CN110554314A

CN110554314A - Dragging experiment table for small light-load motor

Info

Publication number: CN110554314A
Application number: CN201910749540.2A
Authority: CN
Inventors: 杨国丽
Original assignee: Individual
Current assignee: Individual
Priority date: 2019-08-14
Filing date: 2019-08-14
Publication date: 2019-12-10

Abstract

The invention provides a dragging experiment table for a small light-load motor, which comprises a cabinet body, a door plate and a rectangular magnet; the cabinet body is of a rectangular cabinet-shaped structure, a rectangular hole is formed in the left end face of the cabinet body, and a laboratory table top is welded on the top end face of the cabinet body; the last rotation of sliding block B is connected with a test structure, just the test structure outer wall is from a left side to the right side gear B, gear C and a gear D of fixedly connected with in proper order. Because of experiment main part fixed plate and sliding tray link to each other for the slip grafting, when non-experimental state, can insert the sliding tray with experiment main part fixed plate level upset degree, the experiment table board whole is in the plane state this moment and can carries out other operations and use, and when will experiment the main part fixed plate and insert the sliding tray in, draw-in groove C is relative just with draw-in groove B, so do not influence the installation of side guard plate when using, with this device of current device relative ratio more reasonable accessible switching of structure create different service environment.

Description

dragging experiment table for small light-load motor

Technical Field

The invention belongs to the technical field of motor detection tables, and particularly relates to a dragging experiment table for a small light-load motor.

Background

The generator is denoted in the circuit by the letter G. The main function of the device is to convert mechanical energy into electric energy, at present, the most common use is that heat energy, water energy and the like are utilized to push a generator rotor to generate electricity, and the performance and rotating speed of the motor are detected in the first half of the assembly under the conditions of different gear ratios.

As in application No.: the invention discloses a general test bed for performance detection of a permanent magnet generator, which comprises a frame, wherein a lifting mechanism is arranged on the frame, the lifting mechanism comprises a lifting platform, a motor and a disc type coupler in transmission connection with an output shaft of the generator are mounted on the lifting platform, the output end of the disc type coupler, which is used for being in transmission connection with an outer rotor of a generator test piece, is vertically arranged downwards, and a fixing seat, which corresponds to the position of the output end of the disc type coupler and is used for fixedly mounting the generator test piece, is arranged between the lifting platform and a base of the frame. The test bed has the advantages of simple structure, convenient manufacture, simple and convenient operation, low cost and easy installation and maintenance.

Based on the application number: the search of the CN201210001570.3 patent, although the application is easy to manufacture, easy to operate, low in cost, and easy to install and maintain, still has the following disadvantages:

One is that the protection performance is weak, some abnormal faults and phenomena are often generated during detection experiments, and the device is not provided with a corresponding protection structure, so that the potential safety hazard is large; and moreover, the structure flexibility is poor, and the whole structure of the device is rigid and can not be combined with a workbench to create different working and using environments.

In view of the above, the present invention provides a dragging experiment table for a small light-load motor, which is improved based on the existing structure and defects, so as to achieve the purpose of higher practical value.

disclosure of Invention

In order to solve the technical problems, the invention provides a dragging experiment table for a small light-load motor, which aims to solve the problems that the existing dragging experiment table is weak in protection, some abnormal faults and phenomena are often generated during detection experiments, and the device is not provided with a corresponding protection structure and has large potential safety hazard; and the structure flexibility is poor, the whole structure of the device is rigid, and the device can not be combined with a workbench to create different working and using environments.

The invention is used for the purpose and the effect of a dragging experiment table of a small light-load motor, and is achieved by the following specific technical means:

The dragging experiment table for the small light-load motor comprises a cabinet body, a rectangular hole, a control table, an experiment table plate, a sliding groove, a clamping groove A, a clamping groove B, an experiment main body fixing plate, a clamping groove C, a motor fixing seat, a sliding seat A, a sliding block A, a motor, a gear A, a test structure fixing seat, a sliding seat B, a sliding block B, a test structure, a gear B, a gear C, a gear D, a side protection plate, a main protection plate, a frame, a door plate and a rectangular magnet; the cabinet body is of a rectangular cabinet-shaped structure, a rectangular hole is formed in the left end face of the cabinet body, and a laboratory table top is welded on the top end face of the cabinet body; the front side positions of the top end surface and the bottom end surface of the experiment table top plate are respectively provided with a clamping groove A, the left side positions of the top end surface and the bottom end surface of the experiment table top plate are respectively provided with a clamping groove B, and the right side positions of the top end surface and the bottom end surface of the experiment table top plate are respectively provided with a clamping groove B; the top end face of the experiment main body fixing plate is welded with a motor fixing seat, and the motor fixing seat consists of a sliding seat A and a sliding block A; the top end face of the sliding block A is fixedly connected with a motor through a bolt, and a gear A is fixedly connected to a rotating shaft of the motor; a test structure fixing seat is welded on the top end face of the experiment main body fixing plate at the position of the right side of the motor fixing seat, and the test structure fixing seat consists of a sliding seat B and a sliding block B; the last rotation of sliding block B is connected with a test structure, just the test structure outer wall is from a left side to the right side gear B, gear C and a gear D of fixedly connected with in proper order.

furthermore, a control cabinet is welded above the front end face of the cabinet body, and an instrument and a switch knob are arranged on the control cabinet.

Furthermore, a sliding groove is formed in the left end face of the experiment table board, an experiment main body fixing plate is connected to the sliding groove in a sliding mode, and a motor fixing seat and a test structure fixing seat are welded to the top end face of the experiment main body fixing plate.

Furthermore, a clamping groove C is formed in the left side positions of the top end face and the bottom end face of the experiment main body fixing plate, and when the experiment main body fixing plate is inserted into the sliding groove, the clamping groove C is aligned with the clamping groove B.

Furthermore, the left end face and the right end face of the experiment table top plate are both fixedly connected with a side protection plate through bolts, and the fixing seat at the bottom of the side protection plate is of an inner buckling structure.

Furthermore, the sliding block A and the sliding seat A are fixedly connected through a bolt, and three groups of two fixing holes are formed in the sliding seat A; the sliding block B and the sliding seat B are also fixedly connected through a bolt, and the sliding seat B is also provided with two fixing holes of three groups of each group.

furthermore, a main protection plate is slidably buckled on the front end face of the experiment table plate and consists of a frame and a door plate; the door plate is provided with two door plates which are connected in the frame in a sliding manner.

Furthermore, seven rectangular magnets are embedded in the inner side of each door panel in a rectangular array shape.

Compared with the prior art, the invention has the following beneficial effects:

Because of experiment main part fixed plate and sliding tray link to each other for the slip grafting, when non-experimental state, can insert the sliding tray with experiment main part fixed plate level upset degree, the experiment table board whole is in the plane state this moment and can carries out other operations and use, and when will experiment the main part fixed plate and insert the sliding tray in, draw-in groove C is relative just with draw-in groove B, so do not influence the installation of side guard plate when using, with this device of current device relative ratio more reasonable accessible switching of structure create different service environment.

Because of the setting of side guard plate and main guard plate, when examining test, can install side guard plate and main guard plate additional on the laboratory bench table, can prevent that accident such as gear breakage from leading to personnel injured in the testing process, and because of the fixing base of side guard plate and main guard plate bottom is interior knot formula structure, so can strengthen the stability that the side guard plate is connected, with current device relative ratio, this device security is higher can effectively prevent unexpected injury phenomenon.

Because of the setting of the fixed orifices on sliding block A and the sliding seat A, when detecting, the accessible uses different fixed orifices with sliding block A and sliding block B to fix and makes gear A mesh with gear B, gear C and the three gear of gear D respectively, realizes the dragging detection of different gear ratios, has improved the speed of adjustment to a certain extent.

Drawings

Fig. 1 is a schematic axial view of the present invention.

Fig. 2 is a schematic axial view of the present invention.

Fig. 3 is a schematic axial view of the experimental body fixing plate of fig. 2 according to the present invention after adjustment.

Fig. 4 is a schematic view of a partially disassembled structure of the present invention.

FIG. 5 is an enlarged schematic view of the main fender of the present invention after opening.

fig. 6 is an enlarged schematic view of fig. 5 a according to the present invention.

Fig. 7 is an enlarged axial view structural diagram of the experiment main body fixing plate, the motor fixing seat, the motor, the test structure fixing seat and the test structure of the present invention.

Fig. 8 is an enlarged, adjusted, axial view of the structure of fig. 7 in accordance with the present invention.

In the drawings, the corresponding relationship between the component names and the reference numbers is as follows:

1. A cabinet body; 2. a rectangular hole; 3. a console; 4. a laboratory table top; 401. a sliding groove; 402. a clamping groove A; 403. a clamping groove B; 5. an experiment main body fixing plate; 501. a card slot C; 6. a motor fixing seat; 601. a sliding seat A; 602. a sliding block A; 7. a motor; 701. a gear A; 8. a test structure fixing seat; 801. a sliding seat B; 802. a sliding block B; 9. testing the structure; 901. a gear B; 902. a gear C; 903. a gear D; 10. a side guard plate; 11. a main protection plate; 1101. a frame; 1102. a door panel; 1103. a rectangular magnet.

Detailed Description

The embodiments of the present invention will be described in further detail with reference to the drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

As shown in figures 1 to 8:

the invention provides a dragging experiment table for a small light-load motor, which comprises a cabinet body 1, a rectangular hole 2, a control table 3, an experiment table plate 4, a sliding groove 401, a clamping groove A402, a clamping groove B403, an experiment main body fixing plate 5, a clamping groove C501, a motor fixing seat 6, a sliding seat A601, a sliding block A602, a motor 7, a gear A701, a test structure fixing seat 8, a sliding seat B801, a sliding block B802, a test structure 9, a gear B901, a gear C902, a gear D903, a side protection plate 10, a main protection plate 11, a frame 1101, a door plate 1102 and a rectangular magnet 1103, wherein the sliding seat A801 is provided with; the cabinet body 1 is of a rectangular cabinet-shaped structure, a rectangular hole 2 is formed in the left end face of the cabinet body 1, and a laboratory table top plate 4 is welded on the top end face of the cabinet body 1; a clamping groove A402 is formed in the front side positions of the top end surface and the bottom end surface of the experiment table plate 4, a clamping groove B403 is formed in the left side positions of the top end surface and the bottom end surface of the experiment table plate 4, and a clamping groove B403 is formed in the right side positions of the top end surface and the bottom end surface of the experiment table plate 4; the top end face of the experiment main body fixing plate 5 is welded with a motor fixing seat 6, and the motor fixing seat 6 consists of a sliding seat A601 and a sliding block A602; the top end face of the sliding block A602 is fixedly connected with a motor 7 through a bolt, and a rotating shaft of the motor 7 is fixedly connected with a gear A701; a test structure fixing seat 8 is welded on the top end face of the experiment main body fixing plate 5 at the right side of the motor fixing seat 6, and the test structure fixing seat 8 consists of a sliding seat B801 and a sliding block B802; the sliding block B802 is rotatably connected with a test structure 9, and the outer wall of the test structure 9 is fixedly connected with a gear B901, a gear C902 and a gear D903 from left to right in sequence.

Referring to fig. 1, a console 3 is welded above the front end face of the cabinet body 1, and an instrument and a switch knob are arranged on the console 3, so that the normal operation and use are not affected after the main protection plate 11 is installed.

Referring to fig. 3, a sliding groove 401 is formed in the left end surface of the experiment table plate 4, an experiment main body fixing plate 5 is slidably connected in the sliding groove 401, and a motor fixing seat 6 and a test structure fixing seat 8 are welded to the top end surface of the experiment main body fixing plate 5, so that in a non-experiment state, the experiment main body fixing plate 5 can be horizontally turned 180 degrees and inserted into the sliding groove 401, and at this time, the experiment table plate 4 is entirely in a planar state, and other operations and uses can be performed.

Referring to fig. 4, a clamping groove C501 is formed at each of the left positions of the top end surface and the bottom end surface of the experiment main body fixing plate 5, and when the experiment main body fixing plate 5 is inserted into the sliding groove 401, the clamping groove C501 is aligned with the clamping groove B403, so that the installation of the side protection plate 10 is not affected during use.

Referring to fig. 4, the left end surface and the right end surface of the laboratory table 4 are both fixedly connected with a side protection plate 10 through bolts, and the fixing seat at the bottom of the side protection plate 10 is of an inward buckling structure, so that the connection stability of the side protection plate 10 can be enhanced.

Referring to fig. 7 and 8, the sliding block a602 is fixedly connected with the sliding seat a601 through a pin, and three groups of two fixing holes are formed in the sliding seat a 601; the sliding block B802 and the sliding seat B801 are also fixedly connected through a bolt, and three groups of two fixing holes are also formed in the sliding seat B801, so that dragging detection with different gear ratios can be realized by fixing the sliding block A602 and the sliding block B802 through different fixing holes during detection.

Referring to fig. 5, a main protection plate 11 is slidably fastened to the front end surface of the laboratory table top 4, and the main protection plate 11 is composed of a frame 1101 and a door plate 1102; the door plate 1102 is provided with two door plates which are connected in the frame 1101 in a sliding manner, so that the requirement of convenient adjustment and detection structure and the function of protection can be met simultaneously when the door plate is used.

Referring to fig. 6, seven rectangular magnets 1103 are embedded in the inner side of each door panel 1102 in a rectangular array, so that the two door panels 1102 can be mutually adsorbed after the door panels 1102 are closed, and the structural complexity of closing the door panels 1102 is reduced.

The specific use mode and function of the embodiment are as follows:

When the device is used, the gear A701 on the motor 7 is meshed with the gear B901, the gear C902 and the gear D903 on the test structure 9 respectively, a rotating speed detection instrument for detecting the rotating speed can be installed at the tail end of the test structure 9, so that the matching detection of the motor 7 under the condition of different gear ratios is realized, at the moment, due to the arrangement of the fixing holes on the sliding block A602 and the sliding seat A601, when the detection is performed, the sliding block A602 and the sliding block B802 are fixed by using different fixing holes, so that the gear A701 is meshed with the three gears B901, the gear C902 and the gear D903 respectively, the dragging detection of different gear ratios is realized, and the adjusting speed is improved to a certain extent;

During detection, the side protection plate 10 and the main protection plate 11 can be additionally arranged on the experiment table plate 4, so that personnel can be prevented from being injured due to accidents such as gear breakage and the like in the detection process, and the connection stability of the side protection plate 10 can be enhanced due to the fact that the fixing seats at the bottoms of the side protection plate 10 and the main protection plate 11 are of the inner buckling type structure;

Because of experiment main part fixed plate 5 and sliding tray 401 link to each other for the slip grafting, when non-experimental state, can insert the sliding tray 401 with experiment main part fixed plate 5 level upset 180 degrees, the experiment table 4 is whole to be in the plane state can carry out other operations and use this moment, and when inserting the sliding tray 401 with experiment main part fixed plate 5, draw-in groove C501 is relative well with draw-in groove B403, so do not influence the installation of side guard plate 10 when using.

The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims

1. A drag laboratory bench for small-size light load motor, its characterized in that: the dragging experiment table for the small light-load motor comprises a cabinet body (1), a rectangular hole (2), a control table (3), an experiment table plate (4), a sliding groove (401), a clamping groove A (402), a clamping groove B (403), an experiment main body fixing plate (5), a clamping groove C (501), a motor fixing seat (6), a sliding seat A (601), a sliding block A (602), a motor (7), a gear A (701), a test structure fixing seat (8), a sliding seat B (801), a sliding block B (802), a test structure (9), a gear B (901), a gear C (902), a gear D (903), a side protection plate (10), a main protection plate (11), a frame (1101), a door plate (1102) and a rectangular magnet (1103); the cabinet body (1) is of a rectangular cabinet-shaped structure, a rectangular hole (2) is formed in the left end face of the cabinet body (1), and a laboratory table top (4) is welded on the top end face of the cabinet body (1); a clamping groove A (402) is formed in the front side position of the top end face and the bottom end face of the experiment table plate (4), a clamping groove B (403) is formed in the left side position of the top end face and the left side position of the bottom end face of the experiment table plate (4), and a clamping groove B (403) is formed in the right side position of the top end face and the right side position of the bottom end face of the experiment table plate (4); the top end face of the experiment main body fixing plate (5) is welded with a motor fixing seat (6), and the motor fixing seat (6) consists of a sliding seat A (601) and a sliding block A (602); the top end face of the sliding block A (602) is fixedly connected with a motor (7) through a bolt, and a rotating shaft of the motor (7) is fixedly connected with a gear A (701); a test structure fixing seat (8) is welded on the top end face of the experiment main body fixing plate (5) at the right side of the motor fixing seat (6), and the test structure fixing seat (8) consists of a sliding seat B (801) and a sliding block B (802); the sliding block B (802) is connected with a test structure (9) in a rotating mode, and the outer wall of the test structure (9) is fixedly connected with a gear B (901), a gear C (902) and a gear D (903) from left to right in sequence.

2. A drive test bench for small light-duty motors as set forth in claim 1, wherein: the cabinet body (1) is characterized in that a control console (3) is welded above the front end face of the cabinet body (1), and an instrument and a switch knob are arranged on the control console (3).

3. A drive test bench for small light-duty motors as set forth in claim 1, wherein: a sliding tray (401) has been seted up to experiment table (4) left end face, just sliding tray (401) sliding connection has an experiment main part fixed plate (5), and experiment main part fixed plate (5) top end face welding has motor fixing base (6) and test structure fixing base (8).

4. A drive test bench for small light-duty motors as set forth in claim 1, wherein: a clamping groove C (501) is formed in the left side positions of the top end face and the bottom end face of the experiment main body fixing plate (5), and when the experiment main body fixing plate (5) is inserted into the sliding groove (401), the clamping groove C (501) is aligned with the clamping groove B (403).

5. a drive test bench for small light-duty motors as set forth in claim 1, wherein: laboratory bench table (4) left end face and right-hand member face all through side guard plate (10) of bolt fixedly connected with, just the fixing base of side guard plate (10) bottom is interior knot formula structure.

6. A drive test bench for small light-duty motors as set forth in claim 1, wherein: the sliding block A (602) is fixedly connected with the sliding seat A (601) through a bolt, and three groups of two fixing holes are formed in the sliding seat A (601); the sliding block B (802) and the sliding seat B (801) are fixedly connected through a bolt, and three groups of two fixing holes are also formed in the sliding seat B (801).

7. A drive test bench for small light-duty motors as set forth in claim 1, wherein: the front end face of the experiment table plate (4) is in sliding buckling connection with a main protection plate (11), and the main protection plate (11) consists of a frame (1101) and a door plate (1102); the door plates (1102) are arranged in two, and are all connected in the frame (1101) in a sliding mode.

8. A drive test bench for small light-duty motors as set forth in claim 1, wherein: seven rectangular magnets (1103) are inlaid on the inner side of each door panel (1102) in a rectangular array.