CN220019646U - Roller motor test board - Google Patents

Abstract

The utility model discloses a roller motor test board, which relates to the field of roller test, and comprises a pedestal mechanism, wherein a test roller is arranged in the middle of the top end of the pedestal mechanism, a fixed support mechanism is arranged at the rear side of the top end of the pedestal mechanism, a transmission mechanism is arranged at the front end of the fixed support mechanism, a detection mechanism is arranged at the inner side of the transmission mechanism, and the transmission mechanism is driven to carry out transmission through the fixed support mechanism, so that the detection mechanism can cover all positions of the test roller in the process of testing the test roller, and the integrity of the test is ensured; meanwhile, when the utility model is used, the problem that errors exist in actual detection caused by parallel operation of a plurality of driving mechanisms in the actual detection process are avoided, and errors such as batch quality detection errors and the like which are difficult to recover are caused by the parallel operation of the driving mechanisms, so that the detection effect is ensured, the pressure of the roller in the working process can be fully simulated, the accuracy of the test result is ensured, and meanwhile, each position of the roller can be independently detected.

Description

Roller motor test board

Technical Field

The utility model relates to the field of roller testing, in particular to a roller motor test board.

Background

The roller is an important transmission part of the belt conveyor, the roller test is a quality inspection link which must be passed before the roller leaves the factory, and mainly tests whether parameters such as dynamic balance of the roller meet requirements or not, otherwise, the service life of the roller can be influenced.

The prior art discloses a cylinder test platform of application number CN202110177441.9, and the quality of cylinder is detected through synthesizing dynamic balance, axle and bearing temperature, the vibration condition of axle, high-efficient test realization.

However, the prior art still has a certain degree of defects, such as the technical solution of application number CN202110177441.9, which has a certain limit on the stress test of the drum, specifically, the drum needs to face the situation of unbalanced stress, and needs to be kept stable for a certain period of time. In addition, in the actual production process, the service life of the roller is also required to a certain extent, and a test table is required to test the condition of unstable pressure of the roller.

Disclosure of Invention

In order to solve the above-mentioned shortcomings in the background art, the present utility model aims to provide a roller motor test stand.

The aim of the utility model can be achieved by the following technical scheme:

the utility model provides a cylinder motor testboard, includes pedestal mechanism, pedestal mechanism's top middle part is provided with test cylinder, and pedestal mechanism's top rear side is provided with fixed bolster mechanism, and fixed bolster mechanism's front end is provided with drive mechanism, and drive mechanism's inboard is provided with detection mechanism, drives drive mechanism through fixed bolster mechanism, lets detection mechanism carry out the in-process of testing to test cylinder and can cover test cylinder's all positions, guarantees the integrality of test.

Further, the pedestal mechanism comprises a platen, the bottom end of the platen is provided with a lifting driving mechanism on the outer side, a lifting guide pipe is arranged at the top end of the inner side of the lifting driving mechanism corresponding to the position of the pedestal mechanism, a stable support is arranged on the outer side of the lifting guide pipe, and a control support is arranged at the top end of the lifting guide pipe.

Further, the test roller comprises a roller wall, roller brackets are arranged at two ends of the roller wall, a roller connecting bracket is arranged at one end, far away from the roller wall, of the roller bracket, and a roller fixing bracket is arranged at one end, far away from the roller bracket, of the roller connecting bracket.

Further, the fixed bolster mechanism includes unable adjustment base, unable adjustment base rear end fixedly connected with fixed bolster, the lateral wall of fixed bolster towards the front end is provided with the crooked axle center of drive, the one end that the crooked axle center of drive kept away from the fixed bolster is provided with actuating mechanism, the one end that actuating mechanism kept away from the crooked axle center of drive is connected with flexible output pole, the one end fixedly connected with flexible control axle center that the crooked axle center of drive was kept away from to flexible output pole, unable adjustment base side fixedly connected with first crooked dead lever, the one end that unable adjustment base was kept away from to first crooked dead lever is connected with fixedly connected axle center, the one end that unable adjustment base kept away from first crooked dead lever is connected with the crooked dead lever of second.

Further, the transmission mechanism comprises a first transmission output support, one end of the first transmission output support, which is far away from the telescopic control axle center, is provided with a first transmission movable shaft, one end of the first transmission movable shaft, which is far away from the telescopic control axle center, is provided with a first transmission connecting rod, the first transmission connecting rod is connected with a first test rod through a fixing base, and one end of the first test rod, which is close to the test roller, is provided with a first test pressing plate.

Further, detection mechanism includes the second transmission loose axle, the second transmission loose axle is connected in the one end that unable adjustment base was kept away from to the crooked dead lever of second, second transmission loose axle side end is connected with the second transmission connecting rod, the one end swing joint that the second transmission loose axle was kept away from to the second transmission connecting rod has the second transmission output support, the one end swing joint that the second transmission output support kept away from the second transmission connecting rod is in the first transmission connecting rod outside, the one end that the second transmission loose axle was kept away from to the second transmission connecting rod is connected with the second test rod, the one end that the second transmission loose axle was kept away from to the second test rod is provided with the second test clamp plate, the one end that the first transmission output support was kept away from to the first transmission loose axle is provided with the third transmission connecting rod, the third transmission connecting rod is connected with the third test rod through fixed connection axle center, the one end that the third transmission output rod is close to the drum wall is provided with the third test clamp plate.

The utility model has the beneficial effects that:

1. according to the utility model, by adopting a single-core driving mechanism, the problem that errors exist in actual detection caused by parallel operation of a plurality of driving mechanisms in an actual detection process, and errors which are difficult to recover, such as batch quality detection errors, are caused, so that the detection effect is ensured;

2. when the utility model is used, the pressure is equal, the pressure applied to the roller in the working process can be fully simulated, the accurate test result is ensured, and meanwhile, each position of the roller can be independently detected, so that the detection efficiency is improved.

Drawings

The utility model is further described below with reference to the accompanying drawings.

FIG. 1 is a schematic view of the overall structure of the present utility model;

FIG. 2 is a schematic view of a portion of the structure of the present utility model;

FIG. 3 is a schematic view of the present utility model;

fig. 4 is a schematic view of the second embodiment of the present utility model.

In the figure: 1. a pedestal mechanism; 11. a platen; 12. support legs; 13. a lifting driving mechanism; 14. lifting guide pipes; 15. a stabilizing support; 16. a control bracket; 2. a test drum; 21. a drum wall; 22. a roller bracket; 23. the roller is connected with the bracket; 24. a roller fixing bracket; 3. a fixed support mechanism; 31. a fixed base; 32. a fixed bracket; 33. driving the bending axis; 34. a driving mechanism; 35. a telescoping output rod; 36. a telescopic control axis; 37. a first curved fixing rod; 38. fixedly connecting the axle center; 39. a second curved fixing rod; 4. a transmission mechanism; 41. a first transmission output bracket; 42. a first drive movable shaft; 43. a first drive connection rod; 44. a first test lever; 45. a first test platen; 5. a detection mechanism; 50. a second transmission output bracket; 51. a second drive movable shaft; 52. a second drive connection rod; 53. a second test lever; 54. a second test platen; 55. a third drive connection rod; 56. a third test lever; 57. and a third test platen.

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.

In the description of the present utility model, it should be understood that the terms "open," "upper," "lower," "thickness," "top," "middle," "length," "inner," "peripheral," and the like indicate orientation or positional relationships, merely for convenience in describing the present utility model and to simplify the description, and do not indicate or imply that the components or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the present utility model.

As shown in fig. 1, the roller motor test board comprises a platen 11, a bottom end of the platen 11 is provided with a 12, a lifting driving mechanism 13 is arranged outside the platen 11, a lifting guide pipe 14 is arranged at a position corresponding to the pedestal 1 at the top end of the inner side of the lifting driving mechanism 13, a stabilizing support 15 is arranged outside the lifting guide pipe 14, and a control support 16 is arranged at the top end of the lifting guide pipe 14.

The test roller 2 at the top end is fixed by the control bracket 16 so as to perform the rotation work of the test roller 2, so that the test roller 2 can fully perform the test.

The test roller 2 comprises a roller wall 21, roller brackets 22 are arranged at two ends of the roller wall 21, a roller connecting bracket 23 is arranged at one end of the roller bracket 22 far away from the roller wall 21, and a roller fixing bracket 24 is arranged at one end of the roller connecting bracket 23 far away from the roller bracket 22.

By controlling the contact of the support 16 and the roller fixing support 24, the roller support 22 is controlled to allow the roller wall 21 to be moved so as to sufficiently test the outside of the roller wall 21.

As shown in fig. 3 and 4, the fixed support mechanism 3 includes a fixed base 31, a fixed support 32 is fixedly connected to the rear end of the fixed base 31, a driving bending axis 33 is disposed on the side wall of the fixed support 32 facing the front end, a driving mechanism 34 is disposed on one end of the driving bending axis 33 away from the fixed support 32, a telescopic output rod 35 is connected to one end of the driving mechanism 34 away from the driving bending axis 33, a telescopic control axis 36 is fixedly connected to one end of the telescopic output rod 35 away from the driving bending axis 33, a first bending fixing rod 37 is fixedly connected to the side end of the fixed base 31, a fixed connection axis 38 is connected to one end of the first bending fixing rod 37 away from the fixed base 31, and a second bending fixing rod 39 is connected to one end of the fixed base 31 away from the first bending fixing rod 37.

The transmission mechanism 4 can be driven to move by driving the telescopic control shaft center 36 driven by the bending shaft center 33, and the detection mechanism 5 can detect the drum wall 21 under the guidance of the fixed first bending fixing rod 37 and the fixed second bending fixing rod 39, so that the drum is tested.

The transmission mechanism 4 comprises a first transmission output support 41, a first transmission movable shaft 42 is arranged at one end, far away from the telescopic control shaft center 36, of the first transmission output support 41, a first transmission connecting rod 43 is arranged at one end, far away from the telescopic control shaft center 36, of the first transmission movable shaft 42, a first test rod 44 is connected to the first transmission connecting rod 43 through the fixing base 31, and a first test pressing plate 45 is arranged at one end, close to the test roller 2, of the first test rod 44.

The first transmission output support 41 is driven by the telescopic control axle center 36 to mobilize the first transmission movable shaft 42, so that the movement of the detection mechanism 5 is controlled, and the first test rod 44 is driven by the telescopic control axle center 36 to enable the first test pressing plate 45 to detect the drum wall 21.

The detection mechanism 5 comprises a second transmission movable shaft 51, the second transmission movable shaft 51 is connected to one end, far away from the fixed base 31, of the second bending fixed rod 39, a second transmission connecting rod 52 is connected to the side end of the second transmission movable shaft 51, one end, far away from the second transmission movable shaft 51, of the second transmission connecting rod 52 is movably connected with a second transmission output support 50, one end, far away from the second transmission connecting rod 52, of the second transmission output support 50 is movably connected to the outer side of the first transmission connecting rod 43, one end, far away from the second transmission connecting rod 52, of the second transmission movable shaft 51 is connected with a second test rod 53, one end, far away from the second transmission movable shaft 51, of the second test rod 53 is provided with a second test pressing plate 54, one end, far away from the first transmission output support 41, of the first transmission movable shaft 42 is provided with a third transmission connecting rod 55, the third transmission connecting rod 55 is connected with a third test rod 56 through a fixed connection axle center 38, and one end, near the drum wall 21, of the third test rod 56 is provided with a third test pressing plate 57.

The second transmission output bracket 50 is driven to drive the second transmission connecting rod 52 to move, so that the second test rod 53 can move outside the drum wall 21, the second test pressing plate 54 detects the drum wall 21, and meanwhile, the third transmission connecting rod 55 is driven to drive the third test rod 56 to drive the third test pressing plate 57 to move outside the drum wall 21, so that the third test pressing plate 57 detects the drum wall 21.

When the device is used, the driving mechanism 34 is driven, the driving mechanism 34 can push the telescopic control axle center 36, the telescopic control axle center 36 drives the first transmission output bracket 41 to further drive the third transmission connecting rod 55, and the third testing rod 56 and the third testing pressing plate 57 are driven through the fixed connection axle center 38, so that the third testing pressing plate 57 is close to the drum wall 21, and the outer side of the drum wall 21 is detected; meanwhile, the movement of the telescopic control axle center 36 can drive the first transmission connecting rod 43, and the first test pressing plate 45 at the outer side of the first test rod 44 is close to the drum wall 21 under the control of the fixed base 31, so that the first test pressing plate 45 can conveniently detect the drum wall 21; meanwhile, under the guidance of the second bending fixing rod 39, the second transmission output bracket 50 is enabled to move, the second transmission connecting rod 52 is driven, the second testing rod 53 is enabled to move, the second testing pressing plate 54 is enabled to be close to the drum wall 21, the drum wall 21 is detected, meanwhile, the lifting guide pipe 14 at the bottom end controls the control bracket 16 to adopt an existing lifting rotating mechanism, rotation and lifting of the testing drum 2 can be controlled, and the outer side part of the drum wall 21 can be fully detected.

In the description of the present specification, the descriptions of the terms "one embodiment," "example," "specific example," and the like, mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present utility model. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The foregoing has shown and described the basic principles, principal features and advantages of the utility model. It will be understood by those skilled in the art that the present utility model is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present utility model, and various changes and modifications may be made without departing from the spirit and scope of the utility model, which is defined in the appended claims.

Claims (6)

1. The utility model provides a cylinder motor testboard, includes pedestal mechanism (1), its characterized in that, the top middle part of pedestal mechanism (1) is provided with test cylinder (2), and the top rear side of pedestal mechanism (1) is provided with fixed bolster mechanism (3), and the front end of fixed bolster mechanism (3) is provided with drive mechanism (4), and the inboard of drive mechanism (4) is provided with detection mechanism (5), drives drive mechanism (4) through fixed bolster mechanism (3), lets detection mechanism (5) carry out the in-process of testing to test cylinder (2) and can cover all positions of test cylinder (2), guarantees the integrality of test.

2. A drum motor test bench according to claim 1, characterized in that the pedestal mechanism (1) comprises a platen (11), a lifting driving mechanism (13) is arranged at the outer side of the platen (12) and is arranged at the inner side top end of the lifting driving mechanism (13), a lifting guide pipe (14) is arranged at the position corresponding to the pedestal mechanism (1), a stabilizing support (15) is arranged at the outer side of the lifting guide pipe (14), and a control support (16) is arranged at the top end of the lifting guide pipe (14).

3. A drum motor test bench according to claim 2, characterized in that the test drum (2) comprises a drum wall (21), drum supports (22) are provided at both ends of the drum wall (21), a drum connecting support (23) is provided at one end of the drum support (22) far away from the drum wall (21), and a drum fixing support (24) is provided at one end of the drum connecting support (23) far away from the drum support (22).

4. A roller motor test stand according to claim 3, characterized in that the fixed support mechanism (3) comprises a fixed base (31), the fixed base (31) is fixedly connected with a fixed support (32), the side wall of the fixed support (32) towards the front end is provided with a driving bending axis (33), one end of the driving bending axis (33) far away from the fixed support (32) is provided with a driving mechanism (34), one end of the driving mechanism (34) far away from the driving bending axis (33) is connected with a telescopic output rod (35), one end of the telescopic output rod (35) far away from the driving bending axis (33) is fixedly connected with a telescopic control axis (36), one end of the fixed base (31) is fixedly connected with a first bending fixed rod (37), one end of the first bending fixed rod (37) far away from the fixed base (31) is connected with a fixed connection axis (38), and one end of the fixed base (31) far away from the first bending fixed rod (37) is connected with a second bending fixed rod (39).

5. The roller motor test bench according to claim 4, characterized in that the transmission mechanism (4) comprises a first transmission output support (41), one end of the first transmission output support (41) far away from the telescopic control axis (36) is provided with a first transmission movable shaft (42), one end of the first transmission movable shaft (42) far away from the telescopic control axis (36) is provided with a first transmission connecting rod (43), the first transmission connecting rod (43) is connected with a first test rod (44) through a fixed base (31), and one end of the first test rod (44) close to the test roller (2) is provided with a first test pressing plate (45).

6. The roller motor test stand according to claim 5, wherein the detection mechanism (5) comprises a second transmission movable shaft (51), the second transmission movable shaft (51) is connected to one end of a second bending fixed rod (39) far away from the fixed base (31), a second transmission connecting rod (52) is connected to the side end of the second transmission movable shaft (51), a second transmission output bracket (50) is movably connected to one end of the second transmission connecting rod (52) far away from the second transmission movable shaft (51), and one end of the second transmission output bracket (50) far away from the second transmission connecting rod (52) is movably connected to the outer side of the first transmission connecting rod (43);

one end that second transmission loose axle (51) kept away from second transmission connecting rod (52) is connected with second test rod (53), and one end that second test rod (53) kept away from second transmission loose axle (51) is provided with second test clamp plate (54), and one end that first transmission output support (41) was kept away from to first transmission loose axle (42) is provided with third transmission connecting rod (55), and third transmission connecting rod (55) are connected with third test rod (56) through fixed connection axle center (38), and one end that third test rod (56) are close to drum wall (21) is provided with third test clamp plate (57).