CN219189375U - Clamping device for titanium tube machining - Google Patents

Abstract

The utility model discloses a clamping device for processing a titanium tube, which comprises a base, wherein the top end of the base is fixedly connected with two supporting plates, the middle part of each supporting plate is provided with a through groove, the inner cavity of each through groove is provided with a rotary clamping mechanism, each rotary clamping mechanism comprises a rotary table, an outer gear ring, gears, a synchronous rod, a positioning rod and a clamping component, the rotary table is rotationally and alternately connected with the inner cavity of each through groove through a rotary shaft, the outer gear ring is sleeved outside the rotary table, the gears are in meshed connection with the outer gear ring, the two gears are fixedly and alternately connected with the synchronous rod, the synchronous rod is rotationally and alternately connected with the supporting plates, the positioning rod is connected with one side of one gear, and the clamping component is arranged on one side of the rotary table. According to the utility model, the titanium tube can be rotated without loosening the clamping assembly by using the matched arrangement mode of the turntable, the outer gear ring, the gear, the synchronous rod, the positioning rod and the clamping assembly, so that the purpose of rotating and fixing the titanium tube while clamping the titanium tube is realized.

Description

Clamping device for titanium tube machining

Technical Field

The utility model relates to the technical field of clamping devices, in particular to a clamping device for titanium tube processing.

Background

The titanium tube needs to be subjected to cutting, deburring and other working procedures in the production process, but needs to be applied to a clamping device in the cutting and deburring processes.

The existing clamping device generally drives two arc clamping plates to clamp the titanium tube through a bidirectional screw rod.

Therefore, although the titanium tube can be clamped, the titanium tube cannot be rotated after being clamped, so that the bottom surface of the titanium tube cannot be machined, the clamping device is required to be manually loosened to clamp the titanium tube, the titanium tube is clamped again after being rotated, the bottom surface of the titanium tube can be machined, and the titanium tube clamping device is complex in operation and time and labor consuming.

Disclosure of Invention

The utility model aims to provide a clamping device for processing a titanium tube, which aims to solve the problems in the prior art.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the clamping device for processing the titanium tube comprises a base, wherein the top end of the base is fixedly connected with two support plates;

a through groove is formed in the middle of the supporting plate, and a rotary clamping mechanism is arranged in an inner cavity of the through groove;

the rotary clamping mechanism comprises a rotary table, an outer gear ring, gears, a synchronizing rod, a positioning rod and a clamping assembly, wherein the rotary table is connected with the inner cavity of the through groove in a rotary penetrating mode through a rotary shaft, the outer gear ring is sleeved outside the rotary table, the gears are meshed with the outer gear ring and connected with the gears, the gears are fixedly connected with the synchronizing rod in a penetrating mode, the synchronizing rod is connected with the supporting plate in a penetrating mode in a rotary mode, the positioning rod is connected to one side of one gear, a positioning hole is formed in the top end of the base, the positioning rod is matched with the inner cavity of the positioning hole, and the clamping assembly is arranged on one side of the rotary table.

Preferably, a sliding groove is formed in one side of one gear, a sliding block is connected to the inner cavity of the sliding groove in a sliding and penetrating mode, and the sections of the sliding block and the sliding groove are T-shaped.

Preferably, one end of the positioning rod is fixedly connected with the sliding block, the section of the positioning rod is L-shaped, and the other end of the positioning rod is connected with the inner cavity of the positioning hole in a sliding penetrating way.

Preferably, the clamping assembly comprises a fixed plate, a clamping block, a threaded rod and a movable plate, wherein a placing groove is formed in one side of the turntable, the fixed plate is fixedly connected to one side of the turntable, the clamping block is fixedly connected to one side of the turntable, the threaded rod is in threaded penetrating connection with the fixed plate, and one end of the threaded rod is in rotary penetrating connection with the movable plate.

Preferably, the top end of the clamping block is fixedly connected with two limiting rods, the limiting rods are connected with the moving plate in a sliding penetrating mode, and the limiting rods are fixedly connected with the fixing plate in a penetrating mode.

Preferably, the clamping blocks are fixedly connected with rubber pads on one sides opposite to the moving plate, and anti-slip textures are formed in the outer walls of the rubber pads.

The utility model has the technical effects and advantages that:

(1) According to the utility model, by means of the arrangement mode of the turntable, the outer gear ring, the gear, the synchronous rod, the positioning rod and the clamping assembly, the titanium pipe can be clamped by the clamping assembly, and the positioning rod is pulled when the positioning rod needs to rotate, so that the gear can be rotated to drive the whole turntable and the clamping assembly to synchronously rotate, and the titanium pipe can be rotated without loosening the clamping assembly, thereby realizing the purpose of rotating while clamping the titanium pipe;

(2) According to the utility model, the movable plate is driven to move by the rotation of the threaded rod by using the matched arrangement mode of the fixed plate, the clamping block, the threaded rod and the movable plate, so that titanium pipes with different diameters placed on the clamping block can be clamped, and the application range is wider.

Drawings

Fig. 1 is a schematic diagram of the overall front structure of the present utility model.

Fig. 2 is a schematic diagram of the overall front internal structure of the present utility model.

FIG. 3 is a schematic diagram of the side internal structure of the present utility model.

Fig. 4 is an enlarged schematic view of the structure of fig. 3 a according to the present utility model.

Fig. 5 is a schematic view of a clamping assembly according to the present utility model.

In the figure: 1. a base; 2. a support plate; 3. rotating the clamping mechanism; 31. a turntable; 32. an outer ring gear; 33. a gear; 34. a synchronizing lever; 35. a positioning rod; 36. a clamping assembly; 361. a fixing plate; 362. a clamping block; 363. a threaded rod; 364. a moving plate; 4. a slide block; 5. a limit rod; 6. and a rubber pad.

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.

The utility model provides a clamping device for processing a titanium tube, which is shown in figures 1-5, and comprises a base 1, wherein the top end of the base is fixedly connected with two support plates 2;

a through groove is formed in the middle of the supporting plate 2, and a rotary clamping mechanism 3 is arranged in an inner cavity of the through groove;

the rotating and clamping mechanism 3 comprises a rotary table 31, an outer gear ring 32, gears 33, a synchronizing rod 34, a positioning rod 35 and a clamping assembly 36, wherein the rotary table 31 is connected with an inner cavity of a through groove in a rotating and penetrating mode through a rotating shaft, the outer gear ring 32 is sleeved outside the rotary table 31, the gears 33 are connected with the outer gear ring 32 in a meshed mode, the gears 33 rotate for half a circle, the outer gear ring 32 can rotate, the two gears 33 are fixedly connected with the synchronizing rod 34 in a penetrating mode, the synchronizing rod 34 is connected with the supporting plate 2 in a penetrating mode in a rotating mode, the positioning rod 35 is connected to one side of one gear 33, a positioning hole is formed in the top end of the base 1, the positioning rod 35 is matched with an inner cavity of the positioning hole, the clamping assembly 36 is arranged on one side of the rotary table 31, the clamping assembly 36 can be used for clamping a titanium tube, and the positioning rod 35 can be pulled when the clamping assembly 36 is required to rotate, the gears 33 can rotate so that the whole rotary table 31 and the clamping assembly 36 can rotate synchronously, and therefore the titanium tube can rotate while the titanium tube can be clamped and can be fixed at any time.

One side of one gear 33 is provided with a sliding groove, the inner cavity of the sliding groove is connected with a sliding block 4 in a sliding and inserting mode, the cross sections of the sliding block 4 and the sliding groove are T-shaped, one end of a positioning rod 35 is fixedly connected with the sliding block 4, the cross section of the positioning rod 35 is L-shaped, the other end of the positioning rod 35 is connected with the inner cavity of a positioning hole in a sliding and inserting mode, the positioning rod 35 is connected with the inner cavity of the positioning hole in a sliding and inserting mode, the gear 33 is limited and fixed, the turntable 31 is fixed, machining operation on a clamped titanium pipe is facilitated, and when rotation is needed, the positioning rod 35 is separated from the positioning hole only by pulling the positioning rod 35, and the turntable 31 can be driven to rotate through the rotating gear 33.

The clamping assembly 36 comprises a fixed plate 361, a clamping block 362, a threaded rod 363 and a movable plate 364, wherein a placing groove is formed in one side of the turntable 31, the fixed plate 361 is fixedly connected to one side of the turntable 31, the clamping block 362 is fixedly connected to one side of the turntable 31, the threaded rod 363 is in threaded insertion connection with the fixed plate 361, one end of the threaded rod 363 is in threaded insertion connection with the movable plate 364 in a rotating manner, the movable plate 364 is driven to displace through the rotation of the threaded rod 363, and therefore the distance between the movable plate and the clamping block 362 is shortened, and titanium tubes with different diameters can be clamped.

The top fixedly connected with two gag lever posts 5 of grip block 362, gag lever post 5 and movable plate 364 slip alternate connection, and gag lever post 5 and fixed plate 361 fixed alternate connection, and gag lever post 5 has played the spacing effect to the movement of movable plate 364, can mutually support with grip block 362, and is held the titanium pipe.

The rubber pad 6 is fixedly connected to one side, opposite to the movable plate 364, of the clamping block 362, anti-slip textures are formed in the outer wall of the rubber pad 6, the rubber pad 6 is arranged to protect the outer wall of the titanium tube, the clamping block 362 and the movable plate 364 are prevented from clamping the outer wall of the titanium tube when the titanium tube is clamped, friction between the titanium tube and the clamping block 362 and between the clamping block 364 and the movable plate 364 is enhanced due to the anti-slip textures, and the clamping block 362 and the movable plate 364 can clamp the titanium tube more stably.

The working principle of the utility model is as follows:

when the titanium tube is required to be processed, the sleeve passes through the placing grooves formed by the two turntables 31 and is placed on the clamping blocks 362, the threaded rod 363 is rotated, the moving plate 364 is enabled to move along the limiting rod 5 and is matched with the clamping blocks 362 to clamp the titanium tube, the positioning rod 35 is pulled, one end of the positioning rod 35 slides on the gear 33 through the sliding block 4, the other end of the positioning rod 35 is separated from the positioning hole, after the positioning rod 35 is separated from the positioning hole, the gear 33 is driven to rotate through the rotating positioning rod 35, the two gears 33 are simultaneously rotated through the synchronizing rod 34, the outer gear ring 32 is meshed with the gear 33, the gear 33 can be driven to rotate through the outer gear ring 32 while rotating, the clamping assembly 36 is driven to rotate, after the gear 33 rotates one circle, the outer gear ring 32 just rotates half circle, the bottom end of the titanium tube is enabled to rotate upwards, the positioning rod 35 is enabled to be in a vertical state, the acting force of gravity is released, the positioning rod 35 vertically drops along the sliding groove through the sliding block 4 and is connected with the positioning hole again through the rotating positioning rod, and the gear 33 is fixed, the whole gear 33 is enabled to rotate, and the whole titanium tube is fixed, and the titanium tube is clamped, and the titanium tube is clamped, and processed, and fixed, and clamped, and processed.

Finally, it should be noted that: the foregoing description is only illustrative of the preferred embodiments of the present utility model, and although the present utility model has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements or changes may be made without departing from the spirit and principles of the present utility model.

Claims (6)

1. A clamping device for titanium tube processing, comprising:

the top end of the base (1) is fixedly connected with two supporting plates (2);

the method is characterized in that: a through groove is formed in the middle of the supporting plate (2), and a rotary clamping mechanism (3) is arranged in the inner cavity of the through groove;

the rotary clamping mechanism (3) comprises a rotary table (31), an outer gear ring (32), gears (33), a synchronous rod (34), a positioning rod (35) and a clamping assembly (36), wherein the rotary table (31) is connected with an inner cavity of a through groove in a rotary penetrating mode, the outer gear ring (32) is sleeved outside the rotary table (31), the gears (33) are meshed with the outer gear ring (32) and connected with the gears (33), the two gears (33) are fixedly connected with the synchronous rod (34) in a penetrating mode, the synchronous rod (34) is connected with the supporting plate (2) in a penetrating mode in a rotary mode, the positioning rod (35) is connected to one side of one gear (33), a positioning hole is formed in the top end of the base (1), and the positioning rod (35) is matched with an inner cavity of the positioning hole in a matching mode, and the clamping assembly (36) is arranged on one side of the rotary table (31).

2. The clamping device for titanium tube processing according to claim 1, wherein a chute is formed in one side of one gear (33), a sliding block (4) is connected to an inner cavity of the chute in a sliding and penetrating manner, and the sections of the sliding block (4) and the chute are both T-shaped.

3. The clamping device for titanium tube processing according to claim 1, wherein one end of the positioning rod (35) is fixedly connected with the sliding block (4), the cross section of the positioning rod (35) is L-shaped, and the other end of the positioning rod (35) is connected with the inner cavity of the positioning hole in a sliding penetrating manner.

4. The clamping device for processing a titanium tube according to claim 1, wherein the clamping assembly (36) comprises a fixed plate (361), a clamping block (362), a threaded rod (363) and a moving plate (364), a placing groove is formed in one side of the turntable (31), the fixed plate (361) is fixedly connected to one side of the turntable (31), the clamping block (362) is fixedly connected to one side of the turntable (31), the threaded rod (363) is connected with the fixed plate (361) in a threaded penetrating manner, and one end of the threaded rod (363) is connected with the moving plate (364) in a rotating penetrating manner.

5. The clamping device for processing a titanium tube according to claim 4, wherein two limiting rods (5) are fixedly connected to the top ends of the clamping blocks (362), the limiting rods (5) are connected with the moving plate (364) in a sliding and penetrating manner, and the limiting rods (5) are fixedly connected with the fixing plate (361) in a penetrating manner.

6. The clamping device for titanium tube processing according to claim 4, wherein rubber pads (6) are fixedly connected to one sides of the clamping blocks (362) opposite to the moving plate (364), and anti-slip textures are formed on the outer walls of the rubber pads (6).

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