CN113178976B

CN113178976B - Low-vibration high-efficiency energy-saving motor

Info

Publication number: CN113178976B
Application number: CN202110515586.5A
Authority: CN
Inventors: 吴华铮; 郭图
Original assignee: Jiangsu Huancheng Jiuyuan Energy Saving Technology Co ltd
Current assignee: Jiangsu Huancheng Jiuyuan Energy Saving Technology Co ltd
Priority date: 2021-05-12
Filing date: 2021-05-12
Publication date: 2023-01-17
Anticipated expiration: 2041-05-12
Also published as: CN113178976A

Abstract

The invention discloses a low-vibration high-efficiency energy-saving motor, which belongs to the technical field of energy-saving motors and comprises a motor body and a U-shaped plate, wherein a mounting mechanism is arranged in the U-shaped plate, the motor body is arranged in the mounting mechanism, a clamping mechanism is arranged in the U-shaped plate, a shock absorption mechanism is arranged in the clamping mechanism, the other part of the shock absorption mechanism is positioned outside the U-shaped plate, and a heat dissipation mechanism is fixedly arranged on the upper surface of the U-shaped plate. According to the motor body fixing device, the installation mechanism is arranged, the motor body is placed in the fixing shell, then the baffle is pulled to move downwards, one end of the fixing rope is pulled to move downwards by the baffle, the fixing shell is pulled to move upwards by the other end of the fixing rope, meanwhile, the fixing shell drives the motor body to move upwards, the quick fixing effect on the motor body is achieved by the aid of the pressing plate, the baffle is placed on the lower side of the stop block, the stop block buckles the baffle to prevent the baffle from loosening, and the fixing effect of the motor body is prevented from being influenced.

Description

Low-vibration high-efficiency energy-saving motor

Technical Field

The invention belongs to the technical field of energy-saving motors, and particularly relates to a low-vibration high-efficiency energy-saving motor.

Background

The high-efficiency energy-saving motor is a motor with high efficiency of a general standard type motor, and the efficiency value can reach the second level of the GB18613-2012 standard. The high-efficiency energy-saving motor adopts novel motor design, novel process and novel material, and improves the output efficiency by reducing the loss of electromagnetic energy, heat energy and mechanical energy. Compared with a standard motor, the energy-saving effect of the high-efficiency motor is very obvious, and the efficiency can be improved by 4 percent on average under the common condition.

It is very troublesome when current energy-efficient motor installation, need use a large amount of bolts to install it, if the motor need frequently dismantle change service position or need overhaul when, dismantle and the installation can all waste workman plenty of time, bring very big inconvenience for workman's work, and be provided with the water tank among the prior art on the motor generally, and utilize hydrologic cycle to reach the cooling function, but the water tank size is limited and lead to cooling effect poor, and the water tank has increased holistic occupation space and probably receives environmental restriction and have certain inconvenience in the use, and current motor can produce the vibrations of certain intensity in the use, the mounting structure that utilizes to tighten can restrain vibrations, but vibrations can't effectively transmit and eliminate, also can produce certain not good influence to motor inside like this.

Disclosure of Invention

The invention aims to: in order to solve the problems that the existing efficient energy-saving motor is very troublesome to install, a large number of bolts are needed to be used for installing the motor, if the motor needs to be frequently disassembled and replaced in use positions or needs to be overhauled, a large amount of time of workers can be wasted in disassembling and installing, great inconvenience is brought to the work of the workers, a water tank is generally arranged on the motor in the prior art, and a cooling function is achieved by utilizing water circulation, but the cooling effect is poor due to the fact that the size of the water tank is limited, the water tank increases the whole occupied space, and certain inconvenience can be caused due to the fact that the occupied space is limited by the environment in the use process, the existing motor can generate vibration with certain strength in the use process, the vibration can be restrained by utilizing a compact installing structure, but the vibration cannot be effectively transmitted and eliminated, and certain bad influence can be generated inside the motor, and the low-vibration efficient energy-saving motor is provided.

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

the utility model provides a low vibration energy-efficient motor, includes motor body and U-shaped board, be provided with installation mechanism in the U-shaped board, be provided with motor body in the installation mechanism, the inside fixture that is provided with of U-shaped board is provided with shock absorption mechanism in the fixture, and another part of shock absorption mechanism is located the outside of U-shaped board, the last fixed surface of U-shaped board installs heat dissipation mechanism.

As a further description of the above technical solution:

the installation mechanism is including seting up in the T-slot that U-shaped plate inner wall upper surface was seted up, and the T-slot is provided with the T-shaped piece, and the lower fixed surface of T-shaped piece is connected with first backup pad, and first backup pad cover is established in the spacing cover of set casing upper surface joint, and the lower fixed surface of first backup pad is connected with the clamp plate, and the through-hole has all been seted up to the left and right sides face of set casing.

As a further description of the above technical solution:

the fixed rope that the equal two front and back symmetries of fixedly connected with in the left and right sides of set casing upper surface set up, the running roller outside of the fixed surface mounting under the T-shaped piece is walked around to fixed rope, and the other end fixed connection of fixed rope is at the upper surface of baffle, and the upper surface laminating of baffle has the dog that two front and back symmetries set up, dog fixed connection is at a side of first backup pad.

As a further description of the above technical solution:

the clamping mechanism comprises a second cavity arranged on the back face of the inside of the U-shaped plate, a connecting plate is arranged in the second cavity, a first push plate fixedly connected with a first slide bar is arranged on the front face of the connecting plate, the first slide bar is sleeved in a first slide sleeve clamped on the back face of the U-shaped plate, a second slide bar is fixedly connected to the left side and the right side of the front face of the connecting plate, the second slide bar is sleeved in a second slide sleeve clamped on the front side of the inner wall of the second cavity, the second slide bar penetrates into a first cavity arranged inside the U-shaped plate, the number of the first cavities is two, and the two first cavities are symmetrically arranged on the left side and the right side of the inside of the U-shaped plate.

As a further description of the above technical solution:

a side of second slide bar is in the past backward a plurality of three hornblocks of even fixedly connected with, and the laminating has trapezoidal piece on the inclined plane of three hornblocks, and trapezoidal piece fixed connection is in a side of second push pedal, the equal fixedly connected with second slider of both sides face around the second push pedal, second slider sliding connection are in the second spout that first cavity inner wall was seted up, the equal fixedly connected with first grip block of opposite face of two second push pedals.

As a further description of the above technical solution:

first grip block is located the receiving hole that U-shaped plate inner wall side was seted up, and the side that the second push pedal was kept away from to first grip block is seted up flutedly, and fixedly connected with magic subsides in the recess, and fixed connection is pasted to the magic on a side of second grip block, and the second grip block is located the recess, and a plurality of foam-rubber cushions of even fixedly connected with backward from the front are followed to another side of second splint.

As a further description of the above technical solution:

the heat dissipation mechanism includes the water tank of fixed connection at U-shaped board upper surface, is provided with the water pump in the water tank, and the delivery port intercommunication of water pump has the delivery pipe, the one end intercommunication of the other end ring pipe of delivery pipe, and the ring pipe winding is inside the set casing, the other end of ring pipe and the one end intercommunication of a water pipe, the other end of water pipe and the one end intercommunication of one of them cooling tube, the quantity of cooling tube is a plurality of, and the cooling tube joint is inside the locating piece, the equal fixedly connected with draw runner of the upper and lower both sides face of locating piece, and draw runner sliding connection is in the strip inslot that rectangle frame inner wall was seted up, the equal fixedly connected with silica gel pad of the upper and lower both sides face of locating piece, and the silica gel pad laminating is on the inner wall of rectangle frame, and a plurality of cooling tubes are from the past backward align to set up and are linked together through the bellows between per two cooling tubes, and the one end of another cooling tube communicates with a side of water tank through another water pipe, and two water pipes set up respectively in two containing boxes, and two containing box bilateral symmetry fixed connection are at the upper surface of U-shaped board.

As a further description of the above technical solution:

the second supporting plate is placed on the upper surface of the U-shaped plate, the through hole is formed in the front face of the second supporting plate, a rectangular frame is arranged in the through hole, the U-shaped frame is sleeved on the left side and the right side of the outer side of the second supporting plate, first sliding blocks are fixedly connected to the front side and the rear side of the lower surface of the U-shaped frame, the first sliding blocks are connected to first sliding grooves formed in the upper surface of the U-shaped plate in a sliding mode, and one side face of each first sliding block is fixedly connected with one side face of the inner wall of each first sliding groove through a second spring.

As a further description of the above technical solution:

the right side of the inner portion of the second supporting plate is provided with an accommodating cavity, a positioning plate is arranged in the accommodating cavity, a stirring hole is formed in the back face of the positioning plate, a stirring block is arranged in the stirring hole, the stirring block is fixedly connected to the back face of the positioning plate, one side face of the positioning plate is fixedly connected with one side face of the inner wall of the accommodating cavity through a first spring, the accommodating cavity is communicated with the through hole, a bolt is arranged on the second supporting plate, and the other end of the bolt abuts against the upper surface of the rectangular frame.

As a further description of the above technical solution:

the utility model discloses a shock absorption mechanism, including shock absorption mechanism, shock absorption mechanism includes a plurality of stop collars of joint in a side of first grip block, is provided with the silica gel strip in the stop collar, and the one end fixedly connected with cushion of silica gel strip, the cushion laminating is at motor body's surface, and the other end of silica gel strip runs through the surface of U-shaped board and extends to in the shock absorption shell, is provided with a large amount of sand bags in the shock absorption shell, and the other end of silica gel strip is located a large amount of sand bags, and shock absorption shell fixed connection is on the outer wall of U-shaped board.

In summary, due to the adoption of the technical scheme, the invention has the beneficial effects that:

1. according to the invention, the mounting mechanism is arranged, the motor body is placed in the fixed shell, then the baffle is pulled to move downwards, one end of the fixed rope is pulled to move downwards by the baffle, the fixed shell is pulled to move upwards by the other end of the fixed rope, meanwhile, the fixed shell drives the motor body to move upwards, and the quick fixing effect on the motor body is achieved by the cooperation of the pressing plate, wherein the baffle is placed at the lower side of the stop block, the stop block buckles the baffle to avoid the baffle from loosening, so that the fixing effect of the motor body is prevented from being influenced, and the T-shaped block and the T-shaped groove are arranged to control the fixed shell to move back and forth stably along a track under the action of the T-shaped block and the T-shaped groove.

2. According to the invention, by arranging the clamping mechanism, when the fixing shell moves backwards, an extrusion effect can be formed on the first push plate, the first push plate drives the connecting plate to move backwards through the first slide bar, the connecting plate drives the two second slide bars to move backwards simultaneously, the second slide bars drive the triangular blocks to move backwards, meanwhile, the triangular blocks can form an extrusion effect on the trapezoidal blocks, the trapezoidal blocks can drive the first clamping plate to move through the second push plate, the first clamping plate can drive the second clamping plate to move, the second clamping plate passes through the through hole and is clamped on the outer side of the motor body, the fixing effect on the motor body is achieved, meanwhile, the motor body is gradually clamped by the second clamping plate in the moving process, the foam-rubber cushion can gradually receive the extrusion effect between the motor body and the second clamping plate, the foam-rubber cushion gradually shrinks and expands the laminating area, the friction coefficient of the foam-rubber cushion is larger, therefore, the fixing effect is better after the motor body is clamped by the second clamping plate, the foam-rubber cushion can be removed by the second sliding block and the second sliding groove, the second foam-rubber cushion can be removed stably along the track, the second push plate can not be removed, and can be conveniently removed, and the second foam-rubber cushion can be removed.

3. According to the invention, the heat dissipation mechanism is arranged, the second support plate is taken down, the second support plate is carried and drives the plurality of heat dissipation pipes to move, the heat dissipation pipes are moved into a water source at a remote position, the water pump is controlled to work to pump out water in the water tank and convey the water into the annular pipe through the water supply pipe, the annular pipe is made of metal, when condensed water is introduced into the annular pipe, heat generated during the work of the motor body can be absorbed, the heat dissipation effect on the motor body is achieved, the condensed water after heat absorption is conveyed into the heat dissipation pipes through the two water pipes, the condensed water is conveyed into the water tank again after the heat dissipation pipes are subjected to heat exchange by the water in the water source for recycling, the length of the water pipes is longer, when the motor is used in a special environment, the heat dissipation pipes are taken out to move the heat dissipation pipes into the water source at any position, the heat dissipation effect cannot be influenced, and meanwhile, the water tank does not need to be arranged on the motor body, so that the motor body is smaller in size and can be suitable for different environments.

4. According to the invention, through the arrangement of the corrugated pipe, the distance between the radiating pipes can be adjusted along with the environment under the action of the corrugated pipe, the distance is adjusted to enable the positions of the radiating pipes to be far away, so that a better heat exchange effect is achieved, through the arrangement of the slide strip, the strip groove and the silica gel pad, the slide strip can move back and forth in the strip groove, so that the positions of the radiating pipes can be adjusted at will, the positioning block cannot be separated from the rectangular frame, meanwhile, the silica gel pad can increase the friction coefficient between the positioning block and the inner wall of the rectangular frame, the positioning block can be effectively fixed when being moved to any position, through the arrangement of the bolt, a better fixing effect on the rectangular frame is achieved through the bolt, through the arrangement of the U-shaped frame, the first sliding block and the second spring, the second spring can push the first sliding block to move through elastic extension of the second spring, the first sliding block drives the U-shaped frame to be sleeved on the second supporting plate to move, and the U-shaped frame can be limited on the second supporting plate, and the second supporting plate is prevented from being free from moving without using.

5. According to the sand bag vibration damping device, the shock absorption mechanism is arranged, the shock generated when the motor body works can be transmitted to the cushion, the cushion transmits a shock effect to the sand bag through the silica gel strips, the sand bag is influenced by the shock effect of the silica gel strips and is buffered and damped, the shock generated when the motor body works is effectively eliminated, the shock is eliminated, the internal environment of the motor body cannot be influenced when the motor body works, and the service life of the motor body is prolonged.

Drawings

Fig. 1 is a schematic perspective view of a low-vibration energy-efficient motor according to the present invention;

FIG. 2 is a schematic three-dimensional internal exploded structural diagram of a second supporting plate in the low-vibration energy-efficient motor according to the present invention;

FIG. 3 is a schematic perspective view of a second slide bar and a first slide bar in the low-vibration, high-efficiency and energy-saving motor according to the present invention;

FIG. 4 is a schematic perspective view of a mounting mechanism in a low-vibration energy-efficient motor according to the present invention;

FIG. 5 is a schematic perspective view of a vibration-damping mechanism in a low-vibration energy-efficient motor according to the present invention;

FIG. 6 is a schematic structural diagram of a top view of a clamping mechanism in a low-vibration energy-efficient motor according to the present invention;

FIG. 7 is an enlarged schematic structural diagram of A in a low-vibration energy-efficient motor according to the present invention;

FIG. 8 is a schematic perspective view of a positioning block and a slide bar in a low-vibration, high-efficiency and energy-saving motor according to the present invention;

fig. 9 is an enlarged schematic structural diagram of B in the low-vibration energy-efficient motor according to the present invention.

Illustration of the drawings:

1. a motor body; 2. a U-shaped plate; 3. an installation mechanism; 31. a T-shaped block; 32. a stopper; 33. a baffle plate; 34. a first support plate; 35. fixing a rope; 36. pressing a plate; 37. a stationary case; 38. a through hole; 4. a clamping mechanism; 41. a first push plate; 42. a first slide bar; 43. a connecting plate; 44. a second slide bar; 45. a triangular block; 46. a second push plate; 47. a first cavity; 48. a first clamping plate; 49. magic tape; 410. a second clamping plate; 411. a sponge cushion; 412. a second slider; 5. a heat dissipation mechanism; 51. a water tank; 52. a storage box; 53. a water pipe; 54. a radiating pipe; 55. a bellows; 56. a rectangular frame; 57. a second support plate; 58. a bolt; 59. a through hole; 510. a shifting block; 511. positioning a plate; 512. a first spring; 513. positioning blocks; 514. a silica gel pad; 515. a slide bar; 516. a U-shaped frame; 517. a first slider; 518. a second spring; 6. a shock absorbing mechanism; 61. a soft cushion; 62. a position limiting sleeve; 63. a silica gel strip; 64. and a shock absorption shell.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-9, the present invention provides a technical solution: the utility model provides a low energy-efficient motor of vibration, includes motor body 1 and U-shaped board 2, be provided with installation mechanism 3 in the U-shaped board 2, be provided with motor body 1 in the

installation mechanism

3, 2 inside fixture 4 that are provided with of U-shaped board, be provided with shock absorption mechanism 6 in the fixture 4, another part of shock absorption mechanism 6 is located the outside of U-shaped board 2, the last fixed surface of U-shaped board 2 installs heat dissipation mechanism 5.

Specifically, the mounting mechanism 3 includes a T-shaped groove formed in the upper surface of the inner wall of the U-shaped plate 2, the T-shaped block 31 is disposed in the T-shaped groove, the first support plate 34 is fixedly connected to the lower surface of the T-shaped block 31, the first support plate 34 is sleeved in a stop collar 62 clamped to the upper surface of the fixed housing 37, the press plate 36 is fixedly connected to the lower surface of the first support plate 34, through holes 38 are formed in the left side and the right side of the fixed housing 37, the left side and the right side of the upper surface of the fixed housing 37 are fixedly connected with two fixing ropes 35 symmetrically arranged in a front-back manner, the fixing ropes 35 walk around the outer side of a roller fixedly mounted on the lower surface of the T-shaped block 31, the other end of the fixing rope 35 is fixedly connected to the upper surface of the baffle 33, the two stoppers 32 symmetrically arranged in a front-back manner are attached to the upper surface of the baffle 33, the stoppers 32 are fixedly connected to one side of the first support plate 34, the mounting mechanism 3 is disposed in which the motor body 1 is disposed in the fixed housing 37, then the baffle 33 is moved downward, the baffle 33 is pulled, the other end of the fixing rope 35 pulls the fixed housing 37 to move upward, the motor body 37 to drive the motor body to move upward, the press plate 36 to prevent the baffle 33 from being loosened and prevent the effect of the baffle 33, thereby preventing the baffle 33 from affecting the effect of the baffle 31 and preventing the baffle 33 from affecting the effect of the baffle 33.

Specifically, the clamping mechanism 4 comprises a second cavity arranged on the back surface inside the U-shaped plate 2, a connecting plate 43 is arranged in the second cavity, the front surface of the connecting plate 43 is fixedly connected with a first push plate 41 through a first slide rod 42, the first slide rod 42 is sleeved in a first slide sleeve clamped on the back surface of the U-shaped plate 2, the left side and the right side of the front surface of the connecting plate 43 are fixedly connected with second slide rods 44, the second slide rods 44 are sleeved in second slide sleeves clamped on the front surface of the inner wall of the second cavity, the second slide rods 44 penetrate into first cavities 47 arranged inside the U-shaped plate 2, the number of the first cavities 47 is two, the two first cavities 47 are symmetrically arranged on the left side and the right side inside the U-shaped plate 2, one side surface of the second slide rod 44 is uniformly and fixedly connected with a plurality of triangular blocks 45 from front to back, a trapezoidal block is attached to the inclined surface of the triangular block 45, and is fixedly connected to one side surface of the second push plate 46, the front side and the back side of the second push plate 46 are both fixedly connected with a second slider 412, the second slider 412 is slidably connected in a second sliding groove formed in the inner wall of the first cavity 47, the opposite surfaces of the two second push plates 46 are both fixedly connected with a first clamping plate 48, the first clamping plate 48 is positioned in a receiving hole formed in one side of the inner wall of the U-shaped plate 2, one side of the first clamping plate 48 away from the second push plate 46 is provided with a groove, a magic tape 49 is fixedly connected in the groove, the magic tape 49 is fixedly connected on one side of the second clamping plate 410, the second clamping plate 410 is positioned in the groove, the other side of the second clamping plate is uniformly and fixedly connected with a plurality of sponge pads 411 from front to back, through the clamping mechanism 4, when the fixing shell 37 moves backwards, an extrusion effect can be formed on the first push plate 41, the first push plate 41 drives the connecting plate 43 to move backwards through the first slide rod 42, the connecting plate 43 drives the two second sliding rods 44 to move backwards simultaneously, the second sliding rods 44 drive the triangular blocks 45 to move backwards, meanwhile, the triangular blocks 45 can form an extrusion effect on the trapezoidal blocks, the trapezoidal blocks can drive the first clamping plate to move through the second pushing plate 46, the first clamping plate 48 can drive the second clamping plate 410 to move, the second clamping plate 410 penetrates through the through holes 38 and is clamped outside the motor body 1, the fixing effect on the motor body 1 is achieved, meanwhile, the motor body 1 is gradually clamped by the second clamping plate 410 in the moving process, the sponge pad 411 can gradually receive the extrusion effect between the motor body 1 and the second clamping plate 410 and gradually contracts to enlarge the attaching area, the friction coefficient of the sponge pad 411 is large, therefore, the motor body 1 is better in fixing effect after being clamped by the second clamping plate 410, the second sliding block 412 and the second sliding groove are arranged, the second pushing plate 46 can stably move left and right along the track, the fixing effect of the motor body 1 is prevented from being influenced, the magic sticker 49 is arranged, when the sponge pad 411 is worn after being detached and installed again, the second sliding plate 46 can not be conveniently removed, and the magic sticker 49 can be removed, and the second pushing plate 46 can be conveniently removed.

Specifically, the heat dissipation mechanism 5 includes a water tank 51 fixedly connected to the upper surface of the U-shaped plate 2, a water pump is disposed in the water tank 51, a water outlet of the water pump is communicated with a water supply pipe, one end of a ring pipe at the other end of the water supply pipe is communicated, the ring pipe is wound inside the fixing shell 37, the other end of the ring pipe is communicated with one end of a water pipe 53, the other end of the water pipe 53 is communicated with one end of one of the heat dissipation pipes 54, the heat dissipation pipes 54 are connected in a plurality, the heat dissipation pipes 54 are clamped inside the positioning block 513, the upper side and the lower side of the positioning block 513 are fixedly connected with a slide bar 515, the slide bar 515 is slidably connected in a strip groove formed in the inner wall of the rectangular frame 56, the upper side and the lower side of the positioning block 513 are fixedly connected with a silicone pad 514, the silicone pad 514 is attached to the inner wall of the rectangular frame 56, the plurality of heat dissipation pipes 54 are uniformly arranged from front to back and are communicated with each other through a corrugated pipe 55, one end of another radiating pipe 54 is communicated with one side surface of the water tank 51 through another water pipe 53, the two water pipes 53 are respectively arranged in the two storage boxes 52, the two storage boxes 52 are bilaterally and symmetrically fixedly connected to the upper surface of the U-shaped plate 2, a second supporting plate 57 is placed on the upper surface of the U-shaped plate 2, a through hole 59 is formed in the front surface of the second supporting plate 57, a rectangular frame 56 is arranged in the through hole 59, a U-shaped frame 516 is sleeved on the left side and the right side of the outer side of the second supporting plate 57, first sliding blocks 517 are fixedly connected to the front side and the rear side of the lower surface of the U-shaped frame 516, the first sliding blocks 517 are slidably connected in first sliding grooves formed in the upper surface of the U-shaped plate 2, one side surface of the first sliding blocks 517 is fixedly connected with one side surface of the inner wall of the first sliding grooves through a second spring 518, a containing cavity is formed in the right side of the second supporting plate 57, and a positioning plate 511 is arranged in the containing cavity, the back of the positioning plate 511 is provided with a toggle hole, a toggle block 510 is arranged in the toggle hole, the toggle block 510 is fixedly connected to the back of the positioning plate 511, one side of the positioning plate 511 is fixedly connected with one side of the inner wall of the containing cavity through a first spring 512, the containing cavity is communicated with a through hole 59, a bolt 58 is arranged on the second supporting plate 57, the other end of the bolt 58 is abutted against the upper surface of the rectangular frame 56, through the arrangement of the heat dissipation mechanism 5, the second supporting plate 57 is taken down, the second supporting plate 57 is carried to drive the plurality of heat dissipation pipes 54 to move, the heat dissipation pipes 54 are moved to a water source at a remote position, the water pump is controlled to work to pump out water in the water tank 51 and convey the water into the annular pipe through a water supply pipe, the annular pipe is arranged to be made of metal, when condensed water is introduced into the annular pipe, heat generated during the work of the motor body 1 can be absorbed, the heat dissipation effect of the motor body 1 is achieved, and the condensed water after being absorbed is conveyed into the heat dissipation pipes 54 through the two water pipes 53, after the heat dissipation pipes 54 are subjected to heat exchange by water in a water source, the heat dissipation pipes 54 are conveyed into the water tank 51 again for recycling, the water pipes 53 are long, the water pipes 53 are taken out to move the heat dissipation pipes 54 to the water source at any position when the motor is used in a special environment, the heat dissipation effect is not influenced, meanwhile, the motor body 1 is smaller in size and can be suitable for different environments without installing the water tank 51 on the motor body 1, the space among the heat dissipation pipes 54 can be adjusted along with the environment under the action of the corrugated pipe 55 by arranging the corrugated pipe 55, the positions of the heat dissipation pipes 54 are far away by adjusting the space, so that a better heat exchange effect is achieved, the slide bar 515 can move back and forth in the bar groove by arranging the slide bar 515, the bar groove and the silica gel pad 514, so that the positions of the heat dissipation pipes 54 can be adjusted at will and the positioning block 513 cannot be separated from the rectangular frame 56, meanwhile, the silicone pad 514 can increase the friction coefficient between the positioning block 513 and the inner wall of the rectangular frame 56, so that the positioning block 513 can be effectively fixed when moving to any position, the through hole 59 is formed, the position of the rectangular frame 56 can be adjusted according to the use condition, and the rectangular frame 56 is prevented from being overlong to influence the placement of the radiating pipe 54 in a water source, wherein the first spring 512 can push the positioning plate 511 to move through self elastic extension, so that the positioning plate 511 can clamp the rectangular frame 56 to enable the rectangular frame 56 to be fixed when moving to any position, the shifting block 510 is controlled to move in the shifting hole to adjust the position of the positioning plate 511, so that the position of the rectangular frame 56 can be adjusted, the bolt 58 is arranged to achieve a better fixing effect on the rectangular frame 56, the U-shaped frame 516, the first sliding block 517 and the second spring 518 are arranged, the second spring 518 can push the first sliding block 517 to move through self elastic extension, the first sliding block 517 drives the U-shaped frame 516 to drive the U-shaped frame 516 to be sleeved on the second supporting plate 57 to move, and the U-shaped frame 516 can be limited on the second supporting plate 57 to prevent the second supporting plate 57 from being free from moving.

It is specific, shock attenuation mechanism 6 includes a plurality of stop collars 62 of joint in a side of first grip block 48, be provided with silica gel strip 63 in the stop collar 62, the one end fixedly connected with cushion 61 of silica gel strip 63, the laminating of cushion 61 is at the surface of motor body 1, the other end of silica gel strip 63 runs through the surface of U-shaped plate 2 and extends to in shock attenuation shell 64, be provided with a large amount of sand bags in shock attenuation shell 64, the other end of silica gel strip 63 is located a large amount of sand bags, shock attenuation shell 64 fixed connection is on the outer wall of U-shaped plate 2, through setting up shock attenuation mechanism 6, wherein the vibrations that motor body 1 during operation produced can be transmitted for cushion 61, cushion 61 transmits the vibrations effect to the sand bag through silica gel strip 63, the sand bag receives the influence of silica gel strip 63 vibrations effect and cushions the shock attenuation, effectively eliminate the vibrations that motor body 1 during operation produced, eliminate vibrations and let motor body 1 during operation internal environment can not receive the influence, motor body 1's life has been prolonged.

The working principle is as follows: when the motor body 1 is installed, the motor body 1 is placed in the fixed shell 37, then the baffle 33 is pulled to move downwards, one end of the fixed rope 35 is pulled by the baffle 33 to move downwards, the other end of the fixed rope 35 pulls the fixed shell 37 to move upwards, meanwhile, the fixed shell 37 drives the motor body 1 to move upwards, the pressing plate 36 is matched to achieve the effect of quickly fixing the motor body 1, the motor body 1 is pushed to move backwards, the fixed shell 37 can extrude the first push plate 41 when moving backwards, the first push plate 41 drives the connecting plate 43 to move backwards through the first slide bar 42, the connecting plate 43 drives the two second slide bars 44 to move backwards simultaneously, the second slide bars 44 drive the triangular block 45 to move backwards, meanwhile, the triangular block 45 can extrude the trapezoidal block, the trapezoidal block can drive the first clamping plate to move through the second pushing plate 46, the first clamping plate 48 can drive the second clamping plate 410 to move, the second clamping plate 410 penetrates through the through hole 38 and is clamped on the outer side of the motor body 1, the fixing effect on the motor body 1 is achieved, the motor body 1 can transmit the vibration generated during working to the soft cushion 61, the soft cushion 61 transmits the vibration effect to the sand bag through the silica gel strips 63, the sand bag receives the influence of silica gel strip 63 vibrations effect and cushions the shock attenuation, effectively eliminate the vibrations that motor body 1 during operation produced, take off second backup pad 57, carry second backup pad 57 and drive a plurality of cooling tubes 54 and remove, remove cooling tube 54 to the water source of distant position in, control water pump work takes out the water in water tank 51 and carries to the ring pipe through the delivery pipe in, it is the metal material to set up the ring pipe, can absorb the heat that motor body 1 during operation produced when letting in the comdenstion water in the ring pipe, reach the radiating effect to motor body 1.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims

1. A low-vibration high-efficiency energy-saving motor comprises a motor body (1) and a U-shaped plate (2), and is characterized in that an installation mechanism (3) is arranged in the U-shaped plate (2), the motor body (1) is arranged in the installation mechanism (3), a clamping mechanism (4) is arranged in the U-shaped plate (2), a shock absorption mechanism (6) is arranged in the clamping mechanism (4), the other part of the shock absorption mechanism (6) is positioned on the outer side of the U-shaped plate (2), and a heat dissipation mechanism (5) is fixedly arranged on the upper surface of the U-shaped plate (2);

the clamping mechanism (4) comprises a second cavity arranged on the back surface inside the U-shaped plate (2), a connecting plate (43) is arranged in the second cavity, the front surface of the connecting plate (43) is fixedly connected with a first push plate (41) through a first sliding rod (42), the first sliding rod (42) is sleeved in a first sliding sleeve clamped on the back surface of the U-shaped plate (2), the left side and the right side of the front surface of the connecting plate (43) are fixedly connected with second sliding rods (44), the second sliding rods (44) are sleeved in a second sliding sleeve clamped on the front surface of the inner wall of the second cavity, the second sliding rods (44) penetrate through the first cavity (47) arranged inside the U-shaped plate (2), the number of the first cavities (47) is two, and the two first cavities (47) are symmetrically arranged on the left side and the right side inside the U-shaped plate (2); a plurality of triangular blocks (45) are uniformly and fixedly connected to one side face of the second sliding rod (44) from front to back, trapezoidal blocks are attached to the inclined faces of the triangular blocks (45), the trapezoidal blocks are fixedly connected to one side face of the second push plate (46), second sliding blocks (412) are fixedly connected to the front side face and the back side face of the second push plate (46), the second sliding blocks (412) are slidably connected into second sliding grooves formed in the inner wall of the first cavity (47), and first clamping plates (48) are fixedly connected to the opposite faces of the two second push plates (46); first grip block (48) are located the accepting hole that U-shaped plate (2) inner wall side was seted up, and a side that second push pedal (46) were kept away from in first grip block (48) is seted up flutedly, and fixedly connected with magic subsides (49) in the recess, magic subsides (49) fixed connection are on a side of second grip block (410), and second grip block (410) are located the recess, and another side of second splint is from preceding a plurality of foam-rubber cushions (411) of even fixedly connected with backward.

2. The low-vibration high-efficiency energy-saving motor according to claim 1, wherein the mounting mechanism (3) comprises a T-shaped groove formed in the upper surface of the inner wall of the U-shaped plate (2), a T-shaped block (31) is arranged in the T-shaped groove, a first supporting plate (34) is fixedly connected to the lower surface of the T-shaped block (31), the first supporting plate (34) is sleeved in a limiting sleeve (62) clamped on the upper surface of the fixed shell (37), a pressing plate (36) is fixedly connected to the lower surface of the first supporting plate (34), and through holes (38) are formed in the left side surface and the right side surface of the fixed shell (37).

3. The low-vibration high-efficiency energy-saving motor according to claim 2, wherein two fixing ropes (35) are fixedly connected to the left side and the right side of the upper surface of the fixing shell (37) and are symmetrically arranged front and back, the fixing ropes (35) are wound around the outer side of the roller fixedly installed on the lower surface of the T-shaped block (31), the other end of the fixing ropes (35) is fixedly connected to the upper surface of the baffle (33), two check blocks (32) are symmetrically arranged front and back and are attached to the upper surface of the baffle (33), and the check blocks (32) are fixedly connected to one side surface of the first supporting plate (34).

4. The motor of claim 1, wherein the heat dissipating mechanism (5) comprises a water tank (51) fixedly connected to the upper surface of the U-shaped plate (2), a water pump is disposed in the water tank (51), a water outlet of the water pump is connected to a water supply pipe, the other end of the water supply pipe is connected to one end of a ring pipe, the ring pipe is wound inside the stationary case (37), the other end of the ring pipe is connected to one end of a water pipe (53), the other end of the water pipe (53) is connected to one end of one of the heat dissipating pipes (54), the quantity of cooling tube (54) is a plurality of, cooling tube (54) joint is inside locating piece (513), the equal fixedly connected with draw runner (515) of the upper and lower both sides face of locating piece (513), draw runner (515) sliding connection is in the strip inslot that rectangle frame (56) inner wall was seted up, the equal fixedly connected with silica gel pad (514) of the upper and lower both sides face of locating piece (513), silica gel pad (514) laminating is on the inner wall of rectangle frame (56), a plurality of cooling tubes (54) from the past backward align to grid set up between per two cooling tubes (54) through bellows (55) intercommunication each other, the one end of another cooling tube (54) is passed through a side intercommunication of another water pipe (53) and water tank (51), two water pipe (53) set up respectively in two receiver (52), two receiver (52) bilateral symmetry fixed connection are at the upper surface of U-shaped plate (2).

5. The low-vibration high-efficiency energy-saving motor according to claim 4, wherein a second supporting plate (57) is placed on the upper surface of the U-shaped plate (2), a through hole (59) is formed in the front surface of the second supporting plate (57), a rectangular frame (56) is arranged in the through hole (59), U-shaped frames (516) are sleeved on the left and right sides of the outer side of the second supporting plate (57), first sliding blocks (517) are fixedly connected to the front and rear sides of the lower surface of each U-shaped frame (516), each first sliding block (517) is slidably connected to a first sliding groove formed in the upper surface of the U-shaped plate (2), and one side surface of each first sliding block (517) is fixedly connected to one side surface of the inner wall of each first sliding groove through a second spring (518).

6. The low-vibration high-efficiency energy-saving motor as claimed in claim 5, wherein a cavity is formed in the right side of the inside of the second supporting plate (57), a positioning plate (511) is arranged in the cavity, a toggle hole is formed in the back surface of the positioning plate (511), a toggle block (510) is arranged in the toggle hole, the toggle block (510) is fixedly connected to the back surface of the positioning plate (511), one side surface of the positioning plate (511) is fixedly connected with one side surface of the inner wall of the cavity through a first spring (512), the cavity is communicated with the through hole (59), a bolt (58) is arranged on the second supporting plate (57), and the other end of the bolt (58) abuts against the upper surface of the rectangular frame (56).

7. The low-vibration energy-efficient motor according to claim 1, wherein the vibration-damping mechanism (6) comprises a plurality of limiting sleeves (62) which are connected to one side surface of the first clamping plate (48) in a clamping manner, a silica gel strip (63) is arranged in each limiting sleeve (62), one end of each silica gel strip (63) is fixedly connected with a cushion (61), each cushion (61) is attached to the outer surface of the motor body (1), the other end of each silica gel strip (63) penetrates through the outer surface of the U-shaped plate (2) and extends into the vibration-damping shell (64), a large number of sand bags are arranged in each vibration-damping shell (64), the other ends of the silica gel strips (63) are located in the large number of sand bags, and the vibration-damping shell (64) is fixedly connected to the outer wall of the U-shaped plate (2).