CN116054470B - Damping motor - Google Patents

Damping motor Download PDF

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Publication number
CN116054470B
CN116054470B CN202211740414.9A CN202211740414A CN116054470B CN 116054470 B CN116054470 B CN 116054470B CN 202211740414 A CN202211740414 A CN 202211740414A CN 116054470 B CN116054470 B CN 116054470B
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China
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groove
wall
fixing
fixedly connected
fixed
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CN116054470A (en
Inventor
郝兵
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Peixian Xingyi Machinery Technology Co ltd
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Peixian Xingyi Machinery Technology Co ltd
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    • HELECTRICITY
    • H02GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
    • H02KDYNAMO-ELECTRIC MACHINES
    • H02K5/00Casings; Enclosures; Supports
    • H02K5/24Casings; Enclosures; Supports specially adapted for suppression or reduction of noise or vibrations
    • HELECTRICITY
    • H02GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
    • H02KDYNAMO-ELECTRIC MACHINES
    • H02K5/00Casings; Enclosures; Supports
    • HELECTRICITY
    • H02GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
    • H02KDYNAMO-ELECTRIC MACHINES
    • H02K7/00Arrangements for handling mechanical energy structurally associated with dynamo-electric machines, e.g. structural association with mechanical driving motors or auxiliary dynamo-electric machines
    • H02K7/003Couplings; Details of shafts

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  • Engineering & Computer Science (AREA)
  • Power Engineering (AREA)
  • Motor Or Generator Frames (AREA)

Abstract

The invention discloses a damping motor, which comprises a fixing component, a connecting component and a mounting component, wherein the fixing component comprises a rotating shaft, a supporting seat and a fixing seat, a square shaft hole is formed in the rotating shaft, the inner wall of the square shaft hole is in sliding connection with the square shaft, the square shaft is respectively and fixedly connected with two ends of a motor shaft on a motor body, semicircular grooves are respectively formed in the supporting seat and the fixing seat corresponding to the rotating shaft, the inner wall of each semicircular groove is rotationally connected with the rotating shaft, the outer wall of the rotating shaft is fixedly connected with a limiting ring, and a limiting groove is formed in the inner wall of each semicircular groove corresponding to the limiting ring; through fixing the position of supporting seat and first fixing base to the axis of rotation, can fix the both ends of motor shaft, improve the motor body and give the stability when electrician motor shaft rotates, and then improve the stability when rotor rotates, reduce the horizontal vibration power when rotor rotates, play the cushioning effect.

Description

Damping motor
Technical Field
The invention relates to the technical field of motors, in particular to a damping motor.
Background
The motor is a device for converting electric energy into mechanical energy, and is characterized by that it utilizes an electrified coil to produce a rotating magnetic field and makes it act on rotor to form magneto-electric power rotating torque, and the motor is divided into DC motor and AC motor according to the different power supplies used, and the motor in the electric power system is mostly formed from AC motor, and the motor mainly consists of stator and rotor, and the direction of forced movement of electrified wire in the magnetic field is related to current direction and magnetic induction line direction, and the working principle of motor is that the magnetic field is acted on current so as to make the motor rotate.
When the existing motor is used, a rotor in the motor can generate transverse vibration force under high-speed rotation, and when the rotor drives a motor shaft to rotate, the motor shaft output can be unstable; the rotor vibration also can drive the stator to cause the motor body to vibrate along with the motor body, the long-time vibration can damage parts in the motor, the service life of the motor is influenced, and the situation of transverse vibration is easily caused between the mounting seats, so that bolt sliding wires are caused, the motor is not firmly mounted, and potential safety hazards exist.
Disclosure of Invention
The technical problems to be solved by the invention are as follows: when the existing motor is used, a rotor in the motor can generate transverse vibration force under high-speed rotation, and the output of a motor shaft can be unstable; the rotor vibration also can drive the stator to cause the motor body to vibrate along with the motor body, the long-time vibration can damage parts in the motor, the service life of the motor is influenced, and the situation of transverse vibration is easily caused between the mounting seats, so that bolt sliding wires are caused, the motor is not firmly mounted, and potential safety hazards exist.
In order to solve the technical problems, the invention provides the following technical scheme: the damping motor comprises a fixing assembly, a connecting assembly and a mounting assembly, wherein the fixing assembly comprises a rotating shaft, a supporting seat and a first fixing seat, a square shaft hole is formed in the rotating shaft, the inner wall of the square shaft hole is in sliding connection with the square shaft, the square shaft is respectively and fixedly connected with two ends of a motor shaft on a motor body, semicircular grooves are respectively formed in the supporting seat and the first fixing seat corresponding to the rotating shaft, the inner wall of each semicircular groove is rotationally connected with the rotating shaft, the outer wall of the rotating shaft is fixedly connected with a limiting ring, and limiting grooves are formed in the inner wall of each semicircular groove corresponding to the limiting ring; the connecting assembly comprises a fixed disc and a connecting rope, two ends of the connecting rope are respectively and fixedly connected with the fixed disc, the fixed assemblies are respectively provided with three groups, the connecting rope comprises a first fixed assembly, a second fixed assembly and a third fixed assembly, the first fixed assembly is positioned at one end of a motor shaft on the motor body, the second fixed assembly and the third fixed assembly are positioned at the other end of the motor shaft on the motor body, and the fixed discs are respectively and fixedly connected with rotating shafts on the second fixed assembly and the third fixed assembly; the mounting assembly comprises a second fixing seat, a mounting seat and a base, wherein the upper surface of the base is fixedly connected with the mounting seat and the supporting seat, the second fixing seat is fixedly connected with the bottom of the motor body, a mounting groove is formed in the mounting seat corresponding to the second fixing seat, and the inner wall of the mounting groove is slidably connected with the second fixing seat.
As a preferable scheme of the damping motor, two first jacks are arranged on the mounting seat, a second jack is arranged on the second fixing seat corresponding to one of the first jacks, the inner wall of the mounting groove is connected with a sliding block in a sliding mode, a third jack is arranged on the sliding block corresponding to the other first jack, and the inner wall of the first jack is connected with a plug rod in a sliding mode.
As a preferable scheme of the damping motor, a supporting seat arranged corresponding to the first fixing component is fixedly connected with one side of a fixing block, and the other side of the fixing block is fixedly connected with a sliding block.
As a preferable scheme of the damping motor, limit grooves are formed in two sides of the supporting seat, and limit blocks are arranged on the first fixing seat corresponding to the limit grooves.
As a preferable scheme of the damping motor, the supporting seat is provided with the clamping groove, the limiting groove is communicated with two ends of the clamping groove, the limiting block is provided with the accommodating groove corresponding to the clamping groove, the inner wall of the accommodating groove is fixedly connected with one end of the first telescopic rod, the other end of the first telescopic rod is fixedly connected with the clamping block, the clamping block is slidably connected with the inner wall of the clamping groove, the clamping block is provided with the inclined surface, and the first telescopic rod is sleeved with the first spring.
As a preferable scheme of the damping motor, the top of the first fixing seat is fixedly connected with the top plate, a first fixing cylinder is arranged in the top plate, the inner wall of the first fixing cylinder is in sliding connection with the first piston head, the first piston head is fixedly connected with one end of the supporting rod, the other end of the supporting rod is fixedly connected with the fixing button, a containing cavity is arranged in the first fixing seat, the first fixing cylinder is communicated with the containing cavity, the containing cavity is communicated with one end of a connecting pipe, the connecting pipe penetrates through the top plate, the first fixing seat and the limiting block and is communicated with the second telescopic rod, one end of the second telescopic rod is fixedly connected with the inner wall of the containing groove, and the other end of the second telescopic rod is fixedly connected with the clamping block.
As a preferable scheme of the damping motor, the second telescopic rod comprises a cylinder barrel, a second piston head and a movable rod, the connecting pipe is communicated with the inside of the cylinder barrel, the cylinder barrel is fixedly connected with the inner wall of the accommodating groove, the inner wall of the cylinder barrel is slidably connected with the second piston head and the outer wall of the movable rod, the second piston head is fixedly connected with one end of the movable rod, the other end of the movable rod is fixedly connected with a clamping block, and one end, close to the movable rod, of the cylinder barrel is communicated with the connecting pipe.
As a preferred scheme of the damping motor, the damping motor further comprises a transmission assembly, wherein the transmission assembly comprises a driving rod, a fixed plate, a movable plate, a second fixed cylinder, a push rod and a limiting shaft, two sides of the driving rod are hinged to one end of the push rod, the other end of the push rod is hinged to the top of the limiting shaft, a first through groove and a second through groove are formed in the fixed plate, the driving rod is slidably connected with the inner wall of the first through groove, the bottom of the driving rod is slidably connected with the inner wall of the second fixed cylinder, the bottom end of the second fixed cylinder is fixedly connected with the upper surface of a base, the limiting shaft is slidably connected with the inner wall of the second through groove, two clamping rings are fixedly connected to the limiting shaft, and the two clamping rings are respectively positioned on two sides of the fixed plate; the movable plate is fixedly connected with the inserted link, a third through groove and a guide groove are formed in the movable plate, the outer wall of the second fixed cylinder is slidably connected with the inner wall of the third through groove, the inner wall of the guide groove is slidably connected with the bottom of the limiting shaft, and the guide groove is obliquely arranged on the movable plate.
As a preferable scheme of the damping motor, two ends of the fixed plate are fixedly connected with the top of the mounting block, the bottom of the mounting block is fixedly connected with the upper surface of the base, the mounting block is provided with a sliding groove, and two sides of the movable plate are slidably connected with the inner wall of the sliding groove.
As a preferable scheme of the damping motor, the driving rod is provided with a fixed column, the fixed column is connected with the inner wall of the sleeve in a sliding manner, the top of the sleeve is fixedly connected with one end of a third telescopic rod, the other end of the third telescopic rod is fixedly connected with the lower surface of the top plate, and a second spring is sleeved on the third telescopic rod.
The invention has the beneficial effects that: (1) The support seat and the first fixing seat are used for fixing the position of the rotating shaft, so that the two ends of the motor shaft can be fixed, the stability of the motor body when the motor shaft rotates when the motor body is powered by electricity is improved, the stability of the rotor when the rotor rotates is further improved, the transverse vibration force of the rotor when the rotor rotates is reduced, and a damping effect is achieved; (2) When the motor shaft output end rotates, the rotating shaft is driven to drive the fixed disc and the connecting rope to rotate, the two groups of fixed discs are fixedly connected through the connecting rope, and the transmission of vibration force generated during the rotation operation of the motor shaft can be effectively blocked by adopting a flexible connection mode, so that the stability of the motor shaft output is improved; (3) Through playing the fixed action to the shell of motor body, and then play the fixed action to the inside stator of motor body shell, thereby avoid rotor vibrations to drive the stator and lead to the motor body to vibrate along with the follow-up to lead to the fact the bolt smooth silk, lead to the insecure condition of motor installation, reduce the potential safety hazard.
Drawings
Fig. 1 is a schematic diagram of an overall structure in an embodiment of the present disclosure.
Fig. 2 is a schematic structural diagram of a connection assembly according to an embodiment of the present disclosure.
Fig. 3 is a schematic structural view of a fixing assembly according to an embodiment of the present disclosure.
Fig. 4 is a schematic view of the assembly of the fixing base and the mounting base in the embodiment of the disclosure.
Fig. 5 is a cross-sectional view of a support base in an embodiment of the present disclosure.
FIG. 6 is a cross-sectional view of a stop block in an embodiment of the present disclosure.
Fig. 7 is a top plate cross-sectional view in an embodiment of the present disclosure.
Fig. 8 is a cross-sectional view of a mounting bracket in an embodiment of the present disclosure.
Fig. 9 is a cross-sectional view of a second telescoping rod in an embodiment of the present disclosure.
Fig. 10 is a schematic diagram of a transmission assembly in an embodiment of the disclosure.
Fig. 11 is an exploded schematic view of a transmission assembly in an embodiment of the present disclosure.
Fig. 12 is a schematic view of a sleeve and stationary post assembly in an embodiment of the present disclosure.
In the figure: the motor body M, the fixing assembly 100, the first fixing assembly 100a, the second fixing assembly 100b, the third fixing assembly 100c, the rotation shaft 101, the square shaft hole 101a, the square shaft 101b, the stopper ring 101c, the supporting seat 102, the stopper groove 102a, the clip groove 102b, the first fixing seat 103, the stopper 103a, the accommodating groove 103b, the first telescopic rod 103c, the first spring 103c-1, the clip block 103d, the inclined surface 103d-1, the semicircular groove 104, the stopper groove 104a, the fixing block 105, the top plate 106, the first fixing cylinder 106a, the first piston head 106b, the supporting rod 106c, the fixing knob 106d, the accommodating chamber 106e, the connection pipe 106f, the second telescopic rod 107, the cylinder 107a, the second piston head 107b, the movable rod 107c, the connection assembly 200, the fixed disk 201, the connection rope 202, the insert rod 304, the installation assembly 300, the second fixed seat 301, the second insertion hole 301a, the installation seat 302, the installation groove 302a, the first insertion hole 302b, the slider 302c, the third insertion hole 302c-1, the base 303, the transmission assembly 400, the driving rod 401, the fixed column 401a, the fixed plate 402, the first through groove 402a, the second through groove 402b, the installation block 402c, the sliding groove 402c-1, the movable plate 403, the third through groove 403a, the guide groove 403b, the second fixed cylinder 404, the push rod 405, the limit shaft 406, the sleeve 407, the third telescopic rod 408, and the second spring 409.
Description of the embodiments
In order that the above-recited objects, features and advantages of the present invention will become more readily apparent, a more particular description of the invention will be rendered by reference to specific embodiments thereof which are illustrated in the appended drawings.
Examples
Referring to fig. 1 to 4, in a first embodiment of the present invention, a damper motor is provided, which includes a fixing assembly 100, a connecting assembly 200 and a mounting assembly 300, wherein the fixing assembly 100 includes a rotating shaft 101, a supporting seat 102 and a first fixing seat 103, a square shaft hole 101a is formed on the rotating shaft 101, an inner wall of the square shaft hole 101a is slidably connected with a square shaft 101b, the square shaft 101b is respectively and fixedly connected with two ends of a motor shaft on a motor body M, a semicircular groove 104 is respectively and fixedly arranged on the supporting seat 102 and the first fixing seat 103 corresponding to the rotating shaft 101, an inner wall of the semicircular groove 104 is rotatably connected with the rotating shaft 101, an outer wall of the rotating shaft 101 is fixedly connected with a limiting ring 101c, and a limiting groove 104a is arranged on an inner wall of the semicircular groove 104 corresponding to the limiting ring 101 c.
In this embodiment, when the rotation shaft 101 rotates, the limiting ring 101c is driven to slide on the inner wall of the limiting groove 104a, so that the rotation shaft 101 can be prevented from sliding radially. The both ends of motor shaft on motor body M are fixed connection square shaft 101b respectively, insert square shaft 101b in the square shaft hole 101a, square shaft 101b rotates and can drive axis of rotation 101 and rotate, put into the semicircle groove 104 on supporting seat 102 and the first fixing base 103 with axis of rotation 101, axis of rotation 101 can rotate in semicircle groove 104 this moment, through fixing the position of supporting seat 102 and first fixing base 103 to axis of rotation 101, can fix the both ends of motor shaft, stability when motor body M gives the electricity and work the motor shaft rotation is improved, and then stability when improving the rotor and rotate reduces the transverse vibration power when the rotor rotates, play the cushioning effect.
Referring to fig. 2, the connection assembly 200 includes a fixing plate 201 and a connection rope 202, both ends of the connection rope 202 are respectively and fixedly connected with the fixing plate 201, the fixing assemblies 100 are respectively provided with three groups including a first fixing assembly 100a, a second fixing assembly 100b and a third fixing assembly 100c, wherein the first fixing assembly 100a is located at one end of a motor shaft on the motor body M, the second fixing assembly 100b and the third fixing assembly 100c are located at the other end of the motor shaft on the motor body M, and the fixing plates 201 are respectively and fixedly connected with the rotating shafts 101 on the second fixing assembly 100b and the third fixing assembly 100 c.
In this embodiment, the fixing assemblies 100 are respectively provided with three groups, the rotating shafts 101 are also respectively provided with three groups corresponding to the fixing assemblies 100, and the three groups of rotating shafts 101 and the fixing assemblies 100 have the same size; the motor shaft which is close to one side of the second fixing assembly 100b and one side of the third fixing assembly 100c are used as the output end of the motor body M, the motor shaft output end drives the fixing disc 201 and the connecting rope 202 to rotate through the driving rotating shaft 101 when rotating, the two groups of fixing discs 201 are fixedly connected through the connecting rope 202, and the transmission of vibration force generated during the rotation operation of the motor shaft can be effectively blocked by adopting a flexible connection mode, so that the stability of the motor shaft output is improved.
Referring to fig. 1 and 4, the mounting assembly 300 includes a second fixing base 301, a mounting base 302 and a base 303, the upper surface of the base 303 is fixedly connected with the mounting base 302 and the supporting base 102, the second fixing base 301 is fixedly connected with the bottom of the motor body M, a mounting groove 302a is formed in the mounting base 302 corresponding to the second fixing base 301, and the inner wall of the mounting groove 302a is slidably connected with the second fixing base 301.
In this embodiment, the base 303 can support and fix the mounting base 302 and the supporting base 102. During installation, the installation seat 302 slides into the installation groove 302a, the cross section of the installation groove 302a and the cross section of the installation seat 302 are in a T shape, the installation seat 302 can be prevented from moving in the installation groove 302a, the shell of the motor body M can be fixed, the stator in the shell of the motor body M is further fixed, and the phenomenon that the motor body vibrates along with the stator due to the fact that the rotor vibrates is avoided.
Examples
Referring to fig. 1 to 12, a second embodiment of the present invention is based on the previous embodiment, which differs from the previous embodiment in that.
Referring to fig. 4, two first insertion holes 302b are provided on the mounting base 302, a second insertion hole 301a is provided on the second fixing base 301 corresponding to one of the first insertion holes 302b, the inner wall of the mounting groove 302a is slidably connected with a sliding block 302c, a third insertion hole 302c-1 is provided on the sliding block 302c corresponding to the other first insertion hole 302b, and the inner wall of the first insertion hole 302b is slidably connected with the insertion rod 304.
In particular, in this embodiment, the first receptacle 302b, the second receptacle 301a, and the third receptacle 302c-1 have the same cross-sectional dimensions. During installation, the installation seat 302 is slid into the installation groove 302a, at this time, the second insertion hole 301a is aligned with the first insertion hole 302b, then the sliding block 302c is slid into the installation groove 302a, at this time, the third insertion hole 302c-1 is aligned with the other first insertion hole 302b, then two inserting rods 304 are respectively inserted into the two first insertion holes 302b, the ends of the two inserting rods 304 are respectively inserted into the second insertion hole 301a and the third insertion hole 302c-1, the positions of the sliding block 302c and the installation seat 302 in the installation groove 302a are locked, the installation seat 302 can be prevented from moving in the installation groove 302a, a fixing effect is achieved on the shell of the motor body M, further a fixing effect is achieved on a stator in the shell of the motor body M, vibration of the rotor is reduced, and the situation that the rotor drives the stator to vibrate along with the motor body is avoided.
Referring to fig. 3, the support base 102 provided corresponding to the first fixing assembly 100a is fixedly connected to one side of the fixing block 105, and the other side of the fixing block 105 is fixedly connected to the slider 302c.
In this embodiment, specifically, the support base 102 corresponding to the first fixing component 100a is fixedly connected to one side of the fixing block 105, and the other side of the fixing block 105 is fixedly connected to the sliding block 302c, so that the support base 102, the fixing block 105 and the sliding block 302c corresponding to the first fixing component 100a are integrated, and the structure is more stable.
Referring to fig. 3, limiting grooves 102a are formed on two sides of the supporting seat 102, and limiting blocks 103a are disposed on the first fixing seat 103 corresponding to the limiting grooves 102 a.
In this embodiment, specifically, the stopper 103a on the first fixing seat 103 is inserted into the stopper groove 102a on the supporting seat 102, which is favorable for preventing sliding between the supporting seat 102 and the first fixing seat 103, ensuring that the corresponding stopper groove 104a in the semicircular groove 104 on the supporting seat 102 and the first fixing seat 103 can be aligned, and reducing the friction force of the stopper 101c rotating on the inner wall of the stopper groove 104a when the rotation shaft 101 drives the stopper 101c to rotate.
Referring to fig. 4 and 5, a clamping groove 102b is formed in a supporting seat 102, and a limiting groove 102a is communicated with two ends of the clamping groove 102a, a containing groove 103b is formed in a limiting block 103a corresponding to the clamping groove 102b, one end of a first telescopic rod 103c is fixedly connected to the inner wall of the containing groove 103b, the other end of the first telescopic rod 103c is fixedly connected with a clamping block 103d, the clamping block 103d is slidably connected with the inner wall of the clamping groove 102b, an inclined surface 103d-1 is formed in the clamping block 103d, and a first spring 103c-1 is sleeved on the first telescopic rod 103 c.
In this embodiment, the first telescopic rod 103c can play a limiting role on the first spring 103c-1, so as to prevent the first spring 103c-1 from being skewed and influence the elasticity applied to the clamping block 103d. The accommodating grooves 103b are symmetrically arranged at two sides of the clamping groove 102 b. Under the effect of the elastic force of the first spring 103c-1, the part, close to the inclined surface 103d-1, of the clamping block 103d can be inserted into the clamping groove 102b, at the moment, the supporting seat 102 and the limiting block 103a are fixed together by the clamping block 103d, then the supporting seat 102 and the first fixing seat 103 are fixed together, the rotating shaft 101 is clamped by the semicircular groove 104 together, the rotating shaft 101 rotates in the semicircular groove 104, two ends of a motor shaft can be fixed by fixing the supporting seat 102 and the first fixing seat 103, the stability of the motor body M when the motor shaft rotates is improved, the stability of the rotor rotates is further improved, transverse vibration force of the rotor when the rotor rotates is reduced, and a damping effect is achieved. The limiting block 103a on the first fixing base 103 is conveniently inserted into the limiting groove 102a on the supporting base 102 through the inclined surface 103 d-1.
Referring to fig. 3 and 6 to 8, the top of the first fixing base 103 is fixedly connected with the top plate 106, a first fixing tube 106a is arranged in the top plate 106, the inner wall of the first fixing tube 106a is slidably connected with the first piston head 106b, the first piston head 106b is fixedly connected with one end of the supporting rod 106c, the other end of the supporting rod 106c is fixedly connected with the fixing button 106d, the first fixing base 103 is internally provided with a containing cavity 106e, the first fixing tube 106a is communicated with the containing cavity 106e, the containing cavity 106e is communicated with one end of the connecting tube 106f, the connecting tube 106f passes through the top plate 106, the first fixing base 103 and the limiting block 103a and is communicated with the second telescopic rod 107, one end of the second telescopic rod 107 is fixedly connected with the inner wall of the containing groove 103b, and the other end of the second telescopic rod 107 is fixedly connected with the clamping block 103d.
In this embodiment, the top plate 106 can fix the first fixing base 103, and the positions of the first fixing base 103 are set corresponding to the positions of the supporting base 102 on the first fixing component 100a, the second fixing component 100b and the third fixing component 100c, respectively. After the limiting block 103a on the first fixing base 103 is inserted into the limiting groove 102a on the supporting base 102, under the action of the elastic force of the first spring 103c-1, the part, close to the inclined surface 103d-1, of the clamping block 103d can be inserted into the clamping groove 102b, and at the moment, the supporting base 102 and the limiting block 103a are fixed together by the clamping block 103d, so that the supporting base 102 and the first fixing base 103 are fixed together.
If the supporting seat 102 and the first fixing seat 103 are to be separated, when the fixing button 106d is pressed to detach, the fixing button 106d drives the first piston head 106b to slide in the first fixing barrel 106a through the supporting rod 106c, air on one side of the first piston head 106b, which is far away from the supporting rod 106c, is extruded, because the first fixing barrel 106a is communicated with the accommodating cavity 106e, air pressure in the accommodating cavity 106e is increased, air in the accommodating cavity 106e is communicated with the second telescopic rod 107 through the connecting pipe 106f, the air enters the second telescopic rod 107, at the moment, the second telescopic rod 107 contracts, the second telescopic rod 107 pulls the clamping block 103d to overcome the elasticity of the first spring 103c-1, the clamping block 103d is pulled back into the accommodating groove 103b, at the moment, the top plate 106 is lifted upwards, the top plate 106 drives the first fixing seat 103 to move, the limiting block 103a is driven to slide out of the limiting groove 102a on the supporting seat 102, the supporting seat 102 and the first fixing seat 103 are separated, and the installation and detachment are more convenient.
Referring to fig. 9, the second telescopic rod 107 includes a cylinder 107a, a second piston head 107b and a movable rod 107c, the connection pipe 106f is connected to the inside of the cylinder 107a, the cylinder 107a is fixedly connected to the inner wall of the receiving groove 103b, the inner wall of the cylinder 107a is slidably connected to the second piston head 107b and the outer wall of the movable rod 107c, the second piston head 107b is fixedly connected to one end of the movable rod 107c, the other end of the movable rod 107c is fixedly connected to the clamping block 103d, and one end of the cylinder 107a, which is close to the movable rod 107c, is connected to the connection pipe 106f.
In particular, in the present embodiment, when air enters the inside of the cylinder 107a from the connection pipe 106f of the cylinder 107a near one end of the movable rod 107 c. The air pressure in the cylinder barrel 107a between the second piston head 107b and the connecting pipe 106f is increased, the second piston head 107b drives the movable rod 107c to shrink under the action of the air pressure, at this time, the second telescopic rod 107 shortens, the second telescopic rod 107 pulls the clamping block 103d to overcome the elastic force of the first spring 103c-1, the clamping block 103d is pulled back into the accommodating groove 103b, at this time, the top plate 106 is lifted upwards, the top plate 106 drives the first fixing seat 103 to move, the limiting block 103a is driven to slide out of the limiting groove 102a on the supporting seat 102, and the supporting seat 102 and the first fixing seat 103 are separated, so that the installation and the disassembly are convenient.
Referring to fig. 1 and 10 to 12, the device further comprises a transmission assembly 400, the transmission assembly 400 comprises a driving rod 401, a fixed plate 402, a movable plate 403, a second fixed cylinder 404, a push rod 405 and a limiting shaft 406, wherein two sides of the driving rod 401 are hinged with one end of the push rod 405, the other end of the push rod 405 is hinged with the top of the limiting shaft 406, a first through groove 402a and a second through groove 402b are formed in the fixed plate 402, the driving rod 401 is slidably connected with the inner wall of the first through groove 402a, the bottom of the driving rod 401 is slidably connected with the inner wall of the second fixed cylinder 404, the bottom end of the second fixed cylinder 404 is fixedly connected with the upper surface of the base 303, the limiting shaft 406 is slidably connected with the inner wall of the second through groove 402b, two clamping rings 406a are fixedly connected with the limiting shaft 406, and the two clamping rings 406a are respectively located at two sides of the fixed plate 402; the movable plate 403 is fixedly connected with the inserted link 304, a third through groove 403a and a guide groove 403b are formed in the movable plate 403, the outer wall of the second fixed cylinder 404 is slidably connected with the inner wall of the third through groove 403a, the inner wall of the guide groove 403b is slidably connected with the bottom of the limiting shaft 406, and the guide groove 403b is obliquely arranged on the movable plate 403.
In this embodiment, the bottom of the driving rod 401 can slide on the inner wall of the second fixed cylinder 404, which is beneficial to improving the stability of the driving rod 401 during moving. When the push rod 405 is pressed down, the push rod 405 drives the driving rod 401 to move, the driving rod 401 drives the limiting shaft 406 to move, and because the limiting shaft 406 is fixedly connected with two clamping rings 406a, the two clamping rings 406a are respectively positioned on two sides of the fixed plate 402, the limiting shaft 406 can only move horizontally along the inner wall of the second through groove 402b, at the moment, the limiting shaft 406 slides towards the direction far away from the push rod 405, and the inner wall of the guiding groove 403b at the bottom of the limiting shaft 406 pushes the movable plate 403 to move towards the direction close to the mounting seat 302 under the cooperation of the limiting shaft 406 and the guiding groove 403b because the guiding groove 403b is obliquely arranged on the movable plate 403.
The movable plate 403 drives the two inserting rods 304 to move, the two inserting rods 304 are respectively inserted into the two first inserting holes 302b, then the two inserting rods 304 are respectively inserted into the two first inserting holes 302b, the respective ends of the two inserting rods 304 are respectively inserted into the second inserting holes 301a and the third inserting holes 302c-1, the positions of the sliding block 302c and the mounting seat 302 in the mounting groove 302a are locked, the mounting seat 302 can be prevented from moving in the mounting groove 302a, the shell of the motor body M is fixed, the stator in the shell of the motor body M is fixed, the rotor vibration is prevented from driving the stator to cause the motor body to vibrate together, bolt sliding wires are caused, the motor is not firmly mounted, and potential safety hazards are reduced.
Referring to fig. 11, both ends of the fixed plate 402 are fixedly connected to the top of the installation block 402c, and the bottom of the installation block 402c is fixedly connected to the upper surface of the base 303, a sliding groove 402c-1 is provided on the installation block 402c, and both sides of the movable plate 403 are slidably connected to the inner wall of the sliding groove 402 c-1.
In this embodiment, the mounting block 402c can play a role in fixing and supporting the fixed plate 402, and the movable plate 403 can slide on the inner wall of the chute 402c-1 when moving, which is beneficial to improving the stability of the movable plate 403 when moving.
Referring to fig. 1 and 12, a fixed column 401a is disposed on a driving rod 401, the fixed column 401a is slidably connected with an inner wall of a sleeve 407, a top of the sleeve 407 is fixedly connected with one end of a third telescopic rod 408, the other end of the third telescopic rod 408 is fixedly connected with the lower surface of the top plate 106, and a second spring 409 is sleeved on the third telescopic rod 408. The fixing post 401a can be inserted into the sleeve 407.
Specifically in this embodiment, during installation, the installation seat 302 is slid into the installation groove 302a, at this time, the second insertion hole 301a is aligned with the first insertion hole 302b, then the sliding block 302c is slid into the installation groove 302a, at this time, the third insertion hole 302c-1 is aligned with the other first insertion hole 302b, the top plate 106 is pressed down, the top plate 106 pushes the first fixing seat 103 to move, after the limiting block 103a on the first fixing seat 103 is inserted into the limiting groove 102a on the supporting seat 102, under the action of the elastic force of the first spring 103c-1, the part of the clamping block 103d close to the inclined surface 103d-1 can be inserted into the clamping groove 102b, at this time, the clamping block 103d fixes the supporting seat 102 and the limiting block 103a together, and then fixes the supporting seat 102 and the first fixing seat 103 together, the rotating shaft 101 is clamped in the semicircular groove 104 to fix two ends of the motor shaft, stability of the motor body M when the motor is used for working the motor shaft is rotated is improved, stability when the rotor is rotated is further improved, transverse vibration force when the rotor rotates is reduced, and a vibration is damped.
Simultaneously, the top plate 106 pushes down the third telescopic rod 408, the third telescopic rod 408 drives the sleeve 407 to push the fixed column 401a to move downwards, the fixed column 401a pushes the push rod 405 to move downwards, the push rod 405 drives the driving rod 401 to move, the driving rod 401 drives the limiting shaft 406 to slide away from the direction of the push rod 405, and the inner wall of the guide groove 403b at the bottom of the limiting shaft 406, because the guide groove 403b is obliquely arranged on the movable plate 403, under the cooperation of the limiting shaft 406 and the guide groove 403b, the movable plate 403 is pushed to move towards the direction close to the mounting seat 302.
The movable plate 403 drives the two inserting rods 304 to move, the two inserting rods 304 are respectively inserted into the two first inserting holes 302b, then the two inserting rods 304 are respectively inserted into the two first inserting holes 302b, the respective ends of the two inserting rods 304 are respectively inserted into the second inserting holes 301a and the third inserting holes 302c-1, the positions of the sliding block 302c and the mounting seat 302 in the mounting groove 302a are locked, the mounting of the motor body M is completed, the mounting is convenient and quick, the bolts are not used for fixing, the situation that the motor is not firmly mounted due to loosening of the bolts can be avoided, and potential safety hazards are reduced.
At this time, the supporting seat 102 corresponding to the first fixing assembly 100a is fixedly connected to one side of the fixing block 105, the other side of the fixing block 105 is fixedly connected to the sliding block 302c, and the third insertion hole 302c-1 on the sliding block 302c and the first insertion hole 302b on the mounting seat 302 are locked together by the inserting rod 304; the supporting seat 102 corresponding to the first fixing assembly 100a is fixed together with the limiting block 103a by the clamping block 103d, and then is fixed together with the first fixing seat 103 to be relatively locked, so that the connection is firmer. Play the fixed action to motor body M's shell, and then play the fixed action to motor body M shell inside stator, thereby avoid rotor vibrations to drive the stator and lead to the motor body to vibrate along with the follow-up to lead to the fact the bolt to slide the silk, lead to the insecure condition of motor installation, reduce the potential safety hazard.

Claims (7)

1. A vibration-damping motor, comprising the following characteristics: comprising
The fixing assembly (100), the fixing assembly (100) comprises a rotating shaft (101), a supporting seat (102) and a first fixing seat (103), a square shaft hole (101 a) is formed in the rotating shaft (101), the inner wall of the square shaft hole (101 a) is connected with a square shaft (101 b) in a sliding mode, the square shaft (101 b) is respectively and fixedly connected with two ends of a motor shaft on a motor body (M), semicircular grooves (104) are formed in the supporting seat (102) and the first fixing seat (103) corresponding to the rotating shaft (101) respectively, the inner wall of each semicircular groove (104) is rotationally connected with the rotating shaft (101), a limiting ring (101 c) is fixedly connected with the outer wall of the rotating shaft (101), and a first limiting groove (104 a) is formed in the inner wall of each semicircular groove (104) corresponding to the limiting ring (101 c);
second limit grooves (102 a) are formed in two sides of the supporting seat (102), and limit blocks (103 a) are arranged on the first fixing seat (103) corresponding to the second limit grooves (102 a);
the supporting seat (102) is provided with a clamping groove (102 b), the second limiting groove (102 a) is communicated with two ends of the clamping groove (102 b), the limiting block (103 a) is provided with a containing groove (103 b) corresponding to the clamping groove (102 b), the inner wall of the containing groove (103 b) is fixedly connected with one end of a first telescopic rod (103 c), the other end of the first telescopic rod (103 c) is fixedly connected with a clamping block (103 d), the clamping block (103 d) is slidably connected with the inner wall of the clamping groove (102 b), the clamping block (103 d) is provided with an inclined surface (103 d-1), and the first telescopic rod (103 c) is sleeved with a first spring (103 c-1);
the top of the first fixing seat (103) is fixedly connected with the top plate (106), a first fixing cylinder (106 a) is arranged in the top plate (106), the inner wall of the first fixing cylinder (106 a) is connected with a first piston head (106 b) in a sliding mode, the first piston head (106 b) is fixedly connected with one end of a supporting rod (106 c), the other end of the supporting rod (106 c) is fixedly connected with a fixing button (106 d), a containing cavity (106 e) is arranged in the first fixing seat (103), the first fixing cylinder (106 a) is communicated with the containing cavity (106 e), the containing cavity (106 e) is communicated with one end of a connecting pipe (106 f), the connecting pipe (106 f) penetrates through the top plate (106), the first fixing seat (103) and a limiting block (103 a) to be communicated with a second telescopic rod (107), one end of the second telescopic rod (107) is fixedly connected with the inner wall of the containing groove (103 b), and the other end of the second telescopic rod (107) is fixedly connected with a clamping block (103 d);
the connecting assembly (200), the connecting assembly (200) comprises a fixed disc (201) and a connecting rope (202), the two ends of the connecting rope (202) are respectively and fixedly connected with the fixed disc (201), the fixed assemblies (100) are respectively provided with three groups, each group comprises a first fixed assembly (100 a), a second fixed assembly (100 b) and a third fixed assembly (100 c), the first fixed assembly (100 a) is positioned at one end of a motor shaft on the motor body (M), the second fixed assembly (100 b) and the third fixed assembly (100 c) are positioned at the other end of the motor shaft on the motor body (M), and the fixed discs (201) are respectively and fixedly connected with rotating shafts (101) on the second fixed assembly (100 b) and the third fixed assembly (100 c);
installation component (300), installation component (300) include second fixing base (301), mount pad (302) and base (303), fixed surface connects mount pad (302) and supporting seat (102) on base (303), second fixing base (301) fixed connection motor body (M) bottom to corresponding second fixing base (301) on mount pad (302) has seted up mounting groove (302 a), mounting groove (302 a) inner wall sliding connection second fixing base (301).
2. The shock absorbing motor as set forth in claim 1 wherein: two first jacks (302 b) are arranged on the mounting base (302), a second jack (301 a) is arranged on the second fixing base (301) corresponding to one of the first jacks (302 b), a sliding block (302 c) is connected to the inner wall of the mounting groove (302 a) in a sliding mode, a third jack (302 c-1) is arranged on the sliding block (302 c) corresponding to the other first jack (302 b), and a plug rod (304) is connected to the inner wall of the first jack (302 b) in a sliding mode.
3. The shock absorbing motor as set forth in claim 2 wherein: the supporting seat (102) arranged corresponding to the first fixing assembly (100 a) is fixedly connected with one side of the fixing block (105), and the other side of the fixing block (105) is fixedly connected with the sliding block (302 c).
4. The shock absorbing motor as set forth in claim 1 wherein: the second telescopic rod (107) comprises a cylinder barrel (107 a), a second piston head (107 b) and a movable rod (107 c), the connecting pipe (106 f) is communicated with the inside of the cylinder barrel (107 a), the cylinder barrel (107 a) is fixedly connected with the inner wall of the accommodating groove (103 b), the inner wall of the cylinder barrel (107 a) is slidably connected with the second piston head (107 b) and the outer wall of the movable rod (107 c), the second piston head (107 b) is fixedly connected with one end of the movable rod (107 c), the other end of the movable rod (107 c) is fixedly connected with the clamping block (103 d), and one end of the cylinder barrel (107 a) close to the movable rod (107 c) is communicated with the connecting pipe (106 f).
5. The shock absorbing motor as set forth in claim 2 wherein: the novel automatic transmission device is characterized by further comprising a transmission assembly (400), wherein the transmission assembly (400) comprises a driving rod (401), a fixed plate (402), a movable plate (403), a second fixed cylinder (404), a push rod (405) and a limiting shaft (406), one end of the push rod (405) is hinged to two sides of the driving rod (401), the other end of the push rod (405) is hinged to the top of the limiting shaft (406), a first through groove (402 a) and a second through groove (402 b) are formed in the fixed plate (402), the driving rod (401) is connected with the inner wall of the first through groove (402 a) in a sliding mode, the bottom of the driving rod (401) is connected with the inner wall of the second fixed cylinder (404) in a sliding mode, the bottom end of the second fixed cylinder (404) is fixedly connected with the upper surface of the base (303), the limiting shaft (406) is connected with the inner wall of the second through groove (402 b) in a sliding mode, and two clamping rings (406 a) are fixedly connected to the limiting shaft (406 a) and located on two sides of the fixed plate (402) respectively;
the movable plate (403) is fixedly connected with the inserted link (304), a third through groove (403 a) and a guide groove (403 b) are formed in the movable plate (403), the outer wall of the second fixed cylinder (404) is connected with the inner wall of the third through groove (403 a) in a sliding mode, the inner wall of the guide groove (403 b) is connected with the bottom of the limiting shaft (406) in a sliding mode, and the guide groove (403 b) is obliquely arranged on the movable plate (403).
6. The shock absorbing motor as set forth in claim 5 wherein: the two ends of the fixed plate (402) are fixedly connected with the top of the mounting block (402 c), the bottom of the mounting block (402 c) is fixedly connected with the upper surface of the base (303), the mounting block (402 c) is provided with a sliding groove (402 c-1), and two sides of the movable plate (403) are slidably connected with the inner wall of the sliding groove (402 c-1).
7. The shock absorbing motor of claim 6, wherein: be provided with fixed column (401 a) on actuating lever (401), fixed column (401 a) sliding connection sleeve (407) inner wall, sleeve (407) top fixed connection third telescopic link (408) one end, third telescopic link (408) other end fixed connection roof (106) lower surface, the cover is equipped with second spring (409) on third telescopic link (408).
CN202211740414.9A 2022-12-31 2022-12-31 Damping motor Active CN116054470B (en)

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CN116054470B true CN116054470B (en) 2023-11-17

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Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH10243602A (en) * 1997-02-22 1998-09-11 Mabuchi Motor Co Ltd Small-sized motor
CN107795634A (en) * 2017-11-16 2018-03-13 江苏丰禾食品有限公司 A kind of electromechanical equipment damping device for being used to build
CN211183651U (en) * 2018-10-22 2020-08-04 王秋林 Double-shaft extension brushless outer rotor motor
CN112953100A (en) * 2021-01-27 2021-06-11 王显正 Floating rotating shaft motor for vibrating screen
CN114244008A (en) * 2021-12-26 2022-03-25 广州全鑫信息科技有限公司 New energy automobile motor damping device
CN217282440U (en) * 2020-12-30 2022-08-23 欧佩德伺服电机节能系统有限公司 Connecting structure of motor

Patent Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH10243602A (en) * 1997-02-22 1998-09-11 Mabuchi Motor Co Ltd Small-sized motor
CN107795634A (en) * 2017-11-16 2018-03-13 江苏丰禾食品有限公司 A kind of electromechanical equipment damping device for being used to build
CN211183651U (en) * 2018-10-22 2020-08-04 王秋林 Double-shaft extension brushless outer rotor motor
CN217282440U (en) * 2020-12-30 2022-08-23 欧佩德伺服电机节能系统有限公司 Connecting structure of motor
CN112953100A (en) * 2021-01-27 2021-06-11 王显正 Floating rotating shaft motor for vibrating screen
CN114244008A (en) * 2021-12-26 2022-03-25 广州全鑫信息科技有限公司 New energy automobile motor damping device

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