CN210067455U

CN210067455U - Template grid

Info

Publication number: CN210067455U
Application number: CN201920701277.5U
Authority: CN
Inventors: 孙晖; 王涛; 文卫华; 陈炬
Original assignee: Panmi New Materials Co ltd Of Shenzhen Shantou Special Cooperation Zone; China Construction Science and Technology Group Co Ltd Shenzhen Branch
Current assignee: Shenzhen Shenzhen Shantou Special Cooperation Zone Pangu New Material Co ltd; China Construction Science and Technology Group Co Ltd Shenzhen Branch
Priority date: 2019-05-17
Filing date: 2019-05-17
Publication date: 2020-02-14
Anticipated expiration: 2029-05-17

Abstract

The utility model discloses a template grid, which comprises two main corrugation components, two secondary corrugation components, a connecting component, a fixing component and a limiting component, wherein the secondary corrugation components are uniformly arranged on the front surfaces of the two main corrugation components, and the connecting component is arranged between the two secondary corrugation components; the user is when splicing into the grid with main stupefied subassembly and time stupefied subassembly, at first, slide the portion of sliding on the plate body g on the main stupefied subassembly, make spacing subassembly be connected with main stupefied subassembly, then separate a plurality of spacing subassemblies, secondly, slide the time stupefied subassembly on the spacing subassembly, make time stupefied subassembly dock with main stupefied subassembly fast, at last run through the body of rod inferior stupefied subassembly and spacing portion and rotatory body of rod, make the fixture block can't derive through the locating hole, twist the thread bush to the body of rod again, make time stupefied subassembly stabilize on spacing subassembly, thereby reach and be connected between being convenient for stupefied subassembly and the time stupefied subassembly of inferior.

Description

Template grid

Technical Field

The utility model relates to a template supports technical field, specifically is a template grid.

Background

The rigid building template support composite structure consists of a top plate template support composite structure, an exposed column template support composite structure, a suspended beam template support composite structure and a shear wall template support composite structure, wherein the four series are independent and combined (the top plate template support composite structure and the suspended beam template support composite structure are connected with each other to form a support system); the suspended beam transverse plate support assembly consists of a bottom transverse beam, a bottom longitudinal beam, a vertical support square rod, a transverse positioning screw rod, a verticality adjusting screw rod and a fastener; the bottom cross beam is fastened on the ejector rod of the top plate transverse plate support combination by a fastener, the distance between the two beams and the transverse plate is in accordance with the requirement by adjusting the positioning screw rod through the layering longitudinal beam on the bottom cross beam, and the balance between the two beam sides of the line and row of the screw rod is adjusted by adjusting the verticality and is vertical to the beam bottom cross beam; at present, a traditional vertical formwork system for building construction is formed by splicing and combining a wood formwork, a secondary ridge, a main ridge, a wall-penetrating screw, a sleeve and a clamp. And (3) splicing and combining the wood templates, fixing the wood templates on the secondary ridges, drilling holes on the templates, and connecting the main ridges on two sides with the secondary ridges through template holes by using wall-penetrating screws to reinforce the secondary ridges so as to form a template system.

The prior art has the following problems:

the existing template grating adopts template warehouse separating ribs, template warehouse separating ribs and secondary stupefied bolt combination connection, a wall penetrating screw rod is utilized to pass through warehouse separating rib screw rod holes, and a clamp is used for symmetrically reinforcing a main stupefied, so that the main stupefied, the secondary stupefied and the template warehouse separating ribs form an integral stress framework, the field combined framework is realized, when the secondary stupefied is installed after the main stupefied is fixed, the position relation between the main stupefied and the secondary stupefied is not convenient to limit, and the installation difficulty of the secondary stupefied on the main stupefied is increased.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a template grid, in order to solve and to propose in the above-mentioned background art and adopt the template to divide the storehouse rib, the template divides storehouse rib and inferior stupefied bolt composite connection, utilize the lead screw of wearing the wall through dividing storehouse rib screw rod hole, use anchor clamps to consolidate to the stupefied symmetry of owner, thereby it is stupefied to make owner, inferior, the template divides the storehouse rib to form whole atress skeleton, on-the-spot combination skeleton has been realized, and when the installation is stupefied inferior after main stupefied fixed, be not convenient for restrict the position relation between main stupefied and inferior stupefied, and then increased the problem of the stupefied installation degree of difficulty of installing on the main stupefied of inferior.

In order to achieve the above object, the utility model provides a following technical scheme: a template grid comprises main corrugation components, secondary corrugation components, a connecting component, a fixing component and a limiting component, wherein the number of the main corrugation components is two, the secondary corrugation components are uniformly arranged on the front surfaces of the two main corrugation components, the connecting component is arranged between the two secondary corrugation components, the fixing component is arranged on the front surface of the connecting component, and the limiting component is arranged at the joint of the secondary corrugation component and the main corrugation component;

spacing subassembly, it includes knob, thread bush, pipe box, spacing portion, the body of rod, fixture block, sliding part, bolt b and gasket b, the front surface sliding connection of the stupefied subassembly of owner has the sliding part, the front surface welding of sliding part has two spacing portion, the lower skin welding of spacing portion has the pipe box, the lateral wall of pipe box has cup jointed the thread bush, the inside wall sliding connection of pipe box has the body of rod, the body of rod runs through spacing portion with inferior stupefied subassembly, the one end spiro union of the body of rod has the knob, other end fixedly connected with the fixture block, the lower surface of fixture block is attached spacing portion, install one side of sliding part gasket b, one side of sliding part is close to the inside wall spiro union of gasket b has bolt b.

As further preferable in the present technical solution: the main stupefied subassembly includes plate body a, plate body b, plate body c, couple and plate body d, the welding of plate body a's rear end has plate body b with plate body d, the welding of plate body b's rear end has plate body c, the welding of one side of plate body c has the couple.

As further preferable in the present technical solution: the inner side wall of the sliding part is attached to the outer side wall of the plate body a.

As further preferable in the present technical solution: the plate body a and the sliding part are fixedly connected with the gasket b through the bolt b.

As further preferable in the present technical solution: inferior stupefied subassembly includes plate body f, plate body g, leads to groove and plate body h, the welding of the rear end of plate body g has two plate body f, the welding of the bottom of plate body f has plate body h, two plate body f plate body g with form between the plate body h lead to the groove.

As further preferable in the present technical solution: two positioning holes and a sliding groove are formed in the front surface of the plate body f.

As further preferable in the present technical solution: the clamping block penetrates through the positioning hole.

As further preferable in the present technical solution: the fixed assembly comprises a frame body, a through hole and two sliding blocks b, the through hole is uniformly formed in the front surface of the frame body, the two sliding blocks b are welded on the inner side wall of the frame body, and the sliding blocks b slide in the sliding grooves.

As further preferable in the present technical solution: coupling assembling includes bolt a, bracing piece and gasket an, the front surface mounting of framework has gasket an, the front surface of framework is close to gasket an's inside wall is installed bolt a, bolt a runs through the through-hole plate body g with plate body h, bolt a's rear end spiro union has gasket an.

Compared with the prior art, the beneficial effects of the utility model are that: the user is when splicing into the grid with main stupefied subassembly and time stupefied subassembly, at first, slide the portion of sliding on the plate body g on the main stupefied subassembly, make spacing subassembly be connected with main stupefied subassembly, then separate a plurality of spacing subassemblies, secondly, slide the time stupefied subassembly on the spacing subassembly, make time stupefied subassembly dock with main stupefied subassembly fast, at last run through the body of rod inferior stupefied subassembly and spacing portion and rotatory body of rod, make the fixture block can't derive through the locating hole, twist the thread bush to the body of rod again, make time stupefied subassembly stabilize on spacing subassembly, thereby reach and be connected between being convenient for stupefied subassembly and the time stupefied subassembly of inferior.

Drawings

Fig. 1 is a schematic structural view of the present invention;

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

fig. 3 is a schematic perspective view of a secondary ridge assembly in the present invention;

fig. 4 is a schematic perspective view of a main ridge component in the present invention;

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

fig. 6 is an enlarged schematic structural view of the utility model at C of fig. 2;

fig. 7 is a schematic view of the connection and overlooking structure of the secondary ridge component and the connecting component in the present invention;

fig. 8 is a schematic view of the cross-sectional enlarged structure of B-B of fig. 7 according to the present invention.

In the figure: 110. a primary land assembly; 111. a plate body a; 112. a plate body b; 113. a plate body c; 114. hooking; 115. a plate body d; 120. a secondary corrugation assembly; 121. a plate body f; 1211. positioning holes; 1212. a chute; 122. a plate body g; 123. a through groove; 124. a plate body h; 130. a connecting assembly; 131. a bolt a; 132. a support bar; 133. a gasket a; 140. a fixing assembly; 141. a frame body; 142. a through hole; 143. a slide block b; 150. a limiting component; 151. a knob; 152. a threaded sleeve; 153. pipe sleeve; 154. a limiting part; 155. a rod body; 156. a clamping block; 157. a sliding part; 158. a bolt b; 159. and (b) a gasket.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Examples

Referring to fig. 1-8, the present invention provides a technical solution: a template grid comprises main stupefied components 110, secondary stupefied components 120, a connecting component 130, a fixing component 140 and a limiting component 150, wherein the number of the main stupefied components 110 is two, the secondary stupefied components 120 are uniformly arranged on the front surfaces of the two main stupefied components 110, the connecting component 130 is arranged between the two secondary stupefied components 120, the fixing component 140 is arranged on the front surface of the connecting component 130, and the limiting component 150 is arranged at the joint of the secondary stupefied components 120 and the main stupefied components 110;

the limiting component 150 comprises a knob 151, a threaded sleeve 152, a pipe sleeve 153, a limiting part 154, a rod body 155, a fixture block 156, a sliding part 157, a bolt b158 and a gasket b159, the sliding part 157 is connected to the front surface of the main edge assembly 110 in a sliding manner, two limiting parts 154 are welded to the front surface of the sliding part 157, the pipe sleeve 153 is welded to the lower surface of the limiting portion 154, the thread sleeve 152 is sleeved on the outer side wall of the pipe sleeve 153, the inner sidewall of the pipe sleeve 153 is slidably connected with the rod body 155, the rod body 155 penetrates through the limiting portion 154 and the secondary corrugation component 120, one end of the rod body 155 is screwed with the knob 151, the other end is fixedly connected with the fixture block 156, the lower surface of the latch 156 is attached to the stopper 154, one side of the sliding portion 157 is mounted with the pad b159, the bolt b158 is screwed to an inner side wall of one side of the sliding portion 157 adjacent to the washer b 159.

In this embodiment, specifically: the main edge assembly 110 comprises a plate body a111, a plate body b112, a plate body c113, a hook 114 and a plate body d115, wherein the plate body b112 and the plate body d115 are welded at the rear end of the plate body a111, the plate body c113 is welded at the rear end of the plate body b112, and the hook 114 is welded at one side of the plate body c 113; the hook 114 is provided to facilitate the connection of the supporting head to the main edge assembly 110, wherein the supporting head is not shown in the drawings, and the plate d115 is provided to increase the overall stability of the main edge assembly 110.

In this embodiment, specifically: the inner side wall of the sliding part 157 is attached to the outer side wall of the plate body a 111; the sliding part 157 slides on the outer side wall of the plate body a111, so that the limiting component 150 slides on the main edge component 110, and the limiting component 150 is conveniently connected with the main edge component 110.

In this embodiment, specifically: the plate body a111 and the sliding part 157 are fixedly connected with the gasket b159 through the bolt b 158; when the sliding portion 157 is fixed, the bolt b158 penetrates through the gasket b159 and is screwed into the sliding portion 157 and the inner portion of the plate body a111, so that the sliding portion 157 is fixed on the outer side wall of the plate body a111, wherein the cross section of the sliding portion 157 is U-shaped.

In this embodiment, specifically: the secondary corrugation assembly 120 comprises a plate body f121, a plate body g122, a through groove 123 and a plate body h124, wherein the two plate bodies f121 are welded at the rear end of the plate body g122, the plate body h124 is welded at the bottom end of the plate body f121, and the through groove 123 is formed among the two plate bodies f121, the plate body g122 and the plate body h 124; the stability of the secondary corrugation module 120 is increased by the support of the two plate bodies f 121.

In this embodiment, specifically: the front surface of the plate body f121 is provided with two positioning holes 1211 and a sliding chute 1212; the two positioning holes 1211 are disposed to facilitate the fixture block 156 to pass through the plate body f121, and the slide slot 1212 is disposed to facilitate the slide block b143 on the frame 141 to slide in the slide slot 1212.

In this embodiment, specifically: the fixture block 156 penetrates through the positioning hole 1211; the locking block 156 can penetrate through the positioning hole 1211 to primarily fix the secondary edge assembly 120 and the limiting assembly 150.

In this embodiment, specifically: the fixing assembly 140 includes a frame 141, a through hole 142 and sliders b143, the through hole 142 is uniformly formed on the front surface of the frame 141, two sliders b143 are welded to the inner side wall of the frame 141, and the sliders b143 slide in the sliding grooves 1212; when the user adjusts the length of the secondary arris assembly 120, the secondary arris assembly 120 can slide in the frame 141, and the length of the secondary arris assembly 120 is adjusted, and during the sliding process, the sliding block b143 in the frame 141 slides in the sliding groove 1212, so that the sliding position of the secondary arris assembly 120 is limited.

In this embodiment, specifically: the connecting assembly 130 includes a bolt a131, a support rod 132 and a gasket a133, the gasket a133 is mounted on the front surface of the frame 141, the bolt a131 is mounted on the inner side wall of the front surface of the frame 141 close to the gasket a133, the bolt a131 penetrates through the through hole 142, the plate body g122 and the plate body h124, and the gasket a133 is screwed to the rear end of the bolt a 131; after sliding to the corresponding position, the bolt a131 penetrates the gasket a133 and the secondary edge assembly 120 and is connected to the supporting rod 132, so that the secondary edge assembly 120 is fixed on the connecting assembly 130, and the supporting rod 132 can support the secondary edge assembly 120.

In this embodiment, the total weight of the primary corrugation module 110 and the secondary corrugation module 120 is 16.47KG, the aluminum material is used, and the thickness of the grid load-bearing concrete formed by the primary corrugation module 110 and the secondary corrugation module 120 can reach 200 MM.

Working principle or structural principle: when a user splices the main corrugation assembly 110 and the secondary corrugation assembly 120, firstly, the sliding part 157 is slid into the outer side wall of the plate body a111, so that the limiting assembly 150 is connected with the main corrugation assembly 110, then the plurality of limiting assemblies 150 are equally arranged on the surface of the plate body a111, after the position of the limiting assembly 150 is adjusted, the bolt b158 penetrates through the gasket b159, the sliding part 157 and the plate body a111, so that the sliding part 157 is fixed on the plate body a111, after the fixing, the plate body h124 of the secondary corrugation assembly 120 is slid into the inner side wall of the limiting part 154, so that the secondary corrugation assembly 120 is connected with the limiting part 154, the user pushes the knob 151, so that the fixture block 156 on the rod body 155 penetrates through the positioning hole 1211 and the limiting part 154, and rotates the knob 151, so that the fixture block 156 cannot penetrate through the limiting part 154, finally, the threaded sleeve 152 on the pipe sleeve 153 is screwed on the rod body 155, so that the rod body 155 is fixed on the limiting part 154, and the secondary corrugation, secondly, when the user adjusts the length of the secondary arris assembly 120, the secondary arris assembly 120 can slide in the frame 141, and adjust the length of the secondary arris assembly 120, in the sliding process, the sliding block b143 in the frame 141 slides in the sliding groove 1212, the sliding position of the secondary arris assembly 120 is limited, after the sliding to the corresponding position, the bolt a131 penetrates through the gasket a133, the secondary arris assembly 120 and is connected with the supporting rod 132, so that the secondary arris assembly 120 is stabilized on the connecting assembly 130, and the supporting rod 132 can support the secondary arris assembly 120.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. A template grid, comprising: the auxiliary corrugated structure comprises main corrugated components (110), secondary corrugated components (120), a connecting component (130), a fixing component (140) and a limiting component (150), wherein the number of the main corrugated components (110) is two, the secondary corrugated components (120) are uniformly arranged on the front surfaces of the two main corrugated components (110), the connecting component (130) is arranged between the two secondary corrugated components (120), the fixing component (140) is arranged on the front surface of the connecting component (130), and the limiting component (150) is arranged at the joint of the secondary corrugated component (120) and the main corrugated component (110);

the limiting assembly (150) comprises a knob (151), a threaded sleeve (152), a pipe sleeve (153), a limiting part (154), a rod body (155), a clamping block (156), a sliding part (157), a bolt b (158) and a gasket b (159), wherein the sliding part (157) is connected to the front surface of the main corrugation assembly (110) in a sliding manner, the two limiting parts (154) are welded to the front surface of the sliding part (157), the pipe sleeve (153) is welded to the lower surface of the limiting part (154), the threaded sleeve (152) is sleeved on the outer side wall of the pipe sleeve (153), the rod body (155) is connected to the inner side wall of the pipe sleeve (153) in a sliding manner, the rod body (155) penetrates through the limiting part (154) and the secondary corrugation assembly (120), the knob (151) is screwed on one end of the rod body (155), and the clamping block (156) is fixedly connected to the other, the lower surface of the clamping block (156) is attached to the limiting part (154), the gasket b (159) is installed on one side of the sliding part (157), and the bolt b (158) is screwed on the inner side wall, close to the gasket b (159), of one side of the sliding part (157).

2. The template grid according to claim 1, wherein: stupefied subassembly (110) of owner includes plate body a (111), plate body b (112), plate body c (113), couple (114) and plate body d (115), the rear end welding of plate body a (111) has plate body b (112) with plate body d (115), the rear end welding of plate body b (112) has plate body c (113), one side welding of plate body c (113) has couple (114).

3. The template grid according to claim 2, wherein: the inner side wall of the sliding part (157) is attached to the outer side wall of the plate body a (111).

4. The template grid according to claim 3, wherein: the plate body a (111) and the sliding part (157) are fixedly connected with the gasket b (159) through the bolt b (158).

5. The template grid according to claim 1, wherein: inferior stupefied subassembly (120) is including plate body f (121), plate body g (122), logical groove (123) and plate body h (124), the welding of the rear end of plate body g (122) has two plate body f (121), the welding of the bottom of plate body f (121) has plate body h (124), two plate body f (121) plate body g (122) with form between plate body h (124) lead to groove (123).

6. The template grid according to claim 5, wherein: the front surface of the plate body f (121) is provided with two positioning holes (1211) and a sliding groove (1212).

7. The template grid according to claim 6, wherein: the clamping block (156) penetrates through the positioning hole (1211).

8. The template grid according to claim 7, wherein: the fixed component (140) comprises a frame body (141), through holes (142) and sliders b (143), the through holes (142) are uniformly formed in the front surface of the frame body (141), the two sliders b (143) are welded to the inner side wall of the frame body (141), and the sliders b (143) slide in the sliding grooves (1212).

9. The template grid according to claim 8, wherein: coupling assembling (130) include bolt a (131), bracing piece (132) and gasket a (133), the front surface mounting of framework (141) has gasket a (133), the front surface of framework (141) is close to the inside wall of gasket a (133) is installed bolt a (131), bolt a (131) run through-hole (142), plate body g (122) with plate body h (124), the rear end spiro union of bolt a (131) has gasket a (133).