CN219403335U - Quick cutting tool for semiconductor aluminum alloy pipe forging - Google Patents

Abstract

The utility model discloses a rapid cutting tool for a semiconductor aluminum alloy tube forging, which comprises a base, wherein the base is provided with a die; the two supporting pieces are oppositely arranged on the top surface of the base along the horizontal direction, the supporting pipe type forge piece is horizontally arranged above the base, at least one supporting piece slides on the base along the opposite arrangement direction of the two supporting pieces to adjust the distance between the two supporting pieces, a locking assembly is arranged between the supporting pieces and the base, and the locking assembly is used for locking the supporting pieces at least two working positions. This quick cutting frock of semiconductor aluminum alloy tubular forging supports tubular forging through two support piece, and at least one support piece is adjustable and locking position to conveniently adjust the distance of two support pieces, so, the device can be according to the external diameter size flexible adjustment of tubular forging two support piece's distance, in order to realize the firm support to tubular forging, and further enlarge application scope.

Description

Quick cutting tool for semiconductor aluminum alloy pipe forging

Technical Field

The utility model relates to the technical field of aluminum alloy cutting, in particular to a rapid cutting tool for a semiconductor aluminum alloy tube forging.

Background

Compared with common castings, the forging has good mechanical properties, the bearing capacity and the impact resistance are obviously improved, and most of currently used bearing parts are mostly forged. Forging of the forging piece is to press the metal material to cause plastic deformation, so that metal holes and transportation are eliminated, and the mechanical property of the metal material is improved. After forging, the forging piece is generally required to be cut, for example, a tube-shaped forging piece is cut into a plurality of annular workpieces, and various devices are usually required to be used for fixing the forging piece before cutting to ensure cutting precision.

In the prior art, chinese patent publication No. CN214236586U discloses a fixing clamp for processing metal bar stock, and the clamp is used for jointly fixing bar stock through clamping grooves with different shapes of upper and lower clamps, so that bar stock with various specification diameters can be clamped and fixed, the bar stock is convenient to take and place, the device is simple in structure and convenient to use.

In the clamp, the upper clamp and the lower clamp are matched with each other to fix forgings with different outer diameters, but the structure of the upper clamp and the lower clamp is fixed, so that when the upper clamp and the lower clamp are too small, the upper clamp groove and the lower clamp groove are too shallow, firm positioning of forgings with larger outer diameters is difficult to realize, and when the upper clamp and the lower clamp are too large, the upper clamp groove and the lower clamp groove are too deep, and positioning of forgings with small pipe diameters is impossible; moreover, when the fixing tool is used, the position of the forging piece in the radial direction can be realized, and when the forging piece is cut, axial deviation is easy to occur to the forging piece, so that the cutting precision is affected.

Therefore, there is a need for an improvement in forging cutting tools in the prior art.

Disclosure of Invention

The utility model aims to overcome the defects in the prior art and provides a rapid cutting tool for a semiconductor aluminum alloy tube forging, which further expands the application range and ensures good positioning effect so as to improve the cutting quality.

In order to achieve the technical effects, the technical scheme of the utility model is as follows: a quick cutting tool for a semiconductor aluminum alloy pipe forging comprises:

a base;

the support device comprises two support pieces, wherein the two support pieces are oppositely arranged on the top surface of a base along the horizontal direction, the support pieces are horizontally arranged above the base through support pipe forgings, at least one support piece slides on the base along the opposite arrangement direction of the two support pieces so as to adjust the distance between the two support pieces, a locking assembly is arranged between the support pieces and the base, and the locking assembly is used for locking the support pieces at least two working positions.

Preferably, in order to realize stable support to the tubular forging, both the supporting pieces comprise supporting inclined planes for supporting the tubular forging, and the plane where the supporting inclined planes are located is obliquely intersected with the base.

Preferably, in order to facilitate cutting of the tubular forging and avoid damage to the supporting member, the length of the contact surface between the supporting inclined surface and the tubular forging is smaller than that of the tubular forging.

Preferably, in order to realize the position locking to the support piece, the locking component includes the bolt, be provided with first jack on the support piece, be provided with on the base along two the support piece sets up a plurality of second jacks of direction interval distribution relatively, first jack passes through the bolt is locked with one of them second jack and is connected.

Preferably, in order to avoid the latch from being separated from the first jack, a limiting member is disposed on the supporting member, and the limiting member is used for preventing the latch from being separated from the first jack.

Preferably, in order to limit the movement range of the latch, the latch is prevented from being separated from the first jack, and the limiting piece is arranged on one side, away from the second jack, of the first jack.

Preferably, in order to expand the adjustment range of the distance between the two supporting pieces, the placement position of the tubular forging piece is conveniently adjusted, and the two supporting pieces slide on the base.

Preferably, in order to improve the cutting quality of the tubular forging, the radial positioning assembly further comprises two positioning pieces distributed along the horizontal direction and an adjusting unit for adjusting the distance between the two positioning pieces, wherein the projection of the two positioning pieces on the horizontal plane continuously perpendicularly intersects with the projection of the two supporting pieces on the two horizontal planes.

Preferably, in order to facilitate adjustment of the distance between the two positioning members, the two positioning members include a fixing member fixedly connected to the base and an adjusting member sliding on the base in a horizontal direction.

Preferably, in order to realize the distance adjustment control of the fixing piece and the adjusting piece, the adjusting unit comprises an adjusting motor arranged on the base, a screw rod connected with the output end of the adjusting motor in a coaxial line mode and a threaded sleeve matched with the screw rod in a threaded mode, and the threaded sleeve is connected with the adjusting piece.

In summary, compared with the prior art, the quick cutting tool for the semiconductor aluminum alloy tubular forging provided by the utility model has the advantages that the tubular forging is supported by the two supporting pieces, and the distance between the two supporting pieces can be conveniently adjusted by adjusting and locking the position of at least one supporting piece, so that the device can flexibly adjust the distance between the two supporting pieces according to the outer diameter size of the tubular forging, thereby realizing the stable support of the tubular forging and further expanding the application range.

Drawings

FIG. 1 is a schematic view of the usage state of a first embodiment of the present utility model;

FIG. 2 is a front view of FIG. 1;

FIG. 3 is a schematic view of the structure of a first embodiment of the present utility model;

FIG. 4 is an exploded view of FIG. 3;

FIG. 5 is a schematic view of the usage status of the second embodiment of the present utility model;

FIG. 6 is a side view of FIG. 5;

FIG. 7 is an exploded view of FIG. 5;

in the figure: 100. a base; 101. a chute; 102. a second jack; 200. a support; 201. a support slope; 202. a first jack; 300. a plug pin; 400. a limiting piece; 500. a fixing member; 600. an adjusting member; 700. adjusting a motor; 800. a screw; 900. a screw sleeve; 110. a directional sleeve; 120. a tubular forging; 130. a bottom plate; 140. a riser; 150. a sloping plate; 160. and a connecting rod.

Detailed Description

The following describes the embodiments of the present utility model further with reference to the drawings and examples. The following examples are only for more clearly illustrating the technical aspects of the present utility model, and are not intended to limit the scope of the present utility model.

First embodiment

As shown in fig. 1 to 4, the rapid cutting tool for the semiconductor aluminum alloy tube-shaped forging of the first embodiment includes:

a base 100;

the two supporting members 200 are oppositely arranged on the top surface of the base 100 along the horizontal direction, the supporting tube type forging 120 is horizontally arranged above the base 100, at least one supporting member 200 slides on the base 100 along the opposite arrangement direction of the two supporting members 200 to adjust the distance between the two supporting members 200, a locking assembly is arranged between the supporting members 200 and the base 100, and the locking assembly is used for locking the supporting members 200 at least two working positions.

Specifically, the base 100 is of a rectangular plate-shaped structure, the top surface of the base 100 is provided with a chute 101, the cross section of the chute 101 is in an inverted T shape, so that stable sliding fit between the supporting member 200 and the chute 101 is ensured, the supporting member 200 comprises a bottom plate 130 which is horizontally arranged, the bottom plate 130 slides in the chute 101, two vertical plates 140 which are distributed along the horizontal direction perpendicular to the arrangement direction of the two supporting members 200 are fixed above the bottom plate 130, one side of each vertical plate 140 is fixedly connected through a sloping plate 150, and the sloping plates 150 of the two supporting members 200 are adjacently arranged.

In this embodiment, the tubular forging 120 is supported by two opposite supporting members 200, and when the tubular forging 120 is supported, the inclined plate 150 contacts the circumferential outer edge of the tubular forging 120, so that the tubular forging 120 is horizontally arranged, and then the tubular forging 120 is cut from top to bottom, so that the tubular forging 120 is cut into a plurality of annular workpieces. In this embodiment, since at least one of the supporting members 200 can slide on the top of the base 100 through the sliding groove 101, the distance between the two supporting members 200 can be adjusted, and then the distance between the two inclined plates 150 can be adjusted, and then the position of the slidable supporting member 200 can be locked through the locking assembly, and then the distance between the two supporting members 200 can be fixed, so that the distance between the two inclined plates 150 can be fixed, and the position of the supporting member 200 can be adjusted according to the outer diameter dimension of the tubular forging 120, and the position locking can be performed after the adjustment, so as to realize the stable support of the tubular forging 120.

Both supporting members 200 include supporting slopes 201 for supporting the tube-shaped forgings, and a plane in which the supporting slopes 201 are located obliquely intersects the base 100. Specifically, the supporting inclined plane 201 is one surface of the inclined plate 150 facing away from the riser 140 and the bottom plate 130, in this embodiment, the included angle between the supporting inclined planes 201 of the two supporting members 200 and the top surface of the base 100 is 45 °, and the supporting inclined planes 201 are arranged in an inclined manner to support the tubular forging 120, however, the included angle between the supporting inclined planes 201 and the tubular forging 120 may be other non-right angles, and only the two supporting inclined planes 201 and the base 100 need to be enclosed to form a clamping groove with a flared cross section.

A further improvement is that the length of the contact surface of support ramp 201 with tube forging 120 is less than the length of tube forging 120. By shortening the length of the contact surface between the supporting inclined surface 201 and the tubular forging piece 120, the tubular forging piece 120 is partially exposed out of the supporting inclined surface 201, so that the cutter is convenient to cut the portion of the tubular forging piece 120 exposed out of the supporting inclined surface 201, and damage to the supporting piece 200 during cutting operation is avoided.

Further improved is that the locking assembly comprises a bolt 300, a first jack 202 is arranged on the supporting piece 200, a plurality of second jacks 102 are arranged on the base 100 at intervals along the opposite arrangement direction of the two supporting pieces 200, and the first jack 202 is in locking connection with one of the second jacks 102 through the bolt 300. In order to lock the positions of the supporting members 200, in this embodiment, the first insertion holes 202 are through holes formed on the bottom plate 130 and extend along the thickness direction of the bottom plate 130, the second insertion holes 102 are through holes formed on the bottom of the chute 101, the first insertion holes 202 on the bottom plate 130 are two and distributed along the horizontal direction perpendicular to the distribution direction of the two supporting members 200, correspondingly, the two pins 300 are provided, the second insertion holes 102 are provided with two rows and are in one-to-one correspondence with the two first insertion holes 202, the tops of the two pins 300 are fixedly connected through the connecting rod 160, and the two pins 300 are driven to synchronously move through the connecting rod 160, so as to realize the plug-in fit of the two first insertion holes 202 with two second insertion holes 102 in the two rows of second insertion holes 102.

Moving the plug 300, inserting the plug 300 into the second jack 102 through the first jack 202 can lock the positions of the bottom plate 130 and the supporting member 200, moving the plug 300 upwards, so that the plug 300 is separated from the second jack 102, and the bottom plate 130 and the supporting member 200 can slide along the chute 101, thereby adjusting the positions of the supporting member 200 and the supporting inclined planes 201 to change the distance between the two supporting inclined planes 201, and making the device suitable for horizontal support of tubular forgings 120 with different outer diameters.

A further improvement is that a limiting piece 400 is arranged on the supporting piece 200, and the limiting piece 400 is used for preventing the bolt 300 from being separated from the first jack 202; the limiting member 400 is disposed on a side of the first jack 202 away from the second jack 102. Specifically, the limiting member 400 is a limiting strip, two ends of the limiting strip are fixedly connected with the two vertical plates 140 respectively, and the limiting strip is arranged right above the plug 300, so that the moving range of the plug 300 is limited, and the plug 300 is prevented from being separated from the first jack 202 when moving upwards.

The further improvement is that the two supporting members 200 slide on the base 100, specifically, the two supporting members 200 have the same structure, the chute 101 is a through slot, after the design is adopted, the position of any one supporting member 200 is conveniently adjusted so as to change the distance between the two supporting inclined planes 201, thereby being suitable for the tubular forgings 120 with different outer diameter sizes.

Second embodiment

As shown in fig. 5 to 7, the rapid cutting tool for a semiconductor aluminum alloy tube-shaped forging of the second embodiment is based on the first embodiment, and is different in that the rapid cutting tool further comprises a radial positioning assembly, wherein the radial positioning assembly comprises two positioning pieces distributed along the horizontal direction and an adjusting unit for adjusting the distance between the two positioning pieces, and the projection of the two positioning pieces on the horizontal plane continuously perpendicularly intersects with the projection of the two supporting pieces 200 on the two horizontal planes.

Specifically, one of the two positioning members is a fixing member 500, the other is an adjusting member 600, the fixing member 500 is a fixing plate fixed on the base 100, the plate surface of the fixing plate is parallel to the vertical direction, and the plate surface of the fixing plate is parallel to the length direction of the chute 101; the adjusting member 600 is an adjusting plate, the adjusting plate is disposed on one side of the supporting member 200 away from the fixing member 500, and the adjusting plate is parallel to the fixing plate, and the adjusting member 600 is connected with an adjusting unit for driving the adjusting member to translate so as to change the distance between the adjusting member and the fixing plate.

When the tool is used, after the positions of the two supporting pieces 200 are adjusted and fixed, the tubular forging 120 is placed on the two supporting pieces 200, the adjusting unit is started to drive the adjusting piece 600 to move, the adjusting piece 600 is close to one end of the tubular forging 120 and pushes the tubular forging 120 to move, and finally the other end of the tubular forging 120 is abutted against the fixing piece 500, so that the position of the tubular forging 120 is fixed, and then the tubular forging 120 is cut.

The further improvement is that the adjusting unit comprises an adjusting motor 700 arranged on the base 100, a screw 800 connected with the output end of the adjusting motor 700 in a coaxial line manner and a screw sleeve 900 in threaded fit with the screw 800, one end of the screw sleeve 900 away from the adjusting motor 700 is fixedly connected with the adjusting piece 600, wherein the adjusting motor 700 is fixed above the base 100, the top surface of the base 100 is also fixed with an orientation sleeve 110, and the screw sleeve 900 is hermetically penetrated inside the orientation sleeve 110 and is in sliding fit with the orientation sleeve 110.

When the adjusting piece 600 is driven to move, the adjusting motor 700 is started to drive the screw 800 to rotate around the axis of the screw 800, the screw 800 acts on the screw sleeve 900 through the threads of the screw 800, so that the screw sleeve 900 moves along the length direction of the screw sleeve 900 under the guiding action of the directional sleeve 110, and the adjusting piece 600 is driven to move, so that the distance between the adjusting piece 600 and the fixing piece 500 is changed.

The foregoing is merely a preferred embodiment of the present utility model, and it should be noted that it will be apparent to those skilled in the art that several modifications and variations can be made without departing from the technical principle of the present utility model, and these modifications and variations should also be regarded as the scope of the utility model.

Claims (10)

1. Quick cutting frock of semiconductor aluminum alloy tube forging, its characterized in that includes:

a base (100);

the support device comprises two support pieces (200), wherein the two support pieces (200) are oppositely arranged on the top surface of the base (100) along the horizontal direction, the support pipe type forge piece is horizontally arranged above the base (100), at least one support piece (200) slides on the base (100) along the opposite arrangement direction of the two support pieces (200) so as to adjust the distance between the two support pieces (200), a locking assembly is arranged between the support pieces (200) and the base (100), and the locking assembly is used for locking the support pieces (200) at least two working positions.

2. The rapid cutting tool for the semiconductor aluminum alloy tube forging according to claim 1, wherein: both support members (200) comprise support slopes (201) for supporting the tube forging, the plane in which the support slopes (201) lie obliquely intersecting the base (100).

3. The rapid cutting tool for the semiconductor aluminum alloy tube forging according to claim 2, wherein: the length of the contact surface of the supporting inclined surface (201) and the tubular forging is smaller than that of the tubular forging.

4. The rapid cutting tool for the semiconductor aluminum alloy tube forging according to claim 1, wherein: the locking assembly comprises a plug pin (300), a first jack (202) is arranged on the supporting piece (200), a plurality of second jacks (102) which are distributed along the opposite arrangement direction of the two supporting pieces (200) at intervals are arranged on the base (100), and the first jack (202) is in locking connection with one of the second jacks (102) through the plug pin (300).

5. The rapid cutting tool for the semiconductor aluminum alloy tube forging according to claim 4, wherein: the support (200) is provided with a limiting piece (400), and the limiting piece (400) is used for preventing the bolt (300) from being separated from the first jack (202).

6. The rapid cutting tool for the semiconductor aluminum alloy tube forging according to claim 5, wherein: the limiting piece (400) is arranged on one side, away from the second jack (102), of the first jack (202).

7. The rapid cutting tool for the semiconductor aluminum alloy tube forging according to claim 1, wherein: both supports (200) slide on the base (100).

8. The rapid cutting tool for the semiconductor aluminum alloy tube forging according to claim 1, wherein: the device further comprises a radial positioning assembly, wherein the radial positioning assembly comprises two positioning pieces distributed along the horizontal direction and an adjusting unit for adjusting the distance between the two positioning pieces, and the projection of the two positioning pieces on the horizontal plane continuously perpendicularly intersects with the projection of the two supporting pieces (200) on the two horizontal planes.

9. The rapid cutting tooling for the semiconductor aluminum alloy tube swage according to claim 8, wherein: the two positioning pieces comprise a fixing piece (500) fixedly connected with the base (100) and an adjusting piece (600) sliding on the base (100) along the horizontal direction.

10. The rapid cutting tooling for the semiconductor aluminum alloy tube swage according to claim 9, wherein: the adjusting unit comprises an adjusting motor (700), a screw rod (800) connected with the output end of the adjusting motor (700) in a coaxial line mode and a threaded sleeve (900) in threaded fit with the screw rod (800), and the threaded sleeve (900) is connected with the adjusting piece (600).