KR102390833B1 - Mastic coating apparatus - Google Patents

Abstract

Mastic application apparatus according to an embodiment of the present invention, a head unit connected to the application gun for applying an adhesive to the insulating panel of the membranous tank; an operation part for supporting the three-axis movement of the head part; and a body part provided with the head part and the operation part, the length of which is formed so that one of the heat insulation panels approaches the front, and wheels are provided to enable movement.

Description

Mastic coating apparatus

The present invention relates to a mastic applicator.

In general, a liquefied natural gas carrier is equipped with a tank capable of storing liquefied natural gas for storage and transportation of liquefied natural gas (LNG), which is a cryogenic liquid with a boiling point of minus 162°C. The inner wall of the LNG storage tank is provided with an insulation system manufactured using materials that can withstand ultra-low temperatures and insulation materials that can prevent heat intrusion so that liquefied natural gas can be stored.

In other words, the Membrane LNG Ship, which is a ship that stores and transports LNG (Liquified Natural Gas), exhibits brittleness of the steel, the main material of the ship, due to the low temperature of LNG. In order to prevent problems such as occurrence or breakage, the tank in which LNG is stored is insulated with insulation panels to ensure reliable insulation.

However, the installation of the tank insulation panel requires separation and reinstallation due to a change in the work area, etc., because two-stage large fixed mastic equipment is used. However, improvement is required as it may create a bottleneck in the operation.

The present invention was created to improve the prior art, and an object of the present invention is to provide a movable small equipment, thereby preventing a work loss due to separation and reinstallation of equipment that occurs due to the need to have a large equipment, so that efficient operation is possible. It is intended to provide a possible mastic application device.

Mastic application apparatus according to an embodiment of the present invention, a head unit connected to the application gun for applying an adhesive to the insulating panel of the membranous tank; an operation part for supporting the three-axis movement of the head part; and a body part provided with the head part and the operation part, the length of which is formed so that one of the heat insulation panels approaches the front, and wheels are provided to enable movement.

Specifically, the body portion may include: a wing member having one end rotatably connected and the other end formed as a free end to be foldable; and a stopper provided at the lower end of the wing member and spaced apart from the support surface through length adjustment to allow rotation of the wing member or to prevent movement of the wing member by contacting the support surface.

Specifically, two or more sensors to detect the position of the insulation panel; And it may further include a control unit for controlling the three-axis movement of the operation unit in response to the position of the insulation panel sensed by the sensor.

Specifically, a vision camera for taking an image to detect the position of the insulation panel; And it may further include a control unit for controlling the three-axis movement of the operation unit to correspond to the contour of the insulation panel through the image projected from the vision camera.

Specifically, the head portion is provided horizontally; a base member on which the bar is provided; a vertical member provided perpendicular to one side of the bar; and a connecting member provided on the vertical member and connected to the application gun, wherein the operation unit includes: a first rack gear that guides a first axial movement of the head unit and is provided on the body unit along a longitudinal direction of the body unit; a first pinion gear engaged with the first rack gear and provided on a lower surface of the base member; a second pinion gear provided on the upper surface of the base member; a second rack gear engaged with the second pinion gear to guide a second axis movement of the head part and provided on the bar; a third rack gear provided on the vertical member and guiding a third axis movement of the head part; and a third pinion gear engaged with the third rack gear and connected to the connecting member.

Specifically, it may further include an auxiliary support that extends upwardly from the body portion and has a curved shape toward the head portion to support the application line extending from the application gun.

Specifically, spaced apart from or approaching the body portion, and further comprising a cart including a coupling member, the body portion, the coupling member is fitted may further include a clamp for fixing the cart.

The mastic application device according to the present invention is composed of a movable and small mastic application device, so that an adhesive can be easily applied to the insulating panel of the membranous tank, thereby shortening the production period of the cargo hold.

1 is a perspective view showing a mastic application device according to an embodiment of the present invention.
2 is a plan view showing a folded state of the wing member in the mastic application device according to an embodiment of the present invention.
3 is a view showing a mastic application device and a cart according to an embodiment of the present invention.
4 is a view for explaining the coupling of the mastic application device and the bogie according to an embodiment of the present invention.
5 is a view showing a mastic application device and a transportation means according to an embodiment of the present invention.
6 is a plan view illustrating a conceptual diagram illustrating a first pinion gear and a first rack gear of the mastic application device according to an embodiment of the present invention.
7 is a front view illustrating a conceptual diagram illustrating the first and second pinion gears and the first and second rack gears of the mastic application device according to an embodiment of the present invention.
8 is a side view illustrating a posture adjusting device according to another embodiment of the present invention.
9 is a front view showing a posture adjusting device according to another embodiment of the present invention.
10 is a view illustrating a state in which the height of the body portion is lowered compared to FIG. 9 .
11 is a view showing a state in which the inclined insulation panel is operated by the posture adjusting device according to another embodiment of the present invention.

The objects, specific advantages and novel features of the present invention will become more apparent from the following detailed description and preferred embodiments taken in conjunction with the accompanying drawings. In the present specification, in adding reference numbers to the components of each drawing, it should be noted that only the same components are given the same number as possible even though they are indicated on different drawings. In addition, in describing the present invention, if it is determined that a detailed description of a related known technology may unnecessarily obscure the gist of the present invention, the detailed description thereof will be omitted.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Figure 1 is a perspective view showing a mastic application device according to an embodiment of the present invention, Figure 2 is a plan view showing a folded state of the wing member in the mastic application device according to an embodiment of the present invention, Figure 3 is this view It is a view showing a mastic application device and a cart according to an embodiment of the present invention.

And Figure 4 is a view for explaining the coupling of the mastic application device and the bogie according to an embodiment of the present invention, Figure 5 is a view showing the mastic application device and the transportation means according to an embodiment of the present invention, Fig. 6 is a plan view illustrating a conceptual diagram illustrating the first pinion gear and the first rack gear of the mastic application device according to an embodiment of the present invention, and FIG. 7 is a first view of the mastic application device according to an embodiment of the present invention. , It is a front view showing a conceptual diagram for explaining the 2 pinion gears and the first and second rack gears.

1 to 7 , the mastic application device 100 according to an embodiment of the present invention includes a head 110 , an operating unit 120 , a body 130 , an auxiliary support 140 , and a control unit. (not shown), including the bogie 151, can be used when manufacturing a membranous tank (cargo hold) by using an 8-story scaffolding pole provided when a ship is built.

Here, the mastic application device 100 according to the present embodiment transfers the insulation panel (IP) of the membranous tank while moving the scaffolding pawl of three or more floors through an internal elevator that can be raised and lowered in the scaffolding pavilion. It can reduce the production time by avoiding the work bottleneck of large fixed mastic equipment.

The head unit 110 may be connected to an application gun (not shown) for applying an adhesive to the insulation panel (IP) of the membranous tank, and may be moved up and down and left and right by the operation unit 120 . For example, the head 110 may include a bar 111 , a base member 112 , a vertical member 113 , and a connecting member 114 .

The bar 111 may be provided in pairs and may be moved on the base member 112 by the second pinion gear 123 and the second rack gear 124 of the operation unit 120 to be described later. A second rack gear 124 may be provided on a surface of the pair of bars 111 facing the base member 112 . In addition, in order to stably connect the pair of bars 111, a horizontal plate 111A may be provided.

The base member 112 is provided such that a pair of bars 111 are movable by the second pinion gear 123 and the second rack gear 124 , and the second pinion gear 123 is disposed on the base member 112 . ) is provided, and the second rack gear 124 is engaged with the second pinion gear 123 .

The vertical member 113 may have a plate structure and may be vertically connected to one side of the pair of bars 111 , and the vertical member 114 may be vertically moved with respect to the vertical member 113 based on the vertical member ( A third rack gear 125 may be provided at 113 .

The connecting member 114 may be used as a nozzle of the application gun as a configuration to which the application gun is connected, and may have a structure in which the adhesive is discharged downward on the vertical member 113, The third pinion gear 126 and the third rack gear 125 can vertically move, and for this purpose, the connecting member 114 may be connected to the third pinion gear 126 .

The operation unit 120 supports the three-axis movement of the head unit 110 , for example, the operation unit 120 includes the first rack gear 121 , the first pinion gear 122 , and the second pinion gear. 123 , a second rack gear 124 , a third rack gear 125 , and a third pinion gear 126 may be included.

The first rack gear 121 guides the first axial movement of the head 110 (which may be the longitudinal movement of the body 130 ) and extends along the longitudinal direction of the body 130 . It may be provided in pairs.

The first pinion gear 122 is engaged with the first rack gear 121 and may be provided on a lower surface of the base member 112 , and the first pinion gear 122 may be disposed on the body 130 along the longitudinal direction of the first rack gear 121 . A first axial movement of the member 112 may be formed.

The second pinion gear 123 may be provided on the upper surface of the base member 112 .

The second rack gear 124 is engaged with the second pinion gear 123 to guide the second axial movement of the head unit 110 (which may be a direction orthogonal to the longitudinal direction of the body unit 130). The pair of bars 111 may be provided, and the pair of bars 111 may be formed on the base member 112 to be second axially movable along the longitudinal direction of the second rack gear 124 .

The third rack gear 125 is provided on the vertical member 113 and moves the third axis of the head part 110 (it may be a vertical direction perpendicular to the horizontally provided body part 130 ). can guide you.

The third pinion gear 126 may be engaged with the third rack gear 125 and may be connected to the connecting member 114 to form a third axial movement with respect to the connecting member 114 on the vertical member 113 . there is.

The operation unit 120 is each gear operated by the meshing of the first, second, and third pinion gears 122, 123, and 126 with respect to the first, second, and third rack gears 121, 124, and 125. The three-axis movement of the head unit 110 may be formed, but the present invention is not limited thereto. For example, a ball screw may be provided by replacing the third rack gear 125 and the third pinion gear 126 . Variations are possible.

In addition, the operation unit 120 includes a limited sensor and a stopper (body portion to be described later) on the first, second, and third rack gears 121, 124, 125 or the first, second, and third pinion gears 122, 123, and 126, respectively. Distinct from the stopper 133 of 130 and provided to prevent separation), the first, second, and third rack gears 121 , 124 , 125 and the first , 2, 3 It is possible to prevent the engagement of the pinion gears 122, 123, and 126 from being separated.

The body portion 130 is provided with a head portion 110 and an operation portion 120, the length is formed so that one heat insulation panel (IP) approaches the front, and wheels 131 are provided to enable movement. , it may include a wing member 132 , a stopper 133 , a clamp 134 , and a bumper 135 .

The wing member 132 is a configuration for stably fixing the body part 130, and one end is rotatably connected and the other end is a free end, so that the body part 130 is foldable so that the body part 130 can be boarded in the elevator. For example, it may be formed in the form of a polygonal frame (square, triangle, etc.), and may be provided in each of the left and right and front and back sides of the body 130, and four may be provided.

The stopper 133 is provided at the lower end of the wing member 132 and is spaced apart from the support surface (floor, etc.) through length adjustment to allow rotation of the wing member 132 or to contact the support surface to allow the wing member 132 to rotate. can be prevented from moving, for example, the stopper 133 is coupled to the wing member 132 in a screw-coupled manner so that the protrusion length of the stopper 133 can be adjusted according to the rotation of the screw direction.

The clamp 134 is, as shown in Fig. 4 (Fig. 4a is a state in which the bogie 151 is spaced apart from the clamp 134, Fig. 4b is a state in which the bogie 151 is coupled to the clamp 134), the bogie As a configuration for fixing the 151 , the coupling member 151A may be inserted to fix the bogie 151 . Accordingly, the clamp 134 may be omitted when the bogie 151 is not provided.

The bumper 135 is provided at any one end of the body 130 and guides the edge of the insulation panel IP moved by the transportation means 152 such as a forklift to set and fix the position of the insulation panel IP. there is. For example, the bumper 135 may be formed in a bent shape so that the corner of the insulating panel IP can be inserted, and thus may have a structure like a 'L'.

The auxiliary support 140 may extend upward from the body 130 and has a curved shape toward the head 110 to support a supply line (not shown) of the coating solution extending from the application gun. can

For example, the auxiliary support 140 may form a bent or extended form within a 'L' shape or a similar range, so that a vertical bar or a horizontal bar or a horizontal bar is bent or bent. can

The control unit detects the position of the insulating panel (IP), for example, in response to the position and separation distance of the insulating panel (IP) sensed from the sensor 160 or a vision camera (not shown) of the operation unit 120 of 3-axis movement can be controlled.

Here, the sensor 160 and the vision camera detect the position of the insulation panel (IP) in the same/similar manner and control the 3-axis movement of the operation unit 120 so that the application gun faces the insulation panel (IP) to be worked in response thereto. can

However, as for the sensor 160, two or more, preferably, three first, second, and third sensors 160 are provided to detect the position of the insulating panel IP, for example, the first sensor 160 is It is provided adjacent to the upper direction of the part 130 and the second and third sensors 160 are provided on the same height as each other in the lower direction of the body part 130 compared to the first sensor 160, the X-axis and the Y It is possible to detect the position of the insulation panel (IP) with respect to the axial coordinate direction (which may be a secondary coordinate in the horizontal direction), and it can also detect the Z-axis direction (which may be a vertical coordinate), and three sensors ( 160) to detect the position of the insulation panel (IP) can be made according to a known mechanism, so a detailed description will be omitted.

On the other hand, one vision camera is provided and can detect the position and separation distance of the insulation panel (IP) through the captured image. The three-axis movement of 120 may be controlled by the control unit.

The bogie 151 is a configuration for moving and supporting the insulation panel IP so that the insulation panel IP is brought close to the body portion 130 so that an adhesive application operation is performed, and a separate wheel (not shown), etc. It may include a coupling member (151A) spaced apart from or approaching the body portion 130 and coupled to the aforementioned clamp 134 . Here, the coupling member 151A may be formed of a protruding structure protruding toward the clamp 134 , but is not limited thereto.

In addition, the bogie 151 is not provided separately, and the insulation panel IP may be transported and supported by a transportation means 152 such as a forklift, and in this case, the insulation panel IP moved through the bogie is the body part ( The position may be fixed in contact with the bumper 135 provided on the 130 .

As described above, the present embodiment is made of a movable small mastic application equipment so that an adhesive can be easily applied to the insulation panel (IP) of the membranous tank, thereby shortening the production period of the cargo hold.

8 and 9 are views showing a mastic application apparatus according to another embodiment of the present invention, FIG. 10 is a view showing a state in which the height of the body part is lowered compared to FIG. 9, and FIG. It is a view showing a state in which the inclined insulation panel is operated by the mastic application device according to another embodiment.

8 to 11 , the mastic application device 200 according to another embodiment of the present invention includes a main body 210 and an adjustment unit 220, and if the work tool 290 does not form a multi-joint The equipment can be simplified as it can be moved while being horizontally opposed to the inclined insulation panel (IP).

Specifically, the main body 210 may form the appearance of the mastic application device 200, and the adjustment unit 220 is installed so that the height and inclination angle from the ground (floor) can be adjusted by the adjustment unit 220 . A work tool 290 for applying an adhesive to the insulating panel (IP) of the membranous tank may be connected.

For example, the body 210 may have a frame structure to reduce the weight of its own load, and various structures are possible as it may have a box-shaped structure.

And the working tool 290 may be disposed on the front of the main body 210 so that a liquid adhesive application operation can be made on the insulating panel (IP), which is a work target to be arranged in front of the main body 210 , A dispenser (not shown) in which the adhesive is accommodated may be stored or provided together to supply the adhesive to the working tool 290 inside and outside.

In particular, the work tool 290 according to the present embodiment may be made of an application gun as mentioned in one embodiment. Unlike the prior art, the work tool 290 does not need to be bent through a joint structure, so the structure can be simplified, that is, the inclination angle of the body 210 can be adjusted by the cam 222, so that the horizontality of the working tool 290 with respect to the insulating panel IP can be achieved, and a movement trajectory can be formed.

Furthermore, the work tool 290 does not have multiple joints, and the vertical movement of the work tool 290 is also not formed. Since the height can be adjusted, the work tool 290 can only achieve horizontal movement with respect to the insulating panel IP.

The work tool 290 may be implemented, for example, by horizontal movement through a gear structure. A rack gear 211 is provided on the main body 210 and a pinion gear 212 engaged with the rack gear 211 works. It may be provided in the tool 290, but is not limited thereto, and various deformations such as horizontal movement of the work tool 290 can be implemented through a structure through a rail (not shown) and a roller (not shown) Yes it is possible

Meanwhile, in this embodiment, since the multi-joint structure is not employed for the simplification of the work tool 290, vertical movement of the work tool 290 with respect to the main body 210 is also possible, and according to the aforementioned embodiment, 3-axis movement (X, Y, Z-axis movement_ of the mastic application device 100) may also be possible.

The three-axis movement is a movement such as forward, backward, left and right, and up and down, which can be made in combination with the mastic application device 100 according to the above-mentioned embodiment, which can be implemented by adopting the above-mentioned structure in the same / similar manner. Therefore, redundant descriptions will be omitted.

In addition, Figure 11 is shown as a conceptual diagram for the convenience of understanding of the description, and shows a state in which the insulation panel (IP) is disposed in the lower part in preparation for the floor surface, but the insulation panel (IP) is provided on the upper part of the floor surface. Of course, the work tool 290 may have a length (replacement, etc. are possible) or be formed in response to the location (height) of the insulating panel (IP), or the like, or the height may be adjusted.

The adjustment unit 220, the body 210 through the height adjustment and the inclination angle adjustment of the main body 290, the main body so that the movement trajectory is generated horizontally with respect to the cross section (work section) of the insulating panel (IP) of the work object (IP) The position of the 210 is adjusted, and the adjustment unit 220 includes a connection unit 221 , a cam unit 222 , and a motor 223 .

The connection part 221 is a configuration connected to the main body 210, and may be formed of, for example, a bracket, but is not limited thereto.

The cam part 222 is connected to the main body 210 by the connection part 221, and the shaft 222B to which the connection part 221 is connected so that the distance between the shortest end of the cam part 222 and the main body 210 is adjusted according to the rotation. This is arranged eccentrically.

Here, the cam unit 222 includes a plurality of cams 222A, but the rotation angle of the cams 222A is individually made or the same, so that the horizontality of the main body 210 with respect to the working section can be adjusted.

For example, a plurality of cams 222A are provided in one or more on each of the left and right sides of the main body 210, and may be provided in pairs on each of the left or right sides of the main body 210, in other words, the cams 222A are, Referring to FIGS. 8 and 9 , it is shown that one is provided on each left and right, but this is an example for convenience and understanding of the description, and cams 222A are located on each of the left and right sides of the main body 210 with reference to FIG. 9 . Various modifications are possible as provided in pairs to stably support the main body 210 .

And when the cams 222A are provided in pairs on each of the left and right sides of the main body 210, the pair of cams 222A may have the same rotation angle, but is not limited thereto, and a plurality of cams 222A. Numerous variations are possible as each may be individually rotated. However, when the cams 222A are rotated in pairs, the cams 222A having the same rotation may be operated by sharing one motor.

The motor 223 is connected to the shaft 222B of the cam part 222 to drive the cam part 222, and a sensor/vision camera (not shown) that detects the position and angle of the insulating panel (IP), etc. The cam unit 222 may be operated so that the work tool 290 is disposed in response to the inclination angle of the insulation panel detected through the .

On the other hand, unlike the motor 223, a screw (not shown) is provided, the screw is interlocked with the shaft 222B of the cam part 222, and the operator rotates the handle formed on the screw to operate the rotation of the cam part 222, Various modifications are possible as the operation can be made by driving the shaft 222B connected to the cam part 222 and a gear meshing therewith.

As described above, in the present embodiment, the work tool 290 can be moved while being horizontal with respect to the heat insulating panel (IP), which is a work object, without being made of a multi-joint shaft, so that the manufacturing cost can be reduced.

Although the present invention has been described in detail through specific examples, this is for the purpose of describing the present invention in detail, and the present invention is not limited thereto. It will be clear that the transformation or improvement is possible.

All simple modifications or changes of the present invention fall within the scope of the present invention, and the specific scope of protection of the present invention will be made clear by the appended claims.

100: mastic application device 110: head unit
111: bar 112: base portion
113: vertical member 114: connecting member
120: operation unit 121: first rack gear
122: first pinion gear 123: second pinion gear
124: second rack gear 125: third rack gear
126: third pinion gear 130: body portion
131: wheel 132: wing member
133: stopper 134: clamp
135: bumper 140: auxiliary support
151: bogie 152: means of transport
160: sensor
290: work tool 200: mastic applicator
210: body 211: rack gear
212: pinion gear 220: control unit
221: connection part 222: cam part
222A: cam 222B: shaft
223: motor

Claims (7)

A head unit connected to an application gun for applying an adhesive to one surface of the insulating panel for adhesive installation on the inner wall of the membranous tank;
an operation part supporting the three-axis movement of the head part; and
The head part and the operation part are provided, the length is formed so that one of the insulation panels approaches the front, and it includes a body part on which wheels are provided so as to be movable,
The body part,
A clamp for fixing the insulation panel to a position where an adhesive application operation is possible by coupling a coupling member provided on a bogie for moving and supporting the insulation panel, and when the insulation panel is moved to approach the body portion of the insulation panel A mastic applicator, characterized in that it has a bumper for guiding the edges. According to claim 1, wherein the body portion,
a wing member having one end rotatably connected and the other end being a free end so as to be foldable; and
Mastic application device provided at the lower end of the wing member and spaced apart from the support surface through length adjustment to allow rotation of the wing member or to include a stopper to prevent movement of the wing member by contacting the support surface . According to claim 1,
two or more sensors to detect the position of the insulation panel; and
Mastic application device, characterized in that it further comprises a control unit for controlling the three-axis movement of the operation unit in response to the position of the insulation panel sensed by the sensor. According to claim 1,
a vision camera that takes an image to detect the position of the insulation panel; and
Mastic application device, characterized in that it further comprises a control unit for controlling the three-axis movement of the operation unit in response to the contour of the insulation panel through the image shot from the vision camera. According to claim 1,
The head part,
a horizontal bar;
a base member on which the bar is provided;
a vertical member provided perpendicular to one side of the bar; and
It is provided on the vertical member and includes a connecting member to which the application gun is connected,
The operation unit,
a first rack gear for guiding a first axial movement of the head part and provided on the body part along a longitudinal direction of the body part;
a first pinion gear engaged with the first rack gear and provided on a lower surface of the base member;
a second pinion gear provided on the upper surface of the base member;
a second rack gear engaged with the second pinion gear to guide a second axis movement of the head part and provided on the bar;
a third rack gear provided on the vertical member and configured to guide a third axis movement of the head part; and
and a third pinion gear engaged with the third rack gear and connected to the connecting member. According to claim 1,
The mastic applicator further comprising an auxiliary support extending upward from the body part and having a curved shape toward the head part to support a supply line of the coating solution extending from the application gun. delete

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