CN113746270A

CN113746270A - Protection device for mechatronic motor

Info

Publication number: CN113746270A
Application number: CN202111038521.2A
Authority: CN
Inventors: 索明何; 邢海霞
Original assignee: Jiangsu Vocational College of Electronics and Information
Current assignee: Jiangsu Vocational College of Electronics and Information
Priority date: 2021-09-06
Filing date: 2021-09-06
Publication date: 2021-12-03

Abstract

The invention is suitable for the technical field of electromechanical integration, and provides a protection device for an electromechanical integrated motor, which comprises: the motor comprises a mounting box, wherein a placing table is arranged in the mounting box, and a motor body is arranged on the placing table; the fixing component is arranged in the installation box and used for extruding and fixing the motor body; the closing assembly is arranged on the installation box and used for sealing the installation box after the fixing assembly fixes the motor body; the heat dissipation assembly is arranged in the installation box, and the left side and the right side of the heat dissipation assembly are fixed firstly, and then the upper side of the heat dissipation assembly is fixed, so that on one hand, the stability of fixing can be ensured, and on the other hand, when the heat dissipation assembly faces motors of different specifications and models, the effect of omnibearing fixing can be automatically realized; in the process of the work of the motor body, when the temperature in the installation box is too high, the heat dissipation assembly can be automatically driven to operate, and the heat dissipation work of the motor body is realized.

Description

Protection device for mechatronic motor

Technical Field

The invention belongs to the technical field of mechanical and electrical integration, and particularly relates to a protective device for a mechanical and electrical integration motor.

Background

The electromechanical integration technology is widely applied in the professional field. Graduates can mainly engage in the technical and management work of maintenance, debugging, operation, manufacture, installation, marketing and the like of numerical control equipment, and the employment posts are large. The technical training has the basic theory of mechanical, electronic and hydraulic (gas) pressure integrated technology, and the engineering technical talents of mastering the operation, maintenance, debugging and maintenance of the mechanical and electrical integrated equipment, and mastering the process design of the mechanical and electrical integrated equipment and the basic method and the basic skill of the processing process. Also comprises three occupations of workers such as electricity, vehicles and pincers.

At present at the in-process of installing the motor, the motor is mostly exposed for a long time in the external world, has saved the dust easily for a long time, and the installation is inconvenient, consequently needs dedicated motor install bin, but the unable adaptation of present motor install bin is the motor of various different specifications, model, and application scope is little, and the motor of different models need use different motor install bins, and use cost is high.

Disclosure of Invention

The embodiment of the invention aims to provide a protection device for an electromechanical integrated motor, and aims to solve the problems that most motors are exposed outside for a long time in the process of mounting the motors at present, dust is easy to accumulate after the motors are used for a long time, and the motors are inconvenient to mount, so that a special motor mounting box is needed, but the current motor mounting box cannot be adapted to motors with different specifications and models, the application range is small, different motor mounting boxes are needed for motors with different models, and the use cost is high.

The embodiment of the invention is realized in such a way that the protection device for the electromechanical integrated motor comprises:

the motor comprises a mounting box, wherein a placing table is arranged in the mounting box, and a motor body is arranged on the placing table;

the fixing component is arranged in the installation box and used for extruding and fixing the motor body;

the closing assembly is arranged on the installation box and used for sealing the installation box after the fixing assembly fixes the motor body;

and the heat dissipation assembly is arranged inside the installation box and used for detecting the temperature inside the installation box when the motor body operates and automatically dissipating heat inside the installation box at high temperature.

The protection device for the electromechanical integrated motor provided by the embodiment of the invention has the following beneficial effects:

when the protection device for the mechatronic motor is used, the installation box is opened through the closing assembly, then the motor body is placed on the placing table, then the fixing assembly is driven to operate, at the moment, the fixing assembly can firstly extrude and fix the two sides of the motor body, after the fixing in the lateral direction is finished, the fixing assembly can extrude and fix the upper side of the motor body, so that the omnibearing fixing work of the motor body is realized, the fixing mode of firstly fixing the left side and the right side and then fixing the upper side is utilized, on one hand, the fixing stability can be ensured, and on the other hand, when facing motors of different specifications and models, the omnibearing fixing effect can be automatically realized; and in the working process of the motor body, when the temperature in the installation box is too high, the heat dissipation assembly can be automatically driven to operate, so that the heat dissipation work of the motor body is realized.

Drawings

Fig. 1 is a schematic structural diagram of a protection device for an mechatronic motor according to an embodiment of the present invention;

fig. 2 is a partial three-dimensional structural view of a protection device for an electromechanical integrated motor according to an embodiment of the present invention;

FIG. 3 is an enlarged view of a portion of FIG. 1 at A;

fig. 4 is a partially enlarged view of fig. 1 at B.

In the drawings: 1-installing a box; 2-placing the table; 3-the motor body; 4-a fixation assembly; 41-sliding groove body; 42-a first slide; 43-a first tooth; 44-a first fixture; 45-a guide; 46-a second tooth; 47-an elastic member; 48-a second fixture; 49-a support; 410-a rotary output; 411-third tooth; 413-fourth tooth; 414-extrusion; 5-a closure assembly; 51-closed port; 52-moving the trough body; 53-control output; 54-a first threaded member; 55-a closure member; 56-a second threaded member; 6-a heat dissipation component; 61-heat conducting gas box; 62-a gas barrier; 63-a third slide; 64-pneumatic parts; 65-a power supply element; 66-a conductive member; 67-electric connection pieces; 68-a conductive output; 69-blade; 610-air outlet.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Specific implementations of the present invention are described in detail below with reference to specific embodiments.

As shown in fig. 1, in an embodiment of the present invention, the protection device for an mechatronic motor includes:

the motor mounting structure comprises a mounting box 1, wherein a placing table 2 is arranged inside the mounting box 1, and a motor body 3 is arranged on the placing table 2;

the fixing component 4 is arranged inside the installation box 1, and the fixing component 4 is used for extruding and fixing the motor body 3;

the closing component 5 is arranged on the installation box 1 and used for sealing the installation box 1 after the fixing component 4 fixes the motor body 3;

and the heat dissipation assembly 6 is arranged inside the installation box 1 and used for detecting the temperature inside the installation box 1 when the motor body 3 operates and automatically dissipating heat inside the installation box 1 at high temperature.

When the protection device for the mechatronic motor is used, the installation box 1 is opened through the closing component 5, then the motor body 3 is placed on the placing table 2, and then the fixing component 4 is driven to operate, at the moment, the fixing component 4 can firstly extrude and fix the two sides of the motor body 3, after the fixing in the lateral direction is finished, the fixing component 4 can extrude and fix the upper side of the motor body 3, so that the omnibearing fixing work of the motor body 3 is realized, the fixing mode of firstly fixing the left side and the right side and then fixing the upper side is utilized, on one hand, the fixing stability can be ensured, and on the other hand, when facing motors of different specifications and models, the omnibearing fixing effect can be automatically realized; and in the process of the work of the motor body 3, when the temperature in the installation box 1 is too high, the heat dissipation assembly 6 can be automatically driven to operate, so that the heat dissipation work of the motor body 3 is realized.

As shown in fig. 1 to 3, in the embodiment of the present invention, the fixing assembly 4 includes:

the sliding groove body 41 is arranged on the inner wall of the installation box 1, and a first sliding piece 42 is arranged inside the sliding groove body 41 in a sliding mode;

a first tooth 43 mounted on the first sliding member 42, wherein a first fixing member 44 is mounted on one side of the first tooth 43, and the first fixing member 44 is matched with the motor body 3;

a guide 45 mounted on the first sliding member 42, wherein a second tooth 46 is slidably sleeved on the guide 45;

an elastic member 47 sleeved on the guide member 45 and located between the second gear 46 and the second sliding member 42;

a second fixing member 48 installed at one end of the second gear 46, wherein the second fixing member 48 is matched with the motor body 3;

and the driving assembly is arranged inside the installation box 1 and is used for cooperating with the first tooth part 43 and the second tooth part 46 to drive the first fixing part 44 and the second fixing part 48 to operate.

In the present embodiment, the first sliding member 42 has a plate-like structure, i.e., a sliding plate; the first gear 43 and the second gear 46 are in toothed plate structures; the first fixing member 44 and the second fixing member 48 are plate-shaped structures, i.e., fixing plates; the structure of the guide piece 45 is a columnar structure, namely a guide column; the structure of the elastic element 47 may be a spring, or other structures capable of giving elastic pushing force to the second tooth element 46, which is not described in detail herein.

During the use, drive assembly can drive first slider 42 through the cooperation relation between with first tooth 43 and slide in sliding groove body 41 earlier to drive first mounting 44 and be close to motor body 3, until pressing from both sides motor body 3 tight, then first mounting 44 and first tooth 43 will unable the motion this moment, then drive assembly can drive second mounting 48 through the cooperation relation between with second tooth 46 and move down, until second mounting 48 and motor body 3 contact, can realize the all-round fixed to motor body 3 this moment.

As shown in fig. 1 to 3, in the embodiment of the present invention, the driving assembly includes:

a support member 49 installed inside the installation box 1, wherein one end of the support member 49 is rotatably connected with a rotary output member 410;

a third gear 411 installed at one side of the rotation output member 410, the third gear 411 and the second gear 46 being engaged with each other;

and a fourth gear 413 installed at an output end of the rotation output member 410, wherein the fourth gear 413 is engaged with the first gear 43.

In this embodiment, the supporting member 49 is a column-shaped structure, i.e. a supporting column; the structure of the rotary output member 410 is not limited to a rotary motor, and all power assemblies capable of driving rotation are available, which are not described herein; the third gear 411 and the fourth gear 413 are in a gear structure.

When the motor is used, the rotary output piece 410 is started, at this time, because the elastic piece 47 can provide a driving force for the second tooth piece 46, the rotation of the rotary output piece 410 is limited, at this time, the rotary output piece 410 can drive the fourth tooth piece 413 to rotate, the fourth tooth piece 413 can drive the first tooth piece 43 to rotate, and then the fixing component 4 is driven to fix the left side and the right side of the motor body 3; when the first gear 43 is not moved, the rotation of the fourth gear 413 is limited, the rotation power of the rotation output element 410 drives the rotation output element to rotate, and further drives the third gear 411 to rotate synchronously, and the fixing assembly 4 is driven to fix the motor body 3 above the motor body 3, so that the motor body 3 can be fixed in all directions.

In the embodiment of the present invention, the first fixing member 44 and the second fixing member 48 are provided with the extruding member 414, the extruding member 414 is matched with the motor body 3, and the extruding member 414 can be better matched with the motor body 3, so as to avoid deformation of the motor body 3 during the fixing process due to excessive extruding force.

In this embodiment, the structure of the pressing member 414 may be a plate-shaped structure with sufficient deformation capability, such as a rubber plate, and will not be described herein.

As shown in fig. 1, in the present embodiment, the closing assembly 5 includes:

the closing opening 51 is formed in the installation box 1, and the side wall of the closing part 51 is symmetrically provided with moving groove bodies 52;

the control output piece 53 is installed inside the movable groove body 52, and the output end of the control output piece 53 is connected with a first threaded piece 54;

the closing piece 55 is arranged in the closing opening 51, a second threaded piece 56 is arranged at one end of the closing piece 55 positioned in the movable groove body 52, and the second threaded piece 56 is used for driving the closing piece 55 to displace through the rotating matching with the first threaded piece 54.

In this embodiment, the structure of the control output member 53 is not limited to a rotating motor, and all power components capable of driving rotation are required, which are not described herein; the first threaded member 54 is configured as a threaded rod, and the second threaded member 56 is configured as a threaded groove; the structure of the closing member 55 is a plate-shaped structure, namely a closing plate.

When the closing device is used, the control output piece 53 is started, the control output piece 53 drives the first threaded piece 54 to rotate, at the moment, under the limiting effect of the movable groove body 52, the closing piece 55 cannot rotate, and through the matching relation between the first threaded piece 54 and the second threaded piece 56, the closing piece 55 can move to close the closing opening 51.

As shown in fig. 1 and 4, in the embodiment of the present invention, the heat dissipation assembly 6 includes:

the heat conduction gas box 61 is installed inside the installation box 1, the gas blocking piece 62 is installed inside the heat conduction gas box 61, and thermal expansion gas is arranged inside the heat conduction gas box 61 and positioned on one side of the gas blocking piece 62;

a third sliding member 63 slidably disposed on the air blocking member 62, wherein one end of the third sliding member 63 is provided with an air pressing member 64, and a power source 65 is installed inside the third sliding member 63;

a conductive member 66 installed at the other end of the third sliding member 63, the conductive member 66 being connected to the power supply member 65;

the power connection part 67 is installed inside the heat conduction gas box 61, the power connection part 67 is matched with the conductive part 66, the output end circuit of the power connection part 67 is connected with a conductive output part 68, and the output end of the conductive output part 68 is connected with a blade 69.

In this embodiment, the pneumatic pressing member 64 is in the form of a piston disc; the third sliding member 63 has a columnar structure, i.e., a sliding column; the conductive piece 66 and the power connection piece 67 are of electric plate structures, namely a conductive plate and a power connection plate; the structure of the conductive output member 68 is not limited to a rotating motor, and all power components capable of driving rotation are available, which are not described herein; the thermal expansion gas may be carbon dioxide or any other gas capable of expanding by heat, and the specific components may be gases with different thermal expansion coefficients according to actual use requirements.

During the use, when the inside high temperature of installing case 1, can make the thermal expansion gas begin to expand, lead to the inside atmospheric pressure increase of heat conduction gas box 61, can promote third slider 63 through atmospheric pressure spare 64 this moment and remove until electrically conductive piece 66 contacts with the piece 67 that connects, power supply part 65 can be to the power on of the piece 67 that connects this moment, and electrically conductive output 68 can be started this moment, then begins to rotate drive blade 69, carries out air-cooled heat dissipation cooling to motor body 3.

In the embodiment of the present invention, a sealing structure is disposed on a side of the heat conducting gas box 61 where the thermal expansion gas is disposed, and an air outlet 610 is disposed on a side wall of the heat conducting gas box 61 where the thermal expansion gas is not disposed.

To sum up, when the protector for the mechatronic motor is used, the installation box 1 is opened through the closing component 5, then the motor body 3 is placed on the placing table 2, then the fixing component 4 is driven to operate, at the moment, the fixing component 4 firstly extrudes and fixes the two sides of the motor body 3, after the fixing in the lateral direction is finished, the fixing component 4 extrudes and fixes the upper side of the motor body 3, so that the omnibearing fixing work of the motor body 3 is realized, the fixing mode of firstly fixing the left side and the right side and then fixing the upper side is utilized, on one hand, the fixing stability can be ensured, and on the other hand, when facing motors of different specifications and models, the omnibearing fixing effect can be automatically realized; and in the process of the work of the motor body 3, when the temperature in the installation box 1 is too high, the heat dissipation assembly 6 can be automatically driven to operate, so that the heat dissipation work of the motor body 3 is realized.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims

1. The utility model provides a protector for mechatronic motor which characterized in that, protector for mechatronic motor includes:

2. The protector for an mechatronic motor according to claim 1, characterized in that the fixing assembly comprises:

the sliding groove body is arranged on the inner wall of the installation box, and a first sliding piece is arranged in the sliding groove body in a sliding mode;

the first tooth piece is arranged on the first sliding piece, a first fixing piece is arranged on one side of the first tooth piece, and the first fixing piece is matched with the motor body;

the guide piece is arranged on the first sliding piece, and a second tooth piece is sleeved on the guide piece in a sliding manner;

the elastic piece is sleeved on the guide piece and is positioned between the second tooth piece and the second sliding piece;

the second fixing piece is arranged at one end of the second tooth piece and matched with the motor body;

and the driving assembly is arranged in the mounting box and is used for being matched with the first tooth part and the second tooth part to drive the first fixing part and the second fixing part to operate.

3. The safeguard for an mechatronic motor according to claim 2, characterized in that the drive assembly comprises:

the supporting piece is arranged in the installation box, and one end of the supporting piece is rotatably connected with a rotary output piece;

the third gear is arranged on one side of the rotation output part and is matched with the second gear;

and the fourth gear is arranged at the output end of the rotary output part and is matched with the first gear.

4. The protector for an mechatronic motor according to claim 2, characterized in that the first and second fixing members are provided with an extruded member, and the extruded member is fitted to the motor body.

5. The protector for an mechatronic motor of claim 1, wherein the closure assembly comprises:

the closing opening is formed in the installation box, and the side wall of the closing part is symmetrically provided with moving groove bodies;

the control output piece is arranged inside the movable groove body, and the output end of the control output piece is connected with a first threaded piece;

the closing piece is arranged in the closing opening, a second threaded piece is arranged at one end, located in the movable groove body, of the closing piece, and the second threaded piece is used for driving the closing piece to move through rotary matching with the first threaded piece.

6. The protector for an mechatronic motor according to claim 1, characterized in that the heat dissipating assembly comprises:

the heat conduction gas box is arranged in the installation box, the gas blocking piece is arranged in the heat conduction gas box, and thermal expansion gas is arranged on one side, positioned on the gas blocking piece, in the heat conduction gas box;

the third sliding part is arranged on the air blocking part in a sliding mode, one end of the third sliding part is provided with an air pressing part, and a power supply part is installed inside the third sliding part;

the conductive piece is arranged at the other end of the third sliding piece and is connected with the power supply piece;

the power connection part is installed inside the heat conduction gas box and matched with the conductive part, the output end circuit of the power connection part is connected with a conductive output part, and the output end of the conductive output part is connected with a blade.

7. The protector for the mechatronic motor according to claim 6, wherein the side of the heat-conducting gas box where the thermally expansive gas is provided is a sealed structure, and the side wall of the side of the heat-conducting gas box where the thermally expansive gas is not provided is provided with a gas outlet.