CN110700584B

CN110700584B - Axillary plate and axillary plate connecting system for building

Info

Publication number: CN110700584B
Application number: CN201911020795.1A
Authority: CN
Inventors: 曹海峰
Original assignee: Individual
Current assignee: Individual
Priority date: 2019-10-25
Filing date: 2019-10-25
Publication date: 2021-11-23
Anticipated expiration: 2039-10-25
Also published as: CN110700584A

Abstract

The invention relates to an axillary plate for a building and an axillary plate connecting system. The ribs have two structures, the first structure comprises partition ribs vertical to the length direction of the panel and side ribs parallel to the length direction of the panel, and the height of each side rib is the same as that of a matched template; the second type comprises a patio part consisting of a panel, a side plate and two partition ribs and two opposite cylinder shoulders which are arranged on the inner side of the patio part and are attached to the partition ribs, and the height of the side ribs of the axillary plates is the same as that of the ribs of the matched template. The axillary plate connecting system comprises axillary plates for buildings, a plane template and a connecting device, wherein the plane template is fixed on two sides of the axillary plates for buildings through the connecting device, and the axillary plates with required width are formed by connecting flat plates with any width between the two axillary plates. The invention can conveniently and quickly form the building armpit clamping template with any design width without special customization.

Description

Axillary plate and axillary plate connecting system for building

Technical Field

The invention relates to a building template, in particular to a connection system of an axillary plate and an axillary plate for a building.

Background

In the civil construction field, there is a special armpit structure, need use special angle structure template to prop up when pouring and establish. The prior art is generally customized in advance according to the armpit plates with different widths, can not be produced in batch in a standardized manner, and has low repeated utilization rate and higher manufacturing cost. At present, a series of standardized plastic templates, connectors and the like are published in the market, the plastic templates can be produced in batches and reused, the comprehensive cost is low, but no standardized axillary clamping plate exists before the invention is completed, so that the comprehensive cost of the plastic templates needing axillary clamping plates is high.

Disclosure of Invention

The invention aims to provide a standardized axillary plate and axillary plate connecting system for buildings, which solves the problem that the axillary plate is required to be customized at present and can effectively reduce the material cost.

The product of the invention has the following implementation modes: a standard axillary plate for building comprises two panels with a certain included angle and ribs distributed on the inner sides of the included angles of the panels and used for installing connecting devices, wherein the ribs are distributed on the two panels in a staggered manner; two adjacent ribs are located on the two panels, respectively, and the sides of the two adjacent ribs are connected to each other.

Wherein the ribs have two structures in common.

A first structure of ribs, wherein the ribs include partition ribs perpendicular to the length direction of the panel and side ribs parallel to the length direction of the panel, the side ribs are perpendicular to the panel surface and located at the edge positions of the panel, the partition ribs are located at two sides of the side ribs, and the partition ribs are perpendicular to the panel surface of the panel; the side ribs are provided with rectangular connecting holes.

The rib comprises a ceiling portion and two opposite tube shoulders, the ceiling portion is composed of the panel, the side plates and the two partition ribs, the two opposite tube shoulders are arranged on the inner side face of the ceiling portion, the length direction of the tube shoulders is parallel to the panel, and the partition ribs are perpendicular to the length direction of the panel and perpendicular to the panel.

When the rib is of a first structure, a special-shaped rib is arranged at one end, far away from the panel, of the outer side face of the edge rib, the top face of the special-shaped rib and the side end face of the panel are located on the same plane, and the plane where the outer side face of the edge rib is located on the inner side of the plane where the side end face of the panel is located.

When the rib is of a second structure, limiting structures are arranged on the inner walls of the other two sides of the inner wall, outside the tube shoulder, in the patio part, each limiting structure comprises two limiting convex edges, the two limiting convex edges are parallel to each other and parallel to the panel, and a limiting penetrating groove is formed between the two limiting convex edges.

The invention also discloses an axilla board connecting system, which comprises a standard axilla board for a building, a plane template and a connecting device, wherein the plane template is fixed on two sides of the axilla board for the building through the connecting device; the axillary plate for the building comprises two panels with a certain included angle and ribs distributed on the inner sides of the included angles of the panels and used for installing the connecting devices, wherein the ribs are distributed on the two panels in a staggered manner; two adjacent ribs are located on the two panels, respectively, and the sides of the two adjacent ribs are connected to each other.

Wherein the ribs have two structures in common.

The second structure of rib, the rib includes by the raise portion that panel, curb plate and two partition ribs constitute and set up two relative tube shoulders on the raise portion medial surface, the length direction of tube shoulder is on a parallel with the panel, the partition rib perpendicular to the length direction of panel is perpendicular to the panel simultaneously.

When the rib is of the first structure, the connecting device is a locking device and comprises a lock pin, a lock sleeve and a lock ring, the end part of the lock pin is inserted into the lock sleeve, and the lock pin is clamped in the lock sleeve through the lock ring.

When the rib is of the second structure, the connecting device is a bridge cylinder connecting device and comprises a bridge cylinder and a connecting bolt, the bridge cylinder is clamped in the rib, and the connecting bolt is screwed in the bridge cylinder.

The armpit for the building has the advantages that the non-right-angle included angle part of the building is formed by the two panels at a certain angle, the two panels are provided with the ribs in a staggered mode, and the ribs can fix the plane templates on the two sides of the armpit for the building by using the corresponding connecting devices. The armpit connecting system can splice armpit clamping templates with the required width for the building, ribs of the armpit for the building correspond to connecting holes in the bridge plate and the plane template, the bridge plate is placed between the armpit for the building and the plane template to adjust the nonstandard module width between the plane template and the armpit for the building, the bridge plate can be cut in the length direction according to the required length, the armpit clamping templates with the required structure size are obtained, and the required armpit clamping templates can be completed through the standard armpit, the flat plate and the bridge plate without customization.

The invention belongs to a plastic building template system, can be combined with the existing plane template, bridge plate and connecting device for use, and can conveniently and quickly form the armpit clamping plate required by design. The invention can be produced in batch and reused, and reduces material cost.

Drawings

Fig. 1 is a schematic view of a first construction axillary plate structure of the invention.

Fig. 2 is a schematic view of a second construction axillary plate structure of the invention.

Fig. 3 is a schematic view of fig. 2 viewed in the direction of the shoulder.

Fig. 4 is a view from a-a of fig. 3.

Fig. 5 is a schematic representation of an armboard attachment system of the present invention utilizing a first architectural armpit.

Fig. 6 is a schematic representation of an armboard attachment system of the present invention using a second architectural armpit.

Fig. 7 is a schematic illustration of the connection of the axillary connection system of the present invention.

In the figure: 1. a panel; 2. a rib; 3. a sealing groove; 4. axillary plates for construction; 5. a bridge plate; 6. a planar template; 7. a lock pin; 8. a lock sleeve; 9. a locking ring; 10. a bridge tube; 11. connecting a bolt; 2-1, ribs; 2-2, connecting holes; 2-3, side ribs; 2-4, special-shaped ribs; 2-5, a limit structure; 2-6, side plates; 2-7, a cylinder shoulder; 2-8, gap; 2-9, a clamping groove; 2-5-1, a limit rib; 2-5-2, a limit penetration groove.

Detailed Description

As shown in fig. 1 and 2, the axillary plate 4 for building of the present invention comprises two panels 1 with a certain included angle and ribs 2 distributed on the inner side of the included angle of the panels 1, wherein the ribs 2 are distributed on the two panels 1 in a staggered manner; two adjacent ribs 2 are respectively located on the two panels 1, and the sides of the two adjacent ribs 2 are connected to each other. Wherein the ribs 2 have two configurations and the ribs 2 on the panel 1 on each side are structurally identical but may not be structurally identical to the ribs 2 on the other side panel 1.

As shown in fig. 1, a first structure of the rib 2: the rib 2 comprises a barrier rib 2-1 vertical to the length direction of the panel 1 and a side rib 2-3 parallel to the length direction of the panel 1, the side rib 2-3 is vertical to the panel 1 and is positioned at the edge position of the panel 1, the barrier rib 2-1 is positioned at two sides of the side rib 2-3, the barrier rib 2-1 is vertical to the panel 1, and a rectangular connecting hole 2-2 is arranged on the side rib 2-3.

When the rib 2 is in the first structure, one end of the outer side surface of the side rib 2-3, which is far away from the panel 1, is provided with a special-shaped rib 2-4, the top surface of the special-shaped rib 2-4 and the side end surface of the panel 1 are positioned on the same plane, and the plane where the outer side surface of the side rib 2-3 is positioned on the inner side of the plane where the side end surface of the panel 1 is positioned.

As shown in fig. 2, 3, and 4, the second structure of the rib 2: the rib 2 comprises a patio portion and two opposite tube shoulders 2-7, the patio portion is composed of a panel 1, side plates 2-6 and two partition ribs 2-1, the length direction of the tube shoulders 2-7 is parallel to the panel 1, the bottoms of the tube shoulders 2-7 are connected with the panel 1, the partition ribs 2-1 are perpendicular to the length direction of the panel 1 and perpendicular to the panel 1, notches 2-8 and clamping grooves 2-9 are formed in the tube shoulders 2-7, the clamping grooves 2-9 are arranged along the length direction of the tube shoulders 2-7, the clamping grooves 2-9 are located in the middle of the tube shoulders 2-7, the notches 2-8 are located on one side of the bottoms of the tube shoulders 2-7, and the notches 2-8 are communicated with the clamping grooves 2-9. The positions of the notches 2-8 on the two tube shoulders 2-7 are symmetrical with each other. Wherein the top of the barrier rib 2-1 is concave, so that the side edge of the panel 1 and a part of the top of the barrier rib 2-1 are contact surfaces, thus the axillary board 4 for building can be easily separated from the template when the axillary board 4 for building is removed.

When the rib 2 is of a second structure, two opposite limiting structures 2-5 are arranged on two inner side faces outside the tube shoulder 2-7 arranged at the well part of the rib 2, each limiting structure 2-5 comprises two limiting convex edges 2-5-1, the two limiting convex edges 2-5-1 are parallel to each other and parallel to the panel 1, and a limiting penetrating groove 2-5-2 is formed between the two limiting convex edges 2-5-1. The bottom of the rib 2 is sealed, so that the rib 2 forms a rectangular well with an open upper end for clamping the bridge tube 10.

The ribs 2 on both sides of the axillary plates 4 for construction can be in a first structure (as shown in figure 1), and the barrier ribs 2-1 of the ribs 2 on both sides are connected with each other into a whole. Meanwhile, the rib 2 of the axillary plate 4 for building can be a first structure on the panel 1 on one side and a second structure on the other side (as shown in figure 2), and the first rib 2 is connected with the second rib 2 through the barrier rib 2-1. The side of the panel 1 is provided with a sealing groove 3, and the sealing groove 3 is arranged along the length of the panel 1.

As shown in fig. 5, fig. 6 and fig. 7, the invention also discloses an axilla connection system, which comprises an axilla board 4 for construction, a bridge board 5, a plane template 6 and a connection device, wherein the plane template 6 is fixed on two sides of the axilla board 4 for construction through the connection device, and the distance between the plane template 6 and the axilla board 4 for construction is adjusted by arranging a plurality of bridge boards 5 between the plane template 6 and the axilla board 4 for construction; the axillary plate 4 for the building comprises two panels 1 with a certain included angle and ribs 2 distributed on the inner sides of the included angle of the panels 1, wherein the ribs 2 are distributed on the two panels 1 in a staggered manner; two adjacent ribs 2 are respectively located on the two panels 1, and the sides of the two adjacent ribs 2 are connected to each other.

Wherein the ribs 2 comprise two configurations. First structure of the rib 2: the ribs 2 comprise partition ribs 2-1 vertical to the length direction of the panel 1 and side ribs 2-3 parallel to the length direction of the panel 1, the side ribs 2-3 are vertical to the panel 1 and are positioned at the edge position of the panel 1, the partition ribs 2-1 are positioned at two sides of the side ribs 2-3, and the partition ribs 2-1 are vertical to the panel 1; the side rib 2-3 is provided with a rectangular connecting hole 2-2. Second structure of the rib 2: the rib 2 comprises a patio portion and two opposite tube shoulders 2-7, the patio portion is composed of a panel 1, side plates 2-6 and two partition ribs 2-1, the length direction of the tube shoulders 2-7 is parallel to the panel 1, the bottoms of the tube shoulders 2-7 are connected with the panel 1, the partition ribs 2-1 are perpendicular to the length direction of the panel 1 and perpendicular to the panel 1, notches 2-8 and clamping grooves 2-9 are formed in the tube shoulders 2-7, the clamping grooves 2-9 are arranged along the length direction of the tube shoulders 2-7, the clamping grooves 2-9 are located in the middle of the tube shoulders 2-7, the notches 2-8 are located on one side of the bottoms of the tube shoulders 2-7, and the notches 2-8 are communicated with the clamping grooves 2-9. Two opposite limiting structures 2-5 are arranged on the inner side surface of the rib 2 courtyard part, which is outside the barrel shoulder 2-7, the limiting structures 2-5 comprise two limiting convex edges 2-5-1, the two limiting convex edges 2-5-1 are parallel to each other and parallel to the panel 1, and a limiting penetrating groove 2-5-2 is formed between the two limiting convex edges 2-5-1.

As shown in fig. 5, when the rib 2 has the first structure, the connecting device is a locking device, and comprises a lock pin 7, a lock sleeve 8 and a lock ring 9, wherein the end of the lock pin 7 is inserted into the lock sleeve 8, and the lock pin 7 is clamped in the lock sleeve 8 through the lock ring 9.

As shown in fig. 6, when the rib 2 has the second structure, the connecting device is a bridge tube 10 connecting device, and comprises a bridge tube 10 and a connecting bolt 11, wherein the bridge tube 10 is clamped in the rib 2, and the connecting bolt 11 is screwed in the bridge tube 10. The bulge of the bridge tube 10 is clamped in the clamping groove 2-9, and meanwhile, the limiting convex edge 2-5-1 is contacted with the side surface of the bridge tube 10 in the opposite direction to limit the movement of the bridge tube 10.

The armboard 4 for building of the invention forms a non-right angle included angle part of the building through two panels 1 with certain angles, ribs 2 are arranged on the two panels 1 in a staggered mode, and the ribs 2 can fix a plane template 6 on two sides of the armboard 4 for building through corresponding connecting devices. The axillary plate connecting system can splice the pouring templates of the non-right-angle parts of the building, the axillary plates 4 for the building with corresponding included angles are selected according to the actual included angles of the parts of the building, the ribs 2 of the axillary plates 4 for the building correspond to the through holes of the bridge plates 5 and the holes of the panels 1 on the plane templates 6, and the distance between the plane templates 6 and the axillary plates 4 for the building is adjusted and compensated by placing the bridge plates 5 between the axillary plates 4 for the building and the plane templates 6. A flat plate with a certain length is arranged between two adjacent axillary plate systems according to actual requirements, the obtained pouring template is in the shape and the size of a required included angle, and the pouring template does not need to be customized in advance according to drawings every time, and the method can be used for on-site assembly.

Claims

1. The axillary plate for the building is characterized by comprising two panels with a certain included angle and ribs distributed on the inner sides of the included angles of the panels and used for installing connecting devices, wherein the ribs are distributed on the two panels in a staggered manner; two adjacent ribs are respectively positioned on the two panels, and the side surfaces of the two adjacent ribs are mutually connected; the ribs comprise partition ribs perpendicular to the length direction of the panel and side ribs parallel to the length direction of the panel, the side ribs are perpendicular to the panel surface and located at the edge positions of the panel, the partition ribs are located on two sides of the side ribs, and the partition ribs are perpendicular to the panel surface of the panel; the side ribs are provided with rectangular connecting holes; and one end of the outer side surface of the edge rib, which is far away from the panel, is provided with a special-shaped rib, the top surface of the special-shaped rib and the side end surface of the panel are positioned on the same plane, and the plane where the outer side surface of the edge rib is positioned on the inner side of the plane where the side end surface of the panel is positioned.

2. The axilla board connecting system is characterized by comprising axilla boards for buildings, a plane template and a connecting device, wherein the plane template is fixed on two sides of the axilla boards for the buildings through the connecting device; the axillary plate for the building comprises two panels with a certain included angle and ribs distributed on the inner sides of the included angles of the panels and used for installing the connecting devices, wherein the ribs are distributed on the two panels in a staggered manner; two adjacent ribs are respectively positioned on the two panels, and the side surfaces of the two adjacent ribs are mutually connected; the ribs comprise partition ribs perpendicular to the length direction of the panel and side ribs parallel to the length direction of the panel, the side ribs are perpendicular to the panel surface and located at the edge positions of the panel, the partition ribs are located on two sides of the side ribs, and the partition ribs are perpendicular to the panel surface of the panel; the side ribs are provided with rectangular connecting holes; and one end of the outer side surface of the edge rib, which is far away from the panel, is provided with a special-shaped rib, the top surface of the special-shaped rib and the side end surface of the panel are positioned on the same plane, and the plane where the outer side surface of the edge rib is positioned on the inner side of the plane where the side end surface of the panel is positioned.

3. The axillary connection system according to claim 2, wherein said connection means is a locking means comprising a locking pin, a locking sleeve and a locking ring, wherein the end of said locking pin is inserted into said locking sleeve, and said locking pin is locked in said locking sleeve by said locking ring.