each other, of the bottom plate are sealed by mutual extrusion of the rubber plates, rainwater is prevented from flowing into a room from the gaps, and the structure realizes the anti-seepage treatment of external rainwater.

Drawings

FIG. 1 is a schematic sectional front view of the present invention;

FIG. 2 is a schematic front view of the present invention;

FIG. 3 is a schematic side view of the present invention;

FIG. 4 is a schematic top view of the present invention;

fig. 5 is an enlarged schematic view of a portion a in fig. 1 according to the present invention.

In the figure: 1. a base plate; 2. a first mounting groove; 3. an angle aluminum groove; 4. a first mounting stud; 5. a first mounting patch; 6. a first fixing stud; 7. a movable groove; 8. a water seepage prevention structure; 801. a rubber plate; 802. A movable rod; 803. a movable spring; 804. pushing the plate; 9. a lifting structure; 901. a thread groove; 902. a threaded rod; 903. a slider; 904. a chute; 905. connecting blocks; 10. installing a vertical plate; 11. a second mounting groove; 12. a first fixing nut; 13. a first mounting nut; 14. a second fixing stud; 15. a second mounting patch; 16. a second fixing nut; 17. a second mounting nut; 18. a second mounting stud.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1: referring to fig. 1 to 5, a connecting angle form for building construction includes a base plate 1, a reinforcing structure for preventing deformation of the angle form, a water seepage preventing structure 8 for preventing infiltration of rainwater, and a lifting structure 9 for improving applicability;

a first mounting groove 2 is formed in the top end of the bottom plate 1, an angular aluminum groove 3 is formed in the rear end of the bottom plate 1, and a water seepage prevention structure 8 is located at the front end of the inside of the first mounting groove 2;

second mounting studs 18 are mounted on two sides of the rear end inside the first mounting groove 2, the rear ends of the second mounting studs 18 extend into the angle aluminum groove 3, second mounting nuts 17 are connected to the outer walls of the second mounting studs 18 inside the angle aluminum groove 3 through threads, a mounting vertical plate 10 is arranged at the top end of the angle aluminum groove 3, a second mounting groove 11 is formed in the front end of the mounting vertical plate 10, first mounting studs 4 are mounted on two sides of the bottom end inside the second mounting groove 11, the bottom end of each first mounting stud 4 extends into the angle aluminum groove 3, first mounting nuts 13 are connected to the outer wall of each first mounting stud 4 inside the angle aluminum groove 3 through threads, and the lifting structures 9 are located on two sides of the mounting vertical plate 10;

the two sides of the mounting vertical plate 10 are provided with movable grooves 7 through lifting structures 9, and the reinforcing structures are positioned on the two sides of the angle aluminum grooves 3;

referring to fig. 1-5, the connecting angle mold for building construction further comprises a reinforcing structure, wherein the reinforcing structure comprises a second mounting patch 15, the second mounting patch 15 is arranged at the front end of two sides of the angle aluminum groove 3, four second fixing studs 14 are uniformly arranged on one side, far away from the angle aluminum groove 3, of the second mounting patch 15, the outer walls of the second fixing studs 14 in the first mounting groove 2 and the angle aluminum groove 3 are both connected with second fixing nuts 16 through threads, the top ends of two sides of the angle aluminum groove 3 are both provided with first mounting patches 5, one side, far away from the angle aluminum groove 3, of each first mounting patch 5 is uniformly provided with four first fixing studs 6, and the outer walls of the first fixing studs 6 in the first mounting groove 2 and the second mounting groove 11 are both connected with first fixing nuts 12 through threads;

one end of the first fixing stud 6 penetrates through the first mounting patch 5 and extends to the inside of the angle aluminum groove 3 and the second mounting groove 11, and one end of the second fixing stud 14 penetrates through the second mounting patch 15 and extends to the inside of the first mounting groove 2 and the angle aluminum groove 3;

specifically, as shown in fig. 1, 2, 3, and 4, when the mechanism is used, the first mounting patch 5 and the second mounting patch 15 are respectively placed on both sides of the corner aluminum groove 3 and are respectively attached to the mounting riser 10 and the base plate 1, the first fixing nut 12 and the second fixing stud 14 are rotated to screw the first fixing nut 12 into the second fixing nut 16, the second fixing stud 14 is screwed into the second fixing nut 16, and the corner aluminum groove 3 is respectively fastened to the mounting riser 10 and the base plate 1 by the first mounting patch 5 and the second mounting patch 15, thereby preventing deformation.

Example 2: the water seepage prevention structure 8 comprises a rubber plate 801, movable rods 802, movable springs 803 and a push plate 804, wherein the rubber plate 801 is arranged at the front end of the bottom plate 1, the movable rods 802 are respectively arranged at two sides of the rear end of the rubber plate 801, the movable springs 803 are respectively sleeved on the outer walls of the movable rods 802 in the first mounting groove 2, and the push plate 804 is arranged at the rear end of the movable rods 802;

the rear end of the movable rod 802 penetrates through the bottom plate 1, and the rear end of the movable rod 802 extends into the first mounting groove 2;

specifically, as shown in fig. 2, 3 and 4, when this mechanism is used, the same two corner molds are placed opposite to each other, the rubber plates 801 are brought close to each other, the movable rod 802 is pushed by the mutual pressing of the rubber plates 801 to contract into the first mounting groove 2, the movable spring 803 is extended, the push plate 804 is moved backward, the gap where the bottom plates 1 are brought close to each other is closed by the mutual pressing of the rubber plates 801, and rainwater is prevented from flowing into the room from the gap.

Example 3: the lifting structure 9 comprises a threaded groove 901, a threaded rod 902, a sliding block 903, sliding chutes 904 and connecting blocks 905, the sliding chutes 904 are installed on two sides of the installation vertical plate 10, the sliding blocks 903 are arranged inside the sliding chutes 904, the connecting blocks 905 are installed on one sides of the sliding blocks 903, the threaded groove 901 is evenly arranged inside the two sides of the installation vertical plate 10, and the threaded rod 902 is connected inside the threaded groove 901 through threads;

one end of the threaded rod 902 sequentially penetrates through the sliding block 903, the connecting block 905 and the movable groove 7 to extend to one side of the movable groove 7, the connecting block 905 is installed on one side inside the movable groove 7, and the connecting blocks 905 and the sliding groove 904 form a sliding structure through the sliding block 903;

specifically, as shown in fig. 1, fig. 2, fig. 4, and fig. 5, when the mechanism is used, the knob at one end of the threaded rod 902 is rotated to screw out the threaded rod 902 from the inside of the threaded groove 901, and then the movable groove 7 is pulled upward, the connecting block 905 drives the slider 903 to slide upward in the sliding groove 904, and when the size meets the requirement, the worker stops pulling, and rotates the knob at one end of the threaded rod 902 in the opposite direction to screw the threaded rod 902 into the upper threaded groove 901.

The working principle is as follows: when the device is used, firstly, a worker places the angle aluminum groove 3 at the corner of a window, sequentially places the mounting vertical plate 10 and the bottom plate 1, respectively twists the first mounting stud 4 and the second mounting stud 18, and connects the bottom plate 1 and the mounting vertical plate 10 with the angle aluminum groove 3 through the first mounting nut 13 and the second mounting nut 17;

the first innovation point implementation step:

the first step is as follows: the worker places the first mounting patch 5 and the second mounting patch 15 on two sides of the angle aluminum groove 3 respectively and enables the first mounting patch and the second mounting patch to be attached to the mounting vertical plate 10 and the bottom plate 1 respectively;

the second step is that: rotating the first fixing nut 12 and the second fixing stud 14 to screw the first fixing nut 12 into the second fixing nut 16 and screw the second fixing stud 14 into the second fixing nut 16;

the third step: the angle aluminum groove 3 is respectively fastened with the installation vertical plate 10 and the bottom plate 1 through the first installation paster 5 and the second installation paster 15, and deformation is prevented.

The implementation step of the second innovation point:

the first step is as follows: a worker rotates a knob at one end of the threaded rod 902 to unscrew the threaded rod 902 from the inside of the threaded groove 901;

the second step is that: then the movable groove 7 is lifted upwards, and the connecting block 905 drives the sliding block 903 to slide upwards in the sliding groove 904;

the third step: when the size meets the requirement, the worker stops lifting, and rotates the knob at one end of the threaded rod 902 in the reverse direction to screw the threaded rod 902 into the upper thread groove 901.

The third innovation point implementation step:

the first step is as follows: the worker places the same two angle molds oppositely and brings the rubber plates 801 close to each other;

the second step is that: the rubber plates 801 are mutually squeezed to push the movable rod 802 to contract towards the inside of the first mounting groove 2, and the movable spring 803 is stretched to enable the push plate 804 to move backwards;

the third step: by pressing the rubber plates 801 against each other, the gap where the bottom plates 1 approach each other is closed, and rainwater is prevented from flowing into the room through the gap.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (7)

1. The utility model provides a construction is with connecting angle mould, includes bottom plate (1), its characterized in that: the corner mould also comprises a reinforcing structure for preventing the deformation of the corner mould, a water seepage preventing structure (8) for preventing rainwater from permeating and a lifting structure (9) for improving the applicability;

a first mounting groove (2) is formed in the top end of the bottom plate (1), an angular aluminum groove (3) is formed in the rear end of the bottom plate (1), and the anti-seepage structure (8) is located at the front end of the interior of the first mounting groove (2);

two sides of the rear end in the first mounting groove (2) are respectively provided with a second mounting stud (18), and the rear ends of the second mounting studs (18) extend to the interior of the angle aluminum grooves (3), and the outer wall of a second mounting stud (18) in the angle aluminum groove (3) is connected with a second mounting nut (17) through threads, the top end of the angle aluminum groove (3) is provided with a mounting vertical plate (10), a second mounting groove (11) is arranged inside the front end of the mounting vertical plate (10), the two sides of the bottom end in the second mounting groove (11) are respectively provided with a first mounting stud (4), and the bottom end of the first mounting stud (4) extends to the inside of the angle aluminum groove (3), the outer wall of a first mounting stud (4) in the angle aluminum groove (3) is connected with a first mounting nut (13) through threads, and the lifting structures (9) are located on two sides of the mounting vertical plate (10);

the movable grooves (7) are installed on two sides of the installation vertical plate (10) through the lifting structures (9), and the reinforcing structures are located on two sides of the angle aluminum grooves (3).

2. The connecting angle form for building construction according to claim 1, wherein: reinforced structure includes second installation paster (15), second installation paster (15) set up in the front end of angle aluminium groove (3) both sides, and second installation paster (15) keep away from one side in angle aluminium groove (3) and evenly install four second fixing stud (14), first mounting groove (2) and angle aluminium groove (3) inside second fixing stud (14) outer wall all have second fixation nut (16) through threaded connection, and the top of angle aluminium groove (3) both sides all is provided with first installation paster (5), one side that first installation paster (5) kept away from angle aluminium groove (3) evenly installs four first fixing stud (6), and first mounting groove (2) and second mounting groove (11) inside first fixing stud (6) outer wall all have first fixation nut (12) through threaded connection.

3. The connecting angle form for building construction according to claim 2, wherein: one end of the first fixing stud (6) penetrates through the first mounting patch (5) and extends to the inside of the angle aluminum groove (3) and the second mounting groove (11), and one end of the second fixing stud (14) penetrates through the second mounting patch (15) and extends to the inside of the first mounting groove (2) and the angle aluminum groove (3).

4. The connecting angle form for building construction according to claim 1, wherein: prevention of seepage water structure (8) include rubber slab (801), movable rod (802), activity spring (803) and push pedal (804), rubber slab (801) set up in the front end of bottom plate (1), and the both sides of rubber slab (801) rear end all install movable rod (802), and inside movable rod (802) outer wall of first mounting groove (2) all overlaps and is equipped with activity spring (803), push pedal (804) are installed to the rear end of movable rod (802).

5. The connection angle form for building construction according to claim 4, wherein: the rear end of the movable rod (802) penetrates through the bottom plate (1), and the rear end of the movable rod (802) extends to the inside of the first mounting groove (2).

6. The connecting angle form for building construction according to claim 1, wherein: the lifting structure (9) comprises a thread groove (901), a threaded rod (902), a sliding block (903), a sliding groove (904) and a connecting block (905), wherein the sliding groove (904) is installed on two sides of an installation vertical plate (10), the sliding block (903) is arranged inside the sliding groove (904), the connecting block (905) is installed on one side of the sliding block (903), the thread groove (901) is evenly arranged inside two sides of the installation vertical plate (10), and the threaded rod (902) is connected inside the thread groove (901) through threads.

7. The connecting angle form for building construction according to claim 6, wherein: one end of the threaded rod (902) sequentially penetrates through the sliding block (903), the connecting block (905) and the movable groove (7) to extend to one side of the movable groove (7), the connecting block (905) is installed on one side of the inner portion of the movable groove (7), and the connecting block (905) and the sliding groove (904) form a sliding structure.

Images