KR102129507B1 - Mast for Next Generation Warship Having Installing Structure for Integrated Sensor Structure - Google Patents

Abstract

According to the present invention, a mast for a next generation vessel including a structure for mounting an integrated sensor structure includes: a plurality of outer walls connected to each other to form a receiving space therein, having an opened mounting area in at least one thereof, and including a mounting part provided around the circumference of an inner diameter of the mounting area; and an integrated sensor structure including a sensor part that includes one or more sensors and a mounted part formed around the circumference of the sensor part to correspond to a position of the mounting part to be mounted on the mounting part. The mounting part includes a plurality of first fastening holes fastened to the mounted part through a fastening member. The mounted part includes a plurality of second fastening holes fastened to the first fastening holes through the fastening member. Therefore, the mast for a next generation vessel including the structure for mounting an integrated sensor structure is specialized to quickly and safely install the integrated sensor structure.

Description

Mast for Next Generation Warship Having Installing Structure for Integrated Sensor Structure}

The present invention relates to a mast for a next-generation trap, and more particularly, to a mast for a next-generation trap that can prevent damage in the installation process by allowing the integrated sensor structure to be safely and easily installed on the outer wall.

In general, a mast is installed on a ship, particularly a large ship, for installing electronic communication equipment such as a signal, navigation light, communication antenna, radar, and sensor.

These masts are essential to large ships because they play a key role in the search for enemy ships and aircraft, as well as basic information required for navigation through electronic communication equipment installed inside and outside the mast.

And for this purpose, the mast may be provided with various sensors, and conventionally, such a sensor is assembled to install an integrated sensor structure on the mast.

However, such a sensor structure has a weight of about 1.6 tons, and when it includes various fixtures, it is about 2 tons, which is very difficult to install by manpower.

Therefore, in the prior art, a method of installing the sensor structure by lifting the sensor structure using a crane or hoist was used, but such a crane or hoist is operated up and down and left and right within a narrow range that does not hit other instruments when mounting the sensor structure. There is a problem in that it requires a lot of work and requires a lot of work, so it takes a long time to install.

Therefore, a method for solving such problems is required.

Korean Patent Publication No. 10-2014-0137657

The present invention has been made to solve the above-mentioned problems of the prior art, and has an object to provide a mast for a next-generation trap including a special integrated sensor structure mounting structure so that the integrated sensor structure can be installed quickly and safely.

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

The next-generation trap mast including the integrated sensor structure mounting structure of the present invention for achieving the above object is connected to each other to form an accommodation space therein, and at least one or more open mounting areas are formed, and the mounting area An integration including a sensor portion including a plurality of outer walls and at least one sensor including a mounting portion provided along an inner circumference of the sensor, and a mounting portion formed along the periphery of the sensor portion so as to be mounted on the mounting portion corresponding to the position of the mounting portion It includes a sensor structure, the mounting portion includes a plurality of first fastening holes fastened through the fastening member and the mounting portion, the mounting portion is a plurality of second fastening fastened through the fastening member and the first fastening hole Includes hall.

In this case, the mounting portion includes a guide pin protruding in the direction of the mounting portion, and the mounting portion may include a guide hole into which the guide pin is inserted.

In addition, the mounting portion and the mounted portion are formed in a line-symmetrical form with respect to the center line in the vertical direction, and the guide pin is positioned between any pair of first fastening holes adjacent to each other, a pair of each other to determine the center point of the mounting portion It is provided in a position that is pre-symmetrical as a reference, and the guide hole is provided in a position that is pre-symmetrical with respect to the center point of the mounting part to each other so as to correspond to the position of the guide pin, and the mounting part is formed to surround the sensor part. The second fastening hole and the mounting flange in which the guide hole is formed and a reinforcing rib provided in the mounting flange to increase the reinforcing force of the mounting flange, wherein the guide pin is fixed to the mounting portion, the It is connected rotatably up and down to the front end of the fixing portion, is formed to be fixed at a predetermined angle relative to the fixing portion, is formed to have elasticity, a guide portion inserted into the guide hole, and is provided on the upper portion of the guide portion An elastic part formed to support the upper portion of the guide hole, provided inside the elastic part, a load cell for measuring the degree of deformation of the elastic part and selectively detachable, spaced apart in a line symmetrical form based on a center line in the vertical direction It is provided radially in the downward direction of the guide portion and the fixing portion and includes a pair of supporting members supporting the load applied to the guide portion and the fixing portion in a state where the guide portion and the fixing portion are in a straight line In the process of mounting the integrated sensor structure, the guide part is supported by the support member while being rotated to form a straight line with the fixing part, and the guide part is inserted into the guide hole so that the mounted part is seated on the mounting part After that, the support member may be separated and the guide pin may be rotated downward with respect to the fixing portion to remove the load applied to the guide portion, and the guide pin may be formed to be separated from the mounting portion.

The next-generation trap mast including the structure for mounting the integrated sensor structure of the present invention for solving the above problems has an advantage of being able to quickly and easily install the integrated sensor structure of a trend that becomes increasingly large in order to increase the survivability of the trap.

In addition, according to an embodiment of the present invention, the installation position can be easily aligned using a guide pin and a guide hole in the installation process of the integrated sensor structure, thus minimizing manpower and reducing damage to the mast during the installation of the integrated sensor structure. There is an advantage that can be mounted.

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

1 is a next-generation trap mast according to the first embodiment of the present invention, showing a process of installing the integrated sensor structure on the outer wall;
2 is a view showing a state of the mounting portion in the next-generation trap mast according to the first embodiment of the present invention;
3 is a view showing a state in which the mounted portion is mounted on the mounting portion in the next-generation trap mast according to the first embodiment of the present invention;
4 and 5 are views showing a state of a guide pin in a next-generation trap mast according to a second embodiment of the present invention; And
6 is a view showing a state of the guide pin in the next-generation trap mast according to the third embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention, in which the object of the present invention can be specifically realized, will be described with reference to the accompanying drawings. In describing the present embodiment, the same name and the same code are used for the same configuration, and additional description will be omitted.

1 is a view illustrating a process of installing the integrated sensor structure 100 on the outer wall 12 as a mast 10 for the next generation trap according to the first embodiment of the present invention.

And Figure 2 is a view showing a state of the mounting portion 30 in the next-generation trap mast 10 according to the first embodiment of the present invention, Figure 3 is a next-generation trap mast 10 according to the first embodiment of the present invention ), is a view showing a state in which the mounted portion 120 is seated on the mounting portion 30.

1 to 3, the present invention is a mast 10 mounted on a next-generation trap, and includes a plurality of outer walls 12 and an integrated sensor structure 100.

A plurality of outer walls 12 are connected to each other to form an accommodation space therein, and at least one or more are formed with an open mounting area 20 formed along an inner circumference of the mounting area 20. 30).

And the integrated sensor structure 100 is a sensor unit 110 including one or more sensors, and corresponding to the position of the mounting unit 30 along the periphery of the sensor unit 110 to be mounted on the mounting unit 30 It includes a formed mounting portion 120.

At this time, the mounting portion 30 includes a plurality of first fastening holes 32 fastened through the fastening member and the mounting portion 120, and the fastening holes 120 are fastened with the first fastening hole 32 It includes a plurality of second fastening holes 122 fastened through the member.

That is, as the mounting parts 30 and the mounting parts 120 corresponding to each other are fastened by a fastening member, the integrated sensor structure 100 may be installed in the mounting area 20.

And the mounting portion 30 further includes a guide pin 34 protruding in the direction of the mounting portion 120, and the mounting portion 120 includes a guide hole 123 into which the guide pin 34 is inserted. do.

Accordingly, the present embodiment can easily align the installation position using the guide pin 34 and the guide hole 123 in the installation process of the integrated sensor structure 100, so it takes manpower in the installation process of the integrated sensor structure. And minimized damage to the mast.

And in this embodiment, the mounting portion 30 is formed to surround the sensor portion 110, the second fastening hole 122 and the mounting hole 121 formed with the guide hole 123, and the mounting flange In order to increase the reinforcing force of 121, a reinforcing rib 124 provided in the mounting flange 121 may be further included.

In addition, more specifically, in the case of the present embodiment, the mounting portion 30 and the mounted portion 120 are formed in a line symmetrical form based on the center line in the vertical direction.

At this time, the guide pin 34 is positioned between any pair of first fastening holes 122 adjacent to each other, and a pair is provided at a position that is pre-symmetrical with respect to the center point of the mounting portion 30 to each other.

Likewise, the guide hole 123 may be provided at a position in which a pair of lines are symmetrical with respect to the center point of the mounting portion 120 so that the pair corresponds to the position of the guide pin 34.

That is, in the present embodiment, since a pair of guide pins 34 and a pair of guide holes 123 are provided at positions that are symmetrical to each other, the mounting portion 30 is stably fixed to the mounting portion 120 even with only a pair. You can try to keep it.

Hereinafter, other embodiments of the present invention will be described.

4 and 5 are views showing a state of the guide pin 34 in the next-generation trap mast according to the second embodiment of the present invention.

In the case of the second embodiment of the present invention shown in FIGS. 4 and 5, a support member 35 for supporting the guide pin 34 is further provided.

The support member 35 may be formed to be selectively detachable, a pair of spaced apart in a line-symmetrical form with respect to the center line of the vertical direction of the guide pin 34, the radially provided in the lower direction Have

The support member 35 is formed to gradually increase in the protruding length from front to rear, thereby providing a bona and stable support, while minimizing weight.

In addition, for detachment of the support member 35, an insertion hole into which the support member 35 is inserted may be formed in the mounting portion 120 and the mounting portion 30.

6 is a view showing the state of the guide pin 34 in the mast 10 for the next generation trap according to the third embodiment of the present invention.

In the case of the second embodiment of the present invention shown in FIG. 6, the guide pin 34 includes a fixing part 34b, a guide part 34a, an elastic part 36, and a load cell 37 Have

The fixing portion 34b is a component fixed to the mounting portion 30 of the mast 10, and the guide portion 34a is rotatably connected to the front end of the fixing portion 34b. It is formed to be fixed at a predetermined angle with respect to (34b), it is a component that protrudes to be inserted into the guide hole 123 of the mounting portion 120.

In addition, the elastic portion 36 is made of a material having elasticity, and is formed on the upper portion of the guide portion 34a to support the upper portion of the guide hole 34a. That is, the elastic portion 36 is elastically deformed in the process of supporting the weight of the guide pin 34 of the integrated sensor structure 100, and may serve to minimize damage.

The load cell 37 is provided inside the elastic portion 36, and measures the degree of deformation of the elastic portion 37. The load cell 37 may sense the degree of deformation of the elastic part 37 to determine how much load is applied to the guide pin 34, and for this purpose, the load cell 37 is external It is formed so as to be able to communicate with the control unit provided in can transmit the measured value.

Therefore, the worker can more easily proceed with the installation process of the integrated sensor structure 100 through the measured value of the load cell 37.

On the other hand, although not shown, this embodiment may also be additionally provided with the supporting member 35 of the above-described second embodiment.

In this case, the support member 35 supports the load applied to the guide portion 34a and the fixing portion 34b while the guide portion 34a and the fixing portion 34b are in a straight line. Can.

The process of mounting the integrated sensor structure 100 in this embodiment is as follows.

First, the guide portion 34a is fixed in a rotated state to form a straight line with the fixing portion 34b, and then supported by the support member 35.

Then, after lifting the integrated sensor structure 100 using a crane or a hoist, the guide portion 34a is inserted into the guide hole 123 so that the mounted portion 120 is attached to the mounting portion 30. To be seated, a plurality of first fastening holes 32 and a plurality of second fastening holes 122 are fastened to each other with fastening members.

Thereafter, the support member 35 is separated and the guide portion 34a is rotated downward with respect to the fixing portion 34b to remove the load applied to the guide portion 34a.

In this state, by separating the guide pin 34 from the mounting portion 30 and removing the protruding structure, an error does not occur in the operation of the sensor provided in the integrated sensor structure 100.

As described above, a preferred embodiment according to the present invention has been examined, and the fact that the present invention can be embodied in other specific forms without departing from the spirit or scope of the embodiment described above has ordinary skill in the art. It is obvious to them. Therefore, the above-described embodiments should be regarded as illustrative rather than restrictive, and accordingly, the present invention is not limited to the above description and may be changed within the scope of the appended claims and their equivalents.

10: mast
12: outer wall
20: mounting area
30: mounting
32: No. 1 fastening hole
34: guide pin
100: integrated sensor structure
110: sensor unit
120: mounting portion
121: mounting flange
122: 2nd conclusion hall
123: guide hole
124: reinforcement rib

Claims (3)

In the mast mounted on the next-generation trap,
A plurality of outer walls connected to each other to form an accommodating space therein, at least one or more of which are formed with an open mounting area and are provided along an inner circumference of the mounting area; And
An integrated sensor structure including a sensor unit including one or more sensors and a mounting unit formed along the periphery of the sensor unit to be mounted on the mounting unit in correspondence with the position of the mounting unit;
It includes,
The mounting portion includes a plurality of first fastening holes fastened through the fastening member and the mounting portion, and the mounting portion includes a plurality of second fastening holes fastened through the first fastening hole and the fastening member,
The mounting portion includes a guide pin protruding in the direction to be mounted,
The mounting portion includes a guide hole into which the guide pin is inserted,
The mounting portion and the mounted portion are formed in a line symmetrical form with respect to the center line in the vertical direction,
The guide pin is positioned between any pair of first fastening holes adjacent to each other, and the pair is provided at positions where the pair is pre-symmetrical with respect to the center point of the mounting portion,
The guide hole is provided at a position where a pair of each other is pre-symmetrical with respect to the center point of the mounting portion to correspond to the position of the guide pin
The mounting portion,
It is formed to surround the sensor portion, but includes a mounting flange formed with the second fastening hole and the guide hole, and a reinforcing rib provided in the mounting flange to increase the reinforcing force of the mounting flange,
The guide pin,
A fixing part fixed to the mounting part;
A guide portion rotatably connected to the front end of the fixing portion, formed to be fixed at a predetermined angle with respect to the fixing portion, and inserted into the guide hole;
An elastic portion formed to have elasticity and provided on an upper portion of the guide portion to support an upper portion of the guide hole;
A load cell provided inside the elastic portion and measuring a degree of deformation of the elastic portion; And
It is formed to be selectively detachable, spaced apart in a line-symmetrical form with respect to the center line in the vertical direction, and provided radially in the downward direction of the guide portion and the fixing portion, in the state where the guide portion and the fixing portion form a straight line. A pair of support members supporting a load applied to the guide portion and the fixing portion;
Including,
In the process of mounting the integrated sensor structure, the guide part is supported by the support member while being rotated to form a straight line with the fixing part, and after the guide part is inserted into the guide hole, the mounted part is seated on the mounting part , It is formed to separate the support member and the guide pin is rotated downward relative to the fixing portion to remove the guide pin from the mounting portion in a state to remove the load applied to the guide portion,
Next-generation trap mast that includes an integrated sensor structure mounting structure. delete delete

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