CN210232358U - Machining positioner for numerical control machine tool - Google Patents

Abstract

The utility model relates to a processing locator is used to digit control machine tool, the adjusting part including work piece locating piece, locator fixed block, a connection work piece locating piece and locator fixed block, the adjusting part includes the regulation pole that the several connected gradually, and each is adjusted and is articulated between the pole and form, and one of them regulation pole that is located both sides is articulated with the work piece locating piece and forms, and another regulation pole is articulated with the locator fixed block and forms, and each is adjusted between the pole and is adjusted between pole and the work locating piece, adjusts and equally divide between pole and the locator fixed block and do not lock fixedly through independent locking mechanism B. The utility model has the advantages that: utilize mutually supporting between work piece locating piece, locator fixed block and the adjusting part to can realize the location to the position of the work piece of multiple different specifications, different shapes, when carrying out the batchization man-hour, only need to fix a position the work piece of first processing can, unusual convenience has reduced artifical work, has improved work efficiency.

Description

Machining positioner for numerical control machine tool

Technical Field

The utility model relates to a boats and ships spare part processing field, in particular to digit control machine tool is with processing locator.

Background

Ships, which are vehicles capable of sailing or berthing in water for transportation or operation, are known as various ships, and have different technical performances, equipment and structural types according to different use requirements.

A ship is a man-made vehicle that operates primarily in geographic water. In addition, a civil ship is generally called a ship, a military ship is called a ship, and a small-sized ship is called a boat or a boat, which is collectively called a ship or a boat. The interior mainly comprises a containment space, a support structure and a drainage structure, with a propulsion system using an external or self-contained energy source. The appearance is generally favorable for overcoming the streamline envelope of the fluid resistance, the materials are continuously updated along with the technological progress, the early materials are natural materials such as wood, bamboo, hemp and the like, and the modern materials are mostly steel, aluminum, glass fiber, acrylic and various composite materials.

At present, various machine tools, such as a milling machine, a grinding machine, etc., are generally used in the process of processing parts in a ship, and in the process of processing parts in the machine tools, in order to ensure the processing accuracy of each part, etc., the positions of the parts are generally positioned to ensure the smoothness and accuracy of processing. The traditional positioning mode adopts a manual measurement positioning mode, namely: firstly, a workpiece is placed on a workbench in a machine tool, and then the position of the workpiece is gradually adjusted manually according to the position of a cutter on the machine tool or other reference factors, so that the workpiece is positioned. According to the positioning mode, before each workpiece is machined, measurement and positioning are required to be carried out independently, the operation is complex, great troubles are caused, and the working efficiency is not high.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to provide a location is convenient, swift digit control machine tool with processing locator.

In order to solve the technical problem, the utility model adopts the technical scheme that: the utility model provides a digit control machine tool is with processing locator which innovation point lies in: the positioner is fixed with a worktable of a machine tool and comprises

The workpiece positioning assembly comprises a workpiece positioning block;

the positioner fixing assembly comprises a positioner fixing block, and the positioner fixing block is fixed with the workbench through a locking mechanism A;

the adjusting assembly is connected with the fixing assembly of the positioner and comprises a plurality of adjusting rods connected in sequence, each adjusting rod is hinged to each other, one of the adjusting rods located on two sides is hinged to the workpiece positioning block, the other adjusting rod is hinged to the positioner fixing block, and the adjusting rods are fixed to each other in a locking mode through independent locking mechanisms B.

Further, the locking mechanism a is: the lower end face of the locator fixed block is attached to the workbench, a plurality of inverted T-shaped guide grooves distributed in parallel are formed in the surface of the workbench, a T-shaped bolt is arranged in one guide groove, the head of the bolt is arranged in the guide groove, a screw of the bolt extends upwards and penetrates through the locator fixed block to be locked through a nut, and therefore fixing between the locator fixed block and the workbench is achieved.

Further, the locking mechanism a is: the lower terminal surface of locator fixed block and workstation laminate mutually, have a plurality of inverted T shape guide ways that distribute side by side on the surface of workstation, still have the inverted T shape embedding piece of embedding inverted T shape guide way simultaneously in the bottom of locator fixed block, still the embedding has a permanent magnet in the locator fixed block.

Furthermore, the locking mechanism B comprises a locking bolt and a locking nut which are matched with each other, through holes for the locking bolt to pass through are formed in the two sides of the adjusting rod, one side, connected with the adjusting rod, of the workpiece positioning block and one side, connected with the adjusting rod, of the positioner fixing block, and the locking bolt penetrates through the through holes in the adjusting rod, the workpiece positioning block and the positioner fixing block and then is locked by the locking nut.

The utility model has the advantages that: the utility model discloses in, utilize mutually supporting between work piece locating piece, locator fixed block and the adjusting part to can realize carrying out the batchization man-hour, only need to fix a position the work piece of first processing can to the location of the position of the work piece of multiple different specifications, different shapes, unusual convenience has reduced artifical work, has improved work efficiency.

For the fixation between the positioner fixing block and the workbench, a T-shaped bolt and a nut can be matched and locked, an inverted T-shaped embedded block at the bottom end of the positioner fixing block and a permanent magnet can be matched and fixed, and the T-shaped embedded block can be specifically selected according to actual working conditions.

For the setting of locking mechanism B, utilize locking bolt and lock nut's cooperation, under the unclamping state, conveniently adjust adjacent arbitrary regulation between the two in pole, work piece locating piece, the locator fixed block to cooperate not unidimensional work piece, under the state of screwing up, then ensure adjacent fixing between the two, ensure the fixed of locating position.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic view of the processing positioner for a numerical control machine tool of the present invention.

Fig. 2 is a schematic diagram of a second structure of the fixing block of the middle positioner of the present invention.

Detailed Description

The following examples are presented to enable those skilled in the art to more fully understand the present invention and are not intended to limit the scope of the present invention.

As shown in figures 1 and 2, the processing positioner for the numerical control machine tool is fixed with a workbench of the machine tool and comprises

And the workpiece positioning assembly comprises a workpiece positioning block 1, one end of the workpiece positioning block 1 is attached to the end surface of the workpiece, and the other end of the workpiece positioning block 1 is provided with a connecting section A11.

A locator fixed assembly, the locator fixed assembly includes a locator fixed block 2, have an upwardly extending linkage segment B23 on the upper end of the locator fixed block 2, the locator fixed block 2 is fixed with the work level through the locking mechanism A.

The first structure of the locking mechanism A is as follows: the lower end surface of the locator fixing block 2 is jointed with a workbench, the surface of the workbench is provided with a plurality of inverted T-shaped guide grooves which are distributed in parallel, a T-shaped bolt 3 is arranged in one of the guide grooves, the head of the bolt 3 is arranged in the guide groove, the screw rod of the bolt 3 extends upwards, the locator fixing block 2 is fixed with the workbench by passing through the locator fixing block 2 and then locking by a nut 4, when positioning is carried out, the head of the bolt 3 is arranged in the guide groove, the screw rod of the bolt 3 extends upwards and penetrates through the positioner fixing block 2 to be connected with a nut 4 through threads, at the moment, the locking 4 is not locked, then along the extending direction pulling locator fixed block 2 of guide way to the position that needs the location, lock nut 4 again, adopt such locking mode, fix between locator fixed block 2 and the workstation more firmly.

The second structure of the locking mechanism A is as follows: as shown in fig. 2, the lower end face of the locator fixed block 2 is attached to the workbench, a plurality of inverted T-shaped guide grooves distributed in parallel are formed in the surface of the workbench, an inverted T-shaped embedding block 21 embedded into the inverted T-shaped guide grooves is further formed in the bottom end of the locator fixed block 2, a permanent magnet 22 is further embedded into the locator fixed block 2, when the locator is located, the inverted T-shaped embedding block 21 is embedded into the guide grooves in the workbench, then the locator fixed block 2 is pulled to a position needing to be located along the extending direction of the guide grooves, the locator fixed block 2 and the workbench are directly fixed by adsorbing the permanent magnet 22 through the workbench, and the fixing mode is adopted, so that the connection and fixation of the locator fixed block 2 and the workbench can be realized without any direct connecting piece, and great convenience is achieved.

For the fixation between the locator fixed block 2 and the workbench, a mode of matching and locking the T-shaped bolt 3 and the nut 4 can be adopted, a mode of matching and locking the inverted T-shaped embedded block 21 at the bottom end of the locator fixed block 2 and the permanent magnet 22 can also be adopted, and the mode can be specifically selected according to actual working conditions.

The adjusting assembly is connected with the workpiece positioning assembly and the positioner fixing assembly and comprises a plurality of adjusting rods 5 which are sequentially connected, each adjusting rod 5 is hinged to each other, one of the adjusting rods 5 positioned on two sides is hinged to the workpiece positioning block 1, the other adjusting rod 5 is hinged to the positioner fixing block 2, and the adjusting rods 5, the adjusting rods 5 and the workpiece positioning block 1 and the adjusting rods 5 and the positioner fixing block 2 are all locked and fixed through independent locking mechanisms B.

Locking mechanism B includes the locking bolt, the lock nut of mutually supporting, and in the both sides of adjusting pole 5, the one side that the linkage segment A11 of work piece locating piece 1 links to each other with adjusting pole 5, the linkage segment B23 of locator fixed block 2 all has one and holds the through-hole 6 that the locking bolt passed with adjusting the one side that pole 5 links to each other, and the connection between adjacent regulation pole 5 is: after the through holes 6 at the side, which needs to be connected, of the two adjusting rods 5 are aligned, the locking bolts penetrate through the two through holes 6 and then are in threaded connection with a locking nut, the connection between the adjusting rods 5 and the workpiece positioning block 1 and the connection between the adjusting rods 5 and the positioner fixing block 2 are the same as the connection between the two adjusting rods 5, and therefore detailed description is omitted, in the connecting structure, the locking bolts are matched with the locking nuts, in a loosening state, the adjacent adjusting rods 5, the adjusting rods 5 and the workpiece positioning block 1 and the adjusting rods 5 and the positioner fixing block 2 can be adjusted in a swinging mode, position change is achieved, workpieces with different sizes are matched, the workpiece positioning block 1 can be conveniently attached to the workpiece, and in a tightening state, the adjacent adjusting rods 5, the adjusting rods 5 and the workpiece positioning block 1 and the adjusting rods 5 and the positioner fixing block 2 are ensured, the fixing of the positioning position is ensured.

The working principle is as follows: when a first workpiece is machined, firstly, the position of the first workpiece is positioned and fixed through means such as measurement and the like, then the positioner fixing block 2 is placed on the workbench and moved to the side of the workpiece to be positioned and fixed, then the positions of the adjusting rods 5 are adjusted until the workpiece positioning block 1 is attached to the end face of the workpiece, then the workpiece is machined by a machine tool, a second workpiece is replaced after machining is finished, at the moment, the end face of the second workpiece is directly attached to the end face of the workpiece positioning block 1, secondary positioning measurement is not needed, and great convenience is brought.

It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (4)

1. The utility model provides a digit control machine tool is with processing locator which characterized in that: the positioner is fixed with a worktable of a machine tool and comprises

The workpiece positioning assembly comprises a workpiece positioning block;

the positioner fixing assembly comprises a positioner fixing block, and the positioner fixing block is fixed with the workbench through a locking mechanism A;

the adjusting assembly is connected with the fixing assembly of the positioner and comprises a plurality of adjusting rods connected in sequence, each adjusting rod is hinged to each other, one of the adjusting rods located on two sides is hinged to the workpiece positioning block, the other adjusting rod is hinged to the positioner fixing block, and the adjusting rods are fixed to each other in a locking mode through independent locking mechanisms B.

2. The machining locator for the numerical control machine tool according to claim 1, characterized in that: the locking mechanism A is as follows: the lower end face of the locator fixed block is attached to the workbench, a plurality of inverted T-shaped guide grooves distributed in parallel are formed in the surface of the workbench, a T-shaped bolt is arranged in one guide groove, the head of the bolt is arranged in the guide groove, a screw of the bolt extends upwards and penetrates through the locator fixed block to be locked through a nut, and therefore fixing between the locator fixed block and the workbench is achieved.

3. The machining locator for the numerical control machine tool according to claim 1, characterized in that: the locking mechanism A is as follows: the lower terminal surface of locator fixed block and workstation laminate mutually, have a plurality of inverted T shape guide ways that distribute side by side on the surface of workstation, still have the inverted T shape embedding piece of embedding inverted T shape guide way simultaneously in the bottom of locator fixed block, still the embedding has a permanent magnet in the locator fixed block.

4. The machining locator for the numerical control machine tool according to claim 1, characterized in that: the locking mechanism B comprises locking bolts and locking nuts which are matched with each other, through holes for the locking bolts to pass through are formed in the two sides of the adjusting rod, one side, connected with the adjusting rod, of the workpiece positioning block and one side, connected with the adjusting rod, of the positioner fixing block, and the locking bolts penetrate through the through holes in the adjusting rod, the workpiece positioning block and the positioner fixing block and then are locked through the locking nuts.

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