CN210067456U - Width stretching support - Google Patents

Abstract

The utility model discloses a width stretching bracket, which comprises a main corrugation component a, two secondary corrugation components a, a sliding component, a main corrugation component b, a fixing component and a secondary corrugation b, wherein the number of the main corrugation components a is two, the secondary corrugation a is uniformly arranged on the front surfaces of the two main corrugation components a, the sliding components are connected to the bottom ends of the two main corrugation components a in a sliding manner, and the two main corrugation components b are arranged on the rear surface of the sliding components; the user is when the width of adjusting two brackets, at first, slide bar body a, make the couple on the bar body a slide on the sand grip on the stupefied subassembly a of owner, the sliding position of sliding assembly has been restricted, secondly, adjust the height of main stupefied subassembly b in sliding assembly 130, make stupefied b and stupefied a of inferior in same horizontal line, after adjusting corresponding height, on fixed subassembly with on the sliding assembly is fixed to main stupefied subassembly a, make the second bracket stabilize on first bracket, thereby be convenient for whole bracket width regulation.

Description

Width stretching support

Technical Field

The utility model relates to a formwork support technical field specifically is a tensile support of width.

Background

The prior template support frame has a telescopic and reusable all-steel support frame like a rigid template support combined structure, and comprises a telescopic sleeve, a screw rod, a threaded seat and a bolt, wherein the threaded seat is sleeved or inserted and is circumferentially matched with the tail end of the telescopic sleeve in a sliding manner; the screw rod is matched with a threaded through hole in the center of the threaded seat; the wall of the telescopic sleeve is provided with a plurality of through holes which are longitudinally distributed, and the inner diameter of each through hole is larger than the outer diameter of each bolt. After the scheme is adopted, the telescopic sleeve, the through hole and the bolt are in primary telescopic state, and the height of the telescopic sleeve, the through hole and the bolt can be roughly adjusted through the cooperation of the telescopic sleeve, the through hole and the bolt; the screw rod and the threaded seat are two-stage telescopic and matched with each other, so that the height of the screw rod and the threaded seat can be finely adjusted. The height of the utility model is adjustable, so the utility model is suitable for the requirements of various landforms; when the foundation is soft and sinks, the height of the template and the height of the concrete in the template can be readjusted only by rotating the threaded seat. The method is widely applicable to pouring of various concretes under different landforms and geological conditions.

The prior art has the following problems:

when the width of the existing template supporting bracket is adjusted, the width of the bracket is generally changed by adopting a splicing mode, and the two brackets are not convenient to splice together to adjust the width, so that the time for adjusting the width of the bracket is increased.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a tensile support of width to propose current template support bracket when adjusting the width among the above-mentioned background art of solution, generally adopt the width that the mode of concatenation changed the bracket, and be not convenient for adjust the width with two bracket concatenations together, lead to increasing the problem of the time of adjusting the bracket width.

In order to achieve the above object, the utility model provides a following technical scheme: a width stretching support comprises main corrugation components a, secondary corrugation components a, sliding components, main corrugation components b, fixing components and secondary corrugation components b, the number of the main corrugation components a is two, the secondary corrugation components a are uniformly installed on the front surfaces of the two main corrugation components a, the bottom ends of the two main corrugation components a are connected with the sliding components in a sliding mode, the rear surface of the sliding components is provided with the two main corrugation components b, the secondary corrugation components are uniformly installed on the front surfaces of the main corrugation components b, and the fixing components are fixedly connected to the front surfaces of the main corrugation components b;

the sliding assembly comprises a bar body a, a gasket, a bolt a, a hook, a sliding groove and a frame body, wherein the sliding groove is formed in the lower surface of the bar body a, the two ends of the bar body a are welded with the hook, the rear end of the bar body a is close to the frame body welded below the sliding groove, a main ridge assembly b slides in the sliding groove, the upper surface of the bar body a is close to the upper side of the main ridge assembly b and is provided with the gasket, the inner side wall of the gasket is provided with the bolt a, the bolt a penetrates through the bar body a, and the bolt a is fixedly connected with the bar body a.

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

As further preferable in the present technical solution: the main edge assembly a and the sliding assembly are in sliding connection with the hook through the convex strips.

As further preferable in the present technical solution: the main edge assembly b comprises a bar body b and a through groove, and the through groove is formed in the bottom of the bar body b.

As further preferable in the present technical solution: fixed subassembly includes plate body e, hinge, plate body f, bolt b and fixed plate, the front surface mounting of lever body b has plate body e, the front surface bolt fastening of plate body e has the hinge, one side of hinge is rotated and is connected plate body f, the inside wall sliding connection of plate body f has the fixed plate, plate body f with the fixed plate passes through bolt b fixed connection.

As further preferable in the present technical solution: the rear surface of the fixing plate is attached to the outer side wall of the plate body a.

As further preferable in the present technical solution: the inner side wall of the frame body is in threaded connection with a screw, and the front end of the screw is connected with the main ridge component b.

Compared with the prior art, the beneficial effects of the utility model are that: the user is when the width of adjusting two brackets, at first, slide bar body a, make the couple on the bar body a slide on the sand grip on the stupefied subassembly a of owner, the sliding position of sliding assembly has been restricted, secondly, adjust the height of main stupefied subassembly b in sliding assembly 130, make stupefied b and stupefied a of inferior in same horizontal line, after adjusting corresponding height, on fixed subassembly with on the sliding assembly is fixed to main stupefied subassembly a, make the second bracket stabilize on first bracket, thereby be convenient for whole bracket width regulation.

Drawings

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

fig. 2 is a schematic structural diagram of a position a in fig. 1 according to the present invention;

fig. 3 is a schematic structural diagram of fig. 1 at B in the present invention;

fig. 4 is a schematic view of the connection structure of the lever body a and the lever body b in the present invention;

fig. 5 is a side view schematic diagram of the main edge assembly of the present invention.

In the figure: 110. a main ridge component a; 111. a plate body a; 112. a plate body b; 113. a plate body c; 114. a convex strip; 115. a plate body d; 120. a minor ridge a; 130. a sliding assembly; 131. a bar body a; 132. a gasket; 133. a bolt a; 134. hooking; 135. a chute; 136. a screw; 137. a frame body; 140. a main ridge component b; 141. a bar body b; 142. a through groove; 150. a fixing assembly; 151. a plate body e; 152. a hinge; 153. a plate body f; 154. a bolt b; 155. a fixing plate; 160. and (4) minor ridge b.

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. 1-5, the present invention provides a technical solution: the width stretching support comprises main corrugated components a110, secondary corrugated components a120, sliding components 130, main corrugated components b140, fixing components 150 and secondary corrugated components 160, wherein the number of the main corrugated components a110 is two, the secondary corrugated components a120 are uniformly installed on the front surfaces of the two main corrugated components a110, the sliding components 130 are connected to the bottom ends of the two main corrugated components a110 in a sliding mode, the two main corrugated components b140 are arranged on the rear surface of the sliding components 130, the secondary corrugated components b160 are uniformly installed on the front surfaces of the main corrugated components b140, and the fixing components 150 are fixedly connected to the front surfaces of the main corrugated components b 140;

the sliding assembly 130 comprises a bar body a131, a gasket 132, a bolt a133, a hook 134, a sliding groove 135 and a frame 137, wherein the sliding groove 135 is formed in the lower surface of the bar body a131, the hook 134 is welded to the two ends of the bar body a131, the frame 137 is welded to the rear end of the bar body a131 close to the lower side of the sliding groove 135, the main rib assembly b140 slides in the sliding groove 135, the gasket 132 is arranged on the upper surface of the bar body a131 close to the upper side of the main rib assembly b140, the bolt a133 is arranged on the inner side wall of the gasket 132, the bolt a133 penetrates through the bar body a131, and the bolt a133 is fixedly connected with the bar body a 131.

In this embodiment, specifically: the main edge assembly a110 comprises a plate body a111, a plate body b112, a plate body c113, a convex strip 114 and a plate body d115, wherein the plate body d115 and the plate body b112 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 d115, and the convex strip 114 is welded at one side of the plate body c 113; the stability between the plate body a111 and the plate body d115 is increased by the arrangement of the plate body b112, and the sliding assembly 130 is conveniently connected with the main edge assembly a110 by the arrangement of the convex strip 114.

In this embodiment, specifically: the main ridge component a110 and the sliding component 130 are connected with the hook 134 in a sliding manner through the convex strip 114; during the sliding process of the sliding assembly 130 on the main edge assembly a110, the hook 134 slides on the outer side wall of the protruding strip 114 to limit the sliding position of the sliding assembly 130, and after sliding to the corresponding position, the sliding assembly 130 is supported by a support frame, wherein the support frame is not shown in the figures of the specification.

In this embodiment, specifically: the main ridge component b140 comprises a bar body b141 and a through groove 142, and the through groove 142 is formed at the bottom of the bar body b 141; the secondary rib 160 is convenient to mount due to the arrangement of the bar body b 141.

In this embodiment, specifically: the fixing assembly 150 comprises a plate body e151, a hinge 152, a plate body f153, a bolt b154 and a fixing plate 155, the plate body e151 is mounted on the front surface of the lever body b141, the hinge 152 is fixed on the front surface of the plate body e151 through a bolt, one side of the hinge 152 is rotatably connected with the plate body f153, the fixing plate 155 is slidably connected to the inner side wall of the plate body f153, and the plate body f153 and the fixing plate 155 are fixedly connected through the bolt b 154; after the width of the bracket is adjusted, the fixing plate 155 is slid on the plate body f153 to engage the fixing plate 155 with the upper surface of the plate body a111, and then the fixing plate 155 is fixed to the plate body f153 by the bolt b154, and the plate body f153 is easily turned over by the connection of the hinge 152 during the use of the plate body f 153.

In this embodiment, specifically: the rear surface of the fixing plate 155 is attached to the outer side wall of the plate body a 111; the connection between the primary edge module b140 and the primary edge module a110 is limited by the arrangement of the fixing plate 155.

In this embodiment, specifically: the inner side wall of the frame body 137 is in threaded connection with a screw 136, and the front end of the screw 136 is connected with the main ridge component b 140; the screw 136 is screwed to introduce the lever b141 from the inside of the casing 137 into the chute 135, thereby changing the height of the lever b 141.

Working principle or structural principle: when the user adjusts the width between the whole bracket and the bracket, firstly, the bar a131 is slid to the outer side wall of the main ridge component a110, the hook 134 on the bar a131 is abutted with the convex strip 114 on the main ridge component a110, the main ridge component a110 limits the sliding position of the bar a131, after the bar a131 is slid to the corresponding position, the screw 136 is screwed, the bar b141 is led into the sliding groove 135 from the frame 137, the height of the bar b141 is changed, when the secondary ridge b160 and the secondary ridge a120 are at the same height, the bolt a133 is screwed, the bar b141 is fixed on the bar a131, during the screwing, the loosening of the bolt a133 is avoided by the setting of the gasket 132, secondly, after the bracket width is adjusted, the fixing plate 155 is slid on the plate f153, the fixing plate 155 is engaged on the upper surface of the plate a111, then the fixing plate 155 is fixed on the plate f 154, and during the use of the plate f153, the connection by hinge 152 facilitates the turnover of panel f 153.

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 (7)

1. A width stretching support is characterized in that: the auxiliary corrugated structure comprises main corrugated components a (110), secondary corrugated components a (120), sliding components (130), main corrugated components b (140), fixed components (150) and secondary corrugated components (160), wherein the number of the main corrugated components a (110) is two, the secondary corrugated components a (120) are uniformly installed on the front surfaces of the two main corrugated components a (110), the sliding components (130) are connected to the bottom ends of the two main corrugated components a (110) in a sliding mode, the two main corrugated components b (140) are arranged on the rear surface of the sliding components (130), the secondary corrugated components b (160) are uniformly installed on the front surfaces of the main corrugated components b (140), and the fixed components (150) are fixedly connected to the front surfaces of the main corrugated components b (140);

the sliding assembly (130) comprises a bar body a (131), a gasket (132), a bolt a (133), a hook (134), a sliding groove (135) and a frame body (137), wherein the sliding groove (135) is formed in the lower surface of the bar body a (131), the hook (134) is welded at the two ends of the bar body a (131), the frame body (137) is welded at the position, close to the lower portion of the sliding groove (135), of the rear end of the bar body a (131), the main edge assembly b (140) slides in the sliding groove (135), the gasket (132) is arranged above the main edge assembly b (140) and close to the upper surface of the bar body a (131), the bolt a (133) is arranged on the inner side wall of the gasket (132), the bolt a (133) penetrates through the bar body a (131), and the bolt a (133) is fixedly connected with the bar body a (131).

2. A width stretching stent according to claim 1, wherein: stupefied subassembly a (110) of owner is including plate body a (111), plate body b (112), plate body c (113), sand grip (114) and plate body d (115), the rear end welding of plate body a (111) has plate body d (115) with plate body b (112), the rear end welding of plate body d (115) has plate body c (113), the one side welding of plate body c (113) has sand grip (114).

3. A width stretching stent according to claim 2, wherein: the main edge component a (110) and the sliding component (130) are in sliding connection with the hook (134) through the convex strip (114).

4. A width stretching stent according to claim 3, wherein: the main edge assembly b (140) comprises a bar body b (141) and a through groove (142), and the through groove (142) is formed in the bottom of the bar body b (141).

5. A width stretching brace according to claim 4, wherein: fixed subassembly (150) is including plate body e (151), hinge (152), plate body f (153), bolt b (154) and fixed plate (155), the front surface mounting of bar body b (141) has plate body e (151), the front surface bolt fastening of plate body e (151) has hinge (152), one side of hinge (152) is rotated and is connected plate body f (153), the inside wall sliding connection of plate body f (153) has fixed plate (155), plate body f (153) with fixed plate (155) pass through bolt b (154) fixed connection.

6. A width stretching brace as claimed in claim 5, wherein: the rear surface of the fixing plate (155) is attached to the outer side wall of the plate body a (111).

7. A width stretching stent according to claim 1, wherein: the inner side wall of the frame body (137) is in threaded connection with a screw rod (136), and the front end of the screw rod (136) is connected with the main edge component b (140).

Images