CN215999200U - Multi-position sliding mechanism - Google Patents

Abstract

The utility model discloses a multi-position sliding mechanism, which is characterized in that: the glide machanism include unable adjustment base, unable adjustment base is last to be provided with the cylinder and the guide rail that slide that are parallel to each other, the work end of the cylinder that slides links to each other with the bottom of workstation, the bottom of workstation still is provided with the slider, slider and guide rail sliding connection, unable adjustment base is last to be provided with sensor assembly, then be connected with on the workstation with the trigger plate that sensor assembly matches, unable adjustment base's side still is provided with many sets of accurate positioning mechanism, sensor assembly includes first sensor, second sensor and third sensor, the both sides of triggering the board are provided with first protruding portion, second protruding portion and third protruding portion, and wherein first protruding portion can trigger first sensor, and the second protruding portion can trigger the second sensor, and the third protruding portion then can trigger the third sensor.

Description

Multi-position sliding mechanism

Technical Field

The utility model relates to the field of white body welding of automobiles, in particular to a multi-position sliding mechanism.

Background

In the design process of a welding fixture for a body-in-white of an automobile, a sliding mechanism is often used for solving the problems of insufficient design space and the like, but along with the development of the trend of multi-automobile type mixed line in the automobile industry and the requirement of an automobile production line on the reserved position of a future automobile type, the sliding mechanism is often required to be positioned at a plurality of different design positions, although the purposes can be achieved by the conventional sliding mechanism driven by a motor, the precision requirement during welding is higher, so that a high-precision motor is required, and the overall cost of the sliding mechanism is high; the sliding mechanism is driven by the low-cost cylinder, so that the problem of cost can be solved, but the requirement on positioning accuracy is difficult to meet due to the fact that the movement accuracy of the cylinder is low.

There is therefore a need for a method or apparatus that addresses the above-mentioned problems.

Disclosure of Invention

The utility model aims to solve the defects in the prior art, and provides the multi-position sliding mechanism which is simple in structure, ingenious in design and reasonable in layout, adopts a low-cost air cylinder as a power source, and can still ensure that the position precision after sliding meets the requirement.

The technical solution of the utility model is as follows: a multi-position slide mechanism, characterized by: the sliding mechanism comprises a fixed base 1, a sliding cylinder 2 and a guide rail 3 which are parallel to each other are arranged on the fixed base 1, the working end of the sliding cylinder 2 is connected with the bottom of a working table 4, the bottom of the working table 4 is also provided with a sliding block 5, the sliding block 5 is in sliding connection with the guide rail 3, a sensor assembly is arranged on the fixed base 1, the working table 4 is connected with a trigger plate 6 matched with the sensor assembly, the side surface of the fixed base 1 is also provided with a plurality of sets of accurate positioning mechanisms,

the sensor assembly comprises a first sensor 7, a second sensor 8 and a third sensor 9, the trigger plate 6 is provided on both sides with a first protrusion 10, a second protrusion 11 and a third protrusion 19, wherein the first protrusion 10 is capable of triggering the first sensor 7, the second protrusion 11 is capable of triggering the second sensor 8 and the third protrusion 19 is capable of triggering the third sensor 9,

accurate positioning mechanism includes support cover 12 of fixed connection on unable adjustment base 1, is provided with adjustment cylinder 13 in the support cover 12, is provided with adjusting wheel 14 on adjustment cylinder 13's the work end, accurate positioning mechanism is still including setting up adjusting block 15 on workstation 4 bottom surface, set up on adjusting block 15 with V type groove that adjusting wheel 14 position matches, accurate positioning mechanism still includes the support frame 16 of being connected with unable adjustment base 1, be provided with longitudinal distribution's fourth sensor 17 and fifth sensor 18 on the support frame 16, fourth sensor 17 and fifth sensor 18 are corresponding with adjusting cylinder 13 position of adjusting wheel 14 when being in two extreme positions respectively.

Compared with the prior art, the utility model has the following advantages:

this structural style's multiposition glide machanism, a structure is simple, design benefit, reasonable in layout, it is to the traditional expensive problem that utilizes the motor to carry out the glide machanism that drives, design one kind and utilize the cylinder to carry out the driven special construction, owing to replaced the motor with the cylinder, consequently its cost of manufacture reduces by a wide margin, simultaneously in order to solve the not enough problem of cylinder motion precision, it has still set up accurate positioning mechanism respectively for the locating position of difference, the workstation makes behind rough action under the drive of cylinder, accurate positioning mechanism can let the workstation move to accurate operating position, thereby the problem of motion precision has been solved. The multi-position sliding mechanism has the advantages of simple manufacturing process and low manufacturing cost, so the multi-position sliding mechanism has various advantages, is particularly suitable for popularization and application in the field, and has very wide market prospect.

Drawings

Fig. 1 is a schematic perspective view (direction one) of an embodiment of the present invention.

Fig. 2 is a schematic perspective view (direction two) of the embodiment of the present invention.

Fig. 3 is a top view (initial position) of an embodiment of the present invention.

Fig. 4 is a top view of an embodiment of the present invention (coarse adjustment of the first operating position).

Fig. 5 is a top view of an embodiment of the present invention (fine adjustment of working position one).

Fig. 6 is a plan view (coarse adjustment in the second operation position) of the embodiment of the present invention.

Fig. 7 is a top view of an embodiment of the utility model (fine adjustment of the third operating position).

Detailed Description

The following description will explain embodiments of the present invention with reference to the accompanying drawings. As shown in fig. 1 to 7: a multi-position slippage mechanism comprises a fixed base 1, wherein a slippage cylinder 2 and a guide rail 3 which are parallel to each other are arranged on the fixed base 1, the working end of the slippage cylinder 2 is connected with the bottom of a workbench 4, the bottom of the workbench 4 is also provided with a sliding block 5, the sliding block 5 is in sliding connection with the guide rail 3, a sensor assembly is arranged on the fixed base 1, the workbench 4 is connected with a trigger plate 6 which is matched with the sensor assembly, the side surface of the fixed base 1 is also provided with a plurality of sets of accurate positioning mechanisms,

the sensor assembly comprises a first sensor 7, a second sensor 8 and a third sensor 9, the trigger plate 6 is provided on both sides with a first protrusion 10, a second protrusion 11 and a third protrusion 19, wherein the first protrusion 10 is capable of triggering the first sensor 7, the second protrusion 11 is capable of triggering the second sensor 8 and the third protrusion 19 is capable of triggering the third sensor 9,

accurate positioning mechanism includes support cover 12 of fixed connection on unable adjustment base 1, is provided with adjustment cylinder 13 in the support cover 12, is provided with adjusting wheel 14 on adjustment cylinder 13's the work end, accurate positioning mechanism is still including setting up adjusting block 15 on workstation 4 bottom surface, set up on adjusting block 15 with V type groove that adjusting wheel 14 position matches, accurate positioning mechanism still includes the support frame 16 of being connected with unable adjustment base 1, be provided with longitudinal distribution's fourth sensor 17 and fifth sensor 18 on the support frame 16, fourth sensor 17 and fifth sensor 18 are corresponding with adjusting cylinder 13 position of adjusting wheel 14 when being in two extreme positions respectively.

The working process of the multi-position sliding mechanism of the embodiment of the utility model is as follows: the mechanism is provided with a plurality of sensors (a first sensor 7, a second sensor 8 and a third sensor 9) and a plurality of parts (a first protruding part 10, a second protruding part 11 and a third protruding part 19) which can respectively trigger the sensors, wherein the sensors and the protruding parts which are matched in pairs form a set of positioning detection mechanism together, namely, the mechanism is provided with a plurality of sets of positioning detection mechanisms which correspond to a plurality of sets of accurate positioning mechanisms one by one,

in the initial state, the table 4 is at the initial position as shown in fig. 3, the first protrusion 10 on the trigger plate 6 is above the first sensor 7, the first sensor 7 sends a signal to the control system, the control system determines that the table 4 is at the initial position,

when the work piece on the work table 4 needs to be conveyed to a first working position, the control system can control the sliding cylinder 2 to work to drive the work table 4 to move, in the moving process, the sliding block 5 and the guide rail 3 slide relatively, so that the movement can be ensured to be more stable and smooth, when the second sensor 8 detects the second protruding part 11, the work table 4 is shown to have moved to a rough area of a target position under the driving of the sliding cylinder 2, and the step is rough adjustment (as shown in fig. 4); after receiving the signal from the second sensor 8, the control system controls the precise positioning mechanism corresponding to the positioning detection mechanism where the second sensor 8 is located to work, and precisely adjusts the position of the workbench 4, after the adjustment is finished, the workbench 4 is located at the first working position, and the precision of the workbench meets the requirement (as shown in fig. 5);

when the work piece is required to be conveyed to the second working position by the workbench 4, firstly, the control system controls the sliding cylinder 2 to drive the workbench 4 to return to the initial position again (as shown in fig. 3), and then drives the workbench 4 to move again, when the third sensor 9 detects the third protrusion 19 on the trigger plate 6, the workbench is described to have moved to the approximate region of the target position, and this step is also a rough adjustment (as shown in fig. 6); after receiving the signal sent by the third sensor 9, the control system controls the accurate positioning mechanism corresponding to the positioning detection mechanism where the third sensor 9 is located to operate, and accurately adjusts the position of the workbench 4, after the adjustment is finished, the workbench 4 is located at the second operating position, and the accuracy of the workbench meets the requirement (as shown in fig. 7);

if more than two working positions exist, a plurality of sets of matched positioning detection mechanisms and accurate positioning mechanisms are only needed to be arranged in the device.

The working process of the accurate positioning mechanism is as follows: the adjusting cylinder 13 extends out to drive the adjusting wheel 14 to move towards the adjusting block 15, the adjusting wheel 14 can enter a V-shaped groove in the moving process, and the design of the V-shaped groove can ensure that the adjusting wheel 14 can smoothly perform the V-shaped groove and drive the workbench 4 to displace no matter which direction deviation exists between the workbench 4 and a target position; when the adjusting wheel 14 moves to the root of the V-shaped groove, the workbench 4 is adjusted to a target position, and the position precision at the moment is in accordance with the requirement; when the workbench 4 needs to obtain the freedom degree again for the next movement, the adjusting cylinder 13 is recovered, and the adjusting wheel 14 is drawn out from the V-shaped groove;

during the action of the adjustment wheel 14, the fourth sensor 17 and the fifth sensor 18 can detect the two extreme positions of their movement, respectively, so that the control system can determine at any time whether the table 4 is in the locked state.

Claims (1)

1. A multi-position slide mechanism, characterized by: the sliding mechanism comprises a fixed base (1), a sliding cylinder (2) and a guide rail (3) which are parallel to each other are arranged on the fixed base (1), the working end of the sliding cylinder (2) is connected with the bottom of a working platform (4), a sliding block (5) is further arranged at the bottom of the working platform (4), the sliding block (5) is in sliding connection with the guide rail (3), a sensor assembly is arranged on the fixed base (1), a trigger plate (6) matched with the sensor assembly is connected onto the working platform (4), a plurality of sets of accurate positioning mechanisms are further arranged on the side surface of the fixed base (1),

the sensor assembly comprises a first sensor (7), a second sensor (8) and a third sensor (9), wherein a first protrusion (10), a second protrusion (11) and a third protrusion (19) are arranged on two sides of the trigger plate (6), wherein the first protrusion (10) can trigger the first sensor (7), the second protrusion (11) can trigger the second sensor (8), and the third protrusion (19) can trigger the third sensor (9),

the accurate positioning mechanism comprises a supporting sleeve (12) fixedly connected on the fixed base (1), an adjusting cylinder (13) is arranged in the supporting sleeve (12), an adjusting wheel (14) is arranged on the working end of the adjusting cylinder (13), the accurate positioning mechanism also comprises an adjusting block (15) arranged on the bottom surface of the workbench (4), the adjusting block (15) is provided with a V-shaped groove matched with the position of the adjusting wheel (14), the accurate positioning mechanism also comprises a supporting frame (16) connected with the fixed base (1), a fourth sensor (17) and a fifth sensor (18) which are longitudinally distributed are arranged on the supporting frame (16), the fourth sensor (17) and the fifth sensor (18), and the fourth sensor (17) and the fifth sensor (18) respectively correspond to the positions of the adjusting wheel (14) when the adjusting cylinder (13) is at two extreme positions.

Images