KR20230030341A - Braket supply apparatus - Google Patents

Abstract

The present invention relates to a bracket supply module. More specifically, the present invention relates to a bracket supply module that automatically supplies brackets. According to the present invention, a bracket supply module, which is for supplying a bracket (10) for coupling to a coupling object (20), comprises: a frame unit (100) installed to have a certain height from the ground; a bracket stacking unit (200) installed on the frame unit (100) and stacking a plurality of the brackets (10); and a lift driver (300) provided under the bracket stacking unit (200) of the frame unit (100) to lift and drive the stacked plurality of brackets (10) up and down.

Description

Bracket supply module {Brake supply apparatus}

The present invention relates to a bracket supply module, and more particularly, to a bracket supply module that automatically supplies brackets.

In general, by coupling a bracket to a specific binding object, the bracket can be coupled to a desired object through bolting, etc., so that the binding object can be coupled to a desired position.

At this time, in order to couple the bracket to the coupling object, a process of automatically supplying the bracket, aligning the supplied bracket to the coupling object, and then coupling the bracket to the coupling object is required.

That is, in order to automatically bolt and couple the brackets to the coupling objects, the coupling objects are transported, the brackets are supplied, and the brackets are coupled to the coupling objects in a state in which they are aligned.

On the other hand, in the prior art, when the brackets are seated on the upper surface of the bracket supply module, the brackets are gripped and transferred to the position of the coupled object through a transfer robot for transferring the brackets, but in this case, a number of brackets are not efficiently stored. there is

More specifically, when a plurality of brackets are overlapped and seated on the feeder module, there is a problem in that it is difficult to grip one bracket through the end effector of the transfer robot. There is a problem of limited storage capacity.

In addition, alignment and fixing between the coupling object and the bracket is important in order to place the bracket at the coupling position of the coupling object in the state of transporting the coupling object and perform bolting. There is a problem that automatic bolting is difficult.

An object of the present invention is to provide a bracket supply module capable of automatically supplying a bracket in order to solve the above problems.

The present invention was created to achieve the object of the present invention as described above, and the present invention is a bracket supply module for supplying a bracket 10 for coupling to a coupling object 20, to have a certain height from the ground a frame unit 100 to be installed; a bracket stacking unit 200 installed on the frame unit 100 and stacking a plurality of the brackets 10; Disclosed is a bracket supply module including a lifting driver 300 provided under the bracket stacking unit 200 of the frame unit 100 to lift and lower the plurality of stacked brackets 10 .

A height sensing unit 400 installed on the top of the frame unit 100 to detect the height of the uppermost bracket 10 may be further included.

The frame unit 100 includes a plurality of vertical frames 110 provided vertically on the ground, and a plurality of horizontal frames 120 installed between the vertical frames 110 on the upper side of the vertical frames 110 ), and a plate 130 installed on the upper side of the horizontal frames 120 and having at least one opening 131 formed therein.

The bracket stacking part 200 may be installed through the opening 131 .

The bracket stacking part 200 includes a bracket fixing part 210 in which fitting parts 211 are formed on both inner surfaces so that some of the brackets 10 are fitted, and the lowermost part of the bracket fixing part 210. A bracket support part 220 for supporting the bracket 10 may be included.

The bracket fixing part 210 may be formed such that the fitting part 211 extends in the vertical direction so that a part of the bracket 10 can move up and down while being fitted into the fitting part 211 .

The bracket 10 includes a coupling portion 11 for coupling with the coupling object 20 at the center, and wing portions 12 formed by bending both sides of the coupling portion 11, the bracket In the fixing part 210, the plurality of brackets 10 may be stacked vertically with the wing part 12 fitted into the fitting part 211.

The bracket stacking part 200 includes a plurality of bracket fixing parts 210 and may further include a bridge part 230 coupling between the plurality of bracket fixing parts 210 .

The bridge part 230 is installed at the top of the bracket fixing part 210, and an insertion hole 231 for inserting the bracket 10 may be formed corresponding to the fitting part 211.

The fitting part 211 may be formed through the bracket fixing part 210 .

The fitting part 211 may be a groove formed to face the inner surface of the bracket fixing part 210 .

The lifting driving unit 300 includes a guide unit 310 provided under the bracket stacking unit 200 of the frame unit 100 and a plurality of brackets 10 stacked on the bracket stacking unit 200. ), a bracket pressing part 320 that presses the bracket 10 as it rises in contact with the lowermost bracket 10, and a connecting rod connected between the bracket pressing part 320 and the guide part 310 ( 330), and a lift drive source 340 for driving the bracket pressing unit 320 up and down by driving the connection rod 330.

The elevation driving source 340 may be a hydraulic cylinder that drives the connecting rod 330 to move along the guide part 310 .

The height detecting unit 400 includes a support rod 410 installed upward on the upper portion of the frame unit 100, and a height corresponding to the uppermost end of the bracket stacking unit 200 among the support rods 410. It may include a sensor 420 that is installed on and detects the position of the bracket 10.

The detection sensor 420 may include a light emitting unit 421 that emits light at a corresponding height and a light receiving unit 422 that receives reflected light that is reflected by the bracket 10 and returned. .

The bracket supply module according to the present invention has the advantage of being able to efficiently store a plurality of brackets while supplying them smoothly through the transfer robot.

In particular, the bracket supply module according to the present invention has the advantage of greatly increasing the storage capacity by storing a plurality of brackets in a stacked form.

In addition, the bracket supply module according to the present invention has the advantage of being able to supply the brackets so that the brackets can be accurately gripped even in the form of a simple end effector of the transfer robot.

1 is a plan view showing the appearance of a bracket bolting system including a bracket supply module according to the present invention.
Figures 2a and 2b is a plan view and a front view showing the appearance of the seating portion to which the coupling object is fixed of the bracket bolting system according to Figure 1.
Figure 3 is a plan view showing the appearance of another embodiment of the seating portion to which the coupling object is fixed of the bracket bolting system according to Figure 1.
Figure 4 is a plan view showing the appearance of the bracket supply module according to Figure 1;
5A and 5B are front views respectively showing a descending state and an ascending state of the bracket supply module according to FIG. 1 .
Figures 6a and 6b are plan views of different embodiments each showing a state in which the bracket of the bracket supply module according to Figure 1 is fixed.
Figure 7 is a cross-sectional view showing the inside of the bracket supply module according to Figure 1;
Figure 8 is a flow chart showing a bracket bolting method through the bracket bolting system according to Figure 1.
FIG. 9 is a flow chart showing a step of transferring a coupled object in the bracket bolting method according to FIG. 7 .
10 is a flowchart showing a bracket transfer step in the bracket bolting method according to FIG. 7 .
11 is a flowchart showing bolting steps in the bracket bolting method according to FIG. 7 .

Hereinafter, a bracket supply module, a bracket bolting system, and a bracket bolting method according to the present invention will be described with reference to the accompanying drawings.

As shown in FIG. 1, the bracket bolting system according to the present invention is a bracket bolting system for bolting a bracket 10 to a coupling object 20, and a feeder unit for storing and supplying a plurality of coupling objects 20. (500) and; A bracket supply module 30 for storing and supplying a plurality of brackets 10; a seating portion 600 on which the coupling object 20 and the bracket 10 are seated and bolting is performed; a transfer robot 700 for transferring the coupling object 20 and the bracket 10 from the feeder unit 500 and the bracket supply module to the seating unit, respectively; A bolting robot 800 for bolting the coupling object 20 and the bracket 10 seated on the seating portion 600 is included.

In addition, the bracket bolting system according to the present invention may further include a storage unit 900 for receiving and storing the coupling object 20 for which the bolting of the bracket 10 is completed from the transfer robot 700 .

The feeder unit 500 is a configuration for storing and supplying a plurality of coupling objects 20, and various configurations are possible.

For example, the feeder unit 500 is arranged rearward on a plane centered on the transfer robot 700 described later, more specifically, side by side with the bracket supply module 30 described later, so that the transfer robot 700 is coupled to the target object. (20) can be supplied, and a plurality of coupling objects 20 can be disposed on top of the frame of a certain height.

At this time, the feeder unit 500 may be provided in plural, and the rear bracket supply module 30 on a flat surface around the transfer robot 700 to facilitate the transfer of the coupling object 20 through the transfer robot 700. ) can be placed side by side.

The bracket supply module 30 is configured to store and supply a plurality of brackets 10, and various configurations are possible.

For example, the bracket supply module 30 may be disposed rearward with the transfer robot 700 as the center, and through this, the coupling object 20 is transferred from the feeder unit 500 to the seating unit 600 and Additional brackets 10 can be supplied over a short distance.

Meanwhile, the bracket supply module 30 may be configured to smoothly perform gripping through the end effector of the transfer robot 700 while storing a plurality of brackets 10, which will be described in detail later.

The seating portion 600 is a configuration in which the coupling object 20 and the bracket 10 are seated and bolting is performed, and various configurations are possible.

For example, as shown in FIGS. 2A and 2B , the mounting portion 600 is provided on a plate 610 and an upper surface of the plate 610 to fix the coupling object 20 . It may include a fixing jig portion 620 of.

In addition, as shown in FIG. 3 , the seating portion 600 may further include an auxiliary jig portion 630 installed on the plate 610 and on which the coupling objects 20 are seated.

At this time, the seating part 600 is a position where the bolting process is performed, and may be disposed in the front part opposite to the feeder part 500 with the transfer robot 700 as the center.

Through this, the transfer path can be simplified by disposing the feeder unit 500 and the bracket supply module 30 at the rear centered on the transfer robot 700 and the seating unit 600 at the front.

On the other hand, the bolting robot 800 to be described later is disposed in the front with respect to the seating portion 600, so that the transfer robot 700 is placed at the rear around the seating portion 600 and the bolting robot 800 is placed at the front. This can induce the bolting process to be performed smoothly.

The plate 610 is installed at a certain height to provide a flat upper surface, and various configurations are possible.

For example, the plate 610 may be provided on top of a frame having a certain height from the ground to provide a flat upper surface.

The fixing jig part 620 is provided on the upper surface of the plate 610 to fix the coupling object 20, and various configurations are possible.

For example, the fixing jig part 620 may be provided in plurality, and each is connected to the fixing part 622 that moves linearly in both directions with respect to the coupling object 20 and the fixing part 622 A driving unit 621 for linearly driving the fixing unit 622 may be included.

That is, the fixing jig part 620 is a fixing part 622 that linearly moves in both directions of the object 20 through the driving part 621 in a state where the object 20 is positioned above the driving part 621. ) It is possible to press and fix the coupling object 20 from both directions through.

At this time, in the fixing part 622, a groove may be formed in the contact portion 623 corresponding to the radius of the coupling target object 20.

At this time, the drive unit 621 can be applied to any type of driving source disclosed in the prior art, and for example, various methods such as pneumatic, hydraulic cylinder, electromagnetic, electric motor, motor screw, and the like can be applied.

The auxiliary jig part 630 is installed on the upper surface of the plate 610, and as a configuration in which the coupling object 20 is seated so that the coupling object 20 is fixed through the fixing jig portion 620, various configurations this is possible

For example, the auxiliary jig part 630 may be a pair of structures spaced apart from each other in consideration of the length or width of the coupling object 20, and the location is fixed by the coupling object 20 being seated on them. can do.

On the other hand, more preferably, the auxiliary jig part 630 is the same as the linear movement direction of the fixing jig part 620 in order to completely fix the coupling objects 20 in the horizontal direction through the fixing jig part 620. It can be installed in a pair in the vertical direction on a plane.

At this time, the auxiliary jig part 630 may be formed with a seating groove into which at least a portion of the coupling objects 20 are inserted and seated.

The transfer robot 700 is configured to transfer the coupling object 20 and the bracket 10 from the feeder unit 500 and the bracket supply module to the seating unit, respectively, and various configurations are possible.

For example, the transfer robot 700, as an articulated robot, can grip and transfer the coupling object 20 and the bracket 10 through an end effector.

That is, the transfer robot 700 loads the coupling object 20 from the feeder unit 500, transfers it to the seating unit 600, unloads it, and loads the bracket 10 from the bracket supply module 30 again. By doing so, it can be placed in the proper position of the seating part 600.

In addition, the bolting robot 800 can transfer the result of completion of bolting to the storage unit 900 to be described later.

On the other hand, in this process, the transfer robot 700 transfers the bracket 10 from the bracket supply module 30 in a state in which the coupling object 20 is fixed to the seating portion 600 to bolt the bolting robot 800. It is possible to maintain gripping of the bracket 10 while bolting is performed.

That is, the transfer robot 700 can maintain gripping and fixing to the bracket 10 during the bolting process in a state in which the bracket 10 is transferred, and a separate gripping process after bolting is completed. The resulting product can be transferred to the storage unit 900 through the bracket 10 held without gripping.

The bolting robot 800 is configured to bolt the coupling object 20 and the bracket 10 seated on the seating portion 600, and various configurations are possible.

The bolting robot 800 is an articulated robot disposed on the front side of the seating part 600, that is, on the opposite side of the transfer robot 700, and bolts the bracket 10 to the coupling object 20 using an end effector. can be combined.

The storage unit 900 is configured to receive, store, and take out the coupling object 20 after bolting of the bracket 10 is delivered from the transfer robot 700, and various configurations are possible.

At this time, the storage unit 900 may be located on one side of the transfer robot 700 to receive the bolted coupling object 20 from the seating unit 600 .

In this case, as shown in FIG. 1 , the storage unit 900 may be disposed on the left side of the transfer robot 700 on a plane.

Meanwhile, the bracket supply module 30 according to the present invention stores the brackets 10 so that the gripping of the brackets 10 through the end effector of the transfer robot 700 is smooth and a plurality of brackets 10 can be stored. can

To this end, the bracket supply module according to the present invention, as shown in Figs. 4 to 7, the frame unit 100 installed to have a certain height from the ground; a bracket stacking unit 200 installed on the frame unit 100 and stacking a plurality of the brackets 10; Among the frame parts 100, a lifting driver 300 is provided under the bracket stacking part 200 to lift and lower the plurality of stacked brackets 10 upwards and downwards.

In addition, the bracket supply module according to the present invention may further include a height sensing unit 400 installed above the frame unit 100 to detect the height of the uppermost bracket 10 .

The frame unit 100 is installed to have a certain height from the ground, and various configurations are possible.

For example, the frame unit 100 includes a plurality of vertical frames 110 provided vertically on the ground and a plurality of vertical frames 110 installed between the vertical frames 110 on the upper side of the vertical frames 110. It may include horizontal frames 120 and an upper plate 130 installed above the horizontal frames 120 and having at least one opening 131 formed therein.

The plurality of vertical frames 110, as a configuration provided perpendicular to the ground, may be provided so that the bracket 10 to be described later can be stacked at a certain height from the ground.

At this time, the plurality of vertical frames 110, as shown in Figure 5a, form a rectangle on a plane, may be provided with four to form their vertices.

The plurality of horizontal frames 120 are installed between the upper side of the vertical frames 110, and various configurations are possible.

In this case, the plurality of horizontal frames 120 may be provided in four or more to form a side of a rectangle on a plane, and may be installed on the upper side of the vertical frames 110 to connect them to each other.

The upper plate 130 is installed on the upper side of the horizontal frames 120, and has at least one opening 131 formed therein, and various configurations are possible.

For example, the upper plate 130 may have four openings 131 formed on an upper surface thereof in a rectangular shape, so that bracket stacking parts 200 to be described later may be formed in each of the openings 131.

At this time, the upper plate 130 can allow the brackets 10 to be stacked through the bracket stacking unit 200 installed through the opening 131, and furthermore, the height sensing unit 400 to be described below is installed on the upper A place to be installed on the surface can be provided.

The bracket stacking unit 200 is installed on the frame unit 100 and has a structure in which a plurality of brackets 10 are stacked, and various configurations are possible.

That is, the bracket stacking unit 200 is installed through the frame unit 100, more specifically, through the opening 131 of the upper plate 130, so that the brackets 10 can be stacked and stored.

For example, the bracket stacking part 200 includes a bracket fixing part 210 in which fitting parts 211 are formed on both inner surfaces so that some of the brackets 10 are fitted, and the bracket fixing part 210 It may include a bracket support portion 220 for supporting the bracket 10 at the lowermost end of.

In addition, the bracket stacking part 200 includes a plurality of bracket fixing parts 210, and may further include a bridge part 230 coupling between the plurality of bracket fixing parts 210.

The bracket fixing part 210 is a configuration in which fitting parts 211 are formed on both inner surfaces so that a part of the bracket 10 is fitted, and various configurations are possible.

For example, the bracket fixing part 210 may be installed in one pair or more through the opening 131 of the upper plate 130, and the coupling part 11 for coupling with the coupling object 20 at the center. ) And the wing portion 12 of the bracket including the wing portion 12 formed by bending on both sides of the coupling portion 11 may be fitted.

Meanwhile, in this case, the bracket fixing part 210 may be provided in one pair or more according to various shapes of the bracket 10 to be fixed, and may be provided corresponding to four pairs of brackets 10.

That is, the bracket fixing parts 210 may be installed in a pair spaced apart from each other in the opening 131, and the fitting parts 211 are formed on the opposite inner surfaces facing each other, so that the wing part of the bracket 10 The brackets 10 may be stored as the brackets 12 are sequentially inserted and stacked in the vertical direction along the bracket fixing part 210.

At this time, the bracket fixing part 210 may be formed by extending the fitting part 211 in the vertical direction so that a part of the bracket 10 is vertically movable in a state where it is fitted into the fitting part 211, and more specifically The wing portion 12 of the bracket 10 may move in the vertical direction while being fitted into the fitting portion 211 of the pair of bracket fixing portions 210, respectively.

On the other hand, in this case, as shown in FIG. 6A, the fitting part 211 is formed through the bracket fixing part 210, so that both wing parts 12 of the bracket 10 are each pair of brackets. It may be configured to fit through the government 210 .

In addition, as another example, the fitting part 211 is a groove formed to face the inner surface of the bracket fixing part 210, as shown in FIG. 6B, in the stacking direction of the bracket 10 in the vertical direction. It can be formed by extension.

As a result, both wing parts 12 of the bracket 10 are inserted at the uppermost end of the fitting part 211 formed on the inner surface of the pair of bracket fixing parts 210 and moved sequentially in the lower direction, so that they can be stacked. there is.

The bracket support part 220 supports the bracket 10 stacked at the lowermost end of the bracket fixing part 210, and various configurations are possible.

For example, the bracket support part 220 is provided to connect the lowermost sides of the pair of bracket fixing parts 210, moves downward through the fitting part 211, and removes the lowermost part of the stacked brackets 10. can support

At this time, the bracket support part 220 may support a part of the brackets 10 stacked on a plane so that the upper side of the bracket 10 can be pressed through the bracket press part 320 to be described later.

The bridge part 230 is configured to connect and couple between the plurality of bracket fixing parts 210, and various configurations are possible.

For example, as shown in FIG. 4, the bridge part 230 is a bracket fixing part 210 formed of a plurality of unit groups when a pair of bracket fixing parts 210 are made into one unit group. ) can be fixed by connecting them at the top.

That is, it is provided between the top ends of adjacent bracket fixing parts 210 between unit groups, one end is bolted to the bracket fixing part 210 of one unit group, and the other end is provided between the bracket fixing parts 210 of the other unit group. ) can be bolted to.

At this time, the bridge part 230 has a configuration in which the brackets 10 are sequentially stacked downward through the fitting part 211 at the top of the bracket fixing part 210, so that the fitting part 211 is exposed. Correspondingly, an insertion hole 231 for inserting the bracket 10, that is, the wing portion 12 may be formed.

That is, the brackets 10 may be sequentially stacked as the wing portions 12 pass through the insertion holes 231 and move downward along the fitting portion 211 .

The lift drive unit 300 is provided under the bracket stacking unit 200 of the frame unit 100 to lift and drive the stacked plurality of brackets 10 up and down, and various configurations are possible.

That is, the lift driving unit 300 is inserted into the fitting part 211 of the bracket fixing unit 210 and grips the brackets 10 sequentially stacked through the end effector of the transfer robot 700 described above. The bracket 10 of the bracket fixing portion 210 from the top of the top to the upper side may be exposed by raising the configuration.

For example, the lift drive unit 300 includes a guide unit 310 provided under the bracket stacking unit 200 of the frame unit 100 and a plurality of guide units stacked on the bracket stacking unit 200. A bracket pressing part 320 that presses the bracket 10 as it rises in contact with the lowermost bracket 10 of the brackets 10, and is connected to the bracket pressing part 320 and the guide part 310. It may include a connection block 330 and a lift drive source 340 that drives the connection block 330 to lift and drive the bracket pressing unit 320 .

The guide part 310 is provided under the bracket stacking part 200 of the frame part 100, and various configurations are possible.

For example, as shown in FIG. 7, the guide part 310 includes a guide frame 311 installed vertically and a guide rod 312 installed vertically apart from the guide frame 311. And, a guide moving block 313 provided between the guide frame 311 and the guide rod 312 and moving up and down, one side of which is movably installed along the guide frame 311 and the other side of the connection block 330 and It includes a guide coupling portion 314 that couples.

More specifically, the guide part 310 includes a guide frame 311 and a guide rod 312 installed in a vertical direction parallel to a bracket pressing part 320 to be described later, and the guide frame 311 has a longitudinal direction. It may include a guide moving block 313 that is inserted and coupled to be movable up and down in the groove formed along the.

In addition, by combining with the guide moving block 313 on the lower side of the guide moving block 313, it can move up and down along the guide frame 311 and the guide rod 312, and through both sides of the guide rod 312, the connection block ( 330), it is possible to guide the vertical movement of the connection block 330, including the coupling part 314 coupled to it.

In particular, the guide coupling part 314 is coupled to the connection block 330 from the guide frame 311 side through the guide rod 312, and is coupled to the connection block 330 from both sides based on the guide rod 312. By doing so, it is possible to position the guide rod 312 between the pair of guide coupling parts 314, and through this, a more stable guide for vertical movement of the connection block 330 is possible.

On the other hand, as another example, the guide part 310 is provided from the lower end of the bracket stacking part 200 of the frame part 100 to the lowermost end of the frame part 100, so that the bracket pressing part 320 described later Can guide movement.

More specifically, the guide unit 310 includes a guide rod (not shown) provided in the frame unit 100 and a movement guide (not shown) formed on the guide rod to guide movement of a connection block 330 to be described later. ) may be included.

At this time, the guide unit 310, as an example, can be applied with an LM guide, and as another example, a lift drive source 340 to be described later is provided at the end to move the connection block 330 up and down through rotation Motor It can be a screw.

In this case, the movement guide is a screw having a screw thread formed on an outer circumferential surface, and the connection block 330 may move up and down by rotating through the rotational drive of the lift driving source 340 provided at the end.

On the other hand, as another example, if the lift driving source 340 to be described later is a hydraulic cylinder type, it may simply guide the vertical movement of the connecting block 330.

The bracket pressing unit 320 is provided on the upper side of the connection block 330 and is guided by the guide part 310 of the connection block 330 to move up and down together, thereby allowing the plurality of stacked brackets ( 10) may be configured to move by pressing upward.

That is, the bracket pressing unit 320 is provided on the upper side of the connection block 330 and presses and lifts the lowermost bracket 10 among the plurality of stacked brackets 10 upward, thereby lifting the uppermost bracket 10. It can be induced to rise from the top of the bracket fixing part 220 to be exposed.

In addition, the bracket pressing unit 320 moves downward as the connection block 330 descends, and contact with the lowermost bracket 10 is released, so that the bracket 10 descends by its own weight, It can be induced to be supported by the support part 220 .

For example, the bracket pressing part 320 is in contact with the bottom surface of the lowermost bracket 10 and the bracket contact part 321 that lifts the bracket 10 through vertical movement, the bracket contact part 321 and the connection block ( 330) may include a bracket rod 322 connecting between them.

The connection block 330 may have a bracket pressing part 320 formed on the upper side, connected to the guide part 310, and moved up and down through the driving force of the lift driving source 340.

The elevation drive source 340 drives the connection block 330 to drive the bracket pressing unit 320 up and down, and any type of drive source previously disclosed can be applied.

As an example, the elevation drive source 340 may provide driving force in various ways, such as a cylinder method for driving the connection block 330 along the guide part 310, a screw motor method, or electromagnetic force.

The height detecting unit 400 is installed above the frame unit 100 and detects the height of the uppermost bracket 10, and various configurations are possible.

That is, the height detecting unit 400 detects the height of the uppermost bracket 10 among the brackets 10 stacked and fixed on the bracket fixing unit 220, so that the bracket 10 detects the height of the bracket fixing unit 220. ), it can be determined whether or not it is exposed to the outside by additionally rising to a certain height from the top of the.

To this end, the height sensing unit 400 includes a support post 410 installed upward on the upper portion of the frame unit 100, and the uppermost part of the bracket stacking unit 200 among the support posts 410. A detection sensor 420 installed at a corresponding height to detect the position of the bracket 10 may be included.

The support post 410 may be installed at an upper portion of the frame portion 100, more specifically between the openings 131 of the upper plate 130, with a height in the upward direction.

The detection sensor 420 is installed on the upper side of the support post 410, more preferably at a height corresponding to the top of the bracket fixing part 220, and the bracket 10 rises from the bracket fixing part 220. Whether or not it is exposed to the outside can be sensed.

For example, the detection sensor 420 includes a light emitting unit 421 that emits light at a corresponding height and a light receiving unit 422 that receives reflected light that is reflected by the bracket 10 and returned. can do.

That is, the detection sensor 420 emits light through the light emitting unit 421, and when the bracket 10 rises and is exposed to the outside, the irradiated light is reflected and receives the reflected light, so that the bracket 10 ) can be detected externally.

Through this, the height detecting unit 400 determines whether the bracket 10 has risen, and if it is determined that the bracket 10 has risen, it can approach through the transfer robot 700 described above and grip the bracket 10. there is.

Hereinafter, a bracket bolting method according to the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIGS. 8 to 11 , in the bracket bolting method according to the present invention, the coupling object 20 seated on the feeder unit 500 is moved to the seating unit 600 through the transfer robot 700. a combined object transfer step (S100) of transferring and settling in; After the coupling object transfer step (S100), the bracket 10 seated on the bracket supply module 30 through the transfer robot 700 is placed on the upper side of the coupling object 20 among the seating parts 600. Positioning bracket transfer step (S200) and; A bolting step (S300) of bolting the bracket 10 and the coupled object 20 through the bolting robot 800 in a state where the bracket 10 is located is included.

The coupling object transfer step (S100) is a step of transferring and seating the coupling object 20 seated on the feeder unit 500 to the seating portion 600 through the transfer robot 700, and various methods are used. can be performed by

For example, the coupling object transfer step (S100) includes a seating step (S110) of seating the coupling object 20 on the seating portion 600 through the transfer robot 700, and the coupling object 20 ) may include a fixing step (S120) of fixing the coupling object 20 in a state where it is seated on the seating portion 600.

In the seating step (S110), the coupling object 20 may be seated on the seating portion 600 through the transfer robot 700, and more specifically, it is seated on the fixing jig portion 620 of the seating portion 600. can make it

In addition, as another example, in the seating step (S110), the coupling object 20 may be seated on the auxiliary jig part 630 of the seating part 600 through the transfer robot 700, and the auxiliary jig part 630 ) By positioning the coupling object 20 in the groove formed in, it can be stably seated.

The fixing step (S120) may be a step of fixing the coupling object 20 in a state where the coupling object 20 is seated on the mounting portion 600.

More specifically, in the fixing step (S120), in a state in which the coupling object 20 is seated on the fixing jig portion 620 through the transfer robot 700, the coupling object ( 20) can be fixed by pressing from both sides.

In addition, as another example, in the fixing step (S120), the coupling objects 20 are fixed through the linear movement of the fixing jig portion 620 in a state where the coupling objects 20 are seated in the groove of the auxiliary jig portion 630. can be fixed

In the bracket transfer step (S200), the bracket 10, which is seated on the bracket supply module 30 through the transfer robot 700 after the coupling object transfer step (S100), is placed among the seating units 600. It may be a step of positioning on the upper side of the coupling object 20.

For example, the bracket transfer step (S200) includes a bracket lifting step (S210) of raising the bracket 10 stacked on the bracket supply module 30 and exposing it to the outside, and the raised uppermost bracket 10 A bracket gripping step (S220) of gripping through the transfer robot 700, and a bracket moving step of transferring the gripped bracket 10 to the seating part 600 through the transfer robot 700 ( S230) may be included.

The bracket raising step (S210) may be a step of raising the bracket 10 stacked on the bracket supply module 30 and exposing it to the outside.

That is, in the bracket raising step (S210), the connection block 330 is raised through the above-described lifting driving source 340, and the bracket pressing portion 320 rises, thereby raising a plurality of Brackets 10 may rise.

Thus, in the bracket raising step (S210), the bracket 10 on the uppermost side may rise from the uppermost end of the bracket fixing part 220 at a predetermined interval and be exposed to the outside.

The bracket gripping step (S220) may be a step of gripping the raised uppermost bracket 10 through the transfer robot 700.

In the bracket gripping step (S220), the bracket 10 can be gripped using the end effector of the transfer robot 700, and at this time, the bracket lifting step (S210) described above needs to be performed in advance for gripping. there is

The bracket moving step (S230) may be a step of transferring the bracket 10 to the seating part 600 through the transfer robot 700.

The bolting step (S300) may be a step of bolting the bracket 10 and the coupling object 20 through the bolting robot 800 in a state where the bracket 10 is located.

At this time, in the bolting step (S300), the transfer robot 700 can maintain the gripping and fixing state of the bracket 10 while the bolting is performed, thereby gripping the combination again after bolting is completed. Since it can be transferred without the need, the process time can be shortened.

That is, in the bolting step (S300), the coupling object 20 fixed through the fixing jig part 420 and the bracket 10 gripped and fixed through the transfer robot 700 are bolted using the bolting robot 800. A bolting performing step (S310), which is a step of combining through bolting, may be included.

Thereafter, a combination transfer step ( S320 ) of transferring and storing the bolted combination in the storage unit 900 without a separate gripping process again through the transfer robot 700 may be performed.

On the other hand, in the coupling object transfer step (S100) of transferring the coupling object 20 and the bracket transfer step (S200) of transferring the bracket 10, the coupling object 20 and the bracket 10 are transferred through the transfer robot 700, respectively. A gripping change step of changing the gripping position or angle for each part before being seated on the fixing jig part 620 of the seating part 600 by transferring them may be additionally included.

Since the above has only been described with respect to some of the preferred embodiments that can be implemented by the present invention, as noted, the scope of the present invention should not be construed as being limited to the above embodiments, and the scope of the present invention described above It will be said that the technical idea and the technical idea together with the root are all included in the scope of the present invention.

10: Bracket 20: Combined object
100: frame part 200: bracket stacking part
300: lifting drive unit 400: height sensing unit

Claims (15)

As a bracket supply module for supplying the bracket 10 for coupling to the coupling object 20,
A frame unit 100 installed to have a certain height from the ground;
a bracket stacking unit 200 installed on the frame unit 100 and stacking a plurality of the brackets 10;
A bracket supply module, characterized in that it comprises a lifting driver 300 provided at the lower part of the bracket stacking unit 200 of the frame unit 100 to lift and drive the plurality of stacked brackets 10 up and down. . The method of claim 1,
Bracket supply module, characterized in that it further comprises a height sensing unit (400) installed on the top of the frame unit (100) to detect the height of the uppermost bracket (10). The method of claim 1,
The frame part 100,
A plurality of vertical frames 110 provided vertically on the ground, a plurality of horizontal frames 120 installed between the vertical frames 110 on the upper side of the vertical frames 110, and the horizontal frame ( 120) is installed on the upper side and includes a plate 130 in which at least one opening 131 is formed. Bracket supply module. The method of claim 3,
The bracket stacking part 200,
Bracket supply module, characterized in that installed through the opening (131). The method of claim 1,
The bracket stacking part 200,
A bracket fixing part 210 in which fitting parts 211 are formed on both inner surfaces so that a part of the bracket 10 is fitted, and a bracket supporting part supporting the bracket 10 at the lowermost end of the bracket fixing part 210. Bracket supply module, characterized in that it comprises (220). The method of claim 5,
The bracket fixing part 210,
Bracket supply module, characterized in that the fitting part (211) is formed extending in the vertical direction so that a part of the bracket (10) is vertically movable in a state inserted into the fitting part (211). The method of claim 5,
The bracket 10,
It includes a coupling portion 11 for coupling with the coupling object 20 at the center, and wing portions 12 formed by bending both sides of the coupling portion 11,
The bracket fixing part 210,
Bracket supply module, characterized in that the plurality of brackets (10) are stacked in the vertical direction with the wing portion (12) inserted into the fitting portion (211). The method of claim 5,
The bracket stacking part 200,
A bracket supply module comprising a plurality of bracket fixing parts 210 and further comprising a bridge part 230 coupling between the plurality of bracket fixing parts 210. The method of claim 8,
The bridge part 230,
The bracket supply module, characterized in that it is installed at the top of the bracket fixing part 210, and an insertion hole 231 for inserting the bracket 10 is formed corresponding to the fitting part 211. The method of claim 5,
The fitting part 211,
Bracket supply module, characterized in that formed through the bracket fixing portion (210). The method of claim 5,
The fitting part 211,
Bracket supply module, characterized in that the groove formed opposite to the inner surface of the bracket fixing part (210). The method of claim 1,
The lift drive unit 300,
The guide part 310 provided under the bracket stacking part 200 of the frame part 100 and the lowest bracket 10 among the plurality of brackets 10 stacked on the bracket stacking part 200 A bracket pressing portion 320 that presses the bracket 10 as it rises in contact, a connecting rod 330 connected to the bracket pressing portion 320 and the guide portion 310, respectively, and the connecting rod ( 330) to drive the bracket pressing unit 320 up and down. The method of claim 12,
The lift drive source 340,
Bracket supply module, characterized in that the hydraulic cylinder or electric motor for driving the connecting rod 330 to move along the guide portion 310. The method of claim 1,
The height sensing unit 400,
The position of the support rod 410 installed upwards on the upper part of the frame part 100 and the bracket 10 installed at a height corresponding to the uppermost end of the bracket stacking part 200 among the support rods 410 Bracket supply module, characterized in that it comprises a detection sensor 420 for detecting. The method of claim 14,
The detection sensor 420,
A bracket supply module characterized in that it includes a light emitting unit 421 that emits light at a corresponding height and a light receiving unit 422 that receives reflected light that is reflected by the bracket 10 and returned.

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