CN218137418U - Multi-azimuth machine machining jig for notebook computer shell - Google Patents

Abstract

The utility model relates to a notebook computer makes technical field, concretely relates to many azimuth machine processing tool of notebook computer casing, which comprises a base plate, support column and platform, still include fixed subassembly, fixed subassembly includes the frame, L type pole, lift the lifter, the connecting rod, place the board, screw and knob, when using this tool to fix the notebook computer casing, place the notebook computer casing in the top of platform, then the operator lifts up the lifter, the one end rebound of lifting the lifter, the other end that drives to lift the lifter moves L type pole toward the direction that is close to the lifter, when L type pole and lifting pole junction were pulled up, the tip of L type pole just can be lifted up, the screw this moment and place the distance grow between the board, thereby conveniently place the notebook computer casing on placing the board, two sets of fixed subassemblies push down the notebook computer casing simultaneously.

Description

Multi-azimuth machine machining jig for notebook computer shell

Technical Field

The utility model relates to a notebook computer makes technical field, especially relates to a many square machine processing tools of notebook computer casing.

Background

The notebook computer shell processing jig is used for fixing a notebook computer shell above a platform, then processing procedures such as drilling and polishing are carried out on the jig, and when the notebook computer shell processing jig is installed on the platform, the notebook computer shell processing jig is unstable in fixation, easy to cause position deviation, and inaccurate in processing position.

Usually, a fixing device is added on the platform for fixing.

However, after the notebook computer shell is fixed, the notebook computer shell is easily displaced due to pressure in later processing, and is fixed around the notebook computer shell, and the middle hollow position is easily deformed.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a many side of notebook computer casing machine tool has solved the fixing device who uses at present, behind fixed notebook computer shell, in the processing of later stage, the notebook computer shell receives pressure, takes place the displacement easily to fix around the notebook computer shell, the problem of the condition of deformation appears easily in the hollow position in middle part.

In order to achieve the purpose, the utility model provides a notebook computer casing machine tool of many square positions, including base plate, support column, platform and fixed subassembly, the quantity of support column is four, four the support column with the base plate fixed connection, and be located respectively at every base angle department of base plate, the platform with the support column fixed connection, and be located the top of support column, the top of platform has seted up the rectangular channel, the quantity of fixed subassembly is two sets, two sets of fixed subassembly relative setting respectively in the top of platform; each group of fixing components comprises a rack, an L-shaped rod, a lifting rod, a connecting rod, a placing plate, a screw and a knob, wherein the rack is fixedly connected with the platform and is positioned above the platform, the L-shaped rod is hinged with the rack and is positioned on one side of the rack, the lifting rod is hinged with the L-shaped rod and is positioned on one side of the L-shaped rod, one end of the connecting rod is hinged with the lifting rod, the other end of the connecting rod is hinged with the rack, the placing plate is fixedly connected with the platform and is positioned above the platform and below the L-shaped rod, the screw penetrates through the L-shaped rod, and the knob is fixedly connected with the screw and is positioned at one end of the screw.

The fixed component further comprises anti-skid units, the number of the anti-skid units is two, and the anti-skid units are arranged above the platform oppositely.

Each group of anti-skid units comprises a vertical plate, a plurality of springs and a supporting plate, the vertical plate is fixedly connected with the platform and is positioned above the platform, one end of each spring is fixedly connected with the vertical plate, and the other end of each spring is fixedly connected with the supporting plate.

The machining jig for the multiple square computers of the notebook computer shell further comprises two rubber pressing blocks, wherein the two rubber pressing blocks are arranged at the corresponding ends, far away from the knob, of the screws respectively.

The multi-azimuth machining jig for the notebook computer shell further comprises a jacking assembly, and the jacking assembly is arranged above the base plate.

Wherein, the jacking subassembly includes mount pad, first connecting rod, second connecting rod, jacking board, fixed block, threaded rod and carousel, the mount pad with base plate fixed connection, and be located the top of base plate, the quantity of first connecting rod is two, two first connecting rod respectively with the mount pad is articulated, the quantity of second connecting rod is two, two the one end of second connecting rod respectively with correspond first connecting rod is articulated, two the other end of second connecting rod respectively with the jacking board is articulated, the quantity of fixed block is two, two the fixed block respectively with correspond second connecting rod fixed connection, the one end and one of them of threaded rod the fixed block rotates to be connected, and pass another one the fixed block with carousel fixed connection.

Wherein, the jacking subassembly still includes the dwang, the dwang with carousel fixed connection, and be located one side of carousel.

The utility model discloses a many sides of notebook computer casing machine tool, when using this tool to fix the notebook computer shell, place the notebook computer shell the top of platform, then the operator lifts up lift the pole, the one end of lifting the pole upwards moves, drives the other end of lifting the pole will L type pole is toward being close to lift the direction removal of pole, works as L type pole with when lifting the pole junction is pulled up, the tip of L type pole just can be lifted up, this moment the screw with place the distance grow between the board to conveniently place the notebook computer shell place on the board, two sets of fixed subassembly pushes down the notebook computer shell simultaneously, then rotates the knob, the knob rotates, drives the screw rotates, makes rubber compresses tightly the notebook computer shell to fix the both sides of notebook computer shell, after the both sides are fixed, through the pulling hold the board, hold the spring, the spring compression is held, treats that the notebook computer shell is pressed, and the notebook computer shell moves when the notebook computer shell moves, the notebook computer shell takes place the displacement more the notebook computer shell, thereby the notebook computer shell displacement of taking place the notebook computer shell, the displacement more the notebook computer shell takes place the notebook computer shell, the displacement, the notebook computer shell takes place the notebook computer shell, and the displacement to the notebook computer shell takes place the displacement more.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below.

Fig. 1 is a schematic view of the overall structure of the first embodiment of the processing jig for multiple computers of notebook computer housings.

Fig. 2 is a perspective view of the first embodiment of the processing jig for a plurality of cubic computers of a notebook computer casing.

Fig. 3 is a partial structure enlarged view of the first embodiment of the machining jig for the multiple square computers of the notebook computer shell.

Fig. 4 is a schematic view of the overall structure of the second embodiment of the processing jig for multiple cubic computers of notebook computer shells.

Fig. 5 is a partial structure enlarged view of a second embodiment of the machining jig for a plurality of cubic computers of a notebook computer casing.

101-base plate, 102-supporting column, 103-platform, 104-rectangular groove, 105-frame, 106-L-shaped rod, 107-lifting rod, 108-connecting rod, 109-placing plate, 110-screw, 111-knob, 112-vertical plate, 113-spring, 114-supporting plate, 115-rubber pressing block, 201-mounting seat, 202-first connecting rod, 203-second connecting rod, 204-fixing block, 205-threaded rod, 206-rotary table, 207-rotating rod and 208-jacking plate.

Detailed Description

Reference will now be made in detail to the embodiments of the present invention, examples of which are illustrated in the accompanying drawings, which are described below by way of example with reference to the accompanying drawings, and which are intended to illustrate the present invention and are not to be construed as limiting the same.

The first embodiment of the present application is:

please refer to fig. 1-3, wherein fig. 1 is an overall structure schematic diagram of the first embodiment of the multi-square-position machining jig for the notebook computer housing of the present invention, fig. 2 is a perspective diagram of the first embodiment of the multi-square-position machining jig for the notebook computer housing of the present invention, fig. 3 is a local structure enlarged diagram of the first embodiment of the multi-square-position machining jig for the notebook computer housing of the present invention, the present invention provides a multi-square-position machining jig for the notebook computer housing of the present invention, which comprises a base plate 101, a support column 102, a platform 103, a frame 105, an L-shaped rod 106, a lifting rod 107, a connecting rod 108, a placing plate 109, a screw 110, a knob 111, a vertical plate 112, a spring 113, a holding plate 114 and a rubber press block 115;

for the specific embodiment, the number of the support columns 102 is four, the four support columns 102 are fixedly connected with the substrate 101 and are respectively located at each bottom corner of the substrate 101, the platform 103 is fixedly connected with the support columns 102 and is located above the support columns 102, a rectangular groove 104 is formed above the platform 103, the substrate 101 plays a role in supporting, the support columns 102 play a role in fixedly supporting the platform 103, and the rectangular groove 104 on the platform 103 facilitates processing of a notebook computer shell.

The rack 105 is fixedly connected to the platform 103 and located above the platform 103, the L-shaped rod 106 is hinged to the rack 105 and located on one side of the rack 105, the lifting rod 107 is hinged to the L-shaped rod 106 and located on one side of the L-shaped rod 106, one end of the connecting rod 108 is hinged to the lifting rod 107, the other end of the connecting rod 108 is hinged to the rack 105, the placing plate 109 is fixedly connected to the platform 103 and located above the platform 103 and below the L-shaped rod 106, the screw 110 penetrates through the L-shaped rod 106, the knob 111 is fixedly connected to the screw 110 and located at one end of the screw 110, the rack 105 plays a role in fixedly supporting the L-shaped rod 106 and the connecting rod 108, the lifting plate can lift one end of the L-shaped rod 106, the screw 110 can fix the notebook computer case, and the knob 111 facilitates rotation of the screw 110.

Secondly, the vertical plate 112 is fixedly connected with the platform 103 and is located above the platform 103, the number of the springs 113 is multiple, one end of each of the springs 113 is fixedly connected with the vertical plate 112, the other end of each of the springs 113 is fixedly connected with the abutting plate 114, the vertical plate 112 plays a role in limiting, the position of the abutting plate 114 is controlled by the elastic force of the spring 113, and the notebook computer casing is abutted and fixed by the abutting plate 114.

In addition, the number of the rubber pressing blocks 115 is two, the two rubber pressing blocks 115 are respectively arranged at the corresponding ends, far away from the knob 111, of the screws 110, and through the arrangement of the rubber pressing blocks 115, the screws 110 can be prevented from crushing the notebook computer shell, and the rubber pressing blocks 115 play a role in protection.

When the multi-square-position machining jig for the notebook computer shell is used, when the notebook computer shell is fixed by using the jig, the notebook computer shell is placed above the platform 103, then an operator lifts the lifting rod 107, one end of the lifting rod 107 moves upwards to drive the other end of the lifting rod 107 to move the L-shaped rod 106 in a direction close to the lifting rod 107, when the joint of the L-shaped rod 106 and the lifting rod 107 is pulled up, the end of the L-shaped rod 106 is lifted up, at this time, the distance between the screw 110 and the placing plate 109 is increased, so that the notebook computer shell is conveniently placed on the placing plate 109, the two groups of fixing components simultaneously press the notebook computer shell, then the knob 111 is rotated to drive the screw 110 to rotate, so that the rubber pressing block 115 presses the notebook computer shell, so that the two sides of the notebook computer shell are fixed, after the two sides of the notebook computer shell are fixed, the pressing plate 114 is pulled to pull the notebook computer shell, the pressing spring 113 is rotated, and the notebook computer shell is prevented from being deformed after the notebook computer shell is mounted, and the notebook computer shell is pressed, and the notebook computer shell is firmly pressed, so that the notebook computer shell 114 is not deformed, and the notebook computer shell is pressed, and the notebook computer shell is further, and the notebook computer shell is not deformed when the notebook computer shell is mounted, the notebook computer shell is pressed.

The second embodiment of the present application is:

please refer to fig. 4 and 5, fig. 4 is an overall structure schematic diagram of a second embodiment of a multi-square machining jig for a notebook computer housing, fig. 5 is a partial structure enlarged view of the second embodiment of the multi-square machining jig for a notebook computer housing, on the basis of the first embodiment, the multi-square machining jig for a notebook computer housing of the present embodiment further includes a jacking assembly, which includes a mounting seat 201, a first connecting rod 202, a second connecting rod 203, a jacking plate 208, a fixing block 204, a threaded rod 205, a rotary disk 206 and a rotating rod 207.

The mounting base 201 is fixedly connected to the base plate 101 and located above the base plate 101, the number of the first connecting rods 202 is two, the two first connecting rods 202 are respectively hinged to the mounting base 201, the number of the second connecting rods 203 is two, one ends of the two second connecting rods 203 are respectively hinged to the corresponding first connecting rods 202, the other ends of the two second connecting rods 203 are respectively hinged to the lifting plate 208, the number of the fixed blocks 204 is two, the two fixed blocks 204 are respectively fixedly connected to the corresponding second connecting rods 203, one end of the threaded rod 205 is rotatably connected to one of the fixed blocks 204 and penetrates through the other fixed block 204 to be fixedly connected to the rotary plate 206, the mounting base 201 serves as a fixed support, the first connecting rods 202 are hinged to the second connecting rods 203 and can move the lifting plate 208, and the fixed plates and the threaded rod 205 can enable one of the first connecting rods 202 and the second connecting rods 203 to move on the threaded rod 205, and the middle of the lifting plate 208 can fix the middle of the notebook computer case.

Secondly, the rotating rod 207 is fixedly connected with the turntable 206 and is located at one side of the turntable 206, and the rotating rod 207 is arranged at one side of the turntable 206, so that an operator can rotate the turntable 206 more conveniently.

When the multi-azimuth machining jig for the notebook computer shell is used, after the notebook computer shell is installed, the rotating rod 207 is rotated, the rotating rod 207 drives the rotating disc 206 to rotate, the rotating disc 206 drives the threaded rod 205 to rotate on one of the fixed blocks 204, so that the other fixed block is sleeved on the threaded rod 205, the fixed blocks 204 move, two fixed blocks 204 are close to each other, the first connecting rod 202 supports the second connecting rod 203 to move towards the upper right when the fixed blocks 204 move, and the jacking plate 208 is lifted up, so that the jacking plate 208 supports the middle of the notebook computer shell from the inside of the rectangular groove 104, and the deformation of the notebook computer shell during machining such as punching is avoided.

While the above disclosure describes one or more preferred embodiments of the present invention, it is not intended to limit the scope of the claims to such embodiments, and one skilled in the art will understand that all or a portion of the processes performed in the above embodiments may be practiced without departing from the spirit and scope of the claims.

Claims (7)

1. A multi-azimuth machining jig for a notebook computer shell comprises a base plate, four supporting columns and a platform, wherein the four supporting columns are fixedly connected with the base plate and respectively positioned at each bottom corner of the base plate, the platform is fixedly connected with the supporting columns and positioned above the supporting columns, a rectangular groove is formed above the platform, and the multi-azimuth machining jig is characterized in that,

the platform comprises a platform body, and is characterized by further comprising two groups of fixing assemblies, wherein the two groups of fixing assemblies are respectively and oppositely arranged above the platform body;

each group of fixing components comprises a rack, an L-shaped rod, a lifting rod, a connecting rod, a placing plate, a screw and a knob, wherein the rack is fixedly connected with the platform and is positioned above the platform, the L-shaped rod is hinged with the rack and is positioned on one side of the rack, the lifting rod is hinged with the L-shaped rod and is positioned on one side of the L-shaped rod, one end of the connecting rod is hinged with the lifting rod, the other end of the connecting rod is hinged with the rack, the placing plate is fixedly connected with the platform and is positioned above the platform and below the L-shaped rod, the screw penetrates through the L-shaped rod, and the knob is fixedly connected with the screw and is positioned at one end of the screw.

2. The multi-orientation machine processing jig for notebook computer casings of claim 1,

the fixed component further comprises anti-skid units, the number of the anti-skid units is two, and the anti-skid units are arranged above the platform oppositely.

3. The multi-positioning machine processing jig for notebook computer casings as claimed in claim 2,

each group of anti-skid units comprises a vertical plate, a plurality of springs and a supporting plate, the vertical plate is fixedly connected with the platform and is positioned above the platform, one ends of the plurality of springs are fixedly connected with the vertical plate, and the other ends of the plurality of springs are fixedly connected with the supporting plate.

4. The multi-orientation machine processing jig for notebook computer casings of claim 1,

the multi-azimuth machine processing jig for the notebook computer shell further comprises two rubber pressing blocks, and the two rubber pressing blocks are respectively arranged at the corresponding ends, far away from the knob, of the screws.

5. The multi-orientation machine processing jig for notebook computer casings of claim 1,

the multi-square-position machining jig for the notebook computer shell further comprises a jacking assembly, and the jacking assembly is arranged above the base plate.

6. The multi-positioning machine processing jig for notebook computer casings of claim 5,

the jacking subassembly includes mount pad, first connecting rod, second connecting rod, jacking board, fixed block, threaded rod and carousel, the mount pad with base plate fixed connection, and be located the top of base plate, the quantity of first connecting rod is two, two first connecting rod respectively with the mount pad is articulated, the quantity of second connecting rod is two, two the one end of second connecting rod respectively with correspond first connecting rod is articulated, two the other end of second connecting rod respectively with the jacking board is articulated, the quantity of fixed block is two, two the fixed block respectively with correspond second connecting rod fixed connection, the one end and one of them of threaded rod the fixed block rotates to pass another one the fixed block with carousel fixed connection.

7. The multi-orientation machine processing jig for notebook computer casings of claim 6,

the jacking subassembly still includes the dwang, the dwang with carousel fixed connection, and be located one side of carousel.

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