KR102127214B1 - Parts supply apparatus - Google Patents

Abstract

The present invention is achieved by providing a component supply device capable of mechanically supplying and mounting parts such as a stud for installing a wall-mounted display device during a press forming process of a display device bottom chassis manufacturing facility.
The present invention is a conveyor in which a single stud continuously flows from the front end in a standing state to be horizontally aligned and supplied to one of the several press processes of the bottom chassis manufacturing facility, and is continuously installed in the rear end of the conveyor. It is installed on either side of the first transfer feed and the first transfer feed, which receives and waits for the studs supplied as a single unit, and simultaneously withdraws and waits for the studs that are in a standing state to switch to the lower mold side of the chassis manufacturing facility. Including the second transfer feed that allows the stud to be supplied in an inverted state, the stud supplied in an upright state using a conveyor is switched in the process of supplying the first and second transfer feeds and inserted into the lower mold of the chassis manufacturing facility in an inverted state As a result, in the press manufacturing process of the chassis manufacturing facility, the stud is pressed to the bottom chassis.

Description

Parts supply apparatus

The present invention relates to a component supply device capable of mechanically supplying and mounting parts such as a stud for installing a wall-mounted display device such as an LCD or LED TV during a press molding process of a display device bottom chassis manufacturing facility.

Wall-mounted display devices such as LCD or LED TVs are composed of a top chassis and a bottom chassis for the placement of interior items and protection from external shocks. Such top and bottom chassis are mainly made of aluminum alloy or stainless steel as a conveyor. It is manufactured by a series of continuous and sequential chassis manufacturing facilities that perform a cutting process that cuts to a predetermined size and shape while transferring, and a series of press processes, such as piercing, embossing, bending, burring, and slitting.

Of these chassis, a stud for mounting a wall-mounted display device in a bottom chassis manufacturing facility, that is, a female stud for coupling with a male basic bolt installed on at least two of the structure wall for wall-mounted installation of the display device The mounting process is required.

The stud is formed in a port shape with an open top surface, and is provided with a thread for coupling with the base bolt to the inner surface of the inner or lower wall of the circumference, and the middle or more is compressed by a pressing process and fixed to the inner and outer surfaces of the bottom chassis.

The studs constructed in this way are made by using a separate part auto inserter after the manufacturing of the bottom chassis.

In an example of the automatic inserter of parts, the bottom chassis, which is roughly manufactured, is fed through a loading unit, and is transported using a belt installed to be wound or unwound by a belt driving unit at the length of the device, and installed along the transport path of the bottom chassis. Multiple parts, such as studs, are supplied separately from the supplied parts supply unit, and at the same time, each of the supplied parts is selected and inserted into multiple positions on the bottom chassis by a part insertion unit that consists of X-axis and Y-axis linear motion on the transport path. Order.

In addition, the bottom chassis in which the parts are inserted is transferred to the press unit side by a belt to undergo a predetermined compression process to complete the installation of the stud.

However, the automatic inserter of these parts is an additional additional equipment other than the manufacturing equipment of the bottom chassis, and as well as the expansion of the equipment, the use of the manufacturing equipment is increasing, which is a factor of unnecessary manufacturing cost increase.

In addition, manufacturing of the bottom chassis and mounting of the studs are two-step processes with separate equipment, which is accompanied by many problems such as reduced workability and productivity.

Therefore, in recent years, there is a need for structural innovation of a device that enables stud mounting during the molding process of a bottom chassis manufacturing facility.

Republic of Korea Registered Patent 10-1244239 Republic of Korea Registered Patent 10-1252037

The present invention has been made in consideration of the circumstances described above, and its purpose is to directly supply studs to one of the press process areas of the various manufacturing processes of the bottom chassis manufacturing facility, so that the studs of the bottom chassis are installed without additional equipment. In order to achieve, it is to provide a manufacturing equipment and a component supply device that can reduce the manufacturing cost.

The object of the present invention is to achieve the present invention by providing a component supply device capable of mechanically supplying and mounting parts such as studs for installing a wall-mounted display device during a press forming process of a display device bottom chassis manufacturing facility. do.

The present invention is a conveyor in which a single stud continuously flows from the front end in a standing state to be horizontally aligned and supplied to one of the several press processes of the bottom chassis manufacturing facility, and is continuously installed in the rear end of the conveyor. It is installed on either side of the first transfer feed and the first transfer feed, which receives and waits for the studs supplied as a single unit, and simultaneously withdraws and waits for the studs that are in a standing state to switch to the lower mold side of the chassis manufacturing facility. Including the second transfer feed that allows the stud to be supplied in an inverted state, the stud supplied in an upright state using a conveyor is switched in the process of supplying the first and second transfer feeds and inserted into the lower mold of the chassis manufacturing facility in an inverted state As a result, in the press manufacturing process of the chassis manufacturing facility, the stud is pressed to the bottom chassis.

According to the parts supply device according to the present invention, a series of bottoms by directly supplying a stud coupled with a base bolt for installation of a wall-mounted display device in one of the forming process areas of a press-forming process of a bottom chassis manufacturing facility of a wall-mounted display device By being mounted in the chassis forming process, it is possible to mount the stud in an existing chassis manufacturing facility without additional equipment, and thus has the advantage of preventing unnecessary manufacturing facility expansion and reducing manufacturing cost.

1 is a perspective view showing the overall configuration of a component supply device of the present invention.
Figure 2 is a plan view showing the overall configuration of the parts supply apparatus of the present invention.
3 is a cross-sectional view of FIG. 2 taken along line AA.
FIG. 4 is an enlarged cross-sectional view of FIG. 3 taken along line BB.
5 is an enlarged cross-sectional view of FIG. 3 taken along line CC.
Figure 6 (a) (b) (c) (d) is an explanatory diagram showing the operation of the first and second transfer feed of the parts factory apparatus of the present invention,
(a) is a state in which the stud is loaded in an upright state in the receiving groove of the first transfer feed through the conveyor,
(b) shows that the direction changer of the second transfer feed descends and waits for the withdrawal of the stud loaded upright in the receiving groove of the first transfer feed,
(c) is a state in which the operator of the first transfer feed rises and the stud is transferred to the direction of the direction changer of the second transfer feed waiting for the stud to be loaded in an upright state,
(d) is an explanatory diagram showing that the direction changer of the second transfer feed rises to supply the stud received from the first transfer feed to the lower mold of the chassis manufacturing facility in an inverted state.
FIG. 7 is an explanatory view showing that the stud is supplied to the upper end of the die block of the second transfer feed and is pressed into the inner and outer surfaces of the bottom chassis by compression in the chassis manufacturing equipment press molding process.
8(a)(b) is an explanatory diagram showing a state for preventing interference with a post-supplying stud when withdrawing a preloaded stud that is pre-supplied in the receiving groove of the first transfer feed,
(a) is a state in which the stud is loaded into the receiving groove of the first transfer feed,
(b) shows that the conveyor is driven in the reverse direction just prior to the withdrawal of the pre-supplied studs to the receiving groove of the first transfer feed, and the post-supplied studs are separated from the pre-supplied studs so that no withdrawal interference occurs It is.

Next, an embodiment of the present invention will be described. 1 to 5 are shown in detail a component supply device according to the present invention.

In the present invention, the present invention provides a component supply device for mechanically supplying and mounting parts (P), such as studs, for installing a wall-mounted display device such as an LCD or LED TV during the press molding process of a display device bottom chassis manufacturing facility. Is to provide

To further explain this, a control unit of a chassis manufacturing facility is attached to a chassis manufacturing facility provided with a bottom chassis (W) forming upper and lower molds (M) among the outer walls for placement of wall-mounted display devices and protection from external impact. Female studs that are attached to the bottom chassis (W) by compression for attachment to the male basic bolts installed on the wall of the structure for wall-mounted installation of the display device among several press processes sequentially made according to signals. P) It is a component supply device for mounting.

In the figure, 10 is a conveyor. In the conveyor 10, a pair of belts 12 are spaced apart in parallel with a certain length and driven in a forward and reverse direction by a driving motor 14 driven by a control signal, thereby providing studs supplied from separate hoppers ( P) is transferred between the belts 12 in an upright state.

Such a conveyor 10 will be fed by continuously aligning and horizontally aligning the studs P from the front end to the rear end side in a press state in one press process area among the various press processes of the bottom chassis manufacturing facility. will be.

In addition, the rear end of the conveyor 10 is provided with a first transfer feed 20 that is installed one after another and receives the studs P supplied in an erected state on a belt 12 and waits.

The first transfer feed 20 is composed of a stator 22 and a mover 24 that are separated up and down, and a mover by a first actuator 26 driven by a control signal provided on the stator 22 side. 24 lifts on the stator 22. At this time, the mover 24 is disposed on the same horizontal line as the belt 12 to receive the stud P supplied to the conveyor 10.

The mover 24 is provided with an accommodating groove 24a that is open at one side from the upper surface and accepts the stud P in an upright state supplied from the conveyor 10. At this time, the receiving groove 24a may have a circular or polygonal shape.

Receiving groove 24a of the first transfer feed 20 mover 24 is resiliently installed at one side of the open side and is a deterrent that prevents the stud P from being held and loaded in place from the conveyor 10 and prevents it from leaving. (24a-1) is further included.

In addition, at least one or more of the first transfer feed 20 mover 24 of the mover 24 is provided with at least one of its main walls to securely fix the stud P loaded into the receiving groove 24a. 2) is further included.

In addition, a second transfer feed 30 is installed in succession to one side of the first transfer feed 20. The second transfer feed 30 receives the receiving groove 24a of the first transfer feed 20 mover 24. At the same time, the direction of the stud (P) waiting in the erected state is withdrawn, and the direction is switched to supply the inverted state to the lower mold (M) side of the chassis manufacturing facility.

The second transfer feed 30 is an operator 34 moving up and down by a die block 32 installed in an upright state and a second actuator 31 driving the die block 32 with a control signal. It is composed of a direction changer (36) interlocking with the child (34). At this time, the direction changer 36 is provided with a pull-out pin 36a that presses and pulls the stud P loaded in the receiving groove 24a of the first transfer feed 20 on its outer surface.

In addition, between the die block 32 and the mover 34, a power transmission system 38 that converts the mover motion of the mover 34 into forward and reverse rotations and rotates the direction changer 36 forward and reverse is interposed. do.

The power transmission system 38 is installed on the rotational axis of the rack 38a installed in the height direction on the main wall of the die block 32 and the direction changer 36 engaged with the mover 34 and engaged with the rack 38a. It is made of a pinion 38b driven by being driven.

In the component device configured as described above, the stud P supplied in the upright state using the conveyor 10 is switched in the supply process of the first and second transfer feeds 20 and 30 and inserted into the lower mold M in an inverted state. It will be compressed into the inner and outer surfaces of the bottom chassis W by compression in the chassis manufacturing equipment press molding process.

Then, with reference to Figure 6 (a) (b) (c) (d) will be described the operation of the parts supply device of the present invention.

FIG. 6(a) shows the first and second transfer feeds 20 and 30, respectively, while the actuators 24 and 34 are returned to their initial positions, and are supplied in an upright state using a conveyor 10. The stud (P) at the foremost end is showing that the loading is completed in the receiving groove 24a of the first transfer feeder 20 and the mover 24.

Figure 6 (b) is a drawing of the first drive feed 20, when the stud (P) loading is completed, the second drive feed 30, the second actuator 31 by the control signal of the chassis manufacturing equipment as a downward drive At the same time as indicated by the arrow in the lowering of the mover 34 and the simultaneous direction changer 36 rotates clockwise, the stud P loaded in an upright state in the receiving groove 24a of the first transfer feed 20 It shows that it is waiting for the stud (P) to be pulled out by maintaining the gap at the top of the top.

FIG. 6(c) shows that when the stud (P) withdrawal standby of the second transfer feed 30 is completed, the first actuator 26 moves upward by the control signal of the chassis manufacturing facility. In the drawing, as indicated by the arrow, the mover 24 is raised and the stud P is transmitted to the direction of the changer 36 of the second transfer feed 30 to receive the groove 24a of the first transfer feed 20 ) Shows that the stud (P) is withdrawn.

Here, the second transfer feed 30 in the above for the withdrawal of the stud P maintains a gap on the first transfer feed 20 and the movement of the mover 24 of the first transfer feed 20 rotates It is for achieving a firm transmission by correct press-fitting of the stud (P) to the withdrawal pin (36a) of the direction changer (36).

6(d) shows that when the stud P withdrawal from the second transfer feed 30 is completed, the driving of the first transfer feeder 20 and the first actuator 26 by the control signal of the chassis manufacturing facility is performed. As indicated by the arrow in the drawing, the mover 24 descends and returns to the initial position, and at the same time, the direction changer 36 is an arrow in the drawing due to the upward drive of the second transfer feed 30 and the second actuator 31. As indicated by, it shows a state in which the stud (P) is supplied in an inverted state to the top of the die block 32 by rotating upward and counterclockwise with the mover 34. (In this case, the parts supply device is the same as the initial one)

And FIG. 7 shows that the stud P is supplied to the chassis manufacturing equipment side by the parts supply device of the present invention, that is, the stud P is supplied to the die block 32 of the second transfer feed 30 and the chassis manufacturing equipment press It is an explanatory diagram showing that the bottom chassis W is compressed by the punch compression in the molding process.

Figure 8 (a) (b) is a state for preventing the interference phenomenon with the supply stud (P) after the withdrawal of the pre-loaded stud (P) is supplied to the receiving groove (24a) of the first transfer feed (20) As,

In FIG. 8(a), the stud P is supplied to the mover 24 receiving groove 24a of the first transfer feed 20 and loaded.

FIG. 8(b) shows the belt 12 of the conveyor 10 as indicated by the arrow in the drawing immediately before the withdrawal of the stud P pre-supplied into the receiving groove 24a of the first transfer feed 20. By driving in the reverse direction of supply, the studs (P) to be supplied are separated from the pre-supplied studs (P) so that no interference withdrawal occurs.

While continuously and repeatedly driving the parts supply device of the present invention, a stud crimping process will be performed on a bottom chassis among a series of press processes of a chassis manufacturing facility.

As described above, an embodiment of the present invention has been described, but the present invention is not limited to this and may be changed within the scope of the claims.

10: conveyor
12: belt 14: drive motor
20: 1st transfer feed
22: stator 24: mover 26: first actuator
30: second transfer feed
31: second actuator 32: die block 34: mover 36: diverter
38: power train
P: Stud M: Lower mold

Claims (7)

delete For the installation of the wall-mounted display device and for the installation of the wall-mounted display device among several press processes sequentially performed according to the control signal of the chassis manufacturing equipment equipped with the bottom chassis forming upper and lower molds among the exteriors for protection from external impact. As a component supply device for mounting a female stud that is attached to the bottom chassis in compression for coupling with a male base bolt installed on at least two or more on the structure wall,
A conveyor that allows the studs to continuously flow from one end to the other in the press process area of the various press processes of the bottom chassis manufacturing facility, and horizontally aligned and supplied;
It consists of a stator equipped with a first actuator at the rear end of the conveyor, an accommodating groove for receiving the stud in an upright state supplied from the conveyor with one side open on the upper surface, and an operator moving up and down by the first actuator A first transfer feed which is continuously installed and receives and waits for the studs supplied in an erected state individually; And
A second transfer feed that is installed at one side of the first transfer feed, and simultaneously withdraws the stud that is waiting in an upright state, switches directions, and supplies the stud in an inverted state to the lower mold side of the chassis manufacturing equipment. It includes,
Here, the stud supplied in an upright state using the conveyor is switched in the process of supplying the first and second transfer feeds, inserted into the lower mold in an inverted state, and compressed by compression in the chassis manufacturing equipment press molding process. A component supply device characterized in that it is pressed into the inner and outer surfaces of the bottom chassis. According to claim 2,
A component supply device further comprising a deterrent element that is resiliently installed at one side of the open side of the first transfer feed receiving groove to prevent the stud from being held and detached. According to claim 2,
A component supply device further comprising magnets that are installed on at least one main wall of the first transfer feed receiving groove so that the loaded stud is fixed. According to claim 2,
The second transfer feed defines a die block provided with a second actuator, a mover riding on the die block and moving up and down by the second actuator, and a moving movement of the mover between the die block and the mover. Waiting for the stud to be loaded in the erected state in the first transfer feed receiving groove when the mover descends while being interlocked by a power transmission system that is converted to reverse rotation, and when the mover rises, the stud is inverted to the top of the die block. A component supply device made of a direction changer to be supplied in a state. The method of claim 2 or 5,
Upon completion of the lowering of the second transfer feed mover, the stud loaded in an upright state in the receiving groove is raised by raising the mover of the first transfer feed by a signal applied from the control unit of the chassis manufacturing facility. A component supply device further comprising a transmission to the direction changer so as to be withdrawn from the receiving groove of the first transfer feed. According to claim 2,
The conveyor is driven in the reverse direction by the control signal of the chassis manufacturing facility immediately before the withdrawal of the stud, which has been supplied to the receiving groove of the first transfer feed, so that the supplied stud is prevented from interfering with the line supply stud. A component supply device further comprising the spaced apart.

Images