CN117772867A - Construction method for distributing fire-fighting monitoring lines on wood pattern - Google Patents

Abstract

The application discloses a construction method of distributing fire control monitoring line way on wood matrix, including: and (3) bending the stainless steel pipe in a straight pipe state by using an auxiliary tool for bending the fire-fighting monitoring pipeline distributed on the wood die to form a fire-fighting monitoring pipeline with a continuous and smooth radian. The fire control monitoring line way is formed by bending the stainless steel pipe clamped in the straight line state in the bayonet to form a large-radian pipe with continuous smooth radian under the pulling of the pulling rod by the bending foot of the auxiliary tool for bending the fire control monitoring line way on the wood die, and the problem that the radian of the large-radian pipe formed by bending the galvanized steel pipe for a plurality of times with small radian is discontinuous and smooth by the first roller and the second roller is solved.

Description

Construction method for distributing fire-fighting monitoring lines on wood pattern

Technical Field

The invention relates to a construction method for distributing fire-fighting monitoring lines on a wood form, and belongs to the technical field of building wood form construction.

Background

When building the high-rise building, in order to meet the fire-fighting requirement, the pipeline is needed to be buried in advance to form a fire-fighting monitoring line when the floor timber is erected, and the fire-fighting monitoring line penetrates through the fire-fighting monitoring line to be paved after the floor is poured. The fire control monitoring line is composed of stainless steel pipes, and the stainless steel pipes are straight pipes when purchased in the field, so that the straight pipe stainless steel pipes are bent into large-radian pipes by aid of auxiliary tools for installation.

The existing auxiliary fixture for bending the geminate transistors is as Chinese patent publication No. CN216126368U, and the disclosed technology is as follows: the first roller and the second roller are used for bending galvanized steel pipes in the channel together along with the rotation of the mounting plate; although the first roller and the second roller clamp the galvanized steel pipe to realize bending, the first roller and the second roller clamp the galvanized steel pipe to only realize bending forming of the small-radian pipe, and when the large-radian pipe needs to be formed, the radian of the large-radian pipe formed by repeated small-radian bending is discontinuous and smooth.

Disclosure of Invention

In order to solve the technical problems, the invention provides a construction method for distributing fire-fighting monitoring lanes on a wood die.

The invention is realized by the following technical scheme.

The invention provides a construction method for distributing fire-fighting monitoring lanes on a wood pattern, which comprises the following steps:

and (3) bending the stainless steel pipe in a straight pipe state by using an auxiliary tool for bending the fire-fighting monitoring pipeline distributed on the wood die to form a fire-fighting monitoring pipeline with a continuous and smooth radian.

In the step of forming the fire-fighting monitoring line, the fire-fighting monitoring line is formed by a large-radian pipe with continuous and smooth radian, which is carried out later, one end of the fire-fighting monitoring line is inserted into a fire-fighting monitoring line hole, and the other end of the fire-fighting monitoring line is paved on a wood pattern.

Before the fire-fighting monitoring line is formed, the method further comprises the step of erecting a wood pattern and forming fire-fighting monitoring line holes sequentially.

The wood pattern erecting step comprises the following steps: and supporting and constructing a wood form in a floor area to be poured on the design height of the high-rise building, binding out beam ribs at the beam position of the wood form floor, binding out gluten at the beam position of the wood form floor, and penetrating the gluten into the beam ribs.

The fire control monitoring line hole shaping step is: and (3) chiseling fire-fighting monitoring line holes on the wood pattern below the beam ribs by using chisels, wherein the fire-fighting monitoring line holes are used for installing later fire-fighting monitoring lines.

Auxiliary fixtures is used in bending of cloth fire control monitoring line way on wood matrix includes:

the bending foot is a large-radian body formed by semicircular pipes;

the supporting arm is fixed on the tail end of the bending foot and used for bearing force, and a bayonet used for clamping the stainless steel tube in a straight tube state is formed by the supporting arm and the tail end of the bending foot.

The bending foot is characterized in that a pulling rod is fixed at the back of the bending foot, after the stainless steel pipe is clamped from a bayonet, the stainless steel pipe is propped against the force arm to bend, the bent stainless steel pipe is attached to the large-radian body of the bending foot semicircular pipe to be continuously and smoothly molded, and the stainless steel pipe in a straight pipe state is bent to be molded into a large-radian pipe with continuous and smooth radian.

A tension rod is fixed at the back of the bending foot at the moment arm, and the tension rod is fixed on the pulling rod; the two ends of the tension rod are correspondingly and fixedly connected to the tension arm and the pulling rod through welding.

The invention has the beneficial effects that: the fire control monitoring line way is formed by bending the stainless steel pipe clamped in the straight line state in the bayonet to form a large-radian pipe with continuous smooth radian under the pulling of the pulling rod by the bending foot of the auxiliary tool for bending the fire control monitoring line way on the wood die, and the problem that the radian of the large-radian pipe formed by bending the galvanized steel pipe for a plurality of times with small radian is discontinuous and smooth by the first roller and the second roller is solved.

Drawings

FIG. 1 is a schematic diagram of the fire monitor line hole of the present invention arranged on a wood pattern;

FIG. 2 is a schematic structural view of a fire-fighting monitoring line road formed by bending a stainless steel pipe through auxiliary tools;

FIG. 3 is a schematic structural view of an auxiliary tool of the present invention;

in the figure: 1-wood pattern; 2-beam ribs; 21-gluten; 11-fire control monitoring line holes; 31-stainless steel tube; 3-fire monitoring lane;

4-auxiliary tools; 41-bending the legs; 42-force resisting arm; 43-bayonet; 44-pulling force bar; 45-tension rod.

Detailed Description

The technical solution of the present invention is further described below, but the scope of the claimed invention is not limited to the above.

As shown in fig. 1 to 3.

The application discloses a construction method of cloth fire control monitoring lane on wood matrix includes:

step one, erecting a wood die: the building is characterized in that a wood form 1 is supported and constructed in a floor area to be poured on the height of the high-rise building, beam ribs 2 are bound at the floor beams of the wood form 1, gluten 21 is bound at the floor of the wood form 1, and the gluten 21 penetrates through the beam ribs 2, as shown in fig. 1.

Step two, fire control monitoring line hole shaping: fire monitoring line holes 11 are chiseled in the wood pattern 1 below the beam ribs 2 using chisels, see fig. 1, the fire monitoring line holes 11 being used for installing the fire monitoring line way 3 in the later stage.

Step three, fire control monitoring line way shaping: the auxiliary fixture 4 for bending the fire-fighting monitoring line is used for bending the stainless steel pipe 31 in a straight pipe state, the large-radian pipe with continuous and smooth radian is formed by using the auxiliary fixture 4 for bending the fire-fighting monitoring line on the wood die, the fire-fighting monitoring line 3 is formed by using the large-radian pipe with continuous and smooth radian, see fig. 2, one end of the fire-fighting monitoring line 3 is inserted into the fire-fighting monitoring line hole 11, and the other end of the fire-fighting monitoring line 3 is paved on the wood die 1, see fig. 1.

The auxiliary fixtures 4 is used in bending of cloth fire control monitoring line way on above-mentioned wood matrix that uses includes:

a bending leg 41 which can be bent and formed with the stainless steel tube 31 in a straight tube state, and a large arc body formed by semicircular tubes of the bending leg 41.

The end of the bending leg 41 is integrally and fixedly connected with a stressed resisting arm 42, and a bayonet 43 is formed between the resisting arm 42 and the end of the bending leg 41 and used for clamping the stainless steel tube 31 in a straight tube state.

The back of the bending foot 41 is welded or screwed with a pulling rod 44, after the stainless steel tube 31 is clamped from the bayonet 43, the supporting arm 42 supports against the stainless steel tube 31 to bend, the bent stainless steel tube 31 is attached to the large-radian body of the semicircular tube of the bending foot 41 to be continuously and smoothly molded, and the stainless steel tube 31 in a straight tube state is bent to be molded into a large-radian tube with continuous and smooth radian.

The back of the press bending leg 41 at the force resisting arm 42 is fixedly welded with a tension rod 45, the tension rod 45 is fixedly welded on the force pulling rod 44, the force resisting arm 42 is fixedly connected to the force pulling rod 44 in a reinforcing way by the tension rod 45, and when the force pulling rod 44 pulls the stainless steel tube 31 to bend, the force obtained by the force resisting arm 42 is ensured.

The fire control monitoring line way 3 is formed by bending the stainless steel tube 31 clamped in the bayonet 43 into a large-radian tube with continuous smooth radian under the pulling of the pulling rod 44 by the bending foot 41 of the auxiliary tool 4 for bending the fire control monitoring line way on the wood die, and the problem that the radian of the large-radian tube formed by bending the galvanized steel tube for a plurality of times with small radian is discontinuous and smooth by the first roller and the second roller is solved.

Claims (8)

1. The construction method for arranging fire-fighting monitoring lines on a wood pattern is characterized by comprising the following steps of:

and a fire control monitoring line forming step of bending the stainless steel tube (31) in a straight pipe state by using an auxiliary tool (4) for bending the fire control monitoring line distributed on the wood die to form a continuous and smooth arc tube.

2. The construction method for arranging fire-fighting monitoring lines on a wood pattern according to claim 1, wherein the construction method comprises the following steps: in the fire control monitoring line way shaping step, still include the continuous smooth large radian pipe of radian that follows to carry out and constitute fire control monitoring line way (3), fire control monitoring line way (3) one end inserts fire control monitoring line hole (11), and fire control monitoring line way (3) other end is laid on wood pattern (1).

3. The construction method for arranging fire-fighting monitoring lines on wood forms according to claim 2, wherein: before the fire-fighting monitoring line is formed, the method further comprises the step of erecting a wood pattern and forming fire-fighting monitoring line holes sequentially.

4. The construction method for arranging fire monitoring lanes on a wood pattern according to claim 3, wherein the wood pattern erecting step comprises the following steps: the method comprises the steps of supporting and constructing a wood form (1) in a floor area to be poured on the height of a high-rise building design, binding beam ribs (2) at the floor beam of the wood form (1), binding gluten (21) at the floor of the wood form (1), and penetrating the gluten (21) into the beam ribs (2).

5. The construction method for arranging fire monitoring lines on a wood pattern according to claim 3, wherein the fire monitoring line hole forming step comprises the following steps: and a fire-fighting monitoring line hole (11) is chiseled on the wood pattern (1) below the beam rib (2) by using a chisel, and the fire-fighting monitoring line hole (11) is used for installing a later fire-fighting monitoring line channel (3).

6. The construction method for arranging fire monitor lines on a wood pattern according to claim 1, wherein the auxiliary fixture (4) for bending the fire monitor lines on the wood pattern comprises the following steps:

the bending foot (41) is a large-radian body formed by a semicircular tube;

the supporting arm (42) is fixed on the tail end of the bending foot (41) for bearing force, and the supporting arm (42) and the tail end of the bending foot (41) form a bayonet (43) for clamping the stainless steel tube (31) in a straight tube state.

7. The construction method for arranging fire-fighting monitoring lines on a wood pattern according to claim 6, wherein: the back of the bending foot (41) is fixedly provided with a pulling rod (44), after the stainless steel tube (31) is clamped in from the bayonet (43), the supporting arm (42) supports against the stainless steel tube (31) to bend, the bent stainless steel tube (31) is attached to the large-radian body of the semicircular tube of the bending foot (41) to be continuously and smoothly molded, and the stainless steel tube (31) in a straight tube state is bent to be molded into a large-radian tube with continuously and smoothly radian.

8. The construction method for arranging fire-fighting monitoring lines on a wood pattern according to claim 6, wherein: a tension rod (45) is fixed at the back of the bending leg (41) at the position of the supporting arm (42), and the tension rod (45) is fixed on a pulling rod (44); the two ends of the tension rod (45) are correspondingly and fixedly connected to the supporting arm (42) and the pulling rod (44) through welding.