KR102562425B1 - System for housing of bilateral silicone sealants by using elastic rubber - Google Patents

Abstract

The present invention relates to a bilateral silicone sealant housing system using elastic rubber, comprising: a housing unit having a body having a hollow inside to accommodate the silicone sealant, and having both ends symmetrically formed; a pushing unit provided inside the housing unit to apply a predetermined pushing force to the silicone sealant; holding units selectively mounted on both ends of the housing unit, allowing the silicone sealant to be selectively discharged, and selectively limiting the movement of the pushing unit; and a nozzle unit providing a passage through which the silicone sealant receiving a predetermined pushing force from the pushing unit is discharged to the outside.

Description

Bilateral silicone sealant housing system using elastic rubber {System for housing of bilateral silicone sealants by using elastic rubber}

The present invention relates to a bilateral silicone sealant housing system using elastic rubber. More specifically, it is a technical field related to a silicone sealant housing system that provides a space for accommodating the silicone sealant and allows the silicone sealant to be discharged and replaced in a bilateral direction.

Silicone sealing adhesive serves to block air, wind, water, dust, sunlight, chemical raw materials, heat, and cold air from the outside. It is used for bonding and sealing in all fields such as wooden doors and boat deck work.

The silicone sealant allows a user to discharge a required amount to a desired location through a sealant gun.

There are manual and electric sealant guns, and when using a manual sealant gun, the operator must pull the trigger to discharge the silicone sealant, so it is difficult to smoothly control the amount of silicone sealant discharged because it must be controlled by the operator's hand force. However, when working for a long time, fatigue is easily felt and work efficiency is reduced.

In addition, the sealant gun is composed of a cartridge holder mounted on a silicone sealant cartridge, a pressure plate, a trigger, an airtight lid, a locked release plate, an advance rod, and the like.

As an example of prior patent documents related to this, there is a “cartridge for sealant (Registration No. 10-1140170, hereinafter referred to as Patent Document 1)”.

In the case of the invention according to Patent Literature 1, it relates to a cartridge for sealant, which includes a main body having an open other side, a built-in sealant, and a sealing film formed on the inner surface, and a nozzle unit installed at one end of the main body to discharge the built-in sealant to the outside. and a plunger installed so as to flow while being in contact with the inner surface of the other side of the main body and moving in one direction from the inside of the main body by external pressure to discharge the built-in sealant to the outside through the nozzle part; It includes a first light-shielding portion formed to surround an outer surface, a second light-shielding portion formed to entirely cover the nozzle portion by completely blocking an end surface of one end of the body, and a second light-shielding portion formed on the surface of the plunger.

As an example of another patent document, “silicone gun (Publication No. 10-2020-0073762, hereinafter referred to as Patent Document 2)” also exists.

In the case of the invention according to Patent Document 2, a cartridge holder having a space for accommodating a silicon cartridge and a pressing member for pressing the silicon cartridge accommodated in the space from the rear; and an operating body to which a cartridge holder is coupled to the front and a lever pulled by an operator is provided at the lower side, wherein the pressurizing unit is provided with a plurality of pressurizing units in multiple stages so as to be able to extend and contract, and each pressurizing unit is attached to the operating body. It is connected by a wire wound or unwound to the provided winding drum, and when the lever is pulled, the wire is wound around the winding drum and the pressure sphere is extended, so that the silicon cartridge is pressed and the silicon is discharged.

As an example of another patent document, “silicone cartridge (Publication No. 20-2022-0002482, hereinafter referred to as Patent Document 3)” also exists.

In the case of the invention according to Patent Document 3, a body portion composed of an outer skin and an inner skin, and a discharge portion integrally formed with the body portion, a shoulder portion is formed on the outer circumference of the upper portion of the discharge portion side of the body portion, and a screw thread is formed on the lower side of the discharge portion. In the silicon cartridge in which the discharge portion is formed and the end of the discharge portion is closed, the discharge portion forming portion is formed in a higher curved shape from the endothelial shoulder of the body portion to the portion where the discharge portion is formed.

As an example of another patent document, “air silicone gun (Registration No. 10-1697458, hereinafter referred to as Patent Document 4)” also exists.

In the case of the invention according to Patent Document 4, a tube holder composed of a cap and a rear cap and a handle are formed at the bottom thereof, an air inlet is formed on one side of the handle, and an air opening/closing chamber is provided in the air pipe connected to the air inlet, and the air opening and closing is provided. In the seal, the opening and closing port is connected to the trigger and installed by being supported by a spring. A quick outlet for quickly discharging pressurized pressure at the rear of the air opening/closing chamber, and a rear cap provided at the rear of the tube holder at the top of the air pipe. A rear air pipe for supplying, a front air pipe for injecting air to a spray nozzle mounted on the front, and a valve for adjusting or opening and closing the air amount are installed in the front air pipe, and a nipple having a check valve function is configured to make the spray nozzle It is composed of a connector to connect with.

However, in the case of the silicone cartridge in the existing literatures, there is a hassle that the silicone sealant must be injected and replaced with a new silicone sealant in only one direction.

Registration No. 10-1140170 Publication No. 10-2020-0073762 Publication No. 20-2022-0002482 Registration No. 10-1697458

The bilateral silicone sealant housing system using elastic rubber according to the present invention has been devised to solve the conventional problems as described above, and presents the following problems to be solved.

First, it is intended to provide a space for accommodating the silicone sealant and to facilitate the silicone sealant.

Second, we want to freely insert and replace silicon sealant in a bilateral direction.

Third, when dispensing silicon sealant, it is intended to be uniformly discharged.

The problems to be solved in the present invention are not limited to those mentioned above, and other problems not mentioned will be clearly understood by those skilled in the art from the description below.

The bilateral silicone sealant housing system using elastic rubber according to the present invention has the following problem solving means for the above problem to be solved.

A bilateral silicone sealant housing system using elastic rubber according to the present invention includes a housing unit having a body having a hollow inside to accommodate the silicone sealant and having both ends symmetrically formed; a pushing unit provided inside the housing unit and applying a predetermined pushing force to the silicone sealant as it is moved by an external force; holding units selectively mounted on both ends of the housing unit to selectively discharge the silicone sealant and to selectively limit movement of the pushing unit; and a nozzle unit selectively coupled to the holding unit to provide a passage through which the silicone sealant receiving the predetermined pushing force from the pushing unit is discharged to the outside.

The pushing unit of the bilateral silicone sealant housing system using elastic rubber according to the present invention forms a body for pressurizing the silicone sealant, and performs linear reciprocating motion inside the housing unit by the external force while pushing the silicone sealant. It may be characterized in that it includes a pushing body for providing the predetermined pushing force from the sealant.

The pushing body part of the bilateral silicone sealant housing system using elastic rubber according to the present invention may include a cushion part in which one side surface and the other side surface of the pushing body part are convexly formed.

The pushing body of the bilateral silicone sealant housing system using elastic rubber according to the present invention further comprises an inserting portion that selectively forms a plurality of protruding surfaces according to a predetermined interval from the outer circumferential surface of the pushing body. can do.

The housing unit of the bilateral silicone sealant housing system using elastic rubber according to the present invention may include a housing groove portion in which a plurality of grooves are selectively formed according to the preset interval from the inner circumferential surface of the housing body portion. can

In the housing groove part of the bilateral silicone sealant housing system using elastic rubber according to the present invention, the plurality of protruding surfaces of the inserting part are inserted into the plurality of grooves, so that the pushing unit is moved along the plurality of grooves. It may be characterized by providing a path to move.

The holding unit of the bilateral silicone sealant housing system using elastic rubber according to the present invention forms a body to be fastened to both ends of the housing unit, and limits the movement of the pushing body to move within a predetermined movement distance. a holding body portion; and a holding cover provided on an upper portion of the holding body to form a space into which the nozzle unit is inserted to fix the nozzle unit.

The holding unit of the bilateral silicone sealant housing system using elastic rubber according to the present invention has one side connected to the end of the housing unit and the other side connected to the holding body, so that the holding unit and the housing unit are selectively connected. It may be characterized in that it further comprises a holding connecting portion connected to.

The nozzle unit of the bilateral silicone sealant housing system using elastic rubber according to the present invention includes: a nozzle joint part having one side fastened to the holding cover part so that the nozzle unit is selectively and fixedly coupled; and a nozzle cap having a discharge hole through which the silicone sealant pressed by a predetermined pushing force from the pushing unit is discharged to the outside.

The holding unit of the bilateral silicone sealant housing system using elastic rubber according to the present invention is moved to the other end of the housing unit when the pushing unit moves from one end to the other end of the housing unit to the predetermined moving distance. The mounted holding unit may be selectively mounted to one end of the housing unit.

The bilateral silicone sealant housing system using the elastic rubber according to the present invention configured as described above provides the following effects.

First, a space for accommodating the silicone sealant is provided, and the silicone sealant can be freely introduced and replaced in a bilateral direction.

Second, the pushing unit applies a predetermined pushing force to the silicone sealant so that the silicone sealant can be uniformly discharged to the outside.

The effects of the present invention are not limited to those mentioned above, and other effects not mentioned will be clearly understood by those skilled in the art from the description below.

1 is a perspective view of a bilateral silicone sealant housing system using elastic rubber according to an embodiment of the present invention.
2 is an exploded perspective view of a bilateral silicone sealant housing system using elastic rubber according to an embodiment of the present invention.
3 is a perspective view illustrating a separation of a holding unit according to another embodiment of a bilateral silicone sealant housing system using elastic rubber according to an embodiment of the present invention.
4 is a cross-sectional view of a bilateral silicone sealant housing system using elastic rubber according to an embodiment of the present invention.
5 is a perspective view and a front view of a housing unit of a bilateral silicone sealant housing system using elastic rubber according to an embodiment of the present invention.
6 is a front view and a side view of a pushing unit of a bilateral silicone sealant housing system using elastic rubber according to an embodiment of the present invention.
7 is a perspective view and a rear perspective view of a holding unit of a bilateral silicone sealant housing system using elastic rubber according to an embodiment of the present invention.
8 is a front view showing a holding connecting part of a bilateral silicone sealant housing system using elastic rubber according to an embodiment of the present invention.
9 is a perspective view and a side view of a nozzle unit of a bilateral silicone sealant housing system using elastic rubber according to an embodiment of the present invention.
10 is a cross-sectional view according to another embodiment of a bilateral silicone sealant housing system using elastic rubber according to an embodiment of the present invention.

Since the bilateral silicone sealant housing system using elastic rubber according to the present invention can have various changes and various embodiments, specific embodiments will be illustrated in the drawings and described in detail in the detailed description. However, this is not intended to limit the present invention to specific embodiments, and should be understood to include all modifications, equivalents, or substitutes included in the technical spirit and scope of the present invention.

1 is a perspective view of a bilateral silicone sealant housing system using elastic rubber according to an embodiment of the present invention. 2 is an exploded perspective view of a bilateral silicone sealant housing system using elastic rubber according to an embodiment of the present invention. 3 is a perspective view illustrating a separation of a holding unit according to another embodiment of a bilateral silicone sealant housing system using elastic rubber according to an embodiment of the present invention. 4 is a cross-sectional view of a bilateral silicone sealant housing system using elastic rubber according to an embodiment of the present invention. 5 is a perspective view and a front view of a housing unit of a bilateral silicone displacement sealant housing system using elastic rubber according to an embodiment of the present invention. 6 is a front view and a side view of a pushing unit of a bilateral silicone sealant housing system using elastic rubber according to an embodiment of the present invention. 7 is a perspective view and a rear perspective view of a holding unit of a bilateral silicone sealant housing system using elastic rubber according to an embodiment of the present invention. 8 is a front view showing a holding connecting part of a bilateral silicone sealant housing system using elastic rubber according to an embodiment of the present invention. 9 is a perspective view and a side view of a nozzle unit of a bilateral silicone sealant housing system using elastic rubber according to an embodiment of the present invention. 10 is a cross-sectional view according to another embodiment of a bilateral silicone sealant housing system using elastic rubber according to an embodiment of the present invention.

In the case of the bilateral silicone sealant housing system using the elastic rubber according to the present invention, it is possible to accommodate the silicone sealants in a bilateral direction, and the housing system for smooth replacement and discharge of the silicone sealants. It is about.

As shown in FIGS. 1 to 4, the bilateral silicone sealant housing system using elastic rubber according to the present invention includes a housing unit (100), a pushing unit (200), and a holding unit (holding unit). unit, 300), and a nozzle unit (nozzle unit, 400).

Each of the components mentioned herein is preferably made of a flexible material, such as rubber or plastic.

First, in the case of the housing unit 100, as shown in FIG. 5, a body having a hollow inside is formed to accommodate the silicone sealant, and both ends are symmetrically formed.

The housing unit 100 has an opening in a cylindrical shape to provide a space in which the silicone sealant can be accommodated and moved.

While selectively discharging the silicone sealant mounted on the housing unit 100, various sealing operations can be performed.

At this time, the silicone sealant introduced into the housing unit 100 is sealed in a sausage shape, and is a liquid product (one-component, two-component) that is cured by moisture in the air, and has easy workability, low extrusion force, and excellent adhesion. , it is desirable to be a low modulus sealant with permanent elasticity characteristics.

In addition, the silicone sealant discharged from the housing unit 100 may be applied to joint sealing of concrete, PVC, and Al chassis.

The size of the housing unit 100 is selectively provided according to the size of the silicone sealant and is provided to facilitate the sealing operation, and it is preferable that the size and material are not limited.

In addition, in the case of the housing groove 110 of the housing unit 100, a plurality of grooves are selectively formed on the inner surface according to a preset interval d.

The housing groove portion 110 is a line that is concave and long in the longitudinal direction from the inner surface of the housing unit 100, and provides a fitting groove into which the inserting portion 230 of the pushing unit 200 to be described later can be inserted and moved. .

The depth of the housing groove 110 is matched to the thickness of the inserting portion 230, and the width of the housing groove 110 is slightly wider than the width of the inserting portion 230, so that the pushing unit 200 can move smoothly. It serves as a movement path that enables linear motion.

A more detailed mechanism of the housing groove 110 and the inserting portion 230 will be described later.

In the case of the pushing unit 200, as shown in FIG. 6, it is provided inside the housing unit 100 and applies a predetermined pushing force to the silicone sealant as it is moved by an external force.

The pushing unit 200 is configured to press the silicone sealant while linearly reciprocating in the longitudinal direction of the housing unit 100 inside the housing unit 100 .

The predetermined pushing force referred to herein may be defined as a pressure that presses one side or the other side of the silicone sealant so that the silicone sealant is discharged from the housing unit 100 .

The pushing unit 200 is interlocked with an external power device, etc., so that it can move forward to one side or the other side of the housing unit 100 while receiving an external force by an operator.

For example, when a predetermined pushing force is applied to the silicone sealant by receiving power from the air gun in conjunction with a silicone air gun, the silicone sealant can be ejected through the nozzle unit 400 .

That is, by selectively adjusting the predetermined pushing force of the pushing unit 200, it is possible to selectively adjust the discharge amount, discharge strength, and discharge speed of the silicone sealant.

In the case of the pushing unit 200 of the bilateral silicone sealant housing system using the elastic rubber according to the present invention, the pushing body (unit 210), the cushion unit 220, and the inserting unit 230, a contact part 240, and a pushing hole part 250 are included.

In the case of the pushing body 210, a body for pressurizing the silicone sealant is formed, and a predetermined pushing force is provided from the silicone sealant while rectilinear reciprocating motion inside the housing unit 100 by an external force.

In the case of the cushion part 220, one side surface and the other side surface of the pushing body part 210 are formed convexly.

The cushion part 220 has a surface facing one end or the other end of the silicone sealant so that it is formed convexly.

For example, when the pushing unit 200 applies a predetermined pushing force to the silicone sealant, the internal pressure of the housing unit 100 increases and the load of the silicone sealant is transmitted to the cushion part 220 . At this time, as the cushion part 220 is formed in a convex arch shape, it is possible to distribute the load of the silicone sealant.

That is, since both sides of the cushion part 220 are formed convexly, even if one side or the other side of the silicone sealant is pressed, the pressure generated inside the housing unit 100 is dispersed to prevent the silicone sealant from being compressed unbalanced. be able to prevent

In the case of the inserting part 230, a plurality of protruding surfaces are selectively formed according to a preset distance d from the outer circumferential surface of the pushing body part 210.

The protruding surface of the inserting part 230 is inserted into the above-described housing groove 110, and the housing groove 110 allows the plurality of protruding surfaces of the inserting part 230 to be inserted into the plurality of grooves, so that the pushing unit ( 200) provides a path to move along the plurality of grooves.

That is, when the pushing unit 200 moves along the path provided by the housing groove 110, random rotation of the pushing unit 200 can be prevented.

For example, in the case of a conventional silicon housing system, such a groove does not exist, and the pushing unit 200 is formed finely smaller than the diameter of the housing unit 100, so that there is a gap between the housing unit 100 and the pushing unit 200. A minute gap exists so that the pushing unit 200 can move inside the housing unit 100 . However, in the conventional case, there is a problem that the pushing unit 200 may shift or rotate to one side while receiving an external force since there is a fine gap, or the silicone sealant packing material may be caught between the fine gaps.

However, in the present invention, since the housing groove 110 serves as a moving guide for the pushing unit 200, it moves only through the moving path of the pushing unit 200, preventing arbitrary rotation, and to either side. It is possible to prevent bias or the phenomenon of silicone sealant sticking in advance.

In addition, since it moves without being deflected along the path suggested by the housing groove 110, one end surface or the other end surface of the silicone sealant is evenly pressed so that the silicone sealant can be uniformly discharged.

In the case of the contact unit 240, it is concavely formed in a partial area of the cushion unit 220 to form a contact area to be pressed by an external force.

For example, the contact unit 240 is configured to directly receive an external force through contact with an air gun.

At this time, the contact portion 240 is formed in the central portion of the pushing body portion 210, so that the central portion of the silicone sealant can be pressed without an external force being biased to either side.

In the case of the pushing hole part 250, at least one hole passing through the pushing body part 210 is selectively provided.

As shown in FIG. 6 , the pushing hole part 250 allows four holes to be uniformly formed in the pushing body part 210 .

The pushing hole portion 250 is for evenly discharging internal air so that air is not sealed inside the housing unit 100 when the pushing unit 200 applies a predetermined pushing force by pressing the silicone sealant.

The pushing hole portion 250 has an advantage in that air can be discharged immediately even if air is filled inside due to the expansion of the silicone sealant according to the working environment or a pressure difference between the outside and the inside occurs due to pressurization of the silicone sealant.

In the case of the holding unit 300, as shown in FIG. 7, it is selectively mounted on both ends of the housing unit 100 so that the silicone sealant is selectively discharged and the pushing unit 200 moves selectively. am.

The holding unit 300 is selectively mounted on both ends of the housing unit 100 and is mounted on both ends or selectively fixedly mounted on one or the other end to hold equipment additionally mounted on the housing unit 100. to do it

The holding unit 300 is formed as a cylindrical opening and selectively covers a portion of the opening of the housing unit 100 .

As the holding unit 300 selectively covers a partial area, the pushing unit 200 moving inside the housing unit 100 is prevented from escaping to the outside.

In addition, the silicon sealant may be discharged from an area other than a part of the entire opening of the holding unit 300 .

In the case of the holding unit 300 of the bilateral silicone sealant housing system using the elastic rubber according to the present invention, as shown in FIGS. 7 and 8, the holding body 310, the holding cover A cover portion 320 and a holding connecting portion 330 are included.

In the case of the holding body 310, it forms a body to be fastened to both ends of the housing unit 100, and limits the movement of the pushing body 210 within a predetermined movement distance.

The predetermined movement distance referred to herein may be defined as a range in which the pushing unit 200 is movable inside the housing unit 100 .

The holding body portion 310 is inserted into the inner diameter of the housing unit 100 and connected to each other.

The holding cover part 320 is provided on the top of the holding body part 310 to form a space in which the nozzle unit 400 is inserted to fix the nozzle unit 400 .

The holding cover part 320 serves to hold and cover the inserted nozzle unit 400 at the same time.

In addition, in the case of the holding cover part 320, the first step 321 and the second step 322 having different diameters exist to form their own step, and according to the step, the first step 321 is It is connected to the holding body 310 and the nozzle joint 420 is inserted into the outer diameter of the second step 322 .

As the first step 321 and the second step 322 are formed, the extent to which the nozzle joint 420 is inserted can be limited.

In the case of the holding connecting part 330, one side is connected to the end of the housing unit 100 and the other side is connected to the holding body 310 to selectively connect the holding unit 300 and the housing unit 100. am.

The holding connecting part 330 interconnects the housing unit 100 and the holding unit 300 so that the connection is maintained even when the holding body part 310 is released from the end of the housing unit 100 .

As shown in FIG. 8 , the holding connecting portion 330 may be formed in a long ring type or wire type.

Due to the holding connecting portion 330, the holding unit 300 can solve the problem of being lost even if it is temporarily separated from the housing unit 100.

That is, it is possible to confirm that the holding unit 300 is opened (300b) or closed (300a) according to the holding connecting part 330.

In addition, the holding unit 300, as shown in FIG. 10, when the pushing unit 200 moves the housing unit 100 from one end 101a to the other end 101b to a predetermined movement distance, the housing unit ( The holding unit 300 mounted on the other end 101b of the housing unit 100 may be selectively mounted on one end 101a of the housing unit 100 .

As shown in FIG. 10, when the pushing unit 200 moves to a predetermined moving distance, after all of the silicone sealant existing inside the housing unit 100 is discharged, the pushing unit 200 moves the housing unit 100 It is temporarily stopped at the other end (101b) of. At this time, if the holding unit 300 is moved from the other end 101b of the housing unit 100 to one end 101a of the housing unit 100 and mounted, there is no need to return the pushing unit 200 to its original position. .

In the case of the nozzle unit 400, as shown in FIG. 9, it is selectively fixedly coupled to the holding unit 300 to provide a passage through which the silicone sealant receiving a predetermined pushing force from the pushing unit 200 is discharged to the outside. It is a composition that

The nozzle unit 400 is a passage through which the silicone sealant existing inside the housing unit 100 is discharged, and is formed to become narrower toward the outside from the holding unit 300 .

The nozzle unit 400 of the bilateral silicone sealant housing system using the elastic rubber according to the present invention includes a nozzle cap part 410 and a nozzle joint part 420.

In the case of the nozzle joint part 420, one side is fastened to the holding cover part 320 so that the nozzle unit 400 is selectively fixedly coupled.

The nozzle cap part 410 has a configuration having a discharge hole 411 through which the silicon sealant pressed by a predetermined pushing force from the pushing unit 200 is discharged to the outside.

One side of the nozzle cap part 410 is connected to the nozzle joint part 420, and the width is narrowed toward the discharge hole 411 from the nozzle joint part 420.

The size of the discharge hole 411 of the nozzle cap part 410 is preferably adjusted selectively according to the type of silicone sealant and the place where the silicone sealant is applied.

The scope of the rights of the present invention is determined by the matters described in the claims, and parentheses used in the claims are not written for selective limitation, but are used for clear components, and descriptions in parentheses are also interpreted as essential components. It should be.

100: housing unit
110: housing groove
200: pushing unit
210: pushing body
220: cushion part
230: inserting part
240: contact unit
250: pushing hole
300: holding unit
310: holding body
320: holding cover
330: holding connecting part
400: nozzle unit
410: nozzle cap part
420: nozzle joint part

Claims (10)

A housing unit formed with a hollow body therein to accommodate the sealed silicone sealant and having both ends symmetrically formed;
a pushing unit provided inside the housing unit and applying a predetermined pushing force to the silicone sealant as it is moved by an external force;
holding units selectively mounted on both ends of the housing unit to selectively discharge the silicone sealant and to selectively limit movement of the pushing unit; and
A nozzle unit selectively coupled to the holding unit to provide a passage through which the silicone sealant receiving the predetermined pushing force from the pushing unit is discharged to the outside,
The pushing unit,
A pushing body portion forming a body for pressurizing the silicone sealant and providing the predetermined pushing force from the silicone sealant while making a linear reciprocating motion inside the housing unit by the external force;
The pushing body part,
a cushion part having one side surface and the other side surface of the pushing body part convex to disperse the pressure generated inside the housing unit and prevent unbalanced compression of the silicone sealant; and
And an inserting portion that selectively forms a plurality of protruding surfaces according to a predetermined distance from the outer circumferential surface of the pushing body,
The pushing unit,
a contact portion concavely formed in a partial region of the cushion portion and formed in a central portion of the pushing body portion to press the central portion of the silicone sealant without an external force being biased to either side; and
A pushing hole portion penetrating the pushing body portion and providing four holes in the pushing body portion;
The pushing hole part,
When the pushing unit pressurizes the silicone sealant and applies a predetermined pushing force, air inside the housing unit is evenly discharged;
The housing unit,
And a housing groove portion in which a plurality of grooves are selectively formed according to the predetermined interval from the inner circumferential surface,
The housing groove part,
The plurality of protruding surfaces of the inserting portion are inserted into the plurality of grooves, so that the pushing unit provides a path to move along the plurality of grooves,
The holding unit,
a holding body portion forming a body fastened to both ends of the housing unit and limiting the movement of the pushing body portion within a predetermined movement distance;
a holding cover provided on an upper portion of the holding body to form a space into which the nozzle unit is inserted and to fix the nozzle unit; and
A holding connecting portion having one side connected to an end of the housing unit and the other side connected to the holding body portion to selectively connect the holding unit and the housing unit;
The holding connecting part,
Even if the holding body is released from the end of the housing unit, the connection is maintained,
It is possible to confirm that the holding unit is opened or closed from the housing unit,
The holding unit,
When the pushing unit moves from one end to the other end of the housing unit to the predetermined movement distance,
The bilateral silicone sealant housing system using elastic rubber, characterized in that the holding unit mounted on the other end of the housing unit is selectively mounted on one end of the housing unit.
delete delete delete delete delete delete delete The method of claim 1, wherein the nozzle unit,
One side is fastened to the holding cover part so that the nozzle unit is selectively coupled to the nozzle joint; and
The bilateral silicone sealant housing system using elastic rubber, characterized in that it comprises a nozzle cap having a discharge hole through which the silicone sealant pressed by a predetermined pushing force from the pushing unit is discharged to the outside.

delete