KR101956514B1 - lower mold structure - Google Patents

Abstract

The present invention relates to a novel lower mold structure that enables a pushing plate to be effectively lifted during repair work. The lower mold structure allows an operator to control the degree to which a socket (71a) of a wrench (71) is coupled to a head unit (43) of a lift member (40), and to control, using the wrench (71), the speed at which a pushing plate (6) and a guide rod are lifted (5) for bringing the lift member (40) into a single rotation, thereby lifting the guide rod (5) and the pushing plate (6) fast or precisely controlling the degree to which the guide rod (5) and the pushing plate (6) are lifted. Further, if necessary, the operator may rotate a hexagonal wrench into a fixing hole (52a) of a screw shaft (50) to bring the guide rod (5) and the pushing plate (6) into slow rotation by screw action of the screw shaft (50) in order to more precisely control the degree to which the guide rod (5) and the pushing plate (6) are lifted. Accordingly, when lifting the guide rod (5) and the pushing plate (6), by controlling the speed at which the pushing plate (6) is lifted in three steps, the operator can more conveniently have the pushing plate (6) lifted and more precisely control to which the pushing plate (6) is lifted.

Description

Lower mold structure < RTI ID = 0.0 >

The present invention relates to a new lower mold structure capable of effectively lifting and lowering a plate during maintenance work.

In general, an injection mold apparatus used when a synthetic resin product is used consists of a lower mold and an upper mold.

At this time, a cavity corresponding to the shape of the injection mold is formed on the lower surface of the upper mold and the upper surface of the lower mold, and the molten synthetic resin is injected into the cavity with the upper mold and the lower mold meshing with each other, An injection product can be produced.

Meanwhile, in the case of the lower mold of the mold apparatus, an ejector pin is provided for pushing the injection object injected from the inside of the cavity upward.

1 and 2, the lower mold includes a lower panel 1, a spacer 2 provided on the upper surface of the periphery of the lower panel 1, A lower core 4 coupled to the upper panel 3 and having the cavity 4a formed on an upper surface thereof and a lower core 4 coupled to the upper panel 3 in a vertically movable manner, And a plate 6 which is provided between the upper panel 3 and the lower panel 1 and is fixed to the lower end of the guide rod 5 and ascended and descended by an unillustrated lifting and driving means.

At this time, the upper panel 3 is formed with a guide hole 3a through which the guide rod 5 can be lifted so as to pass through the upper and lower surfaces.

The ejector pin 8 is movably coupled to the inside of the through hole 7 extending downward from the upper panel 3 in the cavity 4a of the lower core 4, (6).

Therefore, when the plate 6 is lifted by the lifting and driving means, the ejector pin 8 is lifted to push up the injection material formed in the cavity 4a of the lower core 4 upward.

Meanwhile, when the maintenance of the lower mold is performed using the elevating mechanism A, which is detachably coupled to the upper panel 3, the lower mold is lifted up.

The elevating mechanism A includes a supporting cylinder 10 formed on the lower side thereof with a space portion 11 concaved upward and a through hole 12 penetrating the upper and lower portions at a central portion thereof, And possibly a combined screw shaft 20.

The threaded shaft 20 has a cylindrical shape extending in the up and down direction. The threaded shaft 20 has a threaded portion 21 formed at its lower end portion, a flange portion 22 formed at an intermediate portion thereof to be engaged with the upper surface of the support cylindrical body 10, And a hexagonal head portion 23 is formed at the upper end.

A coupling hole 5a through which the screw shaft 20 is screwed is formed at an upper end of the guide rod 5. [

1, in a state in which the lower end of the screw shaft 20 is threadedly engaged with the engaging hole 5a of the guide rod 5, the operator moves the head portion 23 of the screw shaft 20 ), And the wrench is rotated, the plate 6 is raised while the guide rod 5 is lifted as shown in Fig.

However, since the elevator mechanism A requires the operator to rotate the screw shaft 20 by engaging the wrench with the screw shaft 20, it takes a lot of time to raise the plate 6, Troublesome problems have arisen.

Therefore, there is a need for a new method to solve such a problem.

10-1266529,

SUMMARY OF THE INVENTION It is an object of the present invention to provide a new lower mold structure capable of effectively lifting and lowering the plate 6 during a maintenance operation.

In order to accomplish the above object, the present invention provides a plasma display panel comprising a lower panel, a spacer provided on an upper surface of a periphery of the lower panel, and an upper panel fixed to an upper surface of the spacer, A lower core 4 coupled to the upper panel 3 and having the cavity 4a formed thereon, a guide rod 5 movably coupled to the upper panel 3, A flat plate 6 provided between the panel 3 and the lower panel 1 and fixed to the lower end of the guide rod 5 and elevated and lowered by an elevation driving means not shown, And an elevating mechanism A which is connected to the guide rod 5 to elevate the guide rod 5. The guide rod 5 is provided at the upper end thereof with a coupling hole 5a are recessed downward, wherein the elevating mechanism A extends vertically, and the upper and lower surfaces of the elevating mechanism A are vertically extended. And a screw thread 41 screwed to the through hole 31 is formed on a circumferential surface of the support block 30 and a vise of the wrench 71 is formed on the outer side of the screw. A head portion 43 having a hexagonal shape to which the head portion 71a is coupled and a through hole 42 passing through the upper and lower surfaces of the head portion 43 is formed and an elevating member 40 having a cylindrical shape extending in the up and down direction, A threaded shaft 51 screwed to the hole 5a is formed and a circular head 52 is formed on the upper end of the screw shaft 50 to be rotatably engaged with the through hole 42 of the elevating member 40 And fixing means 61 and 63 provided at the periphery of the elevating member 40 for selectively fixing the screw shaft 50 coupled to the elevating member 40. The elevating member 40 And the thread 51 of the screw shaft 50 are formed in mutually opposite directions and the thread 41 of the elevating member 40 The screw shaft 50 is formed with a hexagonal fixing hole 52a at the center of the upper surface thereof. And a plurality of coupling grooves 52b are formed on the circumferential surface so as to be spaced apart from each other by a predetermined angle. The outer peripheral surface of the head portion 43 of the elevating member 40 is formed with a concave groove 43a, And the fixing means 61 and 63 are connected to the recessed groove 43a so as to protrude outward by the spring 62. The stoppers 61 and 63 are elastically biased by the spring 62, The lower end is rotatably coupled to the inner side of the communication hole 43b by a ball 61 and a hinge shaft 64 extending laterally at the upper end so that the lower end is rotatably connected to the inner side by the elastic member 65, And a fixing piece (63) elastically pressed to be protruded from the fixing piece (63) The width is larger than the width from the outer circumferential surface of the head portion 43 of the elevating member 40 to the through hole 42. Normally the lower end of the elevating member 40 protrudes to the outside of the elevating member 40, The inside end is fitted into the engaging groove 52b of the head portion 52 of the screw shaft 50 so that the elevating member 40 is engaged with the engaging groove 52b of the screw shaft 50. [ And the screw shaft (50) is rotated together when rotated.

According to the lower mold structure of the present invention, the degree to which the box 71a of the wrench 71 is coupled to the head portion 43 of the elevating member 40 is adjusted so that the operator can use the wrench 71 It is possible to quickly raise and lower the guide rod 5 and the plate 6 by adjusting the speed at which the guide rod 5 and the plate 6 for one rotation of the lifting member 40 are lifted and lowered, The degree to which the lift mechanism 6 is raised and lowered can be precisely controlled.

If the worker rotates the hexagonal wrench 71 on the fixing hole 52a of the screw shaft 50 as required, the guide rod 5 and the plate 6 can be rotated by the screw action of the screw shaft 50, The degree to which the guide rod 5 and the plate 6 are moved up and down can be more precisely controlled.

Therefore, when the operator raises the guide rod 5 and the plate 6, it is more convenient to raise and lower the plate 6 by adjusting the speed at which the plate 6 is lifted in three steps, There is an advantage that the degree to which the plate 6 is raised can be precisely controlled.

1 is a front sectional view showing a conventional lower mold structure,
FIG. 2 is a reference view showing an operation of a conventional lower mold structure,
3 is a front sectional view of a lower mold structure according to the present invention,
4 is a front sectional view showing an elevating mechanism of the lower mold structure according to the present invention,
FIG. 5 is a front sectional view showing a disassembled state of an elevating mechanism of a lower mold structure according to the present invention,
6 to 9 are reference views showing the operation of the lower mold structure according to the present invention.

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

3 to 9 illustrate a lower mold structure according to the present invention, which includes a lower panel 1, a spacer 2 provided on the upper surface of the periphery of the lower panel 1, A lower core 4 coupled to the upper panel 3 and having the cavity 4a formed on an upper surface thereof and a lower core 4 coupled to the upper panel 3 in a vertically movable manner, (6) provided between the upper panel (3) and the lower panel (1) and fixed to the lower end of the guide rod (5) And an elevating mechanism A provided on an upper surface of the panel 3 and connected to the guide rod 5 to elevate the guide rod 5. The elevating mechanism A is provided on the upper end of the guide rod 5, The engaging hole 5a, to which the engaging hole 5a is screwed, is concave downward.

At this time, the upper panel 3 is formed with a guide hole 3a through which the guide rod 5 can be lifted so as to pass through the upper and lower surfaces.

4, the elevating mechanism A includes a support block 30 extending in the vertical direction and having a through hole 31 passing through the upper and lower portions thereof in a central portion thereof, An elevating member 40 formed with a thread 41 threadedly engaged with the through hole 31 and formed with a through hole 42 passing through the upper and lower surfaces thereof, And a thread 51 is screwed to the coupling hole 5a at the lower end and a circular head 52 is formed at the upper end to be rotatable in the through hole 42 of the elevating member 40 And fixing means 61 and 63 provided at the periphery of the elevating member 40 for selectively fixing the screw shaft 50 coupled to the elevating member 40 .

The support block 30 is formed in the shape of a circular tube of metal and has a thread 32 on the inner peripheral surface of the through hole 31 and a lower end coupled to the upper surface of the upper panel 3 .

A fixing groove 3b corresponding to the lower end of the supporting block 30 is formed on the upper surface of the upper panel 3 so as to be concentric with the guide hole 3a, So that the lower end of the fixing groove 3b can be detachably coupled to the fixing groove 3b.

The inner diameter of the through hole (31) of the support block (30) is larger than the diameter of the guide rod (5).

The elevation member 40 has a hexagonal head portion 43 formed at its upper end to which a box 71a of the wrench 71 is engaged and a box 71a of the wrench 71 is coupled to the head, Respectively.

At this time, the enlarged diameter portion 42a into which the head portion 43 of the screw shaft 50 is inserted is formed at the upper end of the through hole 42 of the elevation member 40.

A concave groove 43a and a communication hole 43b penetrating the inner and outer sides of the head portion 43 are formed on the outer peripheral surface of the head portion 43 of the elevation member 40. [

The concave groove 43a is formed in the shape of a circular hole on the outer peripheral surface of the head portion 43. [

The communication hole 43b is formed in the head portion 43 in the form of a slot extending in the vertical direction.

At this time, the concave groove 43a is formed at the lower 1/3 position of the elevation member 40.

The communication hole 43b is formed to extend downward from the middle portion of the head portion 43. [

The concave groove 43a and the communication hole 43b are formed on the opposite side of the head portion 43, respectively.

The screw shaft 50 is configured such that a hexagonal fixing hole 52a is formed at the center of the upper surface of the head so that the screw shaft 50 can be rotated by inserting a hexagonal wrench 72 into the fixing hole 52a .

The circumferential surface of the head is formed with a plurality of engaging grooves 52b through which the fixing pieces 63 of the fixing means 61 and 63 are inserted.

At this time, the threads 41 of the elevating member 40 and the threads 51 of the screw shaft 50 are formed in opposite directions.

For example, when the elevation member 40 is rotated clockwise when viewed from above, the elevation member 40 and the screw shaft 50 are rotated in the clockwise direction, So that the guide rod 5 and the plate 6 are raised.

The thread 51 of the screw shaft 50 is formed of a right screw so that when the screw shaft 50 is rotated clockwise as viewed from the upper side, And the plate 6 are raised.

The fixing means 61 and 63 include a stopper ball 61 elastically coupled to the concave groove 43a so as to protrude outward by the spring 62 and to extend laterally A fixing piece 63 that is pivotally coupled to the inside and outside of the communication hole 43b by the hinge shaft 64 and is elastically pressed so that the lower end thereof protrudes outward by the elastic member 65, .

At this time, a locking protrusion 43c protrudes inwardly at the entrance of the concave groove 43a so that the stopper ball 61 inserted into the concave groove 43a is not separated from the concave groove 43a.

The width of the fixing part 63 is narrow and the width of the lower end is larger than the width from the outer peripheral surface of the head part 43 of the elevating member 40 to the through hole 42.

The elastic member 65 uses a torsion spring which elastically biases both ends of the fixing piece 63 to be fixed to the inner side surfaces of the fixing piece 63 and the communication hole 43b so that the lower end of the fixing piece 63 protrudes outward.

The lower end of the fixing piece 63 protrudes to the outside of the elevating member 40 and the lower end of the fixing piece 63 is fixed to the inner side by the box 71a coupled to the outside of the elevating member 40. [ The inner end of the fixing piece 63 is fitted into the engaging groove 52b of the head 52 of the screw shaft 50 so that when the elevating member 40 is rotated, Let it rotate together.

The operation of the lower mold structure thus constructed will be described below.

First, in a state in which the elevating mechanism A is separated, an injection mold is manufactured using the lower mold and the upper mold.

3 and 6, when the lower mold is lifted up by the elevation of the upper plate 3, the concave groove 43a of the upper panel 3 is pressed against the upper surface of the support block 30 And the lower end thereof is coupled to the concave groove 43a so that the elevating mechanism A is installed on the upper panel 3. [

At this time, the screw shaft 50 is normally pushed out.

7, when the hexagonal wrench 72 is engaged with the screw shaft 50 and the screw shaft 50 is rotated in the clockwise direction, the lower end of the screw shaft 50 is guided by the guide rod 5, And is screwed to the coupling hole 5a.

When the operator attaches the vault 71a of the wrench 71 to the outside of the head portion 43 of the elevation member 40 and rotates the elevation member 40 in the clockwise direction, The elevating member 40 is lifted by the action of the screw shaft 41 so that the guide rod 5 and the plate 6 coupled to the screw shaft 50 can be raised.

At this time, the operator adjusts the degree to which the box 71a of the wrench 71 is engaged with the head portion 43 of the elevating member 40, so that when the elevating member 40 makes one rotation, 5 and the plate 6 can be adjusted.

8, when the box 71a of the wrench 71 is coupled to the head portion 43 of the elevation member 40, the lower end of the box 71a is engaged with the stopper ball 71. As a result, (Not shown).

When the user turns the elevation member 40 clockwise using the wrench 71 in the state where the box 71a is caught by the stopper ball 61, the screw shaft 50 is not rotated, The elevating member 40 is lifted and the screw shaft 50 and the guide rod 5 and the plate 6 are moved upward by the action of the screw thread 41 formed on the elevating member 40, .

Therefore, the plate 6 can be slowly raised.

9, when the user pushes the box 71a of the wrench 71 downward while the box 71a is caught by the stopper ball 61, The lower end of the fixing piece 63 is pushed inward by the box 71a so that the fixing piece 63 is inserted into the lower part of the head part 43 while the box 71a is pushed into the inside of the fixing part 43a, Is engaged with the engaging groove 52b of the head portion 52 of the screw shaft 50. [

Therefore, when the worker rotates the elevating member 40 in the counterclockwise direction by the wrench 71, the elevating member 40 and the screw shaft 50 are rotated together. At this time, The elevating member 40 is raised by the elevating member 40 so that the guide rod 5 is lifted up and the guide rod 5 is raised by the screw action of the screw shaft 50, (6) is raised more quickly.

According to the lower mold structure thus configured, the degree to which the box 71a of the wrench 71 is coupled to the head portion 43 of the elevation member 40 is adjusted so that the operator can ascend and descend using the wrench 71 It is possible to quickly raise and lower the guide rod 5 and the plate 6 by adjusting the speed at which the guide rod 5 and the plate 6 for one rotation of the member 40 are moved up and down or the guide rod 5 and the plate 6) can be precisely adjusted.

If the worker rotates the hexagonal wrench 71 on the fixing hole 52a of the screw shaft 50 as required, the guide rod 5 and the plate 6 can be rotated by the screw action of the screw shaft 50, The degree to which the guide rod 5 and the plate 6 are moved up and down can be more precisely controlled.

Therefore, when the operator raises the guide rod 5 and the plate 6, it is more convenient to raise and lower the plate 6 by adjusting the speed at which the plate 6 is lifted in three steps, There is an advantage that the degree to which the plate 6 is raised can be precisely controlled.

A. elevator frame 30. support block
40. Lift member 50. Screw shaft
61, 63. Fixing means

Claims (1)

A lower panel 1,
A spacer 2 provided on an upper surface of the periphery of the lower panel 1,
An upper panel 3 fixed to the upper surface of the spacer 2,
A lower core 4 coupled to the upper panel 3 and having a cavity 4a formed on an upper surface thereof,
A guide rod 5 vertically coupled to the upper panel 3,
A flat plate 6 provided between the upper panel 3 and the lower panel 1 and fixed to the lower end of the guide rod 5 and elevated and lowered by an elevation driving means not shown,
And an elevating mechanism (A) provided on an upper surface of the upper panel (3) and connected to the guide rod (5) to elevate the guide rod (5)
And a coupling hole (5a) to which the elevating mechanism (A) is screwed is recessed downward at an upper end of the guide rod (5)
The elevating mechanism (A)
A support block 30 extending in the vertical direction and having a through hole 31 passing through the upper and lower portions at its center,
A hexagonal head portion 43 is formed on the outer circumference of which a vox 71a of the wrench 71 is engaged. An elevating member 40 having a through hole 42 passing through the upper and lower surfaces thereof,
A thread 51 which is screwed to the coupling hole 5a is formed at the lower end and a circular head 52 is formed at the upper end to form a through hole 52 of the elevating member 40, A screw shaft 50 rotatably coupled to the inside of the housing 42,
And fixing means (61, 63) provided at the periphery of the elevating member (40) for selectively fixing the screw shaft (50) coupled to the elevating member (40)
The pitch of the thread 41 of the elevating member 40 is larger than that of the thread 51 of the screw shaft 50,
The enlarged diameter portion 42a into which the head portion 52 of the screw shaft 50 is inserted is formed at the upper end of the through hole 42 of the elevating member 40,
A hexagonal fixing hole 52a is formed at the center of the upper surface of the head of the screw shaft 50 and a plurality of coupling grooves 52b are formed on the circumferential surface of the screw shaft 50 so as to be spaced apart at a predetermined angle,
A concave groove 43a and a communication hole 43b penetrating the inner and outer sides of the head portion 43 are formed on the outer peripheral surface of the head portion 43 of the elevation member 40,
The concave groove 43a and the communication hole 43b are formed to extend downward from the lower 1/3 position of the elevation member 40,
The fixing means (61, 63)
A stopper ball 61 elastically coupled to the concave groove 43a so as to protrude outward by a spring 62,
A lower end is rotatably coupled to the inner side of the communication hole 43b by a hinge shaft 64 provided so as to extend laterally in the upper direction and is elastically coupled to the inner side of the communication hole 43b by a resilient member 65 And a fixing piece (63) to be pressed,
The width of the fixing piece 63 is narrow and the width of the lower end is larger than the width from the outer circumferential surface of the head portion 43 of the elevating member 40 to the through hole 42, The inner end of the bolt 71a protrudes outward from the elevating member 40 and is coupled to the outside of the elevating member 40 so that the inner end of the bolt 71a engages with the engaging groove of the head portion 52 of the screw shaft 50. [ And the screw shaft (50) is rotated together when the elevating member (40) is rotated.

Images