CN220928327U - Assembled anchor ear connecting device for steel skeleton partition wall and H-shaped steel of building I-beam or suspended ceiling conversion layer - Google Patents

Abstract

The utility model provides an assembled hoop connecting device of a steel skeleton partition wall and H-shaped steel of a building I-beam or a suspended ceiling conversion layer, which is characterized in that a T-shaped hoop connecting piece is arranged below the H-shaped steel of the building I-beam or the suspended ceiling conversion layer in use, a first connecting plate is abutted against a lower flange plate, a second connecting plate and the upper end of a steel skeleton partition wall channel steel upright post are abutted against each other left and right and are fastened through lower fasteners, front and rear U-shaped hoop connecting pieces are respectively embedded in and bonded with front and rear grooves of the H-shaped steel of the building I-beam or the suspended ceiling conversion layer, a front base plate is arranged between the front side of a front base plate and the front end of the first connecting plate and is fastened through front left and front and rear fasteners, and a rear base plate is arranged between the rear side of a rear base plate and the rear end of the first connecting plate and is fastened through rear left and rear right fasteners. The utility model has simple construction, safe and reliable connection, can absorb the vibration and displacement of the main body structure, and avoids the damage to the H-shaped steel beam or the suspended ceiling conversion layer of the original building.

Description

Assembled anchor ear connecting device for steel skeleton partition wall and H-shaped steel of building I-beam or suspended ceiling conversion layer

Technical Field

The utility model relates to the technical field of building construction, in particular to the technical field of connection of a steel skeleton partition wall and H-shaped steel of a building I-beam or a suspended ceiling conversion layer, and specifically relates to an assembled hoop connection device of the steel skeleton partition wall and the H-shaped steel of the building I-beam or the suspended ceiling conversion layer.

Background

The building construction refers to the production activity of engineering construction implementation stage, which is the construction process of various buildings, and can be said to be the process of changing various lines on a design drawing into real objects at a designated place. The method comprises foundation engineering construction, main body structure construction, roof engineering construction, decoration engineering construction and the like. The site of construction is referred to as a "building site" or "job site," also known as a worksite.

The steel skeleton partition wall is directly welded to the H-shaped steel of the original building I-beam or the suspended ceiling conversion layer, so that the steel skeleton partition wall is large in material specification, complex in process, heavy in welding quantity and inconvenient to construct, and the steel skeleton partition wall is directly welded to the H-shaped steel of the original building I-beam or the suspended ceiling conversion layer, so that welding contact surfaces are few, only linear contact is realized, position adjustment cannot be performed after welding, and vibration and displacement of a main structure cannot be absorbed; when being welded to the original building I-beam or the ceiling conversion layer H-shaped steel, the surface fireproof and anti-corrosion layer of the original building I-beam or the ceiling conversion layer H-shaped steel is damaged, and heat is generated in the welding process to damage the mechanical property of the original building I-beam or the ceiling conversion layer H-shaped steel, so that a great potential safety hazard exists; the field welding has deviation, the welding sizes of different constructors have difference, the inconvenience is brought to the construction of the next working procedure, and the construction content in the next working procedure cannot be processed and manufactured in batches in a fixed-length manner in advance.

Therefore, it is desirable to provide a device for connecting a steel skeleton partition wall with H-shaped steel of a building I-shaped steel beam or a suspended ceiling conversion layer, which is simple and convenient to construct, safe, firm and reliable in connection, capable of absorbing vibration and displacement of a main structure and avoiding damage to the H-shaped steel of the original building I-shaped steel beam or suspended ceiling conversion layer.

Disclosure of utility model

In order to overcome the defects in the prior art, the utility model aims to provide the assembly type hoop connecting device for the steel skeleton partition wall and the H-shaped steel of the building I-beam or the suspended ceiling conversion layer, which is simple and convenient to construct, safe, firm and reliable in connection, capable of absorbing vibration and displacement of a main body structure, capable of avoiding damage to the H-shaped steel of the original building I-beam or the suspended ceiling conversion layer, and suitable for large-scale popularization and application.

The utility model aims to provide an assembled hoop connecting device for a steel skeleton partition wall and H-shaped steel of a building I-shaped steel beam or a suspended ceiling conversion layer, which has the advantages of ingenious design, simple structure, simple and convenient manufacture and low manufacturing cost, and is suitable for large-scale popularization and application.

In order to achieve the above purpose, the utility model provides an assembled hoop connecting device of a steel skeleton partition wall and H-shaped steel of a building I-beam or a suspended ceiling conversion layer, which is characterized by comprising a front U-shaped hoop connecting piece, a rear U-shaped hoop connecting piece, a T-shaped hoop connecting piece, a front backing plate, a rear backing plate, a front left fastening piece, a front right fastening piece, a rear left fastening piece, a rear right fastening piece and a lower fastening piece, wherein:

The front U-shaped hoop connecting piece comprises a front top plate, a front bottom plate and a front connecting plate, wherein the front top plate and the front bottom plate are horizontally arranged, are arranged along the left-right direction and are arranged at intervals up and down, the front connecting plate is vertically arranged and is arranged along the left-right direction, and the front connecting plate is positioned between the rear side of the front top plate and the rear side of the front bottom plate and is respectively connected with the rear side of the front top plate and the rear side of the front bottom plate;

The rear U-shaped hoop connecting piece comprises a rear top plate, a rear bottom plate and a rear connecting plate, wherein the rear top plate and the rear bottom plate are horizontally arranged and are arranged along the left-right direction and are arranged at intervals up and down, the rear connecting plate is vertically arranged and is arranged along the left-right direction, the rear connecting plate is positioned between the front side of the rear top plate and the front side of the rear bottom plate and is respectively connected with the front side of the rear top plate and the front side of the rear bottom plate, and the front top plate, the rear top plate, the front bottom plate, the rear bottom plate, the front connecting plate, the rear connecting plate and the rear connecting plate are all arranged at intervals front and back;

The T-shaped hoop connecting piece comprises a first connecting plate and a second connecting plate, wherein the first connecting plate is horizontally arranged and arranged along the front-rear direction, the second connecting plate is vertically arranged and arranged along the front-rear direction, and the second connecting plate is positioned below the first connecting plate and connected with the first connecting plate;

The front cushion plate and the rear cushion plate are horizontally arranged and are arranged along the left-right direction at intervals, the first connecting plate is positioned below the front bottom plate and the rear bottom plate, the front cushion plate is positioned between the front side of the front bottom plate and the front end of the first connecting plate and respectively abuts against the front side of the front bottom plate and the front end of the first connecting plate, the rear cushion plate is positioned between the rear side of the rear bottom plate and the rear end of the first connecting plate and respectively abuts against the rear side of the rear bottom plate and the rear end of the first connecting plate, the front left fastening piece, the front right fastening piece, the rear left fastening piece and the rear right fastening piece are vertically arranged, the front left fastening piece vertically penetrates through the left part of the front end of the first connecting plate, the left part of the front cushion plate and the left part of the front side of the front bottom plate so as to fasten the left part of the front end of the first connecting plate, the left part of the front cushion plate and the front side of the front bottom plate together, the front right fastener vertically penetrates through the right part of the front end of the first connecting plate, the right part of the front backing plate and the right part of the front side of the front bottom plate so as to fasten the right part of the front end of the first connecting plate, the right part of the front backing plate and the right part of the front side of the front bottom plate together, the rear left fastener vertically penetrates through the left part of the rear end of the first connecting plate, the left part of the rear backing plate and the left part of the rear side of the rear bottom plate so as to fasten the left part of the rear end of the first connecting plate, the left part of the rear backing plate and the left part of the rear side of the rear bottom plate together, and the rear right fastener vertically penetrates through the right part of the rear end of the first connecting plate, A right portion of the back pad and a right portion of the rear side of the back floor to fasten together a right portion of the rear end of the first connection plate, a right portion of the back pad and a right portion of the rear side of the back floor, the second connection plate being located between the front left fastener and the front right fastener and between the rear left fastener and the rear right fastener;

The second connecting plate is used for being in mutual leaning against the setting about the upper end of the steel skeleton partition wall channel-section steel stand that vertical setting and follow the fore-and-aft direction set up, down the fastener along the direction sets up about, down the fastener be used for following the direction wears to establish the upper end of steel skeleton partition wall channel-section steel stand and follow about the direction wears to establish the second connecting plate thereby the upper end of steel skeleton partition wall channel-section steel stand with the second connecting plate fastening is in the same place, down the number of fastener is a plurality of, a plurality of down the fastener is just set up with interval each other.

Preferably, a front left mounting hole, a front right mounting hole, a rear left mounting hole and a rear right mounting hole are respectively vertically arranged at the left part of the front end of the first connecting plate, the right part of the front end of the first connecting plate, the left part of the rear end of the first connecting plate and the right part of the rear end of the first connecting plate, a front left connecting hole and a front right connecting hole are respectively vertically arranged at the left part of the front side of the front bottom plate and the right part of the front side of the front bottom plate, a rear left connecting hole and a rear right connecting hole are respectively vertically arranged at the left part of the rear side of the rear bottom plate and the right part of the rear side of the rear bottom plate, a front left fastening piece vertically penetrates through the front left mounting hole and the front left connecting hole, a front right fastening piece vertically penetrates through the front right mounting hole and the front right connecting hole, a rear left fastening piece vertically penetrates through the rear left mounting hole and the rear left connecting hole, and a rear right fastening piece vertically penetrates through the rear left mounting hole and the rear right connecting hole.

The second connecting plate is provided with the fixed orifices along the left-right direction, the lower fastening piece is worn to establish along the left-right direction the fixed orifices, the quantity of fixed orifices with the quantity of lower fastening piece the same, fixed orifices and lower fastening piece one-to-one set up.

More preferably, the front right mounting hole, the rear left mounting hole, the front left connecting hole, the front right connecting hole, the rear left connecting hole, the rear right connecting hole and the fixing hole are all first waist round holes, the first waist round holes extend in the front-rear direction, the front left mounting hole and the rear right mounting hole are second waist round holes, and the second waist round holes extend in the left-right direction.

Further, the length and width of the first waist hole and the length and width of the second waist hole are respectively 50mm and 20mm.

More preferably, the number of the fixing holes is 4, and 4 fixing holes are distributed at 4 corners of a rectangle.

Preferably, the front left fastener comprises a front left bolt and a front left nut, the front left bolt is vertically arranged and vertically penetrates through the left part of the front end of the first connecting plate, the left part of the front backing plate, the left part of the front side of the front bottom plate and the front left nut and is in threaded engagement with the front left nut, the front right fastener comprises a front right bolt and a front right nut, the front right bolt is vertically arranged and vertically penetrates through the right part of the front end of the first connecting plate, the right part of the front backing plate, the right part of the front side of the front bottom plate and the front right nut and is in threaded engagement with the front right nut, the rear left fastener comprises a rear left bolt and a rear left nut, and the rear left bolt is vertically arranged and vertically penetrates through the left part of the rear end of the first connecting plate, the left part of the rear backing plate, the left part of the rear side of the rear bottom plate and the rear left nut and is in threaded engagement with the rear left nut; the rear right fastener comprises a rear right bolt and a rear right nut, wherein the rear right bolt is vertically arranged and vertically penetrates through the right part of the rear end of the first connecting plate, the right part of the rear backing plate, the right part of the rear side of the rear bottom plate and the rear right nut, and is in threaded engagement with the rear right nut;

The lower fastener comprises a lower bolt and a lower nut, wherein the lower bolt is arranged along the left-right direction, and is used for penetrating the upper end of the steel skeleton partition channel steel upright post along the left-right direction and penetrating the second connecting plate along the left-right direction, the lower nut and the lower nut are in threaded engagement.

More preferably, the front left bolt, the front right bolt, the rear left bolt and the rear right bolt are all high-strength bolts.

Preferably, the assembly type hoop connecting device further comprises a front reinforcing plate and a rear reinforcing plate, wherein the front reinforcing plate and the rear reinforcing plate are vertically arranged and are arranged along the front and rear directions, the front reinforcing plate is located before the front connecting plate and between the front top plate and the front bottom plate and respectively connected with the front connecting plate, the front top plate and the front bottom plate, and the rear reinforcing plate is located after the rear connecting plate and between the rear top plate and the rear bottom plate and respectively connected with the rear connecting plate, the rear top plate and the rear bottom plate.

Preferably, the dimension of the front top plate in the left-right direction, the dimension of the front bottom plate in the left-right direction, the dimension of the front connecting plate in the left-right direction, the dimension of the rear top plate in the left-right direction, the dimension of the rear bottom plate in the left-right direction, and the dimension of the rear connecting plate in the left-right direction are 300mm.

Preferably, the front top plate, the front bottom plate, the front connecting plate, the rear top plate, the rear bottom plate, the rear connecting plate, the front cushion plate and the rear cushion plate are all steel plates.

The beneficial effects of the utility model are mainly as follows:

1. When the assembled hoop connecting device of the steel skeleton partition wall and the H-shaped steel of the building I-beam or the suspended ceiling conversion layer is used, the T-shaped hoop connecting piece is arranged below the H-shaped steel of the building I-beam or the suspended ceiling conversion layer which is horizontally arranged and arranged along the left-right direction, the first connecting plate abuts against the lower flange plate of the H-shaped steel of the building I-beam or the suspended ceiling conversion layer, the second connecting plate abuts against the upper end of the steel skeleton partition channel upright post which is vertically arranged and arranged along the front-back direction and is fastened through the lower fastening piece, the front U-shaped hoop connecting piece and the rear U-shaped hoop connecting piece are respectively embedded in the front groove and the rear groove of the H-shaped steel of the building I-beam or the suspended ceiling conversion layer and are bonded with the front groove and the rear groove, the front backing plate is arranged between the front side of the front bottom plate and the front end of the first connecting plate and is fastened through the front left fastening piece and the front fastening piece and the rear fastening piece, and the rear backing plate is arranged between the rear side of the steel beam of the rear bottom plate and the rear end of the first connecting plate and is fastened through the rear left fastening piece and the rear fastening piece, and the rear fastening piece is convenient, the construction is safe and reliable, the connection is capable of absorbing the main structure and the construction and displacement damage to the original H-shaped steel conversion layer or the suspended ceiling conversion layer is suitable for large scale application.

2. When the assembled hoop connecting device of the steel skeleton partition wall and the H-shaped steel of the building I-beam or the suspended ceiling conversion layer is used, the T-shaped hoop connecting piece is arranged below the H-shaped steel of the building I-beam or the suspended ceiling conversion layer which is horizontally arranged and arranged along the left-right direction, the first connecting plate abuts against the lower flange plate of the H-shaped steel of the building I-beam or the suspended ceiling conversion layer, the second connecting plate abuts against the upper end of the steel skeleton partition channel steel upright post which is vertically arranged and is arranged along the front-back direction and is fastened through the lower fastening piece, the front U-shaped hoop connecting piece and the rear U-shaped hoop connecting piece are respectively embedded in the front groove and the rear groove of the H-shaped steel of the building I-beam or the suspended ceiling conversion layer and are bonded with the front groove and the rear groove, the front backing plate is arranged between the front side of the front bottom plate and the front end of the first connecting plate and is fastened through the front left fastening piece and the front fastening piece and the rear fastening piece, and the rear backing plate is arranged between the rear side of the rear bottom plate and the rear end of the first connecting plate and is fastened through the rear left fastening piece and the rear fastening piece.

These and other objects, features and advantages of the present utility model will be more fully apparent from the following detailed description and drawings, and may be learned by the practice of the utility model by the means, apparatus and combinations thereof as set forth hereinafter.

Drawings

Fig. 1 is a schematic perspective view of an embodiment of the assembled hoop connection device for connecting a steel skeleton partition wall to a building i-beam or ceiling conversion layer H-beam of the present utility model.

Fig. 2 is a schematic perspective view of the structure shown in fig. 1.

Fig. 3 is a schematic left-hand view of the structure shown in fig. 1.

Fig. 4 is a schematic perspective view of the front U-shaped hoop connector of the embodiment shown in fig. 1.

Fig. 5 is a schematic perspective view of the rear U-shaped hoop connector of the embodiment shown in fig. 1.

Fig. 6 is a schematic perspective view of the T-clamp connector of the embodiment shown in fig. 1.

(Symbol description)

1 Front U-shaped hoop connecting piece; 2, a rear U-shaped hoop connecting piece; 3T-shaped hoop connectors; 4, a front backing plate; 5, a back cushion plate; 6 front left fastener; 7 front right fastener; 8, a rear left fastener; 9, fastening the lower part; 10 front top plate; 11 front bottom plate; a front connecting plate 12; 13 rear roof; 14 a rear floor; 15, a rear connecting plate; 16 first connection plates; 17 a second connecting plate; 18 front left mounting hole; 19 front right mounting holes; 20 rear left mounting hole; 21 rear right mounting hole; 22 front left connecting hole; 23 front right connecting holes; 24 rear left connecting hole; 25 rear right connecting hole; 26 fixing holes; 27 front stiffener; 28 rear reinforcement plate; 29 building I-beam steel; 30 steel skeleton partition wall channel steel upright posts; 31 upper flange plate; 32 webs; 33 lower flange plates; 34 front grooves; 35 rear grooves.

Detailed Description

In order to make the technical contents of the present utility model more clearly understood, the following examples are specifically described.

In the description of the present utility model, it should be understood that the terms "upper," "lower," "front," "rear," "left," "right," "top," "bottom," "inner," "outer," and the like indicate or are based on the orientation or positional relationship shown in the drawings, merely to facilitate description of the present utility model and to simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

Referring to fig. 1 to 6, in an embodiment of the present utility model, an assembly type anchor ear connection device for a steel skeleton partition wall and H-type steel of a building i-beam or a ceiling conversion layer of the present utility model includes a front U-type anchor ear connection member 1, a rear U-type anchor ear connection member 2, a T-type anchor ear connection member 3, a front pad 4, a rear pad 5, a front left fastening member 6, a front right fastening member 7, a rear left fastening member 8, a rear right fastening member (not shown in the drawings), and a lower fastening member 9, wherein:

The front U-shaped hoop connector 1 comprises a front top plate 10, a front bottom plate 11 and a front connecting plate 12, wherein the front top plate 10 and the front bottom plate 11 are horizontally arranged, are arranged along the left-right direction and are arranged at intervals up and down, the front connecting plate 12 is vertically arranged and is arranged along the left-right direction, and the front connecting plate 12 is positioned between the rear side of the front top plate 10 and the rear side of the front bottom plate 11 and is respectively connected with the rear side of the front top plate 10 and the rear side of the front bottom plate 11;

The rear U-shaped hoop connector 2 comprises a rear top plate 13, a rear bottom plate 14 and a rear connecting plate 15, wherein the rear top plate 13 and the rear bottom plate 14 are horizontally arranged and are arranged along the left-right direction and are arranged at intervals up and down, the rear connecting plate 15 is vertically arranged and is arranged along the left-right direction, the rear connecting plate 15 is positioned between the front side of the rear top plate 13 and the front side of the rear bottom plate 14 and is respectively connected with the front side of the rear top plate 13 and the front side of the rear bottom plate 14, and the front top plate 10 and the rear top plate 13, the front bottom plate 11 and the rear bottom plate 14 and the front connecting plate 12 and the rear connecting plate 15 are arranged at intervals back and forth;

The T-shaped hoop connector 3 comprises a first connecting plate 16 and a second connecting plate 17, the first connecting plate 16 is horizontally arranged and arranged along the front-rear direction, the second connecting plate 17 is vertically arranged and arranged along the front-rear direction, and the second connecting plate 17 is positioned below the first connecting plate 16 and connected with the first connecting plate 16;

The front cushion plate 4 and the rear cushion plate 5 are horizontally arranged and are arranged along the left-right direction and are arranged at intervals from front to back, the first connecting plate 16 is positioned under the front bottom plate 11 and the rear bottom plate 14, the front cushion plate 4 is positioned between the front side of the front bottom plate 11 and the front end of the first connecting plate 16 and respectively abuts against the front side of the front bottom plate 11 and the front end of the first connecting plate 16, the rear cushion plate 5 is positioned between the rear side of the rear bottom plate 14 and the rear end of the first connecting plate 16 and respectively abuts against the rear side of the rear bottom plate 14 and the rear end of the first connecting plate 16, the front left fastening member 6, the front right fastening member 7, the rear left fastening member 8 and the rear right fastening member are vertically arranged, the front left fastener 6 vertically penetrates the left part of the front end of the first connecting plate 16, the left part of the front backing plate 4 and the left part of the front side of the front bottom plate 11 to fasten the left part of the front end of the first connecting plate 16, the left part of the front backing plate 4 and the left part of the front side of the front bottom plate 11 together, the front right fastener 7 vertically penetrates the right part of the front end of the first connecting plate 16, the right part of the front backing plate 4 and the right part of the front side of the front bottom plate 11 to fasten the right part of the front end of the first connecting plate 16, the right part of the front backing plate 4 and the right part of the front side of the front bottom plate 11 together, the rear left fastener 8 vertically penetrates the left part of the rear end of the first connecting plate 16, the left part of the rear backing plate 5 and the left part of the rear side of the rear bottom plate 14 to fasten the left part of the rear end of the first connecting plate 16, the left part of the rear backing plate 5 and the left part of the rear bottom plate 14 together, the rear right fastening member vertically penetrates through the right part of the rear end of the first connecting plate 16, the right part of the rear cushion plate 5 and the right part of the rear side of the rear bottom plate 14 so as to fasten the right part of the rear end of the first connecting plate 16, the right part of the rear cushion plate 5 and the right part of the rear side of the rear bottom plate 14 together, and the second connecting plate 17 is positioned between the front left fastening member 6 and the front right fastening member 7 and between the rear left fastening member 8 and the rear right fastening member;

The second connecting plate 17 is used for being vertically arranged and is arranged along the left and right sides of the upper end of the steel skeleton partition channel steel upright 30 arranged in the front-back direction, the lower fastening pieces 9 are arranged along the left and right directions, the lower fastening pieces 9 are used for being arranged along the left and right directions in a penetrating mode, the upper end of the steel skeleton partition channel steel upright 30 is arranged along the left and right directions in a penetrating mode, the second connecting plate 17 is arranged along the left and right directions in a penetrating mode, the upper end of the steel skeleton partition channel steel upright 30 and the second connecting plate 17 are fastened together, the number of the lower fastening pieces 9 is multiple, and the lower fastening pieces 9 are arranged at intervals.

The front left fastening member 6 vertically penetrates the left portion of the front end of the first connecting plate 16 and the left portion of the front side of the front bottom plate 11, the front right fastening member 7 vertically penetrates the right portion of the front end of the first connecting plate 16 and the right portion of the front side of the front bottom plate 11, the rear left fastening member 8 vertically penetrates the left portion of the rear end of the first connecting plate 16 and the left portion of the rear side of the rear bottom plate 14, the rear right fastening member vertically penetrates the right portion of the rear end of the first connecting plate 16 and the right portion of the rear side of the rear bottom plate 14, the lower fastening member 9 vertically penetrates the second connecting plate 17 in the left-right direction, and any suitable structure may be adopted, as shown in fig. 1 to 6, in a specific embodiment of the present utility model, the left part of the front end of the first connecting plate 16, the right part of the front end of the first connecting plate 16, the left part of the rear end of the first connecting plate 16 and the right part of the rear end of the first connecting plate 16 are respectively vertically provided with a front left mounting hole 18, a front right mounting hole 19, a rear left mounting hole 20 and a rear right mounting hole 21, the left part of the front side of the front bottom plate 11 and the right part of the front side of the front bottom plate 11 are respectively vertically provided with a front left connecting hole 22 and a front right connecting hole 23, the left part of the rear side of the rear bottom plate 14 and the right part of the rear side of the rear bottom plate 14 are respectively vertically provided with a rear left connecting hole 24 and a rear right connecting hole 25, the front left fastening piece 6 vertically penetrates through the front left mounting hole 18 and the front left connecting hole 22, the front right mounting hole 19 and the front right connecting hole 23, the rear left fastening piece 8 vertically penetrates through the rear left mounting hole 20 and the rear left connecting hole 24, the rear right fastener vertically penetrates through the rear right mounting hole 21 and the rear right connecting hole 25; the second connecting plate 17 is provided with fixing holes 26 along the left-right direction, the lower fastening pieces 9 penetrate through the fixing holes 26 along the left-right direction, the number of the fixing holes 26 is the same as that of the lower fastening pieces 9, and the fixing holes 26 and the lower fastening pieces 9 are arranged in a one-to-one correspondence mode.

The front left mounting hole 18, the front right mounting hole 19, the rear left mounting hole 20, the rear right mounting hole 21, the front left connecting hole 22, the front right connecting hole 23, the rear left connecting hole 24, the rear right connecting hole 25, and the fixing hole 26 may have any suitable shape, and in an embodiment of the present utility model, the front right mounting hole 19, the rear left mounting hole 20, the front left connecting hole 22, the front right connecting hole 23, the rear left connecting hole 24, the rear right connecting hole 25, and the fixing hole 26 are all first waist round holes, the first waist round holes extend in the front-rear direction, and the front left mounting hole 18 and the rear right mounting hole 21 are all second waist round holes, and the second waist round holes extend in the left-right direction, as shown in fig. 4 to 6.

The length and width of the first waist hole and the length and width of the second waist hole may be determined according to needs, and in a specific embodiment of the present utility model, the length and width of the first waist hole and the length and width of the second waist hole are respectively 50mm and 20mm.

The number of the fixing holes 26 may be determined according to need, as shown in fig. 6, and in an embodiment of the present utility model, the number of the fixing holes 26 is 4, and 4 fixing holes 26 are distributed at 4 corners of a rectangle.

The front left fastener 6, the front right fastener 7, the rear left fastener 8 and the rear right fastener may have any suitable configuration, and in a specific embodiment of the present utility model, the front left fastener 6 includes a front left bolt vertically disposed and vertically penetrating the left portion of the front end of the first connection plate 16, the left portion of the front pad 4, the left portion of the front side of the front bottom plate 11 and the front left nut and threadably engaging the front left nut, the front right fastener 7 includes a front right bolt vertically disposed and vertically penetrating the right portion of the front end of the first connection plate 16, the right portion of the front pad 4, the right portion of the front side of the front bottom plate 11 and the front right nut and threadably engaging the front right nut, the rear left fastener 8 includes a rear left bolt vertically disposed and vertically penetrating the left portion of the rear end of the first connection plate 16, the rear left nut and the rear left portion of the rear end of the rear pad 16, the left portion of the rear pad 14 and the rear threaded nut and the rear left nut and 14; the rear right fastener comprises a rear right bolt and a rear right nut, the rear right bolt is vertically arranged and vertically penetrates through the right part of the rear end of the first connecting plate 16, the right part of the rear backing plate 5, the right part of the rear side of the rear bottom plate 14 and the rear right nut, and is in threaded engagement with the rear right nut; the lower fastener 9 comprises a lower bolt and a lower nut, the lower bolt is arranged along the left-right direction, and the lower bolt is used for penetrating the upper end of the steel skeleton partition channel steel upright 30 along the left-right direction and penetrating the second connecting plate 17 along the left-right direction, the lower nut and the lower nut are in threaded engagement.

The front left bolt, the front right bolt, the rear left bolt, and the rear right bolt may be any suitable bolts, and in one embodiment of the present utility model, the front left bolt, the front right bolt, the rear left bolt, and the rear right bolt are all high strength bolts, such as M16 hexagon 10.9 high strength bolts.

The assembly-type anchor ear connection device may further comprise any other suitable structure, as shown in fig. 1 to 5, in an embodiment of the present utility model, the assembly-type anchor ear connection device further comprises a front reinforcing plate 27 and a rear reinforcing plate 28, wherein the front reinforcing plate 27 and the rear reinforcing plate 28 are vertically disposed and are disposed along the front-rear direction, the front reinforcing plate 27 is located in front of the front connecting plate 12 and is located between the front top plate 10 and the front bottom plate 11 and connects the front connecting plate 12, the front top plate 10 and the front bottom plate 11 respectively, and the rear reinforcing plate 28 is located behind the rear connecting plate 15 and is located between the rear top plate 13 and the rear bottom plate 14 and connects the rear connecting plate 15, the rear top plate 13 and the rear bottom plate 14 respectively.

The dimension of the front top plate 10 in the left-right direction, the dimension of the front bottom plate 11 in the left-right direction, the dimension of the front connection plate 12 in the left-right direction, the dimension of the rear bottom plate 13 in the left-right direction, the dimension of the rear bottom plate 14 in the left-right direction, and the dimension of the rear connection plate 15 in the left-right direction may be determined as needed, and in a specific embodiment of the present utility model, the dimension of the front top plate 10 in the left-right direction, the dimension of the front bottom plate 11 in the left-right direction, the dimension of the front connection plate 12 in the left-right direction, the dimension of the rear top plate 13 in the left-right direction, the dimension of the rear bottom plate 14 in the left-right direction, and the dimension of the rear connection plate 15 in the left-right direction are 300mm.

The front top plate 10, the front bottom plate 11, the front connecting plate 12, the rear top plate 13, the rear bottom plate 14, the rear connecting plate 15, the front pad 4 and the rear pad 5 may be plates of any suitable material, and in one embodiment of the present utility model, the front top plate 10, the front bottom plate 11, the front connecting plate 12, the rear top plate 13, the rear bottom plate 14, the rear connecting plate 15, the front pad 4 and the rear pad 5 are all steel plates, such as Q235B high-quality carbon steel plates or hot dip galvanized steel plates.

The size of the front pad 4 and the size of the rear pad 5 may be determined according to need, and in an embodiment of the present utility model, the length and width of the front pad 4 and the length and width of the rear pad 5 are 300mm and 100mm, respectively, and the thickness of the front pad 4 and the thickness of the rear pad 5 may be slightly thicker than the thickness of the lower flange plate 32 of the H-beam 29 or the H-beam of the ceiling conversion layer, for example, 3mm.

In connection, taking an example of connecting the building i-beam 29 and the steel skeleton partition wall channel steel column 30, wherein the building i-beam 29 is horizontally arranged and is arranged along the left-right direction, the front part of the bottom surface of the upper flange plate 31 of the building i-beam 29, the front side surface of the web plate 32 and the front part of the top surface of the lower flange plate 32 form a front groove 34, the rear part of the bottom surface of the upper flange plate 31, the rear side surface of the web plate 32 and the rear part of the top surface of the lower flange plate 32 form a rear groove 35, the steel skeleton partition wall channel steel column 30 needs to be connected under the building i-beam 29, the steel skeleton partition wall channel steel column 30 is vertically arranged and is arranged along the front-rear direction, the steel skeleton partition wall channel steel column 30 is arranged at a desired position under the lower flange plate 32 of the building i-beam 29, the T-shaped hoop connecting piece 3 is arranged under the lower flange plate 32, the first connecting plate 16 is abutted against the lower flange plate 32, the upper ends of the second connecting plate 17 and the steel skeleton partition channel steel upright 30 are mutually propped against each other left and right, the lower fastening piece 9 is penetrated through the upper end of the steel skeleton partition channel steel upright 30 and the second connecting plate 17 along the left and right direction so as to fasten the upper end of the steel skeleton partition channel steel upright 30 and the second connecting plate 17 together, the front U-shaped hoop connector 1 and the rear U-shaped hoop connector 2 are respectively embedded in the front groove 34 and the rear groove 35 of the building I-steel beam 29 and respectively adhered with the front groove 34 and the rear groove 35, wherein the front top plate 10 of the front U-shaped hoop connector 1 is positioned under the front part of the bottom surface of the upper flange plate 31 and is propped against the front part of the bottom surface of the upper flange plate 31, the front connecting plate 12 is positioned in front of the front side surface of the web 32 and is propped against the front side surface of the web 32, the front bottom plate 11 is propped against the front part of the top surface of the lower flange plate 32, the rear top plate 13 of the rear U-shaped anchor ear connector 2 is located below the rear portion of the bottom surface of the upper flange plate 31 and abuts against the rear portion of the bottom surface of the upper flange plate 31, the rear connecting plate 15 is located behind the rear side surface of the web 32 and abuts against the rear side surface of the web 32, the rear bottom plate 14 abuts against the rear portion of the top surface of the lower flange plate 32, gaps between the front U-shaped anchor ear connector 1 and the building i-beam 29 and between the rear U-shaped anchor ear connector 2 and the building i-beam 29 are subjected to surface sealing treatment by steel filling glue, the front base plate 4 is placed between the front side of the front bottom plate 11 and the front end of the first connecting plate 16, the rear base plate 5 is placed between the rear side of the rear bottom plate 14 and the rear end of the first connecting plate 16, the left portion of the front base plate 4 and the left portion of the front bottom plate 11 are vertically penetrated through the front left fastening piece 6, the right portion of the front base plate 4 and the left portion of the front bottom plate 11 are vertically penetrated through the front right fastening piece 7, the right side fastening piece 4 and the left side fastening piece and the right side of the rear base plate 16 are vertically penetrated through the left fastening piece 5 and the rear connecting plate 16, and the left side fastening piece and the right side fastening piece is penetrated through the left and right side of the rear base plate 16 fastening piece is vertically penetrated through the rear side of the rear base plate 16.

Therefore, the utility model adopts assembly type installation, is adhered with the H-shaped steel of the original building I-beam or the ceiling conversion layer, is fastened with the steel skeleton partition wall channel steel upright post through the fastener, does not punch the H-shaped steel of the original building I-beam or the ceiling conversion layer, is not welded, does not damage the anti-corrosion fireproof layer on the surface of the H-shaped steel of the original building I-beam or the ceiling conversion layer, avoids damaging the mechanical property of the H-shaped steel of the original building I-beam or the ceiling conversion layer due to heat generated by welding, avoids the deformation and uneven stress of the H-shaped steel of the original building I-beam or the ceiling conversion layer due to heat generated by welding, reduces fire hazard, has simple structure, is easy to fasten, is convenient to construct, has good tightening performance, and can absorb vibration and displacement of a main body structure.

In conclusion, the assembly type hoop connecting device for the steel skeleton partition wall and the H-shaped steel of the I-shaped steel beam or the suspended ceiling conversion layer of the building is simple and convenient to construct, safe, firm and reliable in connection, capable of absorbing vibration and displacement of a main structure, capable of avoiding damage to the H-shaped steel of the I-shaped steel beam or the suspended ceiling conversion layer of the original building, ingenious in design, simple in structure, simple and convenient to manufacture, low in manufacturing cost and suitable for large-scale popularization and application.

It will thus be seen that the objects of the present utility model have been fully and effectively attained. The functional and structural principles of the present utility model have been shown and described in the examples and embodiments may be modified at will without departing from such principles. Therefore, this utility model includes all modifications encompassed within the spirit of the following claims and the scope of the following claims.

Claims (10)

1. The utility model provides an assembled staple bolt connecting device of steel skeleton partition wall and building I-steel beam or furred ceiling conversion layer H shaped steel, its characterized in that includes preceding U type staple bolt connecting piece, back U type staple bolt connecting piece, T staple bolt connecting piece, preceding backing plate, back backing plate, preceding left fastener, preceding right fastener, back left fastener, back right fastener and lower fastener, wherein:

The front U-shaped hoop connecting piece comprises a front top plate, a front bottom plate and a front connecting plate, wherein the front top plate and the front bottom plate are horizontally arranged, are arranged along the left-right direction and are arranged at intervals up and down, the front connecting plate is vertically arranged and is arranged along the left-right direction, and the front connecting plate is positioned between the rear side of the front top plate and the rear side of the front bottom plate and is respectively connected with the rear side of the front top plate and the rear side of the front bottom plate;

The rear U-shaped hoop connecting piece comprises a rear top plate, a rear bottom plate and a rear connecting plate, wherein the rear top plate and the rear bottom plate are horizontally arranged and are arranged along the left-right direction and are arranged at intervals up and down, the rear connecting plate is vertically arranged and is arranged along the left-right direction, the rear connecting plate is positioned between the front side of the rear top plate and the front side of the rear bottom plate and is respectively connected with the front side of the rear top plate and the front side of the rear bottom plate, and the front top plate, the rear top plate, the front bottom plate, the rear bottom plate, the front connecting plate, the rear connecting plate and the rear connecting plate are all arranged at intervals front and back;

The T-shaped hoop connecting piece comprises a first connecting plate and a second connecting plate, wherein the first connecting plate is horizontally arranged and arranged along the front-rear direction, the second connecting plate is vertically arranged and arranged along the front-rear direction, and the second connecting plate is positioned below the first connecting plate and connected with the first connecting plate;

The front cushion plate and the rear cushion plate are horizontally arranged and are arranged along the left-right direction at intervals, the first connecting plate is positioned below the front bottom plate and the rear bottom plate, the front cushion plate is positioned between the front side of the front bottom plate and the front end of the first connecting plate and respectively abuts against the front side of the front bottom plate and the front end of the first connecting plate, the rear cushion plate is positioned between the rear side of the rear bottom plate and the rear end of the first connecting plate and respectively abuts against the rear side of the rear bottom plate and the rear end of the first connecting plate, the front left fastening piece, the front right fastening piece, the rear left fastening piece and the rear right fastening piece are vertically arranged, the front left fastening piece vertically penetrates through the left part of the front end of the first connecting plate, the left part of the front cushion plate and the left part of the front side of the front bottom plate so as to fasten the left part of the front end of the first connecting plate, the left part of the front cushion plate and the front side of the front bottom plate together, the front right fastener vertically penetrates through the right part of the front end of the first connecting plate, the right part of the front backing plate and the right part of the front side of the front bottom plate so as to fasten the right part of the front end of the first connecting plate, the right part of the front backing plate and the right part of the front side of the front bottom plate together, the rear left fastener vertically penetrates through the left part of the rear end of the first connecting plate, the left part of the rear backing plate and the left part of the rear side of the rear bottom plate so as to fasten the left part of the rear end of the first connecting plate, the left part of the rear backing plate and the left part of the rear side of the rear bottom plate together, and the rear right fastener vertically penetrates through the right part of the rear end of the first connecting plate, A right portion of the back pad and a right portion of the rear side of the back floor to fasten together a right portion of the rear end of the first connection plate, a right portion of the back pad and a right portion of the rear side of the back floor, the second connection plate being located between the front left fastener and the front right fastener and between the rear left fastener and the rear right fastener;

The second connecting plate is used for being in mutual leaning against the setting about the upper end of the steel skeleton partition wall channel-section steel stand that vertical setting and follow the fore-and-aft direction set up, down the fastener along the direction sets up about, down the fastener be used for following the direction wears to establish the upper end of steel skeleton partition wall channel-section steel stand and follow about the direction wears to establish the second connecting plate thereby the upper end of steel skeleton partition wall channel-section steel stand with the second connecting plate fastening is in the same place, down the number of fastener is a plurality of, a plurality of down the fastener is just set up with interval each other.

2. The steel skeleton partition wall and building i-beam or ceiling conversion layer H-section steel assembly hoop connecting device of claim 1, wherein a left portion of a front end of the first connecting plate, a right portion of a front end of the first connecting plate, a left portion of a rear end of the first connecting plate, and a right portion of a rear end of the first connecting plate are respectively vertically provided with a front left mounting hole, a front right mounting hole, a rear left mounting hole, and a rear right mounting hole, a left portion of a front side of the front bottom plate and a right portion of a front side of the front bottom plate are respectively vertically provided with a front left connecting hole and a front right connecting hole, a left portion of a rear side of the rear bottom plate and a right portion of a rear side of the rear bottom plate are respectively vertically provided with a rear left connecting hole and a rear right connecting hole, the front left mounting hole and the front left connecting hole are vertically pierced by the front right mounting hole and the front right connecting hole, the rear left mounting hole and the rear right mounting hole are vertically pierced by the front right mounting hole and the rear right mounting hole, respectively;

The second connecting plate is provided with the fixed orifices along the left-right direction, the lower fastening piece is worn to establish along the left-right direction the fixed orifices, the quantity of fixed orifices with the quantity of lower fastening piece the same, fixed orifices and lower fastening piece one-to-one set up.

3. The assembly type anchor ear connecting device for the steel skeleton partition wall and the H-shaped steel of the I-shaped steel beam or the suspended ceiling conversion layer of the building according to claim 2, wherein the front right mounting hole, the rear left mounting hole, the front left connecting hole, the front right connecting hole, the rear left connecting hole, the rear right connecting hole and the fixing hole are all first waist round holes, the first waist round holes extend along the front and rear direction, the front left mounting hole and the rear right mounting hole are all second waist round holes, and the second waist round holes extend along the left and right direction.

4. The assembly type anchor ear connecting device for H-shaped steel of steel skeleton partition wall and building I-shaped steel beam or suspended ceiling conversion layer as set forth in claim 3, wherein the length and width of said first waist round hole and the length and width of said second waist round hole are respectively 50mm and 20mm.

5. The assembly type anchor ear connecting device for the H-shaped steel of the steel skeleton partition wall and the H-shaped steel of the I-shaped steel beam or the suspended ceiling conversion layer of the building according to claim 2, wherein the number of the fixing holes is 4, and the 4 fixing holes are distributed at 4 corners of a rectangle.

6. The fabricated anchor ear connection device of a steel skeleton partition wall and a building i-beam or ceiling conversion layer H-steel as claimed in claim 1, wherein said front left fastener comprises a front left bolt vertically disposed and vertically threaded through a left portion of a front end of said first connection plate, a left portion of said front backing plate, a left portion of a front side of said front backing plate and said front left nut and threadably engaged with said front left nut, and a front left nut vertically disposed and vertically threaded through a right portion of a front end of said first connection plate, a right portion of said front backing plate, a right portion of a front side of said front backing plate and said front right nut and threadably engaged with said front right nut, and said rear left fastener comprises a rear left bolt vertically disposed and vertically threaded through a left portion of a rear end of said first connection plate, a left portion of said rear backing plate, a left portion of said rear side of said rear backing plate and said rear left nut and threadably engaged with said rear left nut; the rear right fastener comprises a rear right bolt and a rear right nut, wherein the rear right bolt is vertically arranged and vertically penetrates through the right part of the rear end of the first connecting plate, the right part of the rear backing plate, the right part of the rear side of the rear bottom plate and the rear right nut, and is in threaded engagement with the rear right nut;

The lower fastener comprises a lower bolt and a lower nut, wherein the lower bolt is arranged along the left-right direction, and is used for penetrating the upper end of the steel skeleton partition channel steel upright post along the left-right direction and penetrating the second connecting plate along the left-right direction, the lower nut and the lower nut are in threaded engagement.

7. The assembly type anchor ear connecting device for H-shaped steel of steel skeleton partition wall and building I-shaped steel beam or suspended ceiling conversion layer as set forth in claim 6, wherein said front left bolt, said front right bolt, said rear left bolt and said rear right bolt are all high strength bolts.

8. The assembly type anchor ear connecting device for steel skeleton partition wall and H-shaped steel of building I-beam or suspended ceiling conversion layer of claim 1, further comprising a front reinforcing plate and a rear reinforcing plate, wherein the front reinforcing plate and the rear reinforcing plate are vertically arranged and are arranged along the front-rear direction, the front reinforcing plate is positioned in front of the front connecting plate and between the front top plate and the front bottom plate and respectively connects the front connecting plate, the front top plate and the front bottom plate, and the rear reinforcing plate is positioned behind the rear connecting plate and between the rear top plate and the rear bottom plate and respectively connects the rear connecting plate, the rear top plate and the rear bottom plate.

9. The fabricated anchor ear connection device of a steel skeleton partition wall and a building i-beam or a ceiling conversion layer H-section steel of claim 1, wherein the dimension of the front top plate in the left-right direction, the dimension of the front bottom plate in the left-right direction, the dimension of the front connection plate in the left-right direction, the dimension of the rear top plate in the left-right direction, the dimension of the rear bottom plate in the left-right direction, and the dimension of the rear connection plate in the left-right direction are all 300mm.

10. The assembly type anchor ear connecting device for H-section steel of steel skeleton partition wall and H-section steel of I-section steel beam or suspended ceiling conversion layer of building of claim 1, wherein said front top plate, said front bottom plate, said front connecting plate, said rear top plate, said rear bottom plate, said rear connecting plate, said front backing plate and said rear backing plate are all steel plates.