CN213337721U - Full-automatic testing device for motor controller - Google Patents

Abstract

The utility model discloses a full-automatic testing arrangement of machine controller, which comprises a frame, be equipped with in the frame and be used for bearing the weight of the machine controller and with its spacing carrier assembly, be equipped with on the carrier assembly and be used for the circular telegram subassembly of machine controller circular telegram, be used for detecting the detection assembly I of the short-circuit connector in the machine controller and be used for detecting the detection assembly II of the UVW copper bar in the machine controller, be equipped with directly over the detection assembly I and be used for spacing subassembly with the machine controller; and protective covers which can be closed or opened are arranged on the outer sides of the detection component II, the detection component I and the limiting component. The beneficial effects of the utility model are mainly embodied in that: the device realizes full-process automatic power-on test, does not need manual operation, and avoids safety problems. Meanwhile, the protective cover can be opened or closed, the situation that an operator touches the protective cover accidentally in the working operation process is avoided, the safety is improved, and the accidental situation is avoided.

Description

Full-automatic testing device for motor controller

Technical Field

The utility model relates to a test fixture particularly, especially relates to a full-automatic testing arrangement of machine controller.

Background

With the continuous development of the electric power market and the economic construction, the demand of the power distribution automation system on the power distribution automation line terminal is larger and larger, and more special transformer acquisition terminal products need to be put into places such as newly-built large-scale factories and large-scale markets. Therefore, how to implement batch power-on, programming, detection and the like of the concentrator in the production process becomes a problem to be solved urgently. On the production line, generally adopt artifical manual wiring to carry out operations such as circular telegram, do not only inefficiency and appear the wiring mistake easily like this, binding post damages, equipment damage scheduling problem, still can cause some safety problems even.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming the not enough of prior art existence, provide a full-automatic testing arrangement of machine controller.

The purpose of the utility model is realized through the following technical scheme:

a full-automatic testing device for a motor controller comprises a rack, wherein a bearing assembly used for bearing the motor controller and limiting the motor controller is arranged on the rack, a power-on assembly used for powering on the motor controller, a detection assembly I used for detecting a short-circuit connector in the motor controller and a detection assembly II used for detecting a UVW copper bar in the motor controller are arranged on the bearing assembly, and a limiting assembly used for limiting the motor controller is arranged right above the detection assembly I; and protective covers which can be closed or opened are arranged on the outer sides of the detection component II, the detection component I and the limiting component.

Preferably, the bearing assembly comprises baffle plates fixedly arranged on the rack, a bearing plate tightly attached to the inner side surface of the baffle plate is arranged between the baffle plates, a stop block tightly attached to one end of the bearing plate is arranged at one end of the bearing plate, a servo cylinder is arranged at the other end of the bearing plate, and a cylinder shaft of the servo cylinder can be tightly attached to the bearing plate.

Preferably, the electrifying assembly comprises a driving cylinder I fixedly arranged on the rack, a fixed block I is fixedly arranged on a cylinder shaft of the driving cylinder I, and an electrifying socket capable of being electrified with the motor controller is fixedly arranged on the fixed block I.

Preferably, the driving cylinder I is fixedly provided with a sliding rail I, the sliding rail I is provided with a sliding block I matched with the sliding rail I, and one end side of the sliding block I is fixedly connected with the fixing block I.

Preferably, the detection assembly I comprises a driving cylinder II fixedly arranged on the rack, a sliding block II is fixedly arranged on a cylinder shaft of the driving cylinder II, a fixed block II is fixedly arranged on the sliding block II, and a detection probe I which can be connected with the short-circuit connector is fixedly arranged on the fixed block II.

Preferably, a sliding rail II is fixedly arranged on the driving cylinder II, and the vertical end of the sliding block II is slidably arranged on the sliding rail II.

Preferably, the detection assembly II comprises a support frame and a driving cylinder III fixedly arranged on the support frame, a cylinder shaft of the driving cylinder III is fixedly connected with the support plate, a guide rail is arranged on the support plate, a guide block I and a guide block II which are vertically arranged are arranged on the guide rail, a drive plate I is fixedly arranged on the guide block I, and a UVW probe is fixedly arranged on the drive plate I; and a driving plate II is fixedly arranged on the guide block II, and a limiting claw is fixedly arranged on the driving plate II.

Preferably, a driving cylinder IV is fixedly arranged on the supporting plate, a driving block is fixedly arranged on a cylinder shaft on the driving cylinder IV, a chute I and a chute II which are obliquely arranged are arranged on the driving block, and an included angle formed by a central axis of the chute I and a horizontal line is larger than an included angle formed by a central axis of the chute II and the horizontal line; a sliding pin I is fixedly arranged on the driving plate I and extends into the sliding groove I; and a sliding pin II is fixedly arranged on the driving plate II and extends into the sliding groove II.

Preferably, the limiting assembly comprises a limiting frame fixedly arranged on the rack, a driving cylinder v is fixedly arranged on the limiting frame, a limiting block is fixedly arranged on a cylinder shaft of the driving cylinder v, and the limiting block can be pressed on the motor controller.

Preferably, a support block I is fixedly arranged on the rack and positioned on two sides of the bearing assembly, a telescopic cylinder is arranged on the support block I through a pivot of the connection pin I, a connection plate is fixedly arranged on a cylinder shaft of the telescopic cylinder, a support block II is arranged on the connection plate through a pivot of the connection pin II, and the support block II is fixedly arranged on the protective cover.

The beneficial effects of the utility model are mainly embodied in that: the device realizes full-process automatic power-on test, does not need manual operation, and avoids safety problems. Meanwhile, the protective cover can be opened or closed, the situation that an operator touches the protective cover accidentally in the working operation process is avoided, the safety is improved, and the accidental situation is avoided.

Drawings

The technical scheme of the utility model is further explained by combining the attached drawings as follows:

FIG. 1: the utility model discloses a perspective view of the preferred embodiment;

FIG. 2: a partial enlarged view of a portion a in fig. 1;

FIG. 3: the utility model discloses the perspective view of the circular telegram subassembly in the preferred embodiment;

FIG. 4: in the preferred embodiment of the utility model, the detection component I is a perspective view;

FIG. 5: the protective cover in the preferred embodiment of the utility model is schematically connected;

FIG. 6: the utility model discloses the perspective view of detection subassembly II first direction in the preferred embodiment;

FIG. 7: the utility model discloses the perspective view of detection subassembly II second direction in the preferred embodiment;

FIG. 8: the utility model discloses the stereogram of II second directions of detection subassembly in the preferred embodiment, at this moment, gets rid of UVW probe, spacing claw and drive plate II.

Detailed Description

The present invention will be described in detail below with reference to specific embodiments shown in the drawings. However, these embodiments are not limited to the present invention, and structural, method, or functional changes made by those skilled in the art according to these embodiments are all included in the scope of the present invention.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are used merely for convenience of description and for simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention. Furthermore, the terms "first", "second", etc. are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first," "second," etc. may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art through specific situations.

The present invention will be described in detail below with reference to the accompanying drawings in conjunction with embodiments.

As shown in fig. 1 to 8, the utility model discloses a full-automatic testing arrangement of motor controller, which comprises a frame 1, be equipped with in frame 1 and be used for bearing motor controller and with its spacing carrier assembly 2, carrier assembly 2 is including setting firmly baffle 21 in frame 1, be equipped with the loading board 22 of hugging closely rather than the medial surface between the baffle 21, the one end of loading board 22 is equipped with the dog 23 that is used for rather than hugging closely, and the other end is equipped with a servo cylinder 24, the cylinder shaft of servo cylinder 24 can with loading board 22 hugs closely. The stop block 23, the baffle plate 21 and the servo cylinder 24 are matched with each other to limit the bearing plate 22, so that the situation of displacement in work is prevented, and the accuracy is improved.

In this embodiment, the carrying assembly 2 is provided with an electrifying assembly 3 for electrifying the motor controller, a detection assembly i 4 for detecting a short-circuit connector in the motor controller, and a detection assembly ii 5 for detecting a UVW copper bar in the motor controller, and a limiting assembly 7 for limiting the motor controller is arranged right above the detection assembly i 4. The structure is exquisite, the device realizes full-automatic power-on test, manual operation is not needed, and the safety problem is avoided.

In the above, the energizing component 3 includes a driving cylinder i 31 fixedly mounted on the frame 1, a fixing block i 32 is fixedly mounted on a cylinder shaft of the driving cylinder i 31, and an energizing socket 33 capable of being energized with the motor controller is fixedly mounted on the fixing block i 32. Drive and set firmly slide rail I34 on the I31 of actuating cylinder, be equipped with I35 rather than the slider of looks adaptation on the slide rail I34, the one end side of slider I35 with I32 rigid coupling of fixed block.

The detection assembly I4 comprises a driving air cylinder II 41 fixedly arranged on the rack 1, a sliding block II 42 is fixedly arranged on an air cylinder shaft of the driving air cylinder II 41, a fixed block II 43 is fixedly arranged on the sliding block II 42, and a detection probe I44 capable of being connected with the short-circuit connector is fixedly arranged on the fixed block II 43. And a sliding rail II 45 is fixedly arranged on the driving air cylinder II 41, and the vertical end of the sliding block II 42 is slidably arranged on the sliding rail II 45.

The detection assembly II 5 comprises a support frame 51 and a driving air cylinder III 52 fixedly arranged on the support frame, an air cylinder shaft of the driving air cylinder III 52 is fixedly connected with the support plate 53, a guide rail 54 is arranged on the support plate 53, a guide block I55 and a guide block II 551 which are vertically arranged are arranged on the guide rail 54, a driving plate I56 is fixedly arranged on the guide block I55, and a UVW probe 57 is fixedly arranged on the driving plate I56; and a driving plate II 58 is fixedly arranged on the guide block II 551, and a limiting claw 59 is fixedly arranged on the driving plate II 58. A driving cylinder IV 531 is further fixedly arranged on the supporting plate 53, a driving block 532 is fixedly arranged on a cylinder shaft on the driving cylinder IV 531, a chute I533 and a chute II 534 which are obliquely arranged are formed in the driving block 532, and an included angle formed by a central axis of the chute I533 and a horizontal line is larger than an included angle formed by a central axis of the chute II 534 and the horizontal line; a sliding pin I535 is fixedly arranged on the driving plate I56, and the sliding pin I535 is arranged in the sliding groove I533 in an extending mode; and a sliding groove II 534 is fixedly arranged on the driving plate II 58, and the sliding groove II 534 extends into the sliding groove II 534.

The limiting assembly 7 comprises a limiting frame 71 fixedly arranged on the frame 1, a driving cylinder V72 is fixedly arranged on the limiting frame 71, a limiting block 73 is fixedly arranged on a cylinder shaft of the driving cylinder V72, and the limiting block 73 can be pressed on the motor controller.

The utility model discloses an another design point lies in: and the outer sides of the detection component II 5, the detection component I4 and the limiting component 3 are provided with a protective cover 6 which can be closed or opened. The protection casing can be opened or closed, avoids the condition that the operative employee touched accidentally in the work operation process, has improved the security, avoids unexpected condition to take place. Specifically, the frame 1 is fixedly provided with support blocks i 61 located at two sides of the bearing component 2, the support blocks i 61 are provided with a telescopic cylinder 63 through a pivot of a connecting pin i 62, a connecting plate 64 is fixedly arranged on a cylinder shaft of the telescopic cylinder 63, the connecting plate 64 is provided with a support block ii 65 through a pivot of a connecting pin ii 65, and the support block ii 65 is fixedly arranged on the protective cover 6.

It should be understood that although the present description refers to embodiments, not every embodiment contains only a single technical solution, and such description is for clarity only, and those skilled in the art should make the description as a whole, and the technical solutions in the embodiments can also be combined appropriately to form other embodiments understood by those skilled in the art.

The above list of details is only for the practical implementation of the present invention, and they are not intended to limit the scope of the present invention, and all equivalent implementations or modifications that do not depart from the technical spirit of the present invention should be included in the scope of the present invention.

Claims (10)

1. Full-automatic testing arrangement of machine controller, including frame (1), its characterized in that: the motor controller detection device is characterized in that a bearing assembly (2) used for bearing and limiting the motor controller is arranged on the rack (1), a power-on assembly (3) used for powering on the motor controller, a detection assembly I (4) used for detecting a short-circuit connector in the motor controller and a detection assembly II (5) used for detecting a UVW copper bar in the motor controller are arranged on the bearing assembly (2), and a limiting assembly (7) used for limiting the motor controller is arranged right above the detection assembly I (4); and the outer sides of the detection component II (5), the detection component I (4) and the limiting component (7) are provided with a protective cover (6) which can be closed or opened.

2. The full-automatic testing device of the motor controller according to claim 1, characterized in that: the bearing assembly (2) comprises baffle plates (21) fixedly arranged on the rack (1), a bearing plate (22) tightly attached to the inner side face of each baffle plate (21) is arranged between the baffle plates (21), a stop block (23) used for being tightly attached to each bearing plate (22) is arranged at one end of each bearing plate (22), a servo cylinder (24) is arranged at the other end of each bearing plate, and a cylinder shaft of each servo cylinder (24) can be tightly attached to each bearing plate (22).

3. The full-automatic testing device of the motor controller according to claim 1, characterized in that: the electrifying assembly (3) comprises a driving air cylinder I (31) fixedly arranged on the rack (1), a fixed block I (32) is fixedly arranged on an air cylinder shaft of the driving air cylinder I (31), and an electrifying socket (33) capable of being electrified with the motor controller is fixedly arranged on the fixed block I (32).

4. The full-automatic testing device of the motor controller according to claim 3, characterized in that: slide rail I (34) have set firmly on driving cylinder I (31), be equipped with slide rail I (35) rather than the looks adaptation on slide rail I (34), the one end side of slide block I (35) with fixed block I (32) rigid coupling.

5. The full-automatic testing device of the motor controller according to claim 1, characterized in that: the detection assembly I (4) comprises a driving air cylinder II (41) fixedly arranged on the rack (1), a sliding block II (42) is fixedly arranged on an air cylinder shaft of the driving air cylinder II (41), a fixed block II (43) is fixedly arranged on the sliding block II (42), and a detection probe I (44) which can be connected with the short-circuit connector is fixedly arranged on the fixed block II (43).

6. The full-automatic testing device of the motor controller according to claim 5, characterized in that: and a sliding rail II (45) is fixedly arranged on the driving cylinder II (41), and the vertical end of the sliding block II (42) is arranged on the sliding rail II (45) in a sliding manner.

7. The full-automatic testing device of the motor controller according to claim 1, characterized in that: the detection assembly II (5) comprises a support frame (51) and a driving air cylinder III (52) fixedly arranged on the support frame, an air cylinder shaft of the driving air cylinder III (52) is fixedly connected with a support plate (53), a guide rail (54) on the support plate (53), a guide block I (55) and a guide block II (551) which are vertically arranged are arranged on the guide rail (54), a driving plate I (56) is fixedly arranged on the guide block I (55), and a UVW probe (57) is fixedly arranged on the driving plate I (56); and a driving plate II (58) is fixedly arranged on the guide block II (551), and a limiting claw (59) is fixedly arranged on the driving plate II (58).

8. The full-automatic testing device of the motor controller according to claim 7, characterized in that: a driving cylinder IV (531) is fixedly arranged on the supporting plate (53), a driving block (532) is fixedly arranged on a cylinder shaft on the driving cylinder IV (531), a chute I (533) and a chute II (534) which are obliquely arranged are arranged on the driving block (532), and an included angle formed by the central axis of the chute I (533) and the horizontal line is larger than an included angle formed by the central axis of the chute II (534) and the horizontal line; a sliding pin I (535) is fixedly arranged on the driving plate I (56), and the sliding pin I (535) is arranged in the sliding groove I (533) in an extending mode; and a sliding groove II (534) is fixedly arranged on the driving plate II (58), and the sliding groove II (534) extends into the sliding groove II (534).

9. The full-automatic testing device of the motor controller according to claim 1, characterized in that: the limiting assembly (7) comprises a limiting frame (71) fixedly arranged on the rack (1), a driving air cylinder V (72) is fixedly arranged on the limiting frame (71), a limiting block (73) is fixedly arranged on an air cylinder shaft of the driving air cylinder V (72), and the limiting block (73) can be pressed on the motor controller.

10. The full-automatic testing device of the motor controller according to claim 1, characterized in that: the supporting device is characterized in that supporting blocks I (61) located on two sides of the bearing component (2) are fixedly arranged on the rack (1), a telescopic cylinder (63) is arranged on the supporting blocks I (61) through connecting pins I (62) in a pivot mode, a connecting plate (64) is fixedly arranged on a cylinder shaft of the telescopic cylinder (63), a supporting block II (66) is arranged on the connecting plate (64) through connecting pins II (65) in a pivot mode, and the supporting block II (66) is fixedly arranged on the protective cover (6).

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