KR102199916B1 - Constructing Jig - Google Patents

Abstract

Disclosed is a construction jig capable of increasing productivity by reducing setting time. According to an embodiment of the present invention, a construction jig comprises: first and second jig units which are spaced apart from each other on a base frame supported on the ground and work for manufacturing the basic frame of a house therebetween; a fixing unit for supporting the first jig unit but provided to be fixedly positioned on the base frame; and a movable unit for supporting a unit which supports the second jig unit, and is movably disposed on the base frame so that the second jig unit can move along the X-axis direction approaching the first jig unit or the Y-axis direction intersecting the X-axis direction.

Description

Construction Jig

The present invention relates to a jig for construction, and more particularly, the setting of a jig for making a basic frame frame of a house can be easily and conveniently performed, as well as precise setting unlike the conventional one, thereby improving product quality. It can contribute to, and in particular, it relates to a jig for construction that can increase productivity by reducing the setting time.

When manufacturing a module house using a unit frame such as an H-beam, for example, a process of making a basic frame of a six-sided frame is preceded by interconnecting a plurality of frames.

The frame basic frame made by interconnecting a plurality of frames in this way forms the skeleton of a modular house, and thereafter, the work of installing or connecting the remaining components or structures necessary for the house at the corresponding position of the frame basic frame is involved.

In this way, a frame, such as an H-beam, is arranged horizontally or vertically according to a blueprint, and a suitable construction jig may be used for the operation of connecting them to form a basic frame frame. In other words, after appropriately arranging and connecting several frames to the construction jig, the contact surfaces of these are welded to make the desired frame basic frame.

On the other hand, as described above, for example, in order to precisely make the basic frame frame of a six-sided body, the so-called setting work, which precisely adjusts the position of the construction jig according to it, is required. Since the setting work of the jig has been carried out, setting work is difficult, and precise setting is not possible.

In addition, in the past, as described above, since the setting work of the construction jig was carried out through a simple bolting method, the setting time of the jig was too long and productivity was inevitably reduced. The need for a jig emerges.

Korean Intellectual Property Office Application No. 20-1983-0011162

Therefore, the technical problem to be achieved by the present invention is that it is possible to easily and conveniently perform the setting work of a jig to make a basic frame frame of a house, as well as to make a precise setting unlike the conventional one, thus contributing to the improvement of product quality. In particular, it is to provide a jig for construction that can shorten the setting time and increase productivity.

According to an aspect of the present invention, the first and second jig units are arranged spaced apart from each other on a base frame supported on the ground, and work for manufacturing a basic frame frame of a house between them is in progress. ; A fixing part for supporting the unit which supports the first jig unit and is provided to be fixedly positioned on the base frame; And supporting the second jig unit, and allowing the second jig unit to move along an X-axis direction approaching the first jig unit or a Y-axis direction intersecting the X-axis direction. A jig for construction, characterized in that it includes a movable part for supporting a unit that is movably disposed on the base frame, may be provided.

The unit support movable unit includes: a unit moving plate on which the second jig unit is mounted and movable in the X-axis direction or the Y-axis direction together with the second jig unit; An X-axis direction moving body provided with a wheel rotating on the base frame and movable along the X-axis direction and provided independently of the unit moving plate; And an X-axis fine adjustment unit connected to the base frame and the X-axis direction moving body, and finely adjusting both the unit moving plate and the X-axis direction moving body in the X-axis direction on the base frame.

The X-axis fine adjustment unit is connected to the X-axis direction moving body, the X-axis mover (movers) for moving the X-axis direction moving body in the X-axis direction; An X-axis moving handle having an X-axis handlebar and rotating in a forward-reverse direction to move the X-axis mover in the X-axis direction; An X-axis reduction module having an input shaft connected to the X-axis moving handle and for decelerating and transmitting the rotation of the X-axis moving handle; An X-axis rotation shaft coupled to the output shaft of the X-axis reduction module and rotating under the action of the X-axis reduction module; And an X-axis screw nut connected to the X-axis rotation shaft, connected to the X-axis mover at one side, and moving in a longitudinal direction of the X-axis rotation shaft when the X-axis rotation shaft is rotated.

The X-axis fine adjustment unit may further include an X-axis cam follow bearing rotatably supporting an end portion of the X-axis rotation shaft.

The X-axis fine adjustment unit may further include a plurality of X-axis mover guide units connected to the X-axis mover to guide the movement of the X-axis mover.

The X-axis mover guide unit may include an X-axis guide roller rotating on a side surface of the base frame; And an X-axis roller support that is coupled to the X-axis direction moving body and rotatably supports the X-axis guide roller.

The unit support movable unit may further include a Y-axis fine adjustment unit connected to the X-axis direction moving body and the unit moving plate, and finely adjusting the unit moving plate on the X-axis direction moving body in the Y-axis direction. .

The Y-axis fine adjustment unit may include a plate connection unit connected to the unit moving plate to form one body with the unit moving plate; A Y-axis moving handle having a Y-axis handlebar and rotating in a forward and reverse direction for movement of the unit moving plate in the Y-axis direction; A Y-axis reduction module having an input shaft connected to the Y-axis moving handle, decelerated and transmitting the rotation of the Y-axis moving handle, and one side coupled to the plate connection portion; A Y-axis rotation shaft connected to the Y-axis reduction module to pass through the Y-axis reduction module and rotated by the action of the Y-axis reduction module; And a Y-axis movement guide part coupled to both ends of the Y-axis rotation shaft and guiding the Y-axis movement of the plate connection part according to a rotation operation of the Y-axis moving handle.

The Y-axis movement guide unit may include a Y-axis rack gear provided on a sidewall of the X-axis direction moving body along the Y-axis direction; A Y-axis pinion gear engaged with the Y-axis rack gear; A gear rotation shaft forming a rotation axis of the Y-axis pinion gear; And a motion transmission gearbox disposed at an intersection of the Y-axis rotation shaft and the gear rotation shaft, and transferring the rotational motion of the Y-axis rotational shaft to the rotational motion of the gear rotational shaft.

It may further include a Z-axis moving unit (Z-axis moving unit) is connected to the position adjustment along the vertical Z-axis direction to the pillars constituting the first jig unit and the second jig unit.

The Z-axis moving unit may include a Z-axis mover connected to the pillar and moving along the Z-axis direction on the pillar; And a Z-axis moving handle connected to the Z-axis mover and rotating in a forward-reverse direction to move the Z-axis mover in the Z-axis direction.

The Z-axis moving unit includes a Z-axis deceleration module connected to the Z-axis moving handle and transmitting a decelerated rotation of the Z-axis moving handle; A Z-axis rotation shaft coupled to the output shaft of the Z-axis reduction module and rotated by the action of the Z-axis reduction module; A Z-axis pinion gear disposed in the Z-axis mover and coupled to the Z-axis rotation shaft; And a Z-axis rack gear provided on the pillar along the Z-axis direction and engaged with the Z-axis pinion gear.

A Z-axis handlebar may be further connected to the Z-axis moving handle, and the Z-axis moving unit may further include a plurality of Z-axis mover guide portions connected to the Z-axis mover and guiding the movement of the Z-axis mover.

The Z-axis mover guide unit may include a Z-axis guide roller disposed in the Z-axis mover and rotating on the outer wall of the pillar; A Z-axis roller rotation shaft rotatably supporting the Z-axis guide roller; A long hole formed through the Z-axis mover so that the Z-axis roller rotation shaft passes; And a Z-axis fixing member that fixes the Z-axis roller rotation axis from the outside of the Z-axis mover.

The unit support movable part may further include a plate movement support module provided in a side region of the unit movement plate and movably supporting the unit movement plate.

According to the present invention, it is possible to easily and conveniently perform the setting work of a jig for making a basic frame frame of a house, as well as to contribute to the improvement of product quality because precise setting is possible unlike the prior art. Because it can be shortened, productivity can be increased.

1 is a schematic side structural view of a construction jig according to an embodiment of the present invention.
2 is a schematic structural diagram of FIG. 1.
3 is an enlarged view of a second jig unit area in FIG. 1.
4 is an enlarged perspective view of a main part of a movable part for supporting a unit.
5 is an enlarged view of an area of an X-axis fine adjustment unit in FIG. 4.
6 is a front view of FIG. 5.
7 is a view illustrating FIG. 5 from a different angle.
8 is an enlarged view of an area of the Y-axis fine adjustment unit in FIG. 4.
9 is an enlarged perspective view of a Z-axis moving unit area shown in FIG. 3.
10 is a diagram illustrating a state in which a part of FIG. 9 is removed.

In order to fully understand the present invention, operational advantages of the present invention, and objects achieved by the implementation of the present invention, reference should be made to the accompanying drawings illustrating preferred embodiments of the present invention and the contents described in the accompanying drawings.

Hereinafter, the present invention will be described in detail by describing a preferred embodiment of the present invention with reference to the accompanying drawings. The same reference numerals in each drawing indicate the same member.

1 is a schematic side structural view of a construction jig according to an embodiment of the present invention, FIG. 2 is a plan view of FIG. 1, FIG. 3 is an enlarged view of a second jig unit area in FIG. 1, and FIG. 4 is a unit It is an enlarged perspective view of the main part of the supporting movable part, FIG. 5 is an enlarged view of the area of the X-axis fine adjustment part in FIG. 4, FIG. 6 is a front view of FIG. 5, and FIG. 7 is a view showing FIG. 5 from another angle, and FIG. 8 FIG. 4 is an enlarged view of the Y-axis fine adjustment unit area, FIG. 9 is an enlarged perspective view of the Z-axis moving unit area shown in FIG. 3, and FIG. 10 is a view of a state in which a portion of FIG. 9 is removed.

Referring to these drawings, when applying the jig for construction according to the present embodiment, the setting of the jig for making the basic frame frame of the house can be easily and conveniently proceeded, as well as precise setting unlike the conventional one. Because it is possible, it can contribute to the improvement of product quality, and in particular, it can shorten the setting time, thereby increasing productivity.

Here, the basic frame frame of a house means a product made of, for example, a hexahedron by welding a unit frame made of metal such as an H beam, as described above.

This frame basic frame can be easily and precisely made through the construction jig according to the present embodiment. In particular, the construction jig according to the present embodiment can be precisely or finely adjusted, unlike the prior art, and thus helps to make a precise frame basic frame. In particular, it can be very helpful in improving the productivity of the product because the setting work can be carried out quickly.

The construction jig according to the present embodiment capable of providing such an effect may include a base frame 101 and first and second jig units 111 and 112 mounted on the base frame 101.

The base frame 101 is a structure supported on the ground, and supports the fixing unit 130 for supporting the unit and the movable unit 140 for supporting the unit, including first and second jig units 111 and 112. Therefore, the base frame 101 is applied as a metal frame having excellent rigidity.

In this embodiment, the base frame 101 is applied as an H beam. It is most convenient to apply the H beam, but the base frame 101 may be applied with a metal structure other than the H beam. Therefore, the scope of the present invention is not limited to the shape of the drawing.

The first and second jig units 111 and 112 are structures that support various frames constituting the frame basic frame for each position or perform work such as surveying to make the frame basic frame. Accordingly, the first and second jig units 111 and 112 are spaced apart from each other so that the frame of the object to be worked can be disposed therebetween.

As such, the first and second jig units 111 and 112 are all spaced apart from each other and have the same structure. That is, the first and second jig units 111 and 112 include pillars 121 that are elongated vertically. The pillars 121 are applied in pairs, and the upper portions thereof are connected to the upper supports 122. For example, a hoist device or the like may be mounted on the upper support 122.

Referring to FIG. 1, a ladder unit 115 may be disposed outside the first and second jig units 111 and 112. Since the first and second jig units 111 and 112 are huge structures, an operator can perform work using the first and second jig units 111 and 112 through the ladder unit 115.

On the other hand, in the case of this embodiment, the first jig unit 111 is fixed in position on one side of the base frame 101, whereas the second jig unit 112 is provided to be movable from the other side on the base frame 101. do. To this end, the unit support fixing portion 130 and the unit support movable portion 140 are applied.

The fixing unit 130 for supporting the unit supports the first jig unit 111 but is provided to be fixed to the base frame 101 as shown in FIGS. 1 and 2.

Since the unit support fixing part 130 is fixed to the base frame 101 and the first jig unit 111 is mounted on the unit support fixing part 130, the first jig unit 111 is fixed in position. Take the state.

On the other hand, the unit support movable part 140 supports the second jig unit 112, and the second jig unit 112 approaches the first jig unit 111 in the X-axis direction or the Y crossing the X-axis direction. It is disposed to be movable on the base frame 101 so that the second jig unit 112 can move along the axial direction.

In other words, the second jig unit 112 mounted on the movable unit 140 for supporting the unit can approach (-X direction) or separate (+X direction) the first jig unit 111 along the X-axis direction. And can move along the Y-axis direction. Accordingly, it is possible to precisely adjust the relative positions of the frames of the object to be worked disposed between the first and second jig units 111 and 112.

In addition, as shown in FIGS. 3, 9, and 10, a Z-axis moving unit 180 is mounted on the pillars 121 of the first and second jig units 111 and 112, and such a Z-axis moving unit ( 180) may move in the vertical direction of the Z-axis with respect to the pillar 121.

As described above, since the construction jig according to the present embodiment is partially or partially manufactured in a structure that can move in the X-axis direction, Y-axis direction, and Z-axis direction, it is very easy to adjust the relative position to the frame of the work object, so that the convenience of work is improved. It can be increased, and the desired precision work can be carried out. Therefore, it is possible to increase the quality of the manufactured product.

The unit support movable part 140 that can position the second jig unit 112 in the X-axis direction or the Y-axis direction includes a unit moving plate 141, an X-axis direction moving body 143, and an X-axis fine adjustment unit 150. ) And a Y-axis fine adjustment unit 160 may be included.

The unit moving plate 141 forms a place where the second jig unit 112 is mounted. The unit moving plate 141 is movable in the X-axis direction or the Y-axis direction together with the second jig unit 112.

A plurality of plate movement support modules 142 are provided in the side area of the unit movement plate 141. The plate movement support module 142 is provided in a side area of the unit movement plate 141 and supports the unit movement plate 141 to be movable. The plate movement support module 142 is a screw-type fixing structure, and all of them form the same structure.

The X-axis direction moving body 143 is provided independently of the unit moving plate 141, but is a structure capable of moving along the X-axis direction.

A wheel 144 rotating on the base frame 101 is provided in the X-axis direction moving body 143 so that the X-axis direction moving body 143 can move along the X-axis direction. The wheel 144 may be mounted on both sides of the moving body 143 in the X-axis direction.

Since the wheel 144 is provided on the X-axis direction moving body 143, when the second jig unit 112 is pushed toward the first jig unit 111, the second jig unit 112 moves in the ?X-axis direction. 1 It is possible to approach the jig unit 111. When the second jig unit 112 reaches the desired position, the movement of the second jig unit 112 may be stopped. To this end, a separate brake device may be further mounted.

However, even if the position of the first jig unit 111 in the X-axis direction is adjusted in this way, the separation distance between the first and second jig units 111 and 112 is not precisely adjusted as desired.

In other words, if the spacing between the first and second jig units 111 and 112 is primarily adjusted by pushing the second jig unit 112 toward the first jig unit 111, after that, the first and second jig units ( 111,112) should be precisely or finely adjusted. To this end, the X-axis fine adjustment unit 150 and the Y-axis fine adjustment unit 160 are provided.

First, the X-axis fine adjustment unit 150 is connected to the base frame 101 and the X-axis direction moving body 143, as shown in Figs. 4 to 7, the unit moving plate 141, the X-axis direction moving body ( 143) and the Y-axis fine adjustment unit 160 serves to finely adjust both of the base frame 101 in the X-axis direction.

The X-axis fine adjustment unit 150 includes an X-axis mover 151, an X-axis moving handle 152, an X-axis reduction module 153, an X-axis rotation shaft 154, and an X-axis screw nut 155. Can include. The X-axis fine adjustment unit 150 may be disposed on both sides of the moving body 143 in the X-axis direction.

The X-axis mover 151 is a structure that moves the moving body 143 in the X-axis direction in the X-axis direction. Therefore, the X-axis mover 151 is connected to the X-axis direction moving body 143 to form one body.

The X-axis moving handle 152 is configured to rotate in a forward/reverse direction to move the X-axis mover 151 in the X-axis direction.

For example, when the X-axis moving handle 152 is rotated clockwise, the X-axis mover 151 moves in the +X-axis direction, and when the X-axis moving handle 152 is rotated counterclockwise, the X-axis mover 151 Can move in the -X-axis direction.

An X-axis handlebar 152a is provided on the X-axis moving handle 152. Therefore, it is good for rotating the X-axis moving handle 152.

The X-axis deceleration module 153 has an input shaft connected to the X-axis moving handle 152, but decelerates and transmits the rotation of the X-axis moving handle 152. Since the X-axis reduction module 153 is applied, the X-axis mover 151 can be easily moved even if the X-axis moving handle 152 is rotated with a weak force. The moving distance of the X-axis mover 151 may be several millimeters (mm) to tens of centimeters (cm).

The X-axis rotation shaft 154 is coupled to the output shaft of the X-axis reduction module 153 and rotates under the action of the X-axis reduction module 153.

An X-axis cam follow bearing 156 is provided at an end of the X-axis rotation shaft 154. The end of the X-axis rotation shaft 154 may be rotatably supported by the X-axis cam follow bearing 156.

The X-axis screw nut 155 is connected to the X-axis rotation shaft 154 and is connected to the X-axis mover 151 on one side, and the longitudinal direction of the X-axis rotation shaft 154 when the X-axis rotation shaft 154 rotates. Go to. In this embodiment, a plurality of X-axis screw nuts 155 are applied, and are connected to the X-axis mover 151 at a corresponding position. Therefore, when the X-axis moving handle 152 is rotated, the X-axis rotation shaft 154 is rotated through the X-axis reduction module 153, followed by the X-axis screw nut 155 on the X-axis rotation shaft 154. As a result, the X-axis mover 151 is moved in the X-axis direction.

An X-axis mover guide part 157 is further provided in the X-axis fine adjustment part 150. A plurality of X-axis mover guide units 157 are provided for each position, and guide the movement of the X-axis mover 151 at the corresponding position. Therefore, the movement of the X-axis mover 151 may be flexible.

This X-axis mover guide part 157 is coupled to the X-axis guide roller 157a rotating on the side of the base frame 101 and the X-axis direction moving body 143, and the X-axis guide roller 157a can be rotated. It may include an X-axis roller support (157b) to support it.

Next, the Y-axis fine adjustment unit 160 is connected to the X-axis direction moving body 143 and the unit moving plate 141, as shown in Figs. 4 and 8, the unit moving plate 141 in the X-axis direction It serves to fine-tune the moving body 143 in the Y-axis direction.

The fine adjustment distance by the Y-axis fine adjustment unit 160 may also be several millimeters (mm) to tens of centimeters (cm).

The Y-axis fine adjustment unit 160 includes a plate connection unit 161, a Y-axis moving handle 162, a Y-axis reduction module 163, a Y-axis rotation shaft 164 and a Y-axis movement guide unit 165. I can.

The plate connection part 161 is a structure connected to the unit moving plate 141 to form a body with the unit moving plate 141. By moving the plate connection part 161, the movement of the unit moving plate 141 can be drawn out.

The Y-axis moving handle 162 is provided with a Y-axis handle bar 162a, and is configured to rotate in a forward-reverse direction to move the unit moving plate 141 in the Y-axis direction.

For example, when the Y-axis moving handle 162 is rotated in a clockwise direction, the plate connection part 161 moves in the +Y-axis direction, and when the Y-axis moving handle 162 is rotated counterclockwise, the plate connection part 161 is- It can be moved in the Y-axis direction.

The Y-axis deceleration module 163 is connected to the Y-axis moving handle 162 with an input shaft, but reduces the rotation of the Y-axis moving handle 162 and transmits it.

Since the Y-axis reduction module 163 is applied, even if the Y-axis moving handle 162 is rotated with a weak force, the plate connecting portion 161 can be easily moved. One side of the Y-axis reduction module 163 is coupled to the plate connection part 161.

The Y-axis rotation shaft 164 is connected to the Y-axis reduction module 163 to pass through the Y-axis reduction module 163 and rotates under the action of the Y-axis reduction module 163.

The Y-axis movement guide part 165 is coupled to both ends of the Y-axis rotation shaft 164 and guides the Y-axis movement of the plate connection part 161 according to the rotation operation of the Y-axis moving handle 162.

The Y-axis movement guide part 165 includes a Y-axis rack gear 165a provided along the Y-axis direction on the side wall of the X-axis direction moving body 143, and a Y-axis pinion engaged with the Y-axis rack gear 165a. It is disposed at the intersection of the gear 165b, the gear rotation shaft 165c forming the rotation axis of the Y-axis pinion gear 165b, and the Y-axis rotation shaft 164 and the gear rotation shaft 165c, and Y-axis rotation It may include a motion transmission gearbox (165d) for transmitting the rotational motion of the shaft 164 to the rotational motion of the gear rotation shaft (165c).

Accordingly, when the Y-axis moving handle 162 is rotated, the Y-axis rotation shaft 164 is rotated through the Y-axis reduction module 163, and then the Y-axis movement guide unit 165 is rotated, resulting in a plate connection. (161) can be moved in the Y-axis direction.

Meanwhile, the Z-axis moving unit 180 is movably mounted on the pillars 121 of the first and second jig units 111 and 112.

That is, the Z-axis moving unit 180 is connected to the pillars 121 of the first and second jig units 111 and 112 so that the position can be adjusted along the vertical Z-axis direction, thereby providing various roles when creating a basic frame frame. can do. For example, it can be used to achieve a reference position or to hang a separate work tool.

The Z-axis moving unit 180 is a Z-axis mover 181, a Z-axis moving handle 182, a Z-axis reduction module 183, and a Z-axis, as shown in FIGS. 4, 9 and 10 It may include a rotating shaft 184, a Z-axis pinion gear 185, and a Z-axis rack gear 186.

The Z-axis mover 181 is a structure connected to the column 121 and moving along the Z-axis direction on the column 121. The Z-axis mover 181 may be applied in the form of a band surrounding the pillar 121. However, the scope of the present invention is not limited to the shape of the drawings.

The Z-axis moving handle 182 is connected to the Z-axis mover 181, and is configured to rotate in the forward and reverse direction to move the Z-axis mover 181 in the Z-axis direction.

For example, when the Z-axis moving handle 182 is rotated clockwise, the Z-axis mover 181 moves in the +Z-axis direction, and when the Y-axis moving handle 162 is rotated counterclockwise, the Z-axis mover 181 Can move in the -Z axis direction. A Z-axis handlebar 182a is provided on the Z-axis moving handle 182. Therefore, it is good for rotating the Z-axis moving handle 182.

The Z-axis reduction module 183 has an input shaft connected to the Z-axis moving handle 182, but transmits the Z-axis moving handle 182 by decelerating the rotation.

Since the Z-axis reduction module 183 is applied, the Z-axis mover 181 can be easily moved even if the Z-axis moving handle 182 is rotated with a weak force.

The Z-axis rotation shaft 184 is a rod-type shaft coupled to the output shaft of the Z-axis reduction module 183, and rotates by the action of the Z-axis reduction module 183.

The Z-axis pinion gear 185 is disposed within the Z-axis mover 181 and is coupled to the Z-axis rotation shaft 184. Accordingly, the Z-axis pinion gear 185 rotates cooperatively with the Z-axis rotation shaft 184.

The Z-axis rack gear 186 is provided on the column 121 along the Z-axis direction and is a gear engaged with the Z-axis pinion gear 185.

Accordingly, when the Z-axis moving handle 182 is rotated, the Z-axis rotation shaft 184 is rotated through the Z-axis reduction module 183, followed by the Z-axis pinion gear 185 on the Z-axis rotation shaft 184. By moving on the Z-axis rack gear 186, the Z-axis mover 181 can be moved in the Z-axis direction.

In this case, a Z-axis mover guide part 157 may be further provided in the Z-axis moving unit 180 to guide the movement of the Z-axis mover 181 in the Z-axis direction. The Z-axis mover guide part 157 is connected to the Z-axis mover 181 and guides the movement of the Z-axis mover 181, and a plurality of Z-axis movers 181 are provided for each position.

The Z-axis mover guide part 157 is disposed in the Z-axis mover 181, and the Z-axis guide roller 187a rotates on the outer wall of the column 121 and the Z-axis guide roller 187a is rotatably supported. The shaft roller rotation shaft 187b, the long hole portion 187c formed through the Z-axis mover 181 so that the Z-axis roller rotation shaft 187b passes, and the Z-axis roller rotation shaft 187b from the outside of the Z-axis mover 181 ) To fix the Z-axis axis fixing member (187d) may be included. When the Z-axis mover 181 moves up and down, since the Z-axis guide roller 187a rolls on the column 121, the movement of the Z-axis mover 181 may be flexible.

A mover rocker 188 is further provided in the Z-axis moving unit 180. The mover rocker 188 has a screw-type configuration and serves to prevent arbitrary movement of the position-adjusted Z-axis mover 181. That is, when the mover rocker 188 is fixed, the Z-axis mover 181 is supported by the column 121, so that the Z-axis mover 181 does not move arbitrarily.

As described above, according to the present embodiment, the second jig unit 112 mounted on the movable unit 140 for supporting the unit approaches the first jig unit 111 along the X-axis direction (-X direction) or Since it can be spaced apart (+X direction) and can be moved along the Y-axis direction, the relative positions of the frames disposed between the first and second jig units 111 and 112 can be precisely adjusted.

In addition, since the Z-axis moving unit 180 that can move in the Z-axis direction is mounted on the pillars 121 of the first and second jig units 111 and 112, the Z-axis direction operation can be facilitated.

As described above, the construction jig according to the present embodiment is manufactured in a structure that can move in the X-axis, Y-axis, and Z-axis directions, so that the convenience of work can be improved, and desired precision work can be performed. Therefore, it is possible to increase the quality of the manufactured product.

According to this embodiment, which acts in the structure as described above, setting of a jig for making a basic frame frame of a house can be easily and conveniently performed, as well as precise setting unlike the conventional one, thus improving product quality. It can contribute to, and in particular, it is possible to shorten the setting time, thereby increasing productivity.

As described above, the present invention is not limited to the described embodiments, and it is apparent to those of ordinary skill in the art that various modifications and variations can be made without departing from the spirit and scope of the present invention. Therefore, it should be said that such modifications or variations belong to the claims of the present invention.

101: base frame 111: first jig unit
112: second jig unit 115: ladder unit
121: pillar 130: fixing unit for supporting the unit
140: unit support movable part 141: unit moving plate
142: plate movement support module 143: X-axis direction moving body
144: wheel 150: X-axis fine adjustment unit
151: X-axis mover 152: X-axis moving handle
152a: X-axis handlebar 153: X-axis reduction module
154: X-axis rotation shaft 155: X-axis screw nut
156: X-axis cam follow bearing 157: X-axis mover guide part
157a: X-axis guide roller 157b: X-axis roller support
160: Y-axis fine adjustment unit 161: plate connection
162: Y-axis moving handle 162a: Y-axis handlebar
163: Y-axis reduction module 164: Y-axis rotation shaft
165: Y-axis moving guide unit 165a: Y-axis rack gear
165b: Y-axis pinion gear 165c: gear rotation shaft
165d: motion transmission gearbox 180: Z-axis moving unit
181: Z-axis mover 182: Z-axis moving handle
182a: Z-axis handlebar 183: Z-axis reduction module
184: Z-axis rotation shaft 185: Z-axis pinion gear
186: Z-axis rack gear 187: Z-axis mover guide portion
187a: Z-axis guide roller 187b: Z-axis roller rotation axis
187c: long hole 187d: shaft fixing member

Claims (7)

First and second jig units disposed spaced apart from each other on a base frame supported on the ground, and in which an operation for manufacturing a basic frame frame of a house is in progress;
A fixing part for supporting the unit which supports the first jig unit and is provided to be fixedly positioned on the base frame; And
The base supports the second jig unit and allows the second jig unit to move along an X-axis direction in which the second jig unit approaches the first jig unit or a Y-axis direction intersecting the X-axis direction. It includes a movable unit for supporting the unit disposed to be movable on the frame,
The unit support movable part,
A unit moving plate on which the second jig unit is mounted and is movable in the X-axis direction or the Y-axis direction together with the second jig unit;
An X-axis direction moving body provided with a wheel rotating on the base frame and movable along the X-axis direction and provided independently of the unit moving plate;
An X-axis fine adjustment unit connected to the base frame and the X-axis direction moving body, and finely adjusting both the unit moving plate and the X-axis direction moving body in the X-axis direction on the base frame; And
A Y-axis fine adjustment unit connected to the X-axis direction moving body and the unit moving plate, and finely adjusting the unit moving plate on the X-axis direction moving body in the Y-axis direction,
The Y-axis fine adjustment unit,
A plate connection part connected to the unit moving plate and forming a body with the unit moving plate;
A Y-axis moving handle having a Y-axis handlebar and rotating in a forward and reverse direction for movement of the unit moving plate in the Y-axis direction;
A Y-axis reduction module having an input shaft connected to the Y-axis moving handle, decelerated and transmitting the rotation of the Y-axis moving handle, and one side coupled to the plate connection portion;
A Y-axis rotation shaft connected to the Y-axis reduction module to pass through the Y-axis reduction module and rotated by the action of the Y-axis reduction module; And
And a Y-axis movement guide part coupled to both ends of the Y-axis rotation shaft and guiding the Y-axis movement of the plate connection part according to a rotation operation of the Y-axis moving handle,
The Y-axis movement guide part,
A Y-axis rack gear provided along the Y-axis direction on a sidewall of the X-axis direction moving body;
A Y-axis pinion gear engaged with the Y-axis rack gear;
A gear rotation shaft forming a rotation axis of the Y-axis pinion gear; And
And a motion transmission gearbox disposed at an intersection of the Y-axis rotation shaft and the gear rotation shaft, and transmitting the rotational motion of the Y-axis rotational shaft to the rotational motion of the gear rotational shaft. delete The method of claim 1,
The X-axis fine adjustment unit,
An X-axis mover connected to the X-axis direction moving body and moving the X-axis direction moving body in the X-axis direction;
An X-axis moving handle having an X-axis handlebar and rotating in a forward-reverse direction to move the X-axis mover in the X-axis direction;
An X-axis reduction module having an input shaft connected to the X-axis moving handle and for decelerating and transmitting the rotation of the X-axis moving handle;
An X-axis rotation shaft coupled to the output shaft of the X-axis reduction module and rotating under the action of the X-axis reduction module; And
A construction jig comprising an X-axis screw nut connected to the X-axis rotation shaft, connected to the X-axis mover at one side, and moving in the longitudinal direction of the X-axis rotation shaft when the X-axis rotation shaft is rotated. . The method of claim 3,
The X-axis fine adjustment unit,
An X-axis cam follow bearing rotatably supporting an end portion of the X-axis rotation shaft; And
A jig for construction, characterized in that it further comprises a plurality of X-axis mover guides connected to the X-axis mover and guiding the movement of the X-axis mover. delete delete delete

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