KR102016734B1 - Prefabricated co-exhaust piping system for architecture - Google Patents

Abstract

The present invention relates to a prefabricated common exhaust gas port for architecture, capable of obtaining a degree of freedom of a main pipe and also obtaining flowability between a main pipe and a branch pipe at a part in which the branch pipe branches from the main pipe. Also, the prefabricated common exhaust gas port for architecture is to prevent the main pipe and the branch pipe from being damaged by absorbing and dispersing vibration transferred to a building. To achieve the purpose of the present invention, the prefabricated common exhaust gas port for architecture includes: a main pipe erected in an exhaust space; a main corrugate pipe connected to the main pipe to control the length of the main pipe; the branch pipe branching from the main pipe; a corrugated branch pipe connected to the branch pipe to control the length of the branch pipe; and a pair of earthquake-resistant modules connected to an inner wall of the exhaust space while being separated by corresponding to the diameter of the main pipe and vertically and horizontally moving based on the inner wall of the exhaust space, wherein at least one among the main pipe and the branch pipe is fixed to the pair of earthquake-resistant modules.

Description

Prefabricated cavity exhaust for building {PREFABRICATED CO-EXHAUST PIPING SYSTEM FOR ARCHITECTURE}

The present invention relates to a prefabricated cavity exhaust vent for building, and more particularly, to secure the degree of freedom of the main pipe, while securing the fluidity between the main pipe and the branch pipe at the portion where the branch pipe branched from the main pipe, The present invention relates to a building prefabricated cavity exhaust vent for absorbing and dispersing vibration to prevent breakage of the main pipe and branch pipe.

The individual heating year of the conventional multi-family house connects the exhaust pipe to the connection of the common exhaust pipe (building PIT) in the boiler room for each household, and the barrier wall constitutes the common exhaust pipe with a finish by cement brick and mortar.

As such construction means treats the finish of each generation of exhaust pipes and common exhaust pipes (building PIT) with masonry finishing, there is a possibility of leakage of exhaust gas due to wall cracks and water leakage due to condensation during use. The air tightness of the exhaust port is important.

In the current building construction, the joint ventilation system is not constructed at the same time after the completion of the framework, and the construction work is not done smoothly because the related construction work and the construction finishing work are overlapped due to the construction of the exhaust floor. .

In addition, due to the hassle of material input and worker input during construction at each stage, it takes more time than necessary, which leads to an increase in construction cost, and a long period of construction. When connecting and assembling the exhaust pipe, if the coupling position of the auxiliary exhaust pipe is not correct, there is a problem that it is difficult to reduce the time and cost required to assemble the main exhaust pipe and the auxiliary exhaust pipe, such as by adjusting the length of the main exhaust pipe again.

In particular, in the case of the common exhaust pipe according to the prior art as shown in FIG. 1, the main pleated pipe 11 is installed in the main pipe 10, the branched pleated pipe 21 is installed in the branch pipe 20, and the exhaust space S is provided. The main member 10 is fixed to the fixing member 50 fixed to the inner wall of the support ring 40 through the medium. Here, the main pleated pipe 11 is provided with a length adjusting unit 60 for adjusting the length of the main pleated pipe (11). In addition, the first seismic part 70 is provided in the main pipe 10, and the second seismic part 80 is provided in the branch pipe 20.

However, in the prior art, the cavity is fixed to the inner wall of the exhaust space (S) through the fixing member 50 as well as the seismic performance of the first seismic portion 70 and the second seismic portion 80 sag. This impairs the risk of damage to the joint vents.

(1) Republic of Korea Utility Model Registration No. 20-0134574 (Name of the proposal: Prefabricated common exhaust pipe of multi-family housing, 1999. 02. 18. announcement) (2) Republic of Korea Patent Publication No. 10-1820914 (Invention name: Building prefabricated joint exhaust pipe, 2018. 01. 22. notification)

An object of the present invention is to solve the problems of the prior art, while ensuring the degree of freedom of the main pipe, while ensuring the fluidity between the main pipe and the branch pipe at the branched branch from the main pipe, and vibration transmitted to the building It is to provide a prefabricated joint exhaust vent for building to prevent the main pipe and branch pipes from being broken by absorbing and dispersing.

According to a preferred embodiment for achieving the above object of the present invention, the building prefabricated cavity exhaust outlet according to the present invention includes a main pipe installed upright in the exhaust space; A main pleated tube connected to the main tube for adjusting the length of the main tube; Branch pipe branched from the main pipe; Branch corrugated pipe connected to the branch pipe for adjusting the length of the branch pipe; And coupled to the inner wall of the exhaust space spaced apart from each other corresponding to the diameter of the main pipe, at least one of the main pipe and the branch pipe is fixed, the lifting movement and the horizontal relative to the inner wall of the exhaust space And a pair of movable seismic modules.

Here, the seismic module, the first seismic unit is coupled to the inner wall of the exhaust space corresponding to the portion of the branch pipe branch in the main pipe, and absorbs vibration in the longitudinal direction of the main pipe; And a second seismic unit coupled to the first seismic unit so as to move up and down and absorb vibration in the longitudinal direction of the branch pipe, wherein the seismic module comprises: connecting the main tube to the second seismic unit; Main tube fixing unit for fixing; And a branch pipe fixing unit fixing the branch pipe to the second seismic unit. At least any one of the more.

At this time, the first seismic unit is coupled to the inner wall of the exhaust space, a buffer space is provided therein, the hollow earthquake-resistant body with a buffer opening toward the main pipe; An earthquake-resistant slider coupled to the seismic body to move up and down corresponding to the longitudinal direction of the main tube; Absorption elastic portion for elastically pressing the upper end of the seismic slider based on the seismic body; And a press-elastic portion for elastically pressing the lower end of the seismic slider based on the seismic body, wherein the second seismic unit comprises: a protruding cylinder coupled to the seismic slider; A protruding piston coupled to the protruding cylinder in a reciprocating manner corresponding to the longitudinal direction of the branch pipe; A first projecting elastic part configured to press the projecting piston toward the first seismic unit based on the projecting cylinder; A second protrusion elastic part for pressing the protrusion piston toward the main pipe based on the protrusion cylinder; And a fixing rod extending from the protruding piston toward the main tube and coupled to at least one of the main tube fixing unit and the branch tube fixing unit.

Here, the gap maintaining module for connecting and fixing the pair of the second seismic unit spaced apart from each other corresponding to the diameter of the main pipe; further comprising, the branch pipe fixing unit is fixedly coupled to the gap holding module.

Here, the interval maintaining module, the interval block disposed between the pair of the second seismic unit; A first interval adjusting member fixed to any one of the pair of fixing rods and fitted with one side of the interval block; A second interval adjusting member which is fixed to the other one of the pair of fixing rods and fitted with the other side of the interval block; A first gap elastic part elastically pressing the gap block based on the first gap adjusting member; And a second gap elastic part elastically pressing the gap block based on the second gap adjusting member.

Here, the second seismic unit, the inclined cylinder is spaced apart from the protruding cylinder and coupled to the seismic slider; An inclined piston reciprocally coupled to the inclined cylinder in a direction inclined toward the free end of the fixed rod; A first inclined elastic portion for inclining the inclined piston toward the seismic slider relative to the inclined cylinder; A second inclined elastic part for urging the inclined piston upwardly inclined toward the free end of the fixed rod with respect to the inclined cylinder; And an inclined rod extending obliquely from the inclined piston and connected to the free end of the fixed rod.

According to the prefabricated cavity exhaust for building according to the present invention, while ensuring the degree of freedom of the main pipe, while maintaining the fluidity between the main pipe and the branch pipe in the branching branch branch from the main pipe, absorbs and distributes vibration transmitted to the building It is possible to prevent the main pipe and branch pipe from being broken.

In addition, the present invention to smooth the vertical flow and horizontal flow of the seismic module in response to the vibration transmitted to the building, it is possible to hold and secure the main pipe connected to the branch pipe stably.

Moreover, this invention can freely adjust the position of the part branched from a main pipe according to the position of a branch pipe, and can easily attach / detach between a main pipe and a branch pipe.

In addition, according to the present invention, by inserting the branch connecting member between the main pipe and the branch pipe, the seismic module can be easily modularized, and the seismic module can be easily installed.

In addition, the present invention can reduce the time and cost required for the connection and replacement of the main pipe and the branch pipe.

In addition, the present invention can position the main pipe in the exhaust space as well as freely adjust the length of the main pipe.

In addition, the present invention can freely flow up and down the main pipe through the first seismic unit, it is possible to prevent the main pipe sag in the exhaust space.

In addition, the present invention can freely flow in the horizontal direction of the main pipe through the second seismic unit, it is possible to simplify the clearance control between the main pipe and the branch pipe.

In addition, the present invention easily adjusts the distance between the pair of the first seismic unit and the pair of the second seismic unit corresponding to the diameter of the main tube through the gap maintenance module, and stabilizes the branching branch in the seismic module Can be fixed.

In addition, the present invention can maintain or improve the sealing force between the main pipe and the branch pipe, it is possible to prevent the exhaust gas leakage and water leakage due to condensation in the common exhaust pipe.

1 is a view showing a prefabricated cavity exhaust for building according to the prior art.
Figure 2 is a longitudinal cross-sectional view showing a coupling state of the seismic module in the prefabricated cavity exhaust for building according to an embodiment of the present invention.
Figure 3 is a cross-sectional view showing a coupling state of the seismic module in the prefabricated cavity exhaust for building according to an embodiment of the present invention.
Figure 4 is a longitudinal cross-sectional view showing a coupling state of the space maintenance module included in the seismic module in the prefabricated cavity prefabricated building according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described an embodiment of the prefabricated cavity exhaust for building according to the present invention. At this time, the present invention is not limited or limited by the embodiment. In addition, in describing the present invention, a detailed description of known functions or configurations may be omitted to clarify the gist of the present invention.

1 to 4, the prefabricated cavity prefabricated building outlet according to an embodiment of the present invention is the main pipe 10 is installed in the exhaust space (S) upright, the main pipe for adjusting the length of the main pipe (10) The main pleated pipe (11) connected to the (10), the branch pipe (20) branched from the main pipe (10), the branch fold pipe (21) connected to the branch pipe (20) for adjusting the length of the branch pipe (20) ) Is coupled to the inner wall of the exhaust space (S) in a state spaced apart from each other corresponding to the diameter of the main pipe 10 and at least one of the main pipe 10 and the branch pipe 20 is fixed and the exhaust space (S) It may include a pair of seismic module 100 capable of lifting and moving horizontally relative to the inner wall of the).

The main pipe 10 is installed upright in the exhaust space (S).

The main pleated pipe 11 has a bellows shape and can be expanded and contracted in the longitudinal direction of the main pipe 10.

Branch pipe 20 may be installed in a direction perpendicular to the longitudinal direction of the main pipe (10).

Branch corrugated pipe 21 has a bellows shape and can be stretched in the longitudinal direction of branch pipe 20.

 Seismic module 100 is coupled to the inner wall of the exhaust space (S) in response to the portion of the branch pipe 20 in the main pipe 10, the first to absorb the vibration in the longitudinal direction of the main pipe (10) It may include a seismic unit 110 and the second seismic unit 120 is coupled to the first seismic unit 110 to move up and down and absorbs vibration in the longitudinal direction of the branch pipe (20).

At this time, the seismic module 100 has a main fixing unit 160 for fixing the main pipe 10 to the second seismic unit 120, and a branch pipe for fixing the branch pipe 20 to the second seismic unit 120. At least one of the fixing unit 170 may be further included.

Here, the first seismic unit 110 is a hollow seismic body 111 coupled to the inner wall of the exhaust space (S), and the buffer space 117 of the seismic body 111 corresponding to the longitudinal direction of the main pipe (10) ) The seismic slider 112 coupled to the lifting and lowering movement, the absorbing elastic part 113 for elastically pressing the upper end of the seismic slider 112 based on the seismic body 111, and the seismic body 111. The seismic slider 112 may include a pressurized elastic part 114 for elastically pressing the lower end portion.

Then, when the seismic slider 112 is moved up and down in the seismic body 111, the seismic slider 112 may be elastically supported by the elastic force of the absorbent elastic part 113 and the pressure elastic part 114.

The seismic body 111 has a wing bracket 115 protruding to be supported on the inner wall of the exhaust space (S). The seismic body 111 can be fixed to the inner wall of the exhaust space (S) by fixing the wing bracket 115 to the inner wall of the exhaust space (S) via the unit fixing portion (116). have. The unit fixing part 116 may include an anchor embedded in the inner wall of the exhaust space S, and may fix the wing bracket 115 to the inner wall of the exhaust space S through a screw coupling between the anchor and the fastening member. .

The seismic body 111 is provided with a buffer space 117 in which the seismic slider 112 slides. In addition, the shockproof body 111 is opened with a buffer opening 118 toward the main pipe 10 so that the buffer space 117 and the exhaust space (S) communicate with each other, the slide movement of the second earthquake-resistant unit 120 You can guide.

The seismic slider 112 may have a connecting rod 119 protruding toward the main pipe 10 for the installation of the support unit 140 to be described later and the additional arrangement of the space maintaining module 150.

The second seismic unit 120 includes a main connection unit 130 protruding from the seismic slider 112 toward the main pipe 10 to absorb vibration in the longitudinal direction of the branch pipe 20, and the main connection unit 130. It may further include a support unit 140 is provided to be inclined downward from the 130, connected to the seismic slider 112, and absorbs vibration in the inclined direction.

The main connection unit 130 of the second seismic unit 120 is capable of reciprocating to the protruding cylinder 131 coupled to the seismic slider 112 and to the protruding cylinder 131 corresponding to the longitudinal direction of the branch pipe 20. Projecting piston 132 coupled to each other, the first projecting elastic portion 133 for pressing the projecting piston 132 toward the first seismic unit 110 based on the projecting cylinder 131, and the projecting cylinder 131. The second projecting elastic portion 134 for pressing the protruding piston 132 toward the main tube 10 as a reference, and the main fixing unit 160 and the branch pipe extending from the protruding piston 132 toward the main tube 10. It may include a fixing rod 136 coupled to at least one of the fixing unit 170.

The protruding cylinder 131 passes through the buffer opening 118 and protrudes from the seismic slider 112 toward the main tube 10, and slides along the buffer opening 118.

It is advantageous that the fixing rod 136 is formed to protrude a coupling protrusion 137 for coupling with the main fixing unit 160.

The main connection unit 130 further includes a protruding guide cap 135 extending from the fixing rod 136 to surround the protruding cylinder 131, thereby suppressing or preventing sagging of the main connecting unit 130, and branching pipe. The reciprocating movement with respect to the longitudinal direction of 20 can be made smooth.

The support unit 140 of the second seismic unit 120 is inclined cylinder 141 which is spaced apart from the protruding cylinder 131 and coupled to the seismic slider 112, and inclined toward the free end of the fixed rod 136. The inclined piston 142 coupled to the inclined cylinder 141 to be reciprocated along the first slope, and the first inclined elastic portion for obliquely pressing the inclined piston 142 toward the seismic slider 112 based on the inclined cylinder 141 143 and the second inclined elastic portion 144 for pressing the inclined piston 142 upwardly inclined toward the free end of the fixed rod 136 based on the inclined cylinder 141, and the inclined piston 142 inclined. It may further include an inclined rod 146 extending and connected to the free end of the fixed rod 136.

The inclined cylinder 141 may be provided to be inclined toward the free end of the fixed rod 136 in the seismic slider (112). The inclined cylinder 141 may be connected and fixed to the seismic slider 112 through the connecting rod 119.

The support unit 140 further includes an inclined guide cap 145 extending from the inclined rod 146 to surround the inclined cylinder 141, thereby suppressing or preventing the sag of the support unit 140 and preventing the inclination direction. The reciprocating movement can be smoothed.

The main fixing unit 160 includes a main bracket 161 wrapping and supporting the main pipe 10, and a main fastening part 162 connecting and fixing the main bracket 161 and the coupling protrusion 137, and the main bracket The main pad 163 may further include a main pad 163 that is press-fitted between the 161 and the main tube 10 to improve the coupling force between the main bracket 161 and the main tube 10.

The main bracket 161 may be formed in a pair of semicircular shapes to surround the main tube 10, and the coupling protrusion 137 may be disposed between the ends of the pair of main brackets 161.

The branch pipe fixing unit 170 includes a branch bracket 171 that surrounds and supports the branch pipe 20, a branch bracket 171, a second seismic unit 120, or a branch bracket 171, and a gap maintaining module to be described later ( And a branch fastening portion 172 for connecting and fixing 150, and is press-fitted between the branch bracket 171 and the branch pipe 20 to branch to improve the coupling force between the branch bracket 171 and the branch pipe 20. The pad 173 may further be included.

Branch bracket 171 is formed in a semi-circular shape to surround the branch pipe 20, the both ends of the branch bracket 171 via the branch fastening portion 172, the second earthquake-resistant unit 120 or a gap to be described later It is fixed to the module 150.

Building prefabricated cavity exhaust vent according to an embodiment of the present invention further comprises a space maintaining module 150 for connecting and fixing a pair of second seismic unit 120 spaced apart from each other corresponding to the diameter of the main pipe (10). Can be.

The gap maintaining module 150 may fix and fix the rods 136 spaced apart from each other. The gap maintaining module 150 may fix the connection rods 119 spaced apart from each other.

Then, the interval maintaining module 150 is fixed to the branch pipe fixing unit 170 is coupled.

The interval maintaining module 150 is fixed to any one of the pair of fixing rods 136 and the interval block 151 disposed between the pair of second seismic unit 120, and one side of the interval block 151 and A first rating adjusting member 154 fitted into the fitting, a second rating adjusting member 154 fixed to the other of the pair of fixing rods 136 and fitted with the other side of the interval block 151, and A first elastic elastic portion 155 for elastically pressing the interval block 151 based on the first weight adjusting member 153, and an agent for elastically pressing the interval block 151 based on the second shoulder adjusting member 154. It may include a two-shot elastic portion 156.

In addition, the spacing maintaining module 150 passes through the first shaping adjusting member 153 in a state supported by the first shaping adjusting member 153 and is screwed to one side of the spacing block 151. And a second adjustment screw 158 which is screwed to the other side of the space block 151 through the second load adjustment member 154 in a state supported by the second load adjustment member 154. have.

In the interval block 151, a screw hole part 152 for screwing together the first adjusting screw 157 and the second adjusting screw 158 may be penetrated or recessed. The interval block 151 is provided with a center display unit 153 that displays the center of the longitudinal direction to check the amount of movement of the first and second control member 153 and 154 in the interval block 151, and Centering of the interval block 151 may be adjusted.

Building prefabricated cavity exhaust vent according to an embodiment of the present invention may further include a branch connection member for connecting the main pipe 10 and the branch pipe (20).

The branch connection member may include a main connection part 31 connecting the main pipe 10 to each other, and a branch connection part 32 extending from the main pipe 10 and connected to the branch pipe 20.

In this case, a main wrinkle tube 11 may be installed between the main connecting portion 31 and the main tube 10, and a branch wrinkle tube 21 may be installed between the branch connecting portion 32 and the branch tube 20.

In addition, the main fixing unit 160 is coupled to the main connecting portion 31, the branch pipe fixing unit 170 is combined with the branch connecting portion 32 can simplify the installation by modularizing the seismic module (100).

According to the above-described prefabricated cavity exhaust for building, while maintaining the degree of freedom of the main pipe 10, while the branch pipe 20 is branched from the main pipe 10 between the main pipe 10 and the branch pipe (20) It is possible to secure fluidity and absorb and disperse vibration transmitted to the building to prevent the main tube 10 and the branch tube 20 from being damaged.

In addition, in response to vibrations transmitted to the building, the up and down flow and the horizontal flow of the seismic module 100 may be smooth, and the main pipe 10 to which the branch pipe 20 is connected may be stably fixed.

Moreover, the position adjustment of the part branched from the main pipe 10 can be made free according to the position of the branch pipe 20, and the attachment / detachment between the main pipe 10 and the branch pipe 20 can be made simple.

In addition, by inserting the branch connection member between the main pipe 10 and the branch pipe 20, the seismic module 100 can be easily modularized, and the seismic module 100 can be easily installed.

In addition, it is possible to reduce the time and cost required for the connection and replacement of the main pipe 10 and the branch pipe 20.

In addition, it is possible to freely adjust the length of the main pipe 10, as well as positioning the main pipe 10 in the exhaust space (S).

In addition, the present invention can freely flow up and down the main pipe 10 through the first seismic unit 110, it is possible to prevent sagging of the main pipe 10 in the exhaust space (S).

In addition, the horizontal seismic flow of the main pipe 10 can be freed through the second seismic unit 120, and the clearance between the main pipe 10 and the branch pipe 20 can be easily adjusted.

In addition, the gap maintaining module 150 to easily adjust the interval between the pair of the first seismic unit 110 and the pair of second seismic unit 120 corresponding to the diameter of the main tube 10, seismic module In 100, the branching branch 20 may be stably fixed.

In addition, it is possible to maintain or improve the sealing force between the main pipe 10 and the branch pipe 20, and to prevent the exhaust gas leakage and water leakage due to condensation in the common exhaust pipe.

Although the preferred embodiments of the present invention have been described with reference to the drawings as described above, those skilled in the art can variously change the present invention without departing from the spirit and scope of the present invention as set forth in the claims below. Can be modified or changed.

S: exhaust space 10: main pipe 11: main pleated pipe
20: branch pipe 21: branch wrinkle pipe 31: main connection
32: branch connection part 40: support ring part 50: fixing member
60: length adjusting part 70: first seismic part 80: second seismic part
100: seismic module 110: first seismic unit 120: second seismic unit
130: main connection unit 140: support unit 150: spacing module
160: main pipe fixing unit 170: branch pipe fixing unit
S: exhaust space

Claims (4)

A main pipe installed upright in the exhaust space;
A main pleated tube connected to the main tube for adjusting the length of the main tube;
Branch pipe branched from the main pipe;
Branch corrugated pipe connected to the branch pipe for adjusting the length of the branch pipe; And
It is coupled to the inner wall of the exhaust space in a state spaced apart from each other corresponding to the diameter of the main pipe, at least one of the main pipe and the branch pipe is fixed, the lifting and horizontal movement relative to the inner wall of the exhaust space Including a pair of seismic modules possible;
The seismic module,
A first seismic unit coupled to an inner wall of the exhaust space corresponding to a portion of the branch pipe branched from the main pipe and absorbing vibration in a longitudinal direction of the main pipe; And
And a second seismic unit coupled to the first seismic unit so as to be movable up and down and absorbing vibration in the longitudinal direction of the branch pipe.
The seismic module,
A main tube fixing unit fixing the main tube to the second seismic unit; And
A branch pipe fixing unit which fixes the branch pipe to the second seismic unit; At least one of the more,
The first seismic unit,
A hollow seismic body coupled to the inner wall of the exhaust space and having a buffer space therein, the buffer opening being opened toward the main pipe;
An earthquake-resistant slider coupled to the seismic body to move up and down corresponding to the longitudinal direction of the main tube;
Absorption elastic portion for elastically pressing the upper end of the seismic slider based on the seismic body; And
And a pressurized elastic part configured to elastically press the lower end of the seismic slider based on the seismic body.
The second seismic unit,
A protruding cylinder coupled to the seismic slider;
A protruding piston coupled to the protruding cylinder in a reciprocating manner corresponding to the longitudinal direction of the branch pipe;
A first projecting elastic part configured to press the projecting piston toward the first seismic unit based on the projecting cylinder;
A second protrusion elastic part for pressing the protrusion piston toward the main pipe based on the protrusion cylinder; And
And a fixing rod extending from the protruding piston toward the main tube and coupled to at least one of the main tube fixing unit and the branch tube fixing unit.
The method of claim 1,
And a spacing maintaining module for connecting and fixing the pair of second seismic units spaced apart from each other corresponding to the diameter of the main tube.
The gap maintaining module,
Building prefabricated cavity exhaust vent characterized in that the branch pipe fixing unit is fixed.
The method of claim 2,
The gap maintaining module,
An interval block disposed between the pair of second seismic units;
A first interval adjusting member fixed to any one of the pair of fixing rods and fitted with one side of the interval block;
A second interval adjusting member which is fixed to the other one of the pair of fixing rods and fitted with the other side of the interval block;
A first gap elastic part elastically pressing the gap block based on the first gap adjusting member; And
And a second interval elastic part elastically pressurizing the interval block based on the second interval adjusting member.
The method according to any one of claims 1 to 3,
The second seismic unit,
An inclined cylinder spaced apart from the protruding cylinder and coupled to the seismic slider;
An inclined piston reciprocally coupled to the inclined cylinder in a direction inclined toward the free end of the fixed rod;
A first inclined elastic portion for inclining the inclined piston toward the seismic slider relative to the inclined cylinder;
A second inclined elastic part for urging the inclined piston upwardly inclined toward the free end of the fixed rod with respect to the inclined cylinder; And
Building prefabricated cavity exhaust vent further comprises a; inclined rod extending inclined from the inclined piston connected to the free end of the fixed rod.

Images