CN216505730U - Die capable of drawing grooves on plates with various thicknesses - Google Patents

Abstract

The utility model provides a die capable of grooving plates with various thicknesses, so that the working efficiency and the accuracy of grooving positions are improved. A centering block is arranged on an operating platform of the die, and a left guide plate and a right guide plate are respectively placed on two sides of the centering block. The cutter can be put into to centering piece center, and left deflector is provided with left deflector breach, and right deflector is provided with right deflector breach, and the mount is fixed in relative both sides on operation platform, and the mount both ends are provided with left right angle arch and right angle arch and are used for fixed left deflector and right deflector. And a guide plate interval adjusting structure is arranged between the fixing frame and the left guide plate and between the fixing frame and the right guide plate. Need fix a position left deflector and right deflector before to the panel draw groove, keep the mount motionless and do not need centering block when changing into the panel of other thickness, only need adjustment deflector and gasket just can fix a position the deflector, improved work efficiency also can be more accurate to the panel location draw groove.

Description

Die capable of drawing grooves on plates with various thicknesses

Technical Field

The utility model relates to the field of plates, in particular to a plate grooving die.

Background

At present during panel side location kerve, as shown in fig. 1, need punch the location to wood system mould, then use the router to change the milling cutter of different diameters, adjust milling cutter to suitable degree of depth, the trench of drawing the board of different thickness at every turn simultaneously all need be adjusted wood system mould to between two parties, need rely on operating personnel's experience to debug during the adjustment milling cutter, because general condition is many times debugged, consequently machining efficiency is not high and kerve position accuracy deviation is great.

SUMMERY OF THE UTILITY MODEL

Aiming at the problems in the prior art, the utility model aims to provide a die capable of drawing grooves on plates with various thicknesses so as to improve the working efficiency and the position precision of the grooves. The operating platform is provided with a centering block, the center of which can be used for placing a cutter, and a left guide plate and a right guide plate are respectively placed on two sides of the centering block. The fixed frame is fixed on two opposite sides of the operating platform, and a guide plate interval adjusting structure is arranged between the fixed frame and the left guide plate and between the fixed frame and the right guide plate.

Furthermore, a left guide plate notch is formed in the left guide plate, a right guide plate notch is formed in the right guide plate, and a left right-angle protrusion and a right-angle protrusion are arranged at two ends of the fixing frame and used for fixing the left guide plate and the right guide plate.

Further, the guide plate interval adjusting structure comprises a gasket or a guide plate notch.

Further, the guide plate adjusting structure comprises a guide plate notch and a gasket.

Further, left side deflector and right deflector hug closely left right angle arch and right angle protruding internal surface respectively, and when the interval was greater than the thickness of panel between left side deflector and the right deflector, left side deflector breach and right deflector breach all set up inwards, all insert the gasket between left side deflector and left right angle arch and between right deflector and the right angle arch, make the interval between left side deflector and the right deflector be the thickness of panel.

Further, left side deflector and right deflector hug closely left right angle arch and right angle protruding internal surface respectively, when the interval is less than the thickness of panel between left side deflector and the right deflector, left side deflector breach and right deflector breach all set up outwards, if the distance between left side deflector and the right deflector this moment is greater than panel thickness, then all insert the gasket between left side deflector and left right angle arch and between right deflector and right angle arch, make the distance between left side deflector and the right deflector be the thickness of panel.

Further, the centering block is detachable.

Further, the size of the guide plate gap is various to adapt to different plate thicknesses.

Further, the size of the spacer is varied to accommodate different sheet thicknesses.

Furthermore, the operating platform, the left guide plate, the right guide plate, the gasket and the fixing frame are all made of high-density metal materials.

The mold has the following technical effects:

the guide plate is positioned through the fixing frame, an operator does not need to adjust the position of the die according to experience, positioning of pull grooves with different plate thicknesses can be achieved by only converting the installation mode of the guide plate, die change time is shortened, and machining efficiency is improved.

Secondly, through accurate location, clearance fit compares artifical location, very big improvement the machining precision of broach trench.

And thirdly, the excess materials are not used for correction and positioning, so that the waste of materials is avoided, and the production cost is reduced.

Drawings

FIG. 1 is a schematic view of a prior art slot drawing die;

FIG. 2 is a schematic view of a mold structure according to an embodiment of the present invention;

FIG. 3 is a schematic view of a second mold for processing 25 plates according to an embodiment of the present invention;

FIG. 4 is a schematic view of three dies working 36 plates according to an embodiment of the present invention;

10. an operating platform; 20-1, a left guide plate; 20-2, a right guide plate; 30. A fixed mount; 30-1, left right-angled protrusions; 30-2, right-angled protrusions; 60-1, a left guide plate notch; 60-2, a right guide plate notch; 70. a centering block; 80. a cutter; 100. a plate material; 160. deflector clamping device.

Detailed Description

To clearly illustrate the idea of the present invention, the present invention is described below with reference to examples.

In order to make those skilled in the art better understand the technical solution of the present invention, the technical solution of the present invention is described clearly and completely below with reference to the drawings in the examples of the present invention, and it is obvious that the described examples are only a part of examples of the present invention, and not all examples. All other embodiments obtained by a person skilled in the art based on examples of the present invention without inventive step shall fall within the scope of protection of the present invention.

In the description of the present embodiments, the terms indicating orientation or positional relationship are based on the orientation or positional relationship shown in the drawings only for the convenience of describing the present invention and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present invention.

As shown in fig. 1, the distance between the left and right guide plates 20-1 and 20-2 is generally adjusted by the guide plate holding device 160 in the prior art, and the guide plate holding device 160 needs to be detached and the positions of the left and right guide plates 20-1 and 20-2 need to be adjusted and fixed by the guide plate holding device 160 each time the plate material 100 is replaced. The regulator adjusts the left guide plate 20-1 and the right guide plate 20-2 manually, so that the processing efficiency is not high and the deviation of the groove drawing position precision is large.

As shown in FIG. 2, the present invention provides a die capable of grooving various thickness plates, which comprises an operation platform 10, a left guide plate 20-1, a right guide plate 20-2, a fixing frame 30, a centering block 70 arranged on the operation platform 10, a left guide plate 20-1 and a right guide plate 20-2 arranged on two sides of the centering block 70, a cutter 80 arranged on the centering block 70, guide plate notches 60-1 and 60-2 arranged on the opposite positions of the left and right guide plates 20-1 and 20-2 respectively (for adapting to the processing of other plates 100, it is not explained much that other guide plate notches with other sizes are arranged on the other end), the fixing frame 30 fixed on two opposite sides of the operation platform 10, and a left right-angled protrusion 30-1 and a right-angled protrusion 30-2 arranged on two ends of the fixing frame 30 for fixing the left guide plate 20-1 and the right guide plate 20-2, a guide plate interval adjusting structure is arranged between the fixed frame 30 and the left guide plate 20-1 and the right guide plate 20-2. When the distance between the left guide plate 20-1 and the right guide plate 20-2 is adjusted to the thickness distance of the plate 100, the left guide plate 20-1 and the right guide plate 20-2 are fixed on the operation platform 10 through a fixing device, which may be clamped or may be other means commonly used in the art, such as screws and nuts. For the precision of the die, the operating platform 10, the left guide plate 20-1, the right guide plate 20-2, the fixing frame 30 and the centering block 70 are all made of high-density metal materials so as to prevent the die deformation from influencing the slot drawing precision.

The specific operation of the width adjustment structure of the fixing frame of the present invention is illustrated in the following examples with 25mm sheet material, 18mm sheet material and 36mm sheet material (the mold can be used for other sheet materials, and three are selected here for the specific operation only).

Example one

As shown in FIG. 3, when the thickness of the sheet material 100 to be grooved is 25mm, before grooving the sheet material 100 with the thickness of 25mm, the centering block 70 shown in FIG. 2 is placed on the cutter 80 in the middle of the operation platform 10, the angle of the centering block 70 is adjusted to be perpendicular to the fixing frame 30 installed on the side surface of the operation platform 10 along the length direction, and the left guide plate notch 60-1 and the right guide plate notch 60-2 are inward, so that the left right-angled protrusion 30-1 on the fixing frame 30 is tightly attached to the left guide plate 20-1, the right-angled protrusion 30-2 is tightly attached to the right guide plate 20-2, the distance between the left guide plate 20-1 and the right guide plate 20-2 reaches 25mm (the distance between the inner side surface of the left right-angled protrusion 30-1 and the right-angled protrusion 30-2 is preset to be the distance of the sheet material 100 of 25mm, which is the sum of the widths of the left guide plate 20-1 and the right guide plate 20-2), then, after the fixing frame 30 is fixed, the positioning center 70 is removed, and the 25mm plate 100 is processed between the left guide plate 20-1 and the right guide plate 20-2. At the moment, the fixed frame 30, the left guide plate 20-1 and the right guide plate 20-2 are fixed, and the reserved gap in the middle is the thickness distance of the 25mm plate 100, so that the groove drawing precision is improved.

Example two

When the thickness of the plate material 100 requiring the slot drawing is from large to small, the plate material 100 with the thickness of 25mm to the plate material 100 with the thickness of 18mm set in the first embodiment is exemplified. As shown in fig. 3, when the 18mm plate 100 is grooved under the die of the first embodiment, since the distance between the left guide plate 20-1 and the right guide plate 20-2, that is, the thickness of the plate 100, is 25mm, the left guide plate notch 60-1 and the right guide plate notch 60-2 are inward. At this time, only 3.5mm of spacer (not shown) is inserted into the position where the left guide plate 20-1 meets the left right-angled protrusion 30-1, and 3.5mm of spacer is inserted into the position where the right guide plate 20-2 meets the right-angled protrusion 30-2, so that the distance between the left guide plate 20-1 and the right guide plate 20-2 is 18mm, that is, the thickness of the plate 100. The plate 100 is directly machined between the left guide plate 20-2 and the right guide plate 20-1, the center block 70 does not need to be adjusted again, and only a gasket needs to be added according to specific data to adjust the position of the guide plate, so that the working efficiency is greatly improved, and the precision is improved greatly compared with that of adjustment by an operator according to experience because the directions of the cutter 80, the position of the guide plate and the like are not changed.

EXAMPLE III

When the thickness of the plate material 100 needing the drawing groove is from small to large, the plate material 100 with the thickness of 25mm to the plate material 100 with the thickness of 36mm set in the first embodiment is exemplified. As shown in fig. 4, when the thickness of the plate 100 requiring grooving is 36mm, the left guide plate notch 60-1 and the right guide plate notch 60-2 are required to be outward, and the distance between the left guide plate 20-1 and the right guide plate 20-2 is larger than that of the previous plate, so that the sum of the widths of the right guide plate notch 60-1 and the left guide plate notch 60-2 is enlarged, and if the sum of the widths of the left guide plate notch 60-1 and the right guide plate notch 60-2 is 11mm, the left guide plate 20-1 and the right guide plate 20-2 can be directly fixed, and the plate 100 with the thickness of 36mm is processed.

If the left guide plate notch 60-1 and the right guide plate notch 60-2 are both outward and the sum of the widths of the left guide plate notch 60-1 and the right guide plate notch 60-2 is less than 11mm, a gasket (not marked in the figure) needs to be inserted into the position where the left guide plate 20-1 is connected with the right-angled protrusion 30-2, and a gasket with the same thickness needs to be inserted into the position where the right guide plate 20-2 is connected with the right-angled protrusion 30-2. The relationship between the thickness of the two spacers and the width of the right guide plate notch 60-1 and the width of the left guide plate notch 60-2 is as follows: the difference between the sum of the thicknesses of the two gaskets subtracted from the sum of the widths of the right guide plate notch 60-1 and the left guide plate notch 60-2 is 11 mm. The thickness of the spacer is selected according to the above relationship based on the width dimensions of the guide plate notch 60-1 and the right guide plate notch 60-2. When the distance between the left guide plate 20-1 and the right guide plate 20-2 is 36mm, i.e., the thickness of the plate material 100, the processing of the plate material 100 is started.

It is noted that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of example embodiments according to the present application.

Finally, it is to be understood that the above embodiments are merely exemplary embodiments taken to illustrate the principles of the present invention, which is not intended to be limiting. It will be apparent to those skilled in the art that various changes and modifications can be made therein without departing from the spirit and scope of the utility model, and these changes and modifications are to be considered as within the scope of the utility model.

Claims (10)

1. A die capable of drawing grooves on plates with various thicknesses comprises an operation platform, a left guide plate, a right guide plate and a fixing frame, and is characterized in that the operation platform is provided with a centering block, a cutter can be placed in the center of the centering block, and the left guide plate and the right guide plate are respectively placed on two sides of the centering block; the fixing frame is fixed on two opposite sides of the operating platform, and a guide plate interval adjusting structure is arranged between the fixing frame and the left guide plate and between the fixing frame and the right guide plate.

2. The die capable of grooving plates with various thicknesses according to claim 1, wherein a left guide plate notch is formed in the left guide plate, and a right guide plate notch is formed in the right guide plate; the fixing frame is provided with a left right-angle bulge and a right-angle bulge at two ends, and the left guide plate and the right guide plate are used for fixing.

3. The die capable of grooving multiple thicknesses of sheet materials according to claim 2, wherein the guide plate spacing adjustment structure comprises a spacer or the guide plate notch.

4. The die capable of grooving multiple thicknesses of sheet material according to claim 2, wherein the guide plate spacing adjustment structure comprises the guide plate notches and spacers.

5. The die capable of grooving multiple-thickness plates according to any one of claims 3 or 4, wherein the left guide plate and the right guide plate are respectively tightly attached to inner surfaces of the left right-angled protrusion and the right-angled protrusion, when a distance between the left guide plate and the right guide plate is larger than a thickness of the plates, the left guide plate notch and the right guide plate notch are both arranged inward, and the gaskets are respectively inserted between the left guide plate and the left right-angled protrusion and between the right guide plate and the right-angled protrusion, so that the distance between the left guide plate and the right guide plate is the thickness of the plates.

6. The die capable of grooving multiple-thickness plates according to any one of claims 3 or 4, wherein the left guide plate and the right guide plate are respectively tightly attached to inner surfaces of the left right-angle protrusion and the right-angle protrusion, when a distance between the left guide plate and the right guide plate is smaller than a thickness of the plate, the left guide plate notch and the right guide plate notch are both arranged outwards, and if the distance between the left guide plate and the right guide plate is larger than the thickness of the plate, the gaskets are respectively inserted between the left guide plate and the left right-angle protrusion and between the right guide plate and the right-angle protrusion, so that the distance between the left guide plate and the right guide plate is the thickness of the plate.

7. The die capable of grooving multiple thickness sheet materials according to claim 1, wherein the centering block is removable.

8. The die capable of grooving multiple thicknesses of sheet material according to claim 2, wherein the guide plate gap is sized to accommodate different sheet material thicknesses.

9. The die capable of grooving multiple thicknesses of sheet material according to claim 3, wherein the size of the shim is multiple to accommodate different sheet material thicknesses.

10. The die capable of grooving multiple thicknesses of sheet materials according to claim 3, wherein the operating platform, the left guide plate, the right guide plate, the gasket and the fixing frame are made of high-density metal materials.

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