CN220145335U - Horizontal multistation frock location structure - Google Patents

Abstract

The utility model discloses a horizontal multi-station tool positioning structure, which belongs to the technical field of automobile accessory manufacturing and comprises a machine tool fixing base and a square box upright post, wherein the square box upright post is connected with a positioning fixture assembly which is used for fixing a part to be processed and can process three surfaces in sequence; the positioning clamp assembly comprises an upper clamping assembly, a lower clamping assembly, a side clamping assembly, a front clamping assembly, a rear clamping assembly, a buffer assembly and a clamp body; the upper clamping assembly, the lower clamping assembly, the side clamping assembly, the front clamping assembly, the rear clamping assembly and the buffer assembly are all connected with the clamp body, and the clamp body is detachably connected with the square box upright post. Through the mode, the workpiece is automatically clamped by the upper clamping component, the lower clamping component, the side clamping component and the front and rear clamping components, the machining of the workpiece is not affected, three-surface machining is achieved, the positioning clamp component can be freely assembled with the square box upright post, and the clamp cost of small batches of parts is saved.

Description

Horizontal multistation frock location structure

Technical Field

The utility model relates to the technical field of automobile part manufacturing, in particular to a horizontal multi-station tool positioning structure.

Background

The automobile expansion valve is arranged at the inlet of the automobile evaporator and mainly plays a role in throttling, and after the liquid refrigerant with high temperature and high pressure is throttled by the throttle hole of the expansion valve, the liquid refrigerant becomes a vaporific hydraulic refrigerant with low temperature and low pressure, thereby creating conditions for the evaporation of the refrigerant and simultaneously controlling the flow rate of the refrigerant. However, the parts of the expansion valve of the automobile are usually fixed and then processed.

Chinese utility model publication No. CN212858559U discloses a processing positioning jig, which realizes the waterproof and dustproof functions of the positioning jig by using a sealing box.

However, the above patent still has the following problems: 1. only one surface can be processed in each processing, when multiple surfaces are needed, the surface needs to be turned over and processed for multiple times, the working procedure is complex, and the cost is increased; 2. when a plurality of identical workpieces are processed, the workpieces cannot be freely combined.

Based on the above, the utility model designs a horizontal multi-station tool positioning structure to solve the above problems.

Disclosure of Invention

Aiming at the defects existing in the prior art, the utility model provides a horizontal multi-station tool positioning structure.

In order to achieve the above purpose, the utility model is realized by the following technical scheme: the utility model provides a horizontal multistation frock location structure, includes the lathe unable adjustment base, lathe unable adjustment base installs the square chest stand that is used for assembling anchor clamps; the square box upright post is connected with a positioning clamp assembly which is used for fixing a part to be processed and can process three surfaces in sequence; the positioning clamp assembly comprises an upper clamping assembly, a lower clamping assembly, a side clamping assembly, a front clamping assembly, a rear clamping assembly, a buffer assembly and a clamp body; the upper clamping assembly, the lower clamping assembly, the side clamping assembly, the front clamping assembly, the rear clamping assembly and the buffer assembly are all connected with the clamp body, and the clamp body is detachably connected with the square box upright post.

Further, the square box upright post comprises an upright post base, a square box and a connector; the bottom of stand base and lathe unable adjustment base's top fixed connection, the bottom of square chest rotates with the top of stand base to be connected, and the side of square chest can be dismantled with a plurality of group's positioning fixture subassemblies and be connected, the top of square chest and the bottom fixed connection of connector, the top and the external drive arrangement fixed connection of connector.

Further, the upper and lower clamping assemblies comprise a first hydraulic cylinder, a first compression block and a lower end positioning block; the first pneumatic cylinder is fixedly connected with the clamp body positioned at the rear of the clamp positioning cavity, the output end of the first pneumatic cylinder is rotationally connected with the first compression block, the bottom end of the lower end positioning block is fixedly connected with the top end of the clamp body positioned at the bottom of the clamp positioning cavity, the top of the lower end positioning block is in contact connection with the bottom end of the workpiece, and the first pneumatic cylinder is a rotary pneumatic cylinder.

Further, the side clamping assembly comprises a side end positioning block, a second hydraulic cylinder, a second compression block and two groups of limiting pieces; the side locating piece bottom and the top fixed connection who is located the anchor clamps body of anchor clamps location chamber one side, the side of side locating piece and the side contact connection of work piece, the lower extreme fixed connection of the second pneumatic cylinder and the anchor clamps body, the output shaft of second pneumatic cylinder and the one end rotation of second compact heap are connected, two sets of the both ends of locating part respectively with the anchor clamps body and the one end rotation that the second compact heap is close to the second pneumatic cylinder are connected, and the rotation junction of second pneumatic cylinder and second compact heap is less than the rotation junction of second compact heap and locating part, and the second pneumatic cylinder is flexible pneumatic cylinder.

Further, the top ends of the second pressing block and the side end positioning blocks are not higher than the bottom ends of the workpiece processing areas.

Further, the front and rear clamping assembly comprises a third hydraulic cylinder, a corner pressing plate and a rear end positioning block; the lower end of the third hydraulic cylinder is fixedly connected with the lower end of the clamp body, one end of the corner pressing plate is rotationally connected with an output shaft of the third hydraulic cylinder, the other end of the corner pressing plate is in contact connection with the front end of the workpiece, the bottom end of the rear end positioning block is fixedly connected with the top end of the clamp body positioned at the rear end of the clamp positioning cavity, the front end of the rear end positioning block is in contact connection with the rear end of the workpiece, and the third hydraulic cylinder is a rotary hydraulic cylinder.

Furthermore, the rear end positioning blocks are provided with two groups.

Still further, the damping assembly includes a fourth hydraulic cylinder and a hydraulic damper; one end of the hydraulic buffer is fixedly connected with an output shaft of a fourth hydraulic cylinder, the fourth hydraulic cylinder is fixedly connected with the top end of the clamp body positioned at the rear end of the clamp positioning cavity, and the other end of the hydraulic buffer is in contact connection with the rear end of the workpiece.

Advantageous effects

According to the square box vertical column positioning fixture, the external driving device drives the connectors of the square box vertical column to rotate 90 degrees each time, the connectors drive the square box to rotate 90 degrees, the four side faces of the square box are assembled with the positioning fixture assemblies, when one face of the positioning fixture assemblies is used for machining when the straight face machining device is used for machining, the other three faces of the positioning fixture assemblies are used for feeding and discharging respectively, and time is saved.

According to the utility model, the first hydraulic cylinder of the upper and lower clamping assemblies of the positioning clamp assembly is started to rotate the first compression block, so that the first compression block and the lower end positioning block are matched to automatically clamp a workpiece up and down; the second hydraulic cylinder of the side clamping assembly is started to push the second compression block, and as the second compression block is limited by the limiting piece, the other end of the second compression block compresses the side surface of the workpiece, so that the workpiece is automatically clamped left and right by matching the second compression block with the side end positioning block, the top ends of the second compression block and the side end positioning block are lower than a processing area of the workpiece, and the side surface of a procedure is convenient to process; the third hydraulic cylinder of the front and rear clamping assembly is started to drive the corner pressing plate to rotate, when the corner pressing plate is in contact with the front end of the workpiece, the corner pressing plate and the rear end positioning block are matched to automatically clamp the workpiece front and rear, and the third hydraulic cylinder is started again to drive the corner pressing plate to separate from the workpiece, so that a machining interference area of a product is avoided, the pressing surface can be used for CNC machining, and the purpose of machining three planes in sequence is achieved; during processing, the fourth hydraulic cylinder of the buffer assembly is driven by the hydraulic instruction, the internal hydraulic piston rod pushes the hydraulic buffer to advance, the hydraulic buffer supports the workpiece at a fixed position after the hydraulic buffer contacts the workpiece, vibration is avoided during processing, and the processing precision of the workpiece is improved.

Drawings

In order to more clearly illustrate the embodiments of the present utility model 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. It is evident that the drawings in the following description are only some embodiments of the present utility model and that other drawings may be obtained from these drawings without inventive effort for a person of ordinary skill in the art.

FIG. 1 is a perspective view of a main structure of a horizontal multi-station tooling positioning structure;

FIG. 2 is a front view of a positioning structure of a horizontal multi-station tooling of the present utility model;

FIG. 3 is a second perspective view of a main structure of a positioning structure of a horizontal multi-station tool of the present utility model;

FIG. 4 is a perspective view of a positioning fixture assembly;

fig. 5 is a perspective view of a positioning fixture assembly.

Reference numerals in the drawings represent respectively: 1. a machine tool fixing base; 2. square box upright post; 21. a column base; 22. a square box; 23. a connector; 3. positioning a clamp assembly; 31. an upper and lower clamping assembly; 311. a first hydraulic cylinder; 312. a first compression block; 313. a lower end positioning block; 32. a side clamping assembly; 321. a side end positioning block; 322. a second hydraulic cylinder; 323. a second compression block; 324. a limiting piece; 33. front and rear clamping assemblies; 331. a third hydraulic cylinder; 332. a corner pressing plate; 333. a rear end positioning block; 34. a buffer assembly; 341. a fourth hydraulic cylinder; 342. a hydraulic buffer; 35. the clamp body.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present utility model more clear, the technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model. It will be apparent that the described embodiments are some, but not all, embodiments of the utility model. 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 is further described below with reference to examples.

Example 1

Referring to fig. 1-5 of the specification, a horizontal multi-station tool positioning structure comprises a machine tool fixing base 1;

the square box upright post 2 for assembling the clamp is arranged on the machine tool fixed base 1;

the square box upright post 2 comprises an upright post base 21, a square box 22 and a connector 23; the bottom end of the upright post base 21 is fixedly connected with the top end of the machine tool fixing base 1, the bottom end of the square box 22 is rotationally connected with the top end of the upright post base 21, the side surface of the square box 22 is detachably connected with the plurality of groups of positioning clamp assemblies 3, the top end of the square box 22 is fixedly connected with the bottom end of the connector 23, and the top end of the connector 23 is fixedly connected with an external driving device;

the external drive device drives the connector 23 of square box stand 2 to rotate 90 degrees at every turn, and the connector 23 drives square box 22 to rotate 90 degrees, and positioning fixture assembly 3 has all been assembled to four sides of square box 22, is used for processing when the straight side processingequipment of wherein one side positioning fixture assembly 3, and other trilateral positioning fixture assemblies 3 are used for material loading and unloading respectively, save time.

Example 2

In some embodiments, as shown in fig. 1-5, as a preferred embodiment of the present utility model, the square box upright 2 is connected with a positioning fixture assembly 3 for fixing a part to be machined and machining three surfaces in sequence;

the positioning clamp assembly 3 comprises an upper clamping assembly 31, a lower clamping assembly 31, a side clamping assembly 32, a front clamping assembly 33, a rear clamping assembly 33, a buffer assembly 34 and a clamp body 35; the upper clamping assembly 31, the lower clamping assembly 31, the side clamping assembly 32, the front clamping assembly 33, the rear clamping assembly 33 and the buffer assembly 34 are all connected with the clamp body 35, and the clamp body 35 is detachably connected with the square box upright 2.

The upper and lower clamping assembly 31, the side clamping assembly 32 and the front and rear clamping assembly 33 of the positioning clamp assembly 3 are used for fixing workpieces in the clamp positioning cavity, the buffer assembly 34 is used for propping up the workpieces during processing, vibration is avoided during processing, the processing precision of the workpieces is affected, the clamp body 35 is used for forming the upper and lower clamping assembly 31, the side clamping assembly 32, the front and rear clamping assembly 33 and the buffer assembly 34 into a whole, each positioning clamp assembly 3 is divided into independent individuals, various combination modes are provided, the workpieces of different types can be conveniently assembled on one square box upright 2 at the same time, and the clamp cost of small batches of parts is saved.

Example 3

In some embodiments, as shown in fig. 1-5, as a preferred embodiment of the present utility model, the upper and lower clamping assembly 31 includes a first hydraulic cylinder 311, a first compression block 312, and a lower end positioning block 313; the first hydraulic cylinder 311 is fixedly connected with the clamp body 35 positioned at the rear of the clamp positioning cavity, the output end of the first hydraulic cylinder 311 is rotationally connected with the first compression block 312, the bottom end of the lower end positioning block 313 is fixedly connected with the top end of the clamp body 35 positioned at the bottom of the clamp positioning cavity, the top of the lower end positioning block 313 is in contact connection with the bottom end of a workpiece, and the first hydraulic cylinder 311 is a rotary hydraulic cylinder;

the side clamping assembly 32 comprises a side end positioning block 321, a second hydraulic cylinder 322, a second compaction block 323 and two groups of limiting pieces 324; the bottom end of the side end positioning block 321 is fixedly connected with the top end of the clamp body 35 positioned at one side of the clamp positioning cavity, the side surface of the side end positioning block 321 is in contact connection with the side surface of a workpiece, the second hydraulic cylinder 322 is fixedly connected with the lower end of the clamp body 35, the output shaft of the second hydraulic cylinder 322 is rotationally connected with one end of the second compression block 323, two groups of limiting pieces 324 are respectively rotationally connected with one ends of the clamp body 35 and the second compression block 323, which are close to the second hydraulic cylinder 322, and the rotational connection position of the second hydraulic cylinder 322 and the second compression block 323 is lower than the rotational connection position of the second compression block 323 and the limiting pieces 324, and the second hydraulic cylinder 322 is a telescopic hydraulic cylinder;

the top ends of the second hold-down block 323 and the side end positioning block 321 are not higher than the bottom end of the workpiece processing area;

the front and rear clamping assembly 33 comprises a third hydraulic cylinder 331, a corner pressing plate 332 and a rear end positioning block 333; the third hydraulic cylinder 331 is fixedly connected with the lower end of the clamp body 35, one end of the corner pressing plate 332 is rotationally connected with an output shaft of the third hydraulic cylinder 331, the other end of the corner pressing plate 332 is in contact connection with the front end of the workpiece, the bottom end of the rear end positioning block 333 is fixedly connected with the top end of the clamp body 35 positioned at the rear end of the clamp positioning cavity, the front end of the rear end positioning block 333 is in contact connection with the rear end of the workpiece, and the third hydraulic cylinder 331 is a rotary hydraulic cylinder;

preferably, the rear end positioning blocks 333 are provided in two groups;

the damping assembly 34 includes a fourth hydraulic cylinder 341 and a hydraulic damper 342; one end of a hydraulic buffer 342 is fixedly connected with an output shaft of a fourth hydraulic cylinder 341, the fourth hydraulic cylinder 341 is fixedly connected with the top end of a clamp body 35 positioned at the rear end of the clamp positioning cavity, and the other end of the hydraulic buffer 342 is in contact connection with the rear end of a workpiece;

the first hydraulic cylinder 311 of the upper and lower clamping assembly 31 of the positioning clamp assembly 3 is started to rotate the first compression block 312, so that the first compression block 312 and the lower end positioning block 313 are matched to automatically clamp a workpiece up and down; the second hydraulic cylinder 322 of the side clamping assembly 32 is started to push the second compression block 323, and as the second compression block 323 is limited by the limiting piece 324, the other end of the second compression block 323 compresses the side surface of the workpiece, so that the workpiece is automatically clamped left and right by matching the second compression block 323 with the side end positioning block 321, the top ends of the second compression block 323 and the side end positioning block 321 are lower than a processing area of the workpiece, and the side surface of a process is convenient to process; the third hydraulic cylinder 331 of the front and rear clamping assembly 33 is started to drive the corner pressing plate 332 to rotate, when the corner pressing plate 332 is in contact with the front end of a workpiece, the corner pressing plate 332 and the rear end positioning block 333 are matched to automatically clamp the workpiece front and rear, the third hydraulic cylinder 331 is started again to drive the corner pressing plate 332 to separate from the workpiece, and a machining interference area of a product is avoided, so that the pressing surface can be used for CNC machining, and the aim of sequentially machining three planes is fulfilled; during processing, the fourth hydraulic cylinder 341 of the buffer assembly 34 is driven by the hydraulic command, the internal hydraulic piston rod pushes the hydraulic buffer 342 to advance, the hydraulic buffer 342 supports the workpiece at a fixed position after contacting the workpiece, vibration is avoided during processing, and processing precision of the workpiece is improved.

The above embodiments are only for illustrating the technical solution of the present utility model, and are not limiting; although the utility model has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present utility model.

Claims (8)

1. The utility model provides a horizontal multistation frock location structure, includes lathe unable adjustment base (1), its characterized in that:

square box upright posts (2) for assembling the clamp are arranged on the machine tool fixing base (1);

the square box upright post (2) is connected with a positioning clamp assembly (3) which is used for fixing a part to be processed and can process three surfaces in sequence;

the positioning clamp assembly (3) comprises an upper clamping assembly (31), a lower clamping assembly (32), a side clamping assembly (32), a front clamping assembly (33), a rear clamping assembly (33), a buffer assembly (34) and a clamp body (35); the upper clamping assembly (31), the lower clamping assembly (32), the side clamping assembly (33) and the buffer assembly (34) are connected with the clamp body (35), and the clamp body (35) is detachably connected with the square box upright post (2).

2. The horizontal multi-station tooling positioning structure according to claim 1, wherein the square box upright post (2) comprises an upright post base (21), a square box (22) and a connector (23); the bottom of stand base (21) and the top fixed connection of lathe unable adjustment base (1), the top of square chest (22) rotates with the top of stand base (21) to be connected, and the side of square chest (22) can be dismantled with a plurality of group's positioning fixture subassembly (3) and be connected, the bottom fixed connection of the top of square chest (22) and connector (23), the top and the external drive arrangement fixed connection of connector (23).

3. The horizontal multi-station tooling positioning structure according to claim 2, wherein the upper and lower clamping assemblies (31) comprise a first hydraulic cylinder (311), a first compression block (312) and a lower end positioning block (313); the first hydraulic cylinder (311) is fixedly connected with the clamp body (35) positioned at the rear of the clamp positioning cavity, the output end of the first hydraulic cylinder (311) is rotationally connected with the first compression block (312), the bottom end of the lower end positioning block (313) is fixedly connected with the top end of the clamp body (35) positioned at the bottom of the clamp positioning cavity, the top of the lower end positioning block (313) is in contact connection with the bottom end of a workpiece, and the first hydraulic cylinder (311) is a rotary hydraulic cylinder.

4. The horizontal multi-station tooling positioning structure according to claim 3, wherein the side clamping assembly (32) comprises a side end positioning block (321), a second hydraulic cylinder (322), a second compaction block (323) and two groups of limiting pieces (324); the bottom of the side end locating block (321) is fixedly connected with the top end of the clamp body (35) positioned at one side of the clamp locating cavity, the side surface of the side end locating block (321) is in contact connection with the side surface of a workpiece, the second hydraulic cylinder (322) is fixedly connected with the lower end of the clamp body (35), the output shaft of the second hydraulic cylinder (322) is rotationally connected with one end of the second compression block (323), two groups of limiting pieces (324) are rotationally connected with one ends, close to the second hydraulic cylinder (322), of the clamp body (35) and the second compression block (323) respectively, and the rotational connection position of the second hydraulic cylinder (322) and the second compression block (323) is lower than the rotational connection position of the second compression block (323) and the limiting pieces (324), and the second hydraulic cylinder (322) is a telescopic hydraulic cylinder.

5. The horizontal multi-station tooling positioning structure according to claim 4, wherein the top ends of the second hold-down block (323) and the side end positioning block (321) are not higher than the bottom ends of the workpiece processing areas.

6. The horizontal multi-station tooling positioning structure according to claim 5, wherein the front and rear clamping assemblies (33) comprise a third hydraulic cylinder (331), a corner pressing plate (332) and a rear end positioning block (333); the third hydraulic cylinder (331) is fixedly connected with the lower end of the clamp body (35), one end of the corner pressing plate (332) is rotationally connected with an output shaft of the third hydraulic cylinder (331), the other end of the corner pressing plate (332) is in contact connection with the front end of the workpiece, the bottom end of the rear end positioning block (333) is fixedly connected with the top end of the clamp body (35) positioned at the rear end of the clamp positioning cavity, the front end of the rear end positioning block (333) is in contact connection with the rear end of the workpiece, and the third hydraulic cylinder (331) is a rotary hydraulic cylinder.

7. The horizontal multi-station tooling positioning structure according to claim 6, wherein the rear end positioning blocks (333) are provided with two groups.

8. The horizontal multi-station tooling positioning structure according to claim 7, wherein the buffer assembly (34) comprises a fourth hydraulic cylinder (341) and a hydraulic buffer (342); one end of a hydraulic buffer (342) is fixedly connected with an output shaft of a fourth hydraulic cylinder (341), the fourth hydraulic cylinder (341) is fixedly connected with the top end of a clamp body (35) positioned at the rear end of the clamp positioning cavity, and the other end of the hydraulic buffer (342) is in contact connection with the rear end of a workpiece.