CN108442545B - Middle-buried rubber water stop clamp, clamping system and construction method thereof - Google Patents

Abstract

A clamp for a middle-buried rubber water stop belt, a clamping system and a construction method thereof comprise a clamp framework and a stress application clamping piece arranged on the clamp framework; the clamp framework is clamped on the outer clamp template through a stress application bolt arranged on the clamp framework, the clamp framework comprises an upper L-shaped main framework, a lower L-shaped main framework, an upper L-shaped main framework vertical part and a lower L-shaped main framework vertical part are connected through a clamp movable shaft, a saw tooth section is arranged on the upper end face of the upper L-shaped main framework, a vertically long and narrow through hole is formed in a stress application card, the upper side of the through hole abuts against saw teeth of the saw tooth section, and the lower side of the through hole abuts against the lower end face of the lower L-shaped main framework; the stressing bolt comprises an upper stressing bolt and a lower stressing bolt which are arranged up and down oppositely. The invention has the characteristics of safety, applicability and the like, has good popularization and practical value, and can generate good economic benefit after wide popularization and application.

Description

Middle-buried rubber water stop clamp, clamping system and construction method thereof

Technical Field

The invention belongs to the field of building construction, and particularly relates to a middle-buried rubber water stop clamp, a clamping system and a construction method thereof.

Background

Expansion joints and settlement joints exist in the building and the structure, and the bottom plate, the side wall and the top plate of the structure are generally waterproof in a soft connection mode of a buried water stop belt. Although soft connection is adopted, the waterproof requirement is higher, the waterproof strip is fixed in a mode of tightly reinforcing the layered templates outside the pouring area and reinforcing the waterproof strip inside the pouring area in a step-by-step mode, and water seepage of the structure is caused once improper operation exists in construction.

Disclosure of Invention

The invention aims to provide a clamp and a clamping system for a buried rubber water stop and a construction method thereof, which aim to solve the technical problem that the water stop is easy to displace in construction and further causes hidden quality hazards.

In order to achieve the above purpose, the invention adopts the following technical scheme:

the utility model provides a well buries formula rubber waterstop anchor clamps which characterized in that: comprises a clamp framework and a stress application card arranged on the clamp framework; the clamp framework is clamped on the outer clamp template through a stress application bolt arranged on the clamp framework, the clamp comprises an upper L-shaped main framework, a lower L-shaped main framework, a vertical part of the upper L-shaped main framework is connected with a vertical part of the lower L-shaped main framework through a clamp movable shaft, a saw tooth section is arranged on the upper end face of the upper L-shaped main framework, a vertically long and narrow perforation is arranged on a stress application card, the upper L-shaped main framework and the lower L-shaped main framework penetrate through the perforation of the stress application card, the upper edge of the perforation is propped against saw teeth of the saw tooth section, and the lower edge of the perforation is propped against the lower end face of the lower L-shaped main framework;

the stress application bolt comprises an upper stress application bolt and a lower stress application bolt which are arranged up and down oppositely, and the upper stress application bolt and the lower stress application bolt are respectively in threaded connection with the end parts of the transverse parts of the upper L-shaped main framework and the lower L-shaped main framework, which are far away from the vertical parts.

Further preferably, the upper end of the stress application card is horizontally bent towards the movable axis direction of the clamp to form a stress end.

Further, the opposite ends of the upper stressing bolt and the lower stressing bolt are respectively provided with a backing plate.

Further, the length of the lower stressing bolt is 10-12 cm, and the backing plate is a square backing plate with the thickness of 1cm and the width of 5-6 cm; the stress application card is 3-5 cm thick, 3-5 cm wide and 20-24 cm long, and the perforation is arranged in the middle of the stress application card, 18cm long and 0.5cm wide; the length of the vertical part of the upper L-shaped main framework and the length of the vertical part of the lower L-shaped main framework are 10-12 cm, the length of the horizontal part of the upper L-shaped main framework and the length of the horizontal part of the lower L-shaped main framework are 30-40 cm, the length of the sawtooth section is 10-15 cm, and the distance between the sawtooth section and the vertical part is 5cm.

A clamping system of a buried rubber water stop belt is characterized in that: the middle buried rubber water stop belt clamping system is arranged on the bottom template and comprises a middle buried rubber water stop belt clamp and an outer clamping template, wherein the middle buried rubber water stop belt clamp is used for clamping the middle buried rubber water stop belt;

one end of the middle-buried rubber water stop clamp is opened, and an outer clamping template is clamped by an upper stressing bolt and a lower stressing bolt at the opened ends;

the outer clamping template comprises an upper template and a lower template, wherein the upper template comprises a T-shaped wood template, a reinforced batten and an L-shaped clamping plate I, the reinforced batten is fixed at the connection corner of the transverse part and the vertical part of the T-shaped wood template, and the transverse part of the L-shaped clamping plate I is fixed at the position of the lower end part of the vertical part of the T-shaped wood template on the same side as the reinforced batten; the lower template comprises a vertical template, an L-shaped clamping plate II and a connecting batten, wherein the L-shaped clamping plate II and the connecting batten are respectively fixed at the upper end and the lower end of the same side face of the vertical template, and the L-shaped clamping plate I is opposite to the notch of the L-shaped clamping plate II and surrounds a circular clamping groove which is opened towards the direction of the reinforcing rib of the settlement joint;

the size of the circular ring clamping groove is matched with the size of the middle circular ring of the middle buried rubber water stop, the middle circular ring of the middle buried rubber water stop is clamped in the circular ring clamping groove, the L-shaped clamping plate I and the L-shaped clamping plate II are clamped through the upper stressing bolt and the lower stressing bolt of the middle buried rubber water stop clamp, and the outer clamping template clamps the middle buried rubber water stop.

Further preferably, a reinforced batten is arranged between the transverse part and the vertical part of the upper part of the T-shaped wood template.

In addition, the L-shaped clamping plate I and the L-shaped clamping plate II are formed by connecting and fixing two battens through iron nails.

More preferably, the battens and the bottom templates are fixed by iron nails.

The construction method of the embedded rubber water stop belt clamping system is characterized by comprising the following steps of:

step one, construction steel bars: constructing main structure steel bars on the bottom templates, arranging settlement joint reinforcing ribs at the ends of the main structure steel bars, and arranging cushion blocks between the main structure steel bars and the settlement joint reinforcing ribs and the bottom templates;

step two, constructing a lower template: fixing the battens of the lower template with the bottom template through iron nails, and ensuring the stability of the lower template through auxiliary diagonal bracing;

step three, installing a buried rubber water stop: the middle circular ring of the middle buried rubber water stop is clamped in the second L-shaped clamping plate of the lower template, the right side of the middle buried rubber water stop stretches into the settlement joint reinforcing rib, and an isolation cushion block is arranged between the middle buried rubber water stop and the settlement joint reinforcing rib;

step four, installing an upper template: an upper template is arranged on the lower template, and is assembled to form a circular clamping groove;

step five, installing a middle-buried rubber water stop clamp: after the middle-buried rubber water stop clamp is assembled, the middle-buried rubber water stop clamp is clamped on the first L-shaped clamping plate and the second L-shaped clamping plate;

step six, adjusting bolts: the relative distance between the upper stress application bolt and the lower stress application bolt is adjusted to be matched with the sizes of the first L-shaped clamping plate and the second L-shaped clamping plate, the stress end is hit by an iron hammer until the stress card does not displace any more, then the upper stress application bolt and the lower stress application bolt are fastened, the upper template, the lower template and the embedded rubber water stop are ensured to be attached and not deformed, and the embedded rubber water stop clamping system is constructed.

Compared with the prior art, the invention has the following characteristics and beneficial effects:

compared with the traditional step-by-step tightening, the clamp provided by the invention has longer moment, can meet the requirement of applying clamping force when the clamp is required to be inserted into a structure, such as a water stop belt, is relatively simple in structure, convenient to construct, convenient to assemble and disassemble, and easy to maintain and enclosure, and the size of the clamp can be adjusted according to the requirement.

The invention has the characteristics of safety, applicability and the like, has good popularization and practical value, and can generate good economic benefit after wide popularization and application.

Drawings

FIG. 1 is a schematic structural view of a buried rubber water stop clamp according to the present invention;

FIG. 2 is a schematic diagram of a connection structure of an upper L-shaped main framework and a lower L-shaped main framework according to the present invention; FIG. 2 is a schematic diagram of the connection structure of the two (the left end connection is overlapped), and FIGS. 3 and 4 are separate diagrams

FIG. 3 is a schematic top view of the upper L-shaped main frame according to the present invention;

fig. 4 is a schematic top view of the lower L-shaped main skeleton according to the present invention;

FIG. 5 is a schematic structural view of a clamping system for a buried rubber water stop belt according to the present invention;

FIG. 6 is a schematic view of the structure of an upper form according to the present invention;

FIG. 7 is a schematic view of the structure of the lower template according to the present invention;

fig. 8 is a schematic structural view of an embodiment of the embedded rubber water stop belt clamping system according to the present invention.

Reference numerals: 1-an upper L-shaped main framework; 2-lower L-shaped main skeleton; 3-stressing cards; 4-perforating; 5-a serration section; 6-loading a bolt; 7-a lower stressing bolt; 8-stress end; 9-backing plate; 10-a bottom template; 11-a buried rubber water stop; 12-upper template; 121-T-shaped wood forms; 122-L-shaped clamping plate I; 123-reinforcing battens; 13-lower template; 131-vertical templates; 132-L-shaped clamping plates II; 133-battens; 14-a circular ring clamping groove; 15-a main body structure reinforcing bar; 16-cushion blocks; 17-reinforcing ribs of sedimentation joints; 18-a clamp movable shaft; 19-isolating cushion blocks; 20-iron nails.

Detailed Description

The present invention will be further described below in order to make the technical means, innovative features, achieved objects and effects achieved by the present invention easy to understand.

The examples described herein are specific embodiments of the present invention, which are intended to illustrate the inventive concept, are intended to be illustrative and exemplary, and should not be construed as limiting the invention to the embodiments and scope of the invention. In addition to the embodiments described herein, those skilled in the art can adopt other obvious solutions based on the disclosure of the claims and specification of the present application, including those adopting any obvious substitutions and modifications to the embodiments described herein.

A clamp for a buried rubber water stop belt, as shown in figure 1, comprises a clamp framework and a stress application card 3 arranged on the clamp framework; the clamp framework is clamped on the outer clamp template through a stress application bolt arranged on the clamp framework, as shown in fig. 2, the clamp framework comprises an upper L-shaped main framework 1 shown in fig. 3 and a lower L-shaped main framework 2 shown in fig. 4, the vertical parts of the upper L-shaped main framework 1 and the lower L-shaped main framework 2 are connected through a clamp movable shaft 18, a saw tooth section 5 is arranged on the upper end surface of the upper L-shaped main framework 1, a vertically long and narrow through hole 4 is arranged on a stress application card 3, the upper edge of the through hole 4 is propped against saw teeth of the saw tooth section 5, and the lower edge of the through hole 4 is propped against the lower end surface of the lower L-shaped main framework 2;

the stressing bolts comprise two upper stressing bolts 6 and lower stressing bolts 7 which are arranged up and down oppositely, and the upper stressing bolts 6 and the lower stressing bolts 7 are respectively in threaded connection with the end parts of the transverse parts of the upper L-shaped main framework 1 and the lower L-shaped main framework 2, which are far away from the vertical parts.

The upper end of the stress application card 3 is horizontally bent towards the direction of the movable shaft 18 of the clamp to form a stress end 8, the direction of the stress end 8 can be adjusted by an iron hammer to enable the clamp to apply acting force to the circular ring clamping groove 14 to form the function of fixing the circular ring clamping groove 14, the opposite ends of the upper stress application bolt 6 and the lower stress application bolt 7 are respectively provided with a base plate 9, the length of the lower stress application bolt 7 is 10-12 cm, the base plates 9 are square base plates with the thickness of 1cm and the width of 5-6 cm; the stress application card 3 is 3-5 cm thick, 3-5 cm wide and 20-24 cm long, and the perforation 4 is arranged in the middle of the stress application card 3, 18cm long and 0.5cm wide; the length of the vertical part of the upper L-shaped main framework 1 and the lower L-shaped main framework 2 is 10-12 cm, the length of the horizontal part is 30-40 cm, the length of the sawtooth section 5 is 10-15 cm, and the distance between the sawtooth section 5 and the vertical part is 5cm.

The clamping system of the embedded rubber water stop belt is arranged on a bottom template 10 as shown in fig. 5 and 8, and comprises an embedded rubber water stop belt clamp and an outer clamping template for clamping the embedded rubber water stop belt 11, wherein the middle circular ring of the embedded rubber water stop belt 11 is clamped in the outer clamping template, and the left end and the right end respectively extend into the embedded rubber water stop belt clamp and the settlement joint reinforcing ribs 17;

one end of the middle buried rubber water stop clamp is opened, and an upper stressing bolt 6 and a lower stressing bolt 7 at the opened ends clamp the outer clamping template;

the outer clamping template comprises an upper template 12 shown in fig. 6 and a lower template 13 shown in fig. 7, wherein the upper template 12 comprises a T-shaped wood template 121, a reinforced batten 123 and an L-shaped clamping plate I122, the reinforced batten 123 is fixed at the connecting corner of the transverse part and the vertical part of the T-shaped wood template 121, and the transverse part of the L-shaped clamping plate I122 is fixed at the lower end part of the vertical part of the T-shaped wood template 121 on the same side as the reinforced batten 123; the lower template 13 comprises a vertical template 131, an L-shaped clamping plate II 132 and a connecting batten 133, wherein the L-shaped clamping plate II 132 and the connecting batten 133 are respectively fixed at the upper end and the lower end of the same side surface of the vertical template 131, and the L-shaped clamping plate I122 is opposite to the notch of the L-shaped clamping plate II 132 to form a circular clamping groove 14 which is open towards the direction of the settlement joint reinforcing rib 17;

the size of the circular ring clamping groove 14 is matched with the size of the circular ring in the middle of the middle embedded type rubber water stop 11, the circular ring in the middle embedded type rubber water stop 11 is clamped and fixed in the circular ring clamping groove 14, the first L-shaped clamping plate 122 and the second L-shaped clamping plate 132 are clamped through the upper stressing bolt 6 and the lower stressing bolt 7 of the middle embedded type rubber water stop clamp, and the middle embedded type rubber water stop 11 is clamped by the outer clamping template; a reinforced batten 123 is arranged between the transverse part and the vertical part of the upper part of the T-shaped wood template 121; the first L-shaped clamping plate 122 and the second L-shaped clamping plate 132 are formed by connecting and fixing two battens through iron nails 20; the batten 133 is fixed to the bottom form 10 by iron nails 20.

The construction method of the embedded rubber water stop belt clamping system is characterized by comprising the following steps of:

step one, construction steel bars: constructing main structure steel bars on the bottom templates, arranging settlement joint reinforcing ribs at the ends of the main structure steel bars, and arranging cushion blocks between the main structure steel bars and the settlement joint reinforcing ribs and the bottom templates;

step two, constructing a lower template: fixing the battens of the lower template with the bottom template through iron nails, and ensuring the stability of the lower template through auxiliary diagonal bracing;

step three, installing a buried rubber water stop: the middle circular ring of the middle buried rubber water stop is clamped in the second L-shaped clamping plate of the lower template, the right side of the middle buried rubber water stop stretches into the settlement joint reinforcing rib, and an isolation cushion block is arranged between the middle buried rubber water stop and the settlement joint reinforcing rib;

step four, installing an upper template: an upper template is arranged on the lower template, and is assembled to form a circular clamping groove;

step five, installing a middle-buried rubber water stop clamp: after the middle-buried rubber water stop clamp is assembled, the middle-buried rubber water stop clamp is clamped on the first L-shaped clamping plate and the second L-shaped clamping plate;

step six, adjusting bolts: the relative distance between the upper stress application bolt and the lower stress application bolt is adjusted to be matched with the sizes of the first L-shaped clamping plate and the second L-shaped clamping plate, the stress end is hit by an iron hammer until the stress card does not displace any more, then the upper stress application bolt and the lower stress application bolt are fastened, the upper template, the lower template and the embedded rubber water stop are ensured to be attached and not deformed, and the embedded rubber water stop clamping system is constructed.

The foregoing description of the preferred embodiments of the invention is not intended to limit the invention to the precise form disclosed, and any such modifications, equivalents, and alternatives falling within the spirit and scope of the invention are intended to be included within the scope of the invention.

Claims (6)

1. A clamping system of a buried rubber water stop belt is characterized in that: the middle buried rubber water stop belt clamping system is arranged on the bottom template (10) and comprises a middle buried rubber water stop belt clamp and an outer clamping template, wherein the middle buried rubber water stop belt clamp and the outer clamping template are used for clamping the middle buried rubber water stop belt (11), the middle circular ring of the middle buried rubber water stop belt (11) is clamped in the outer clamping template, and the left end and the right end of the middle buried rubber water stop belt clamp and the settlement joint reinforcing ribs (17) respectively extend into the middle buried rubber water stop belt clamp and the settlement joint reinforcing ribs;

one end of the middle-buried rubber water stop clamp is opened, and an upper stressing bolt (6) and a lower stressing bolt (7) at the opened ends clamp the outer clamping template;

the outer clamping template comprises an upper template (12) and a lower template (13), wherein the upper template (12) comprises a T-shaped wood template (121), a reinforced wood square (123) and an L-shaped clamping plate I (122), the reinforced wood square (123) is fixed at the connecting corner of the transverse part and the vertical part of the T-shaped wood template (121), and the transverse part of the L-shaped clamping plate I (122) is fixed at the position of the lower end part of the vertical part of the T-shaped wood template (121) on the same side as the reinforced wood square (123); the lower template (13) comprises a vertical template (131), an L-shaped clamping plate II (132) and a connecting batten (133), wherein the L-shaped clamping plate II (132) and the connecting batten (133) are respectively fixed at the upper end and the lower end of the same side face of the vertical template (131), and the L-shaped clamping plate I (122) is opposite to a notch of the L-shaped clamping plate II (132) and surrounds a circular ring clamping groove (14) which is opened towards the direction of a settlement joint reinforcing rib (17);

the size of the circular ring clamping groove (14) is matched with the middle circular ring size of the middle embedded rubber water stop (11), the middle circular ring of the middle embedded rubber water stop (11) is clamped and fixed in the circular ring clamping groove (14), the L-shaped clamping plate I (122) and the L-shaped clamping plate II (132) are clamped through the upper stressing bolt (6) and the lower stressing bolt (7) of the middle embedded rubber water stop clamp, and the middle embedded rubber water stop (11) is clamped by the outer clamping template;

the middle buried rubber water stop clamp comprises a clamp framework and a stress application clamping piece (3) arranged on the clamp framework; the clamp framework is clamped on the outer clamp template through a stress application bolt arranged on the clamp framework, the clamp comprises an upper L-shaped main framework (1) and a lower L-shaped main framework (2), the vertical part of the upper L-shaped main framework (1) is connected with the vertical part of the lower L-shaped main framework (2) through a clamp movable shaft (18), a sawtooth section (5) is arranged on the upper end face of the upper L-shaped main framework (1), a vertically long and narrow perforation (4) is arranged on the stress application card (3), the upper L-shaped main framework (1) and the lower L-shaped main framework (2) penetrate through the perforation (4) of the stress application card (3), the upper edge of the perforation (4) is propped against sawteeth of the sawtooth section (5), and the lower edge of the perforation is propped against the lower end face of the lower L-shaped main framework (2);

the stress application bolt comprises an upper stress application bolt (6) and a lower stress application bolt (7) which are arranged up and down oppositely, the upper stress application bolt (6) and the lower stress application bolt (7) are respectively in threaded connection with the ends of the transverse parts of the upper L-shaped main framework (1) and the lower L-shaped main framework (2) far away from the vertical parts, the upper end of the stress application card (3) is horizontally bent towards the direction of the clamp movable shaft (18) to form a stress end (8), and the opposite ends of the upper stress application bolt (6) and the lower stress application bolt (7) are respectively provided with a backing plate (9).

2. A buried rubber water stop clamping system according to claim 1, wherein: a reinforced batten (123) is arranged between the transverse part and the vertical part of the upper part of the T-shaped wood template (121).

3. A buried rubber water stop clamping system according to claim 1, wherein: the length of the lower stressing bolt (7) is 10-12 cm, and the backing plate (9) is a square backing plate with the thickness of 1cm and the width of 5-6 cm; the stress application card (3) is 3-5 cm thick, 3-5 cm wide and 20-24 cm long, and the perforation (4) is arranged in the middle of the stress application card (3) and is 18cm long and 0.5cm wide; the length of the vertical part of the upper L-shaped main framework (1) and the length of the vertical part of the lower L-shaped main framework (2) are 10-12 cm, the length of the horizontal part is 30-40 cm, the length of the sawtooth section (5) is 10-15 cm, and the distance between the sawtooth section (5) and the vertical part is 5cm.

4. A buried rubber water stop clamping system according to claim 1, wherein: the L-shaped clamping plate I (122) and the L-shaped clamping plate II (132) are formed by connecting and fixing two battens through iron nails (20).

5. A buried rubber water stop clamping system according to claim 1, wherein: the battens (133) and the bottom template (10) are fixed through iron nails (20).

6. The construction method of a buried rubber water stop belt clamping system according to claim 1, comprising the steps of:

step one, construction steel bars: constructing a main structure steel bar (15) on a bottom template (10), arranging a settlement joint reinforcing rib (17) at the end part of the main structure steel bar (15), and arranging cushion blocks (16) between the main structure steel bar (15) and the settlement joint reinforcing rib (17) and the bottom template (10);

step two, constructing a lower template (13): the batten (133) of the lower template (13) is fixed with the bottom template (10) through iron nails (20), and the stability of the lower template (13) is ensured through auxiliary diagonal bracing;

step three, installing a buried rubber water stop (11): the middle circular ring of the middle embedded rubber water stop (11) is clamped in an L-shaped clamping plate II (132) of the lower template (13), the right side of the middle embedded rubber water stop (11) stretches into the settlement joint reinforcing rib (17), and an isolation cushion block (19) is arranged between the middle embedded rubber water stop (11) and the settlement joint reinforcing rib (17);

step four, installing an upper template (12): an upper template (12) is arranged on the lower template (13), and is assembled to form a circular ring clamping groove (14);

step five, installing a middle-buried rubber water stop clamp: after the middle-buried rubber water stop clamp is assembled, the middle-buried rubber water stop clamp is clamped on the first L-shaped clamping plate (122) and the second L-shaped clamping plate (132);

step six, adjusting bolts: the relative distance between the upper stressing bolt (6) and the lower stressing bolt (7) is adjusted to be matched with the sizes of the first L-shaped clamping plate (122) and the second L-shaped clamping plate (132), the stressing end (8) is hammered by an iron hammer until the stressing card (3) is not displaced any more, then the upper stressing bolt (6) and the lower stressing bolt (7) are fastened, the upper template (12), the lower template (13) and the middle buried rubber water stop (11) are guaranteed to be attached and not deformed, and the middle buried rubber water stop clamping system is constructed.