CN113659766A

CN113659766A - Adjustable motor base

Info

Publication number: CN113659766A
Application number: CN202111206683.2A
Authority: CN
Inventors: 王钰江
Original assignee: Xuzhou Jiudong Intelligent Technology Co ltd
Current assignee: Xuzhou Jiudong Intelligent Technology Co ltd
Priority date: 2021-10-18
Filing date: 2021-10-18
Publication date: 2021-11-16

Abstract

The invention relates to the technical field of motor equipment, in particular to an adjustable motor base, which comprises: the motor support device comprises a bearing plate, a motor base and a motor base, wherein a frame is fixedly arranged on the bearing plate; the base adjusting driving assembly is arranged on one side of the frame and used for adjusting and controlling the rotation or lifting work of the motor base; one end of the base adjusting rotating assembly is connected with the base adjusting driving assembly, and the other end of the base adjusting rotating assembly is connected with the motor base and used for driving the motor base to rotate; the base adjusting lifting assembly is arranged between the inside of the frame and the motor base and comprises a base adjusting lifting assembly and a motor base; the lifting adjusting and connecting assembly is arranged on one side of the base adjusting and driving assembly; the device can with motor fixed mounting in the device, reduce vibration amplitude through loading board buffering antidetonation subassembly when using, can freely adjust motor base's height and motor direction simultaneously.

Description

Adjustable motor base

Technical Field

The invention relates to the technical field of motor equipment, in particular to an adjustable motor base.

Background

In the daily production activity process, often need use the motor as the power supply, when the motor uses, can produce great vibrations usually, consequently need fix the motor.

However, when the existing motor is used, the motor is usually directly fixed on the ground or a workbench by using nuts, so that when the motor is required to be subjected to direction position or height adjustment, the motor and the fixed body are firstly required to be detached, then the motor is adjusted by using a lifting appliance, and the working efficiency is greatly reduced.

Therefore, we provide an adjustable motor base to solve the above problems.

Disclosure of Invention

The present invention is directed to an adjustable motor base to solve the above problems.

In order to achieve the purpose, the invention provides the following technical scheme:

an adjustable motor mount comprising: the motor support device comprises a bearing plate, a motor base and a motor base, wherein a frame is fixedly arranged on the bearing plate;

the base adjusting driving assembly is arranged on one side of the frame and used for adjusting and controlling the rotation or lifting work of the motor base;

one end of the base adjusting rotating assembly is connected with the base adjusting driving assembly, and the other end of the base adjusting rotating assembly is connected with the motor base and used for driving the motor base to rotate;

the base adjusting lifting assembly is arranged between the inside of the frame and the motor base and comprises a base adjusting lifting assembly and a motor base; the lifting adjusting and connecting assembly is arranged on one side of the base adjusting and driving assembly, is connected with the motor base and is used for transmitting driving force to adjust the motor to lift; the power contact transmission control assembly is arranged on one side of the lifting adjusting connecting assembly and is used for controlling the lifting adjusting connecting assembly to be in contact with the base adjusting driving assembly to transmit driving force;

the motor fixing and positioning assembly is arranged at the top of the motor base and used for clamping and fixing the motor.

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

the device is with motor fixed mounting among the device, utilizes the base to adjust drive assembly and drives the base and adjust lifting unit and base regulation rotating assembly work, when carrying out lifting control, through the relation of being connected between power contact transmission control assembly control lifting regulation coupling assembling and the base regulation drive assembly, realizes going up and down or pivoted regulation change, and then freely adjusts motor base's height and motor direction.

Drawings

Fig. 1 is a front view of an adjustable motor base.

Fig. 2 is a front sectional view of a chute of an adjustable motor base.

FIG. 3 is a top view of a carrier plate of an adjustable motor base.

Fig. 4 is a top view of a pulley of an adjustable motor base.

Fig. 5 is an enlarged view of a portion a of fig. 1 of an adjustable motor base.

Fig. 6 is a schematic structural view of a rotary connecting sleeve of an adjustable motor base.

In the figure: 1-concave frame, 2-shock absorbing foot pad, 3-bearing plate buffering and shock-proof component, 301-sliding chute, 302-first sliding rod, 303-first sliding connecting block, 304-first spring, 305-second sliding rod, 306-second spring, 307-second sliding connecting block, 308-first rotating connecting rod, 4-bearing plate, 5-frame, 6-base adjusting rotating component, 601-driving motor, 602-rotating shaft, 603-first belt wheel, 604-second belt wheel, 605-sliding cylinder, 606-sleeve rod, 7-lifting adjusting connecting component, 701-first bevel gear, 702-rotating connecting sleeve, 703-rotating sleeve rod, 704-second bevel gear, 705-third bevel gear, 706-driving screw, 707-fixed frame, 708-hollow column, 709-threaded sleeve, 710-rotary connecting block, 711-circular connecting piece, 712-groove frame, 713-second rotary connecting rod, 714-push rod, 715-tension spring, 8-motor base, 9-positioning hole and 10-positioning clamping block.

Detailed Description

The technical solution of the present patent will be described in further detail with reference to the following embodiments.

Reference will now be made in detail to embodiments of the present patent, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present patent and are not to be construed as limiting the present patent.

Referring to fig. 1, in an embodiment of the present invention, an adjustable motor base includes: the bearing plate 4 is fixedly provided with a frame 5, and the frame 5 is provided with a motor base 8;

the base adjusting driving assembly is arranged on one side of the frame 5 and is used for adjusting and controlling the rotation or lifting work of the motor base 8;

one end of the base adjusting rotating assembly 6 is connected with the base adjusting driving assembly, and the other end of the base adjusting rotating assembly 6 is connected with the motor base 8 and used for driving the motor base 8 to rotate;

the base adjusting lifting component is arranged between the inside of the frame 5 and the motor base 8 and comprises a base adjusting lifting component and a motor base adjusting lifting component; the lifting adjusting and connecting assembly 7 is arranged on one side of the base adjusting and driving assembly, is connected with the motor base 8 and is used for transmitting driving force to adjust the lifting of the motor; the power contact transmission control assembly is arranged on one side of the lifting adjusting connecting assembly and is used for controlling the lifting adjusting connecting assembly to be in contact with the base adjusting driving assembly to transmit driving force;

and the motor fixing and positioning assembly is arranged at the top of the motor base 8 and used for clamping and fixing the motor.

In this embodiment, at first utilize motor fixed position subassembly to fix the motor on motor base 8, then adjust drive assembly through the base as required and adjust the height or the direction of motor base 8 for motor base 8 drives the motor and rotates certain direction or height.

Referring to fig. 1, in the present embodiment, the base adjustment driving assembly includes:

the driving part is fixed on the bearing plate 4 on one side of the frame 5 and used for providing adjusting driving force for the motor base 8, the driving part is specifically a driving motor 601, and the driving motor 601 is fixed on one side of the bearing plate 4;

a rotating shaft 602, the rotating shaft 602 being connected to the driving member for transmitting a driving force of the driving member;

and the power output part is fixedly arranged on the rotating shaft 602 and is used for respectively realizing the lifting of the motor base 8 and the output conversion of rotating force, and the power output part is specifically a first belt wheel 603 fixedly arranged at the end part of the rotating shaft 602 and a first bevel gear 701 fixed in the middle of the rotating shaft 602.

In this embodiment, the driving motor 601 drives the rotating shaft 602 to rotate, and the rotating shaft 602 drives the first pulley 603 and the first bevel gear 701 fixedly mounted thereon to rotate, so as to achieve the rotating and lifting effects of the motor base 8 and complete the adjustment of the motor base 8.

In the present embodiment, the driving member includes, but is not limited to, a pneumatic motor, an electric motor, etc., and the belt or bevel gear is used to drive the rotating force of the rotating shaft 602, and other mechanisms such as a gear drive, a chain, etc. can be used, which are not described herein in detail.

Referring to fig. 1 and 4, in the present embodiment, the base adjustment rotating assembly 6 includes:

a driven assembly provided at the top of the frame 5 and connected with one side of the power take-off, the driven assembly comprising: a second pulley 604, wherein the second pulley 604 is connected with the first pulley 603, and the second pulley 604 is rotatably mounted on the frame 5;

sleeve subassembly, sleeve subassembly one end and driven subassembly fixed connection, the other end and 8 fixed connection of motor base, sleeve subassembly includes: a sliding cylinder 605 fixed on the second belt wheel 604, a loop bar 606 arranged in the sliding cylinder 605, and the other end of the loop bar 606 fixed at the bottom of the motor base 8;

driven subassembly sets up in frame 5 one side and is connected with power take off, and driven subassembly works under the effect that driving piece drove power take off for driven subassembly drives motor base 8 and rotates, and sleeve subassembly supports motor base 8 simultaneously.

In this embodiment, the second pulley 604 is driven by the first pulley 603 to rotate, so that the second pulley 604 drives the sliding cylinder 605 fixedly mounted on the upper portion to rotate therewith, and the loop bar 606 slidably disposed in the sliding cylinder 605 drives the motor base 8 to rotate therewith.

In the present embodiment, the driven assembly includes, but is not limited to, transmission of driving force by using a chain or a gear, which is not described herein too much.

Referring to fig. 1, 5 and 6, in the present embodiment, the lifting adjustment connection assembly 7 includes:

the transmission connecting piece, transmission connecting piece one end sets up in frame 5's inside one side, and runs through frame 5 and cooperatees with power take off one end, the transmission connecting piece specifically is: a rotary connecting sleeve 702, wherein the rotary connecting sleeve 702 penetrates through the frame 5 to be matched with the first bevel gear 701, and a rotary sleeve rod 703 is connected to the other side of the rotary connecting sleeve 702 in a sliding key manner;

the steering transmission assembly, steering transmission assembly one end sets up the other end at the transmission connecting piece for change the direction drive arrangement of transmission power and go up and down, the steering transmission assembly specifically is: a second bevel gear 704, wherein the second bevel gear 704 is fixed at one end of the rotating sleeve rod 703, and a third bevel gear 705 is engaged with one side of the second bevel gear 704;

the adjusting part, adjusting part one end sets up the other end at turning to transmission assembly, the adjusting part other end rotates with motor base 8 to be connected for drive motor base 8 goes up and down, the adjusting part includes: the driving screw 706 is fixedly connected to one side of the third bevel gear 705, a threaded sleeve 709 is screwed to the other end of the driving screw 706, a rotating connecting block 710 is fixed to the top of the threaded sleeve 709, and the rotating connecting block 710 is fixed to the bottom of the motor base 8.

In this embodiment, a fixing frame 707 is fixedly installed on the outer side of the driving screw 706, a hollow column 708 is installed between the fixing frames 707, the threaded sleeve 709 is slidably installed in the hollow column 708, during adjustment, the rotating connecting sleeve 702 rotates under the action of the first bevel gear 701, so that the rotating sleeve 703 connected with the other side key rotates, and further drives the second bevel gear 704 and the third bevel gear 705 to rotate, and the third bevel gear 705 rotates to drive the driving screw 706 to rotate, so that the threaded sleeve 709 on the driving screw 706 rotates, and the motor base 8 is driven to complete the up-down lifting effect.

In this embodiment, the transmission connection member includes, but is not limited to, a sleeve or a slotted rod for connecting and matching the first bevel gear 701 with a steering transmission assembly, the steering transmission assembly includes, but is not limited to, a worm gear or a gear transmission, and the adjustment assembly includes, but is not limited to, a rack gear and a rack gear, wherein the rack gear is rotatably installed on one side of the motor base 8, the gear is installed at one end of the transmission connection member, and the gear and the rack gear cooperate to drive the adjustment assembly to move, so as to adjust the height of the motor base 8, which is not described herein too much.

Referring to fig. 1, fig. 5 and fig. 6, in the present embodiment, the power contact transmission control assembly includes:

the circular ring connecting piece 711 is arranged on one side of the transmission connecting piece and is used for driving the transmission connecting piece to move and be connected with one end of the power output piece or driving the transmission connecting piece to move away from the power output piece;

the slot frame 712 is fixedly arranged on the circular ring connecting piece 711 and the bearing plate 4 at the corresponding position, wherein the slot frame 712 fixedly arranged on the bearing plate 4 is obliquely fixed;

the connecting rod piece is rotatably installed in the groove frame 712 and used for driving the circular ring connecting piece 711 to move, the connecting rod piece is specifically a second rotating connecting rod 713, one end of the second rotating connecting rod 713 is rotatably installed in the groove frame 712, and the other end of the second rotating connecting rod 713 is rotatably connected with a push rod 714, and the push rod 714 penetrates through the frame 5 to the outside of the frame 5;

the elastic component, the elastic component sets up outside the one end of connecting the member for the ring connecting piece 711 that guarantees to connect the member and connect member end connection drives the transmission connecting piece and resets, makes the transmission connecting piece be connected the cooperation transmission drive power with power take off, the elastic component specifically is extension spring 715.

In this embodiment, when only the motor base needs to be adjusted in a rotating manner, the tension spring 715 pulls the second rotating connecting rod 713, so that the chute frame 712 drives the ring connecting member 711 and the rotating connecting sleeve 702 to move to one side, and the rotating connecting sleeve 702 is separated from the end engaged with the first bevel gear 701, so that the rotating effect is achieved independently.

In this embodiment, the elastic member includes, but is not limited to, other elastic sleeves or elastic belts with elasticity, and the like, and only two adjustment modes of the motor base 8 can be performed step by step; the power contact transmission control assembly can utilize other mechanisms to enable the lifting adjustment connecting assembly 7 to be in contact with the driving piece so as to transmit the driving force, and if a hydraulic mechanism is utilized to drive the lifting adjustment connecting assembly 7 to be connected with the power output piece, the description is not made too much.

Referring to fig. 3, in the present embodiment, the motor fixing and positioning assembly includes:

the positioning hole 9 is formed in the motor base 8, and the positioning hole 9 is used for positioning and fixing;

and the positioning clamping block 10 is slidably arranged in the positioning hole 9 and used for clamping, fixing and fastening the motor.

In this embodiment, the motor is placed on the motor base 8, and then the motor is clamped by the positioning clamping block 10, and the motor is fixed on the motor base 8 by the bolt through the matching of the positioning hole 9 on the motor base 8 and the positioning clamping block 10.

In the present embodiment, the motor can be fixed by using other mechanisms, such as a triangular chuck, in a manner that the positioning clamp 10 is matched with the positioning hole 9, and thus, a description thereof is omitted.

Referring to fig. 1 and fig. 2, in the present embodiment, the method further includes: the bearing plate is arranged in the inner concave frame 1 in a sliding mode, and a bearing plate buffering anti-seismic assembly 3 is arranged between the bearing plate 4 and the inner concave frame 1.

Referring to fig. 1 and fig. 2, in the present embodiment, the carrier plate buffering anti-seismic assembly 3 includes:

the first slide bar piece is arranged on one side of the bearing plate 4 and used for providing buffering support, and the first slide bar piece is specifically a second slide bar 305;

sliding connection spare, sliding connection spare slides and sets up on first slide bar spare, and one end rotates and installs in 4 one sides of loading board, sliding connection spare specifically is: a second sliding connection block 307, wherein the second sliding connection block 307 is slidably mounted on the second sliding rod 305, one end of the second sliding connection block is rotatably connected with a first rotating connection rod 308, and the other end of the first rotating connection rod 308 is rotatably mounted at the bottom of the bearing plate 4;

the first elastic piece is arranged on the outer side of the rod body of the first slide rod piece, one end of the first elastic piece is connected with the sliding connecting piece, one end of the first elastic piece is arranged at the end part of the rod body of the first slide rod piece and used for damping and buffering, the first elastic piece is specifically a second spring 306, and the second spring 306 is connected with one end of a second sliding connecting block 307.

The sliding connecting piece is used for connecting the bearing plate 4 and the first sliding rod piece, and the first elastic piece arranged on the first sliding rod piece is used for damping and buffering the bearing plate 4 and parts arranged on the upper part of the bearing plate 4.

In this embodiment, when the motor vibrates during operation, the supporting plate 4 moves up and down, so that the first rotating connecting rod 308 drives the second sliding connecting block 307 to slide on the second sliding rod 305, and meanwhile, the second spring 306 generates a certain resilience force to the second sliding connecting block 307, thereby reducing the vibration amplitude of the device and providing a certain buffering force.

Referring to fig. 1 and fig. 2, the method further includes:

the sliding groove 301 is fixedly arranged on the frame body at one side in the concave frame 1, and two ends of the bearing plate 4 are slidably arranged in the sliding groove 301 and used for guiding movement in the process of damping and buffering;

the second slide bar component is arranged inside the sliding groove 301, the bearing plate 4 is slidably mounted on the second slide bar component and used for sliding guiding during shock absorption, the second slide bar component is specifically a first slide bar 302, the first slide bar 302 is fixed in the sliding groove 301, a first sliding connection block 303 is slidably mounted on the first slide bar 302, and one end of a second slide bar 305 is fixed on one side of the first sliding connection block 303;

the second elastic element is arranged on the second slide bar element, one end of the second elastic element is fixed to the bottom of the sliding groove 301, the other end of the second elastic element is arranged at the joint of the first slide bar element and the second slide bar element and used for damping and buffering in the vertical direction, the second elastic element is specifically a first spring 304, and two ends of the first spring 304 are respectively and fixedly connected between the bottom of the sliding groove 301 and the first sliding connection block 303.

In this embodiment, the bottom of the concave frame 1 is fixedly installed with a shock absorbing pad 2, and when a shock occurs, the shock absorbing pad reduces the shock amplitude by using a first spring 304 and a second spring 306 respectively disposed on the first sliding rod 302 and the second sliding rod 305, and reduces the shock amplitude of the bearing plate 4 through a sliding connection block and a first rotating connection rod 308.

In the embodiment, the device is damped by the spring, the rotating connecting rod and the sliding connecting block, and other mechanisms such as the spring is directly fixed at the bottom of the device or a buffer block is arranged to damp and buffer the device; the elastic member includes, but is not limited to, an elastic belt or an elastic sleeve with elasticity, etc., which are not described herein too much.

The working principle of the invention is as follows: when the motor base is in operation, firstly, the motor is fixed by the positioning clamping block 10, the positioning clamping block 10 is fixed on the motor base 8 by the bolt, then an adjusting mode is selected according to needs, if only the motor base needs to be rotationally adjusted, the driving motor 601 is directly started, the driving motor 601 is used for driving the rotating shaft 602 to rotate, so that the belt pulley transmission is used for realizing the rotational adjustment of the motor base 8, if the height adjustment needs to be carried out, the push rod 714 is pushed, the push rod 714 pushes the second rotating connecting rod 713, and further the rotating connecting sleeve 702 and a part at the other end are driven to be meshed with the first bevel gear 701, so that the third bevel gear 705 drives the screw to rotate, and the height of the motor base 8 is adjusted by the screw; in the use process, the device utilizes the elastic part and the sliding connecting piece in the bearing plate buffering anti-seismic assembly 3 to perform damping buffering on the bearing plate 4 and the adjusting mechanism fixedly installed on the bearing plate 4, so that the vibration amplitude of the device in work is reduced, meanwhile, the height and the rotation adjustment of the base 8 of the driving motor of the base adjusting driving assembly are realized by utilizing the base, and when the height or the rotation adjustment is performed, the separation of the lifting adjusting connecting assembly 7 and the power output part is controlled by the power contact transmission control assembly, so that the height or the rotation adjustment can be performed step by step.

The above is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, it is possible to make several variations and modifications without departing from the concept of the present invention, and these should be considered as the protection scope of the present invention, which will not affect the effect of the implementation of the present invention and the utility of the patent.

Claims

1. An adjustable motor mount comprising: the bearing plate is characterized in that a frame is fixedly arranged on the bearing plate, and a motor base is arranged on the frame;

2. The adjustable motor mount of claim 1, wherein the mount adjustment drive assembly comprises:

the driving part is fixed on the bearing plate on one side of the frame and used for providing adjusting driving force for the motor base;

the rotating shaft is connected with the driving piece and is used for transmitting the driving force of the driving piece;

and the power output part is fixedly arranged on the rotating shaft and is used for respectively realizing the lifting of the motor base and the output conversion of the rotating force.

3. The adjustable motor mount of claim 2, wherein the mount adjustment swivel assembly comprises:

the driven assembly is arranged at the top of the frame and is connected with one side of the power output part;

one end of the sleeve component is fixedly connected with the driven component, and the other end of the sleeve component is fixedly connected with the motor base;

the driven assembly is arranged on one side of the frame and connected with the power output part, and the driven assembly works under the action that the driving part drives the power output part, so that the driven assembly drives the motor base to rotate, and meanwhile, the sleeve assembly supports the motor base.

4. The adjustable motor mount of claim 2, wherein the lift adjustment connection assembly comprises:

one end of the transmission connecting piece is arranged on one side of the interior of the frame and penetrates through the frame to be matched with one end of the power output piece;

one end of the steering transmission component is arranged at the other end of the transmission connecting piece and is used for changing the direction of the transmission force to drive the device to lift;

and one end of the adjusting component is arranged at the other end of the steering transmission component, and the other end of the adjusting component is rotatably connected with the motor base and used for driving the motor base to lift.

5. The adjustable motor mount of claim 4, wherein the power contact transmission control assembly comprises:

the circular ring connecting piece is arranged on one side of the transmission connecting piece and is used for driving the transmission connecting piece to move and connecting with one end of the power output piece or driving the transmission connecting piece to move away from the power output piece;

the groove frame is fixedly arranged on the circular ring connecting piece and the bearing plate at the corresponding position;

the connecting rod piece is rotatably arranged in the groove frame and is used for driving the circular ring connecting piece to move;

the elastic piece is arranged outside one end of the connecting rod piece and used for ensuring that the connecting rod piece and the circular connecting piece connected with the end part of the connecting rod piece drive the transmission connecting piece to reset, so that the transmission connecting piece is connected with the power output piece to be matched with the power output piece to transmit driving force.

6. The adjustable motor mount of claim 1 wherein the motor fixing and positioning assembly comprises:

the positioning hole is arranged on the motor base and used for positioning and fixing;

and the positioning clamping block is slidably arranged in the positioning hole and used for clamping, fixing and fastening the motor.

7. The adjustable motor mount of claim 1, further comprising: the bearing plate is arranged in the concave frame in a sliding mode, a bearing plate buffering anti-seismic assembly is arranged between the bearing plate and the concave frame, and the bearing plate buffering anti-seismic assembly is used for buffering and shock absorption protection for the bearing plate connected with the bearing plate and a mechanism arranged on the bearing plate.

8. The adjustable motor mount of claim 7, wherein the bearing plate cushioning anti-seismic assembly comprises:

the first sliding rod piece is arranged on one side of the bearing plate and used for providing buffering support;

the sliding connecting piece is arranged on the first sliding rod piece in a sliding mode, and one end of the sliding connecting piece is rotatably arranged on one side of the bearing plate;

the first elastic piece is arranged on the outer side of the rod body of the first slide rod piece, one end of the first elastic piece is connected with the slide connecting piece, and the other end of the first elastic piece is arranged at the end part of the rod body of the first slide rod piece and is used for damping and buffering;

the sliding connecting piece is used for connecting the bearing plate and the first sliding rod piece, and the first elastic piece arranged on the first sliding rod piece is used for damping and buffering the bearing plate and parts arranged on the upper part of the bearing plate.

9. The adjustable motor mount of claim 7, further comprising:

the sliding groove is fixedly arranged on the frame body on one side in the concave frame, and two ends of the bearing plate are slidably arranged in the sliding groove and used for conducting motion guiding in the damping and buffering work;

the sliding rod piece is arranged in the sliding groove, and the bearing plate is slidably mounted on the second sliding rod piece and used for sliding guide during shock absorption;

and the second elastic piece is arranged on the second slide bar piece, one end of the second elastic piece is fixed at the bottom of the sliding groove, and the other end of the second elastic piece is arranged at the joint of the first slide bar piece and the second slide bar piece and used for damping in the vertical direction.