CN220516050U - Multi-station clamp jig for producing and processing optical rod seat - Google Patents

Abstract

The utility model discloses a multi-station clamp for producing and processing a light rod seat, which comprises a base and a clamp panel, wherein four first procedure fixing structures, a second procedure fixing structure, a third procedure fixing structure and a fourth procedure fixing structure which can clamp and fix different positions of the light rod seat are arranged on the clamp panel, and a universal adjusting mechanism which can adjust directions and is convenient to operate and process is arranged between the base and the clamp panel. The utility model adopts a structure which can rapidly fix columnar workpieces, reduce workpiece positioning correction time, improve production efficiency, adapt to multidirectional fixed workpieces, accurately lock the workpieces for various processing and reduce the influence on processing precision, and is simple and convenient.

Description

Multi-station clamp jig for producing and processing optical rod seat

Technical Field

The utility model relates to the field of clamping jigs, in particular to a manual clamp for multidirectional processing of a columnar workpiece.

Background

The clamp is widely applied in various processing industries, the function played by the clamp is very important, the traditional manual clamp for cylindrical workpieces positions and clamps workpieces by manpower, the clamping position is single, the time for fixing and aligning irregular semi-finished products is difficult, the production efficiency is relatively influenced, the labor is wasted, and the labor intensity of workers is high. On the other hand, when the workpiece is required to be processed by the positioning method, the workpiece cannot be processed due to low adaptability, so that the processing precision is affected, the error is large, and the part is scrapped when serious.

Accordingly, further improvements are needed for existing manual clamps.

Disclosure of Invention

The utility model aims to provide a multi-station clamp jig for producing and processing a light rod seat, which can be used for rapidly fixing columnar workpieces, reducing workpiece positioning correction time, improving production efficiency, adapting to multi-azimuth fixed workpieces, accurately locking the workpieces for various processing, and reducing influence on processing precision.

In order to achieve the above purpose, the present utility model adopts the following scheme:

the utility model provides a multistation clamp tool for producing processing optical wand seat, including base and anchor clamps panel, be provided with four kinds on the anchor clamps panel and press from both sides the fixed first process fixed knot of processing, second process fixed knot constructs, third process fixed knot constructs, fourth process fixed knot constructs of optical wand seat different positions, the base with be provided with the universal adjustment mechanism that can adjust the direction and be convenient for operate processing between the anchor clamps panel.

Further, the first process fixed knot constructs including setting up first storage tank on the anchor clamps panel, be provided with the first spacing groove corresponding with optical wand seat blank profile on the first storage tank, first storage tank one side is provided with carries out the first kicking block of axial fixturing location prevention left and right movement to optical wand seat blank, and the opposite side is provided with compresses tightly optical wand seat blank and prevents the first briquetting that reciprocates, and the middle part is provided with processing optical wand seat blank with dismantle when first briquetting contact part first briquetting replaces its second briquetting that compresses tightly the blank, first kicking block, first briquetting, second briquetting with all carry out elasticity dismouting regulation through the screw mode between the anchor clamps panel.

Further, the second process fixed knot constructs including setting up the second on the anchor clamps panel accomodates the groove, be provided with on the second accomodate the groove with the corresponding second spacing groove of first process processing back light stick seat semi-manufactured goods profile, second accomodate groove one side and be provided with the second kicking block that carries out axial fixity location and prevent left and right movement to light stick seat semi-manufactured goods, the opposite side is provided with the third briquetting that compresses tightly the light stick seat semi-manufactured goods and prevent the reciprocates, second kicking block, third briquetting with all carry out elasticity dismouting regulation through the screw mode between the anchor clamps panel.

Further, the third procedure fixed knot constructs including setting up accomodate the hole on the anchor clamps panel, accomodate hole one side be with the breach round hole that light stick seat semi-manufactured goods terminal surface corresponds, the opposite side is square hole, be provided with the third kicking block that can control the removal in the square hole, the third kicking block with move about through the screw mode between the anchor clamps panel and fix the light stick seat semi-manufactured goods that passes the breach round hole.

Further, the fourth procedure fixed knot constructs including setting up the ladder groove on the anchor clamps panel, be provided with the insert in the ladder groove lower part, be provided with the recess corresponding with optical wand seat semi-manufactured goods profile on the insert, insert and optical wand seat semi-manufactured goods contact surface are provided with the inclined plane that is used for the special angle processing of location optical wand seat, ladder groove one side is provided with the fourth kicking block that carries out axial fixity location and prevents left and right movement to optical wand seat semi-manufactured goods, and the opposite side is provided with the fourth briquetting that compresses tightly optical wand seat semi-manufactured goods and prevents the reciprocates, insert, fourth kicking block, fourth briquetting with all carry out elasticity dismouting regulation through the screw mode between the anchor clamps panel.

Further, the universal adjusting mechanism comprises a fastening mechanism arranged on the base and a rotating shaft mechanism arranged at the bottom of the clamp panel;

the fastening mechanism comprises three groups of guide rails and driving wheels, wherein the guide rails and the driving wheels are uniformly arranged in the base, each group of guide rails is provided with a lock hook, two sides of each lock hook are provided with a clamping pin which enables the lock hook to move in the guide rails in a limiting mode, the bottom of each lock hook is provided with a driving round table, the driving wheels are internally provided with driving grooves which drive the driving round tables to move, one side of each driving wheel is provided with a rotating handle, an arc-shaped groove is formed between each rotating handle and the base, and each rotating handle rotates in each arc-shaped groove; the rotating shaft mechanism comprises a spherical rotating shaft arranged on the clamp panel and a spherical rotating sleeve arranged on the base, and the spherical rotating shaft is nested in the spherical rotating sleeve to rotate in multiple directions.

In summary, compared with the prior art, the utility model has the following beneficial effects:

the utility model solves the defects of the existing manual clamp, and has the following advantages that by the structural arrangement of the utility model, the columnar workpiece can be quickly fixed, the workpiece positioning correction time is shortened, the production efficiency is improved, the utility model is suitable for multi-azimuth fixing of the workpiece, various kinds of processing can be performed on the workpiece by accurately locking the workpiece, and the influence on the processing precision is reduced.

Drawings

FIG. 1 is a perspective view I of the present utility model;

FIG. 2 is a second perspective view of the present utility model;

FIG. 3 is a perspective view partially in section of the present utility model;

FIG. 4 is a front view of the present utility model;

FIG. 5 is a bottom view of the present utility model;

fig. 6 is a schematic diagram of a flow stabilizer valve 504.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-6, a multi-station fixture for producing and processing optical rod holders comprises a base 1 and a fixture panel 2, wherein four first procedure fixing structures 3, a second procedure fixing structure 4, a third procedure fixing structure 5 and a fourth procedure fixing structure 6 capable of clamping and fixing different positions of the optical rod holders are arranged on the fixture panel 2, and a universal adjusting mechanism 7 capable of adjusting directions and facilitating operation and processing is arranged between the base 1 and the fixture panel 2.

The working flow is as follows:

the base 1 is arranged on equipment or a processing table, a blank of the optical rod seat is prevented from being processed on the first process fixing structure 3, one circle of the blank can be milled, the milled surface is drilled or grooved, after the first process fixing structure 3 is processed, a semi-finished optical rod seat is taken out and then is placed at the second process fixing structure 4 for next process processing, the second process fixing structure 4 is used for converting a vertical surface of a blank processed by the first process fixing structure 3 into a plane for fixing, the drilling or grooved is carried out on the vertical surface, after the second process fixing structure 4 is finished, a workpiece is taken down and is inserted into the third process fixing structure 5 for fixing, the end surface is drilled, after the processing is finished, the semi-finished workpiece is arranged in the fourth process fixing structure 6, the surface is drilled or grooved, the universal adjusting mechanism 7 is adjusted to a proper position, the processing process with a special angle can be conveniently disassembled, each process is finished, only loosening and fastening screws are not required to be corrected for a long time.

The first process fixing structure 3 of the present utility model includes a first receiving groove 301 disposed on the fixture panel 2, a first limiting groove 302 corresponding to the outline of the optical rod seat blank is disposed on the first receiving groove 301, a first top block 303 for axially fixing and positioning the optical rod seat blank to prevent left and right movement is disposed on one side of the first receiving groove 301, a first pressing block 304 for pressing the optical rod seat blank to prevent up and down movement is disposed on the other side of the first receiving groove, a second pressing block 305 for pressing the optical rod seat blank by removing the first pressing block 304 when the optical rod seat blank contacts the first pressing block 304 is disposed in the middle of the first receiving groove, and the first top block 303, the first pressing block 304, the second pressing block 305 and the fixture panel 2 are all assembled and disassembled by screw holes.

After the workpiece is fixed in the first receiving groove 301 by screwing the screws among the first top block 303, the first pressing block 304 and the clamp panel 2, the exposed part of the blank is processed, milled to form a quarter circle, drilled or milled on the plane side, then the second pressing block 305 is installed, the first pressing block 304 is removed, and the contact part of the blank and the first pressing block 304 can be processed.

The second process fixing structure 4 of the present utility model includes a second receiving groove 401 disposed on the fixture panel 2, a second limiting groove 402 corresponding to the outline of the semi-finished product of the optical rod seat after the first process processing is disposed on the second receiving groove 401, a second top block 403 for axially fixing and positioning the semi-finished product of the optical rod seat to prevent left and right movement is disposed on one side of the second receiving groove 401, a third pressing block 404 for pressing the semi-finished product of the optical rod seat to prevent up and down movement is disposed on the other side of the second receiving groove 401, and tightness adjustment is performed between the second top block 403, the third pressing block 404 and the fixture panel 2 by screw hole.

The semi-finished product is left and right rotated by 90 degrees and placed in the second accommodating groove 401, and screws among the second top block 403, the second top block 403 and the clamp panel 2 are screwed to fix, so that the vertical surface of the blank after being processed by the first procedure fixing structure 3 can be converted into a plane, and then the blank is processed

The third process fixing structure 5 of the present utility model includes a receiving hole 501 provided on the fixture panel 2, one side of the receiving hole 501 is a notch round hole 5021 corresponding to the end surface of the optical rod seat semi-finished product, the other side is a square hole 5022, a third top block 503 capable of moving left and right is provided in the square hole 5022, and the third top block 503 and the fixture panel 2 move left and right in a screw hole manner to fix the optical rod seat semi-finished product passing through the notch round hole 5021.

The end surface of the semi-finished product passing through the notch round hole 5021 is fixed by screwing the third top block 503 and the clamp panel 2 and moving the third top block 503 left and right by a screw.

The fourth step fixing structure 6 of the present utility model comprises a step groove 601 provided on the fixture panel 2, an insert 602 is provided in the lower portion of the step groove 601, a plurality of groups of grooves 603 corresponding to the outline of the semi-finished product of the optical rod seat are provided on the insert 602, a bevel 6021 for positioning the semi-finished product of the optical rod seat at a specific angle is provided on the contact surface of the insert 602 and the semi-finished product of the optical rod seat, a fourth top block 604 for axially fixing and positioning the semi-finished product of the optical rod seat to prevent left and right movement is provided on one side of the step groove 601, a fourth pressing block 606 for pressing the semi-finished product of the optical rod seat to prevent up and down movement is provided on the other side of the step groove 601, and tightness adjustment is performed among the insert 602, the fourth top block 604, the fourth pressing block 606 and the fixture panel 2 by screw hole.

The insert 602 can support and position the placement angle of the semi-finished product, thereby turning or milling the round surface thereof.

The universal adjusting mechanism 7 comprises a fastening mechanism 701 arranged on the base 1 and a rotating shaft mechanism 702 arranged at the bottom of the fixture panel 2;

the fastening mechanism 701 comprises three groups of guide rails 7011 and driving wheels 7012 which are uniformly arranged in the base 1, a lock hook 7013 is arranged on each group of guide rails 7011, two sides of each lock hook 7013 are provided with a bayonet 7015 which enables the lock hook 7013 to move in the guide rails 7011 in a limiting mode, a driving round table 7016 is arranged at the bottom of each lock hook 7013, a driving groove 7017 which drives the driving round table 7016 to move is arranged in each driving wheel 7012, one side of each driving wheel 7012 is provided with a rotating handle 7018, an arc-shaped groove 7019 is formed between each rotating handle 7018 and the base 1, and each rotating handle 7018 rotates in each arc-shaped groove 7019;

the rotating shaft mechanism 702 comprises a spherical rotating shaft 7021 arranged on the clamp panel 2 and a spherical rotating sleeve 7022 arranged on the base 1, and the spherical rotating shaft 7021 is nested in the spherical rotating sleeve 7022 to rotate in multiple directions.

After the spherical rotating shaft 7021 is rotated to a required position, the rotating handle 7018 is rotated, the driving wheel 7012 is rotated, and the driving groove 7017 on the driving wheel 7012 drives the driving round table 7016, so that the locking hook 7013 is polymerized and locked in the middle to lock the spherical rotating shaft 7021.

While there has been shown and described what is at present considered to be the fundamental principles and the main features of the utility model and the advantages thereof, it will be understood by those skilled in the art that the present utility model is not limited to the foregoing embodiments, but is described in the foregoing description merely illustrates the principles of the utility model, and various changes and modifications may be made therein without departing from the spirit and scope of the utility model as hereinafter claimed. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (6)

1. A multistation clamp for producing processing optical wand seat, including base (1) and anchor clamps panel (2), its characterized in that: be provided with four kinds of first process fixed knot that can press from both sides tight fixed processing of optical wand seat different positions on anchor clamps panel (2) and construct (3), second process fixed knot constructs (4), third process fixed knot constructs (5), fourth process fixed knot constructs (6), base (1) with be provided with between anchor clamps panel (2) and can adjust direction universal adjustment mechanism (7) convenient to operate processing.

2. The multi-station clamp jig for producing and processing optical wand holders according to claim 1, wherein: the first procedure fixed knot constructs (3) including setting up first storage tank (301) on anchor clamps panel (2), be provided with on the first storage tank (301) with the corresponding first spacing groove (302) of optical wand seat blank profile, first storage tank (301) one side is provided with carries out axial fixity location and prevents first kicking block (303) of horizontal removal to optical wand seat blank, and the opposite side is provided with compresses tightly optical wand seat blank and prevents first briquetting (304) of reciprocates, and the middle part is provided with processing optical wand seat blank with dismantle when first briquetting (304) contact part first briquetting (304) replace its second briquetting (305) that compresses tightly to the blank, all carry out the elasticity dismouting through the screw mode between first kicking block (303), first briquetting (304), second briquetting (305) with anchor clamps panel (2).

3. The multi-station clamp jig for producing and processing optical wand holders according to claim 2, wherein: the second procedure fixed knot constructs (4) including setting up second storage tank (401) on anchor clamps panel (2), be provided with on the second storage tank (401) with the corresponding second spacing groove (402) of first procedure processing back light stick seat semi-manufactured goods profile, second storage tank (401) one side is provided with carries out axial fixity location and prevents second kicking block (403) of controlling the removal to light stick seat semi-manufactured goods, and the opposite side is provided with compresses tightly light stick seat semi-manufactured goods and prevents third briquetting (404) of reciprocates, all carry out elasticity dismouting regulation through screw mode between second kicking block (403), third briquetting (404) and anchor clamps panel (2).

4. A multi-station fixture for producing and processing optical wand holders according to claim 3, wherein: the third procedure fixed knot constructs (5) including setting up accomodate hole (501) on anchor clamps panel (2), accomodate hole (501) one side be with breach round hole (5021) that light stick seat semi-manufactured goods terminal surface corresponds, the opposite side is square hole (5022), be provided with in square hole (5022) and control movable third kicking block (503), third kicking block (503) with move about through the screw mode between anchor clamps panel (2) and pass light stick seat semi-manufactured goods of breach round hole (5021) are fixed.

5. The multi-station clamp jig for producing and processing optical wand holders according to claim 4, wherein: the fourth procedure fixed knot constructs (6) including setting up ladder groove (601) on anchor clamps panel (2), be provided with in ladder groove (601) lower part and insert (602), be provided with multiunit and recess (603) that the light stick seat semi-manufactured goods profile is relative on inserting (602), insert (602) and light stick seat semi-manufactured goods contact surface are provided with inclined plane (6021) that are used for fixing a position light stick seat special angle processing, ladder groove (601) one side is provided with fourth kicking block (604) that carries out axial fixation location and prevents left and right movement to light stick seat semi-manufactured goods, and the opposite side is provided with fourth briquetting (606) that compresses tightly light stick seat semi-manufactured goods and prevent the reciprocates, all carry out elasticity dismouting regulation through the screw mode between inserting (602), fourth kicking block (606) and anchor clamps panel (2).

6. The multi-station clamp jig for producing and processing optical wand holders according to claim 5, wherein: the universal adjusting mechanism (7) comprises a fastening mechanism (701) arranged on the base (1) and a rotating shaft mechanism (702) arranged at the bottom of the fixture panel (2);

the fastening mechanism (701) comprises three groups of guide rails (7011) and driving wheels (7012) which are uniformly arranged in the base (1), lock hooks (7013) are arranged on each group of guide rails (7011), clamping pins (7015) which enable the lock hooks (7013) to move in the guide rails (7011) in a limiting mode are arranged on two sides of each lock hook (7013), a driving round table (7016) is arranged at the bottom of each lock hook (7013), driving grooves (7017) which drive the driving round table (7016) to move are formed in the driving wheels (7012), a rotating handle (7018) is arranged on one side of each driving wheel (7012), an arc-shaped groove (7019) is formed between each rotating handle (7018) and the base (1), and each rotating handle (7018) rotates in each arc-shaped groove (7019).

The rotating shaft mechanism (702) comprises a spherical rotating shaft (7021) arranged on the clamp panel (2) and a spherical rotating sleeve (7022) arranged on the base (1), and the spherical rotating shaft (7021) is nested in the spherical rotating sleeve (7022) to rotate in multiple directions.