CN114679013A

CN114679013A - Novel servo motor

Info

Publication number: CN114679013A
Application number: CN202210427983.1A
Authority: CN
Inventors: 高吟; 戚潘玙
Original assignee: Suzhou Golden Key Automation Equipment Co ltd
Current assignee: Suzhou Golden Key Automation Equipment Co ltd
Priority date: 2022-04-22
Filing date: 2022-04-22
Publication date: 2022-06-28

Abstract

The utility model discloses a novel servo motor which comprises a placing plate, a shell, a rotating rod, an air tightness detector, a compressor and a temperature controller, wherein a supporting seat is installed at the top of the placing plate through a bolt, the shell is installed at the top of the supporting seat, a sealing cover is installed at the front end of the shell, a fixing sleeve ring is installed on the inner side of the sealing cover in a penetrating mode, a limiting ring is sleeved on the inner side of the fixing sleeve ring, the rotating rod is installed on the inner side of the limiting ring in a penetrating mode, the rotating rod penetrates through the inner side of the fixing sleeve ring, and a connecting seat is installed at the top of the shell through a bolt. According to the utility model, the speed of the rotating member is obtained by scanning the time of the rotating member through the speed detector, and when the rotating speed of the rotating member is too high, the extrusion seat is driven to move forwards by extending the telescopic rod, so that the extrusion seat is abutted against the outer side of the wear-resistant line and is used for limiting the rotating speed of the rotating member, thereby ensuring that the dangerous condition caused by too high rotating speed of the device is avoided.

Description

Novel servo motor

Technical Field

The utility model relates to the technical field of servo motors, in particular to a novel servo motor.

Background

The servo motor is used as a micro motor of an actuating element in an automatic control device, is also called as an actuating motor, has the function of converting an electric signal into angular displacement or angular speed of a rotating shaft, is divided into an alternating current type and a direct current type, operates according to information sent by a worker, and is convenient for a user to control the operation of equipment according to the requirement.

The existing servo motor has the following defects:

1. reference CN208046365U discloses a motor case and a motor having the motor case, "having: an inner housing in which an accommodating space for the stator and the rotor is formed; an outer casing disposed outside the inner casing so as to be spaced apart from the inner casing in a radial direction of the inner casing, and forming a fluid accommodating space between the outer casing and the inner casing so as to be open on both sides and accommodate a fluid; a partition plate between the inner case and the outer case, one side of the partition plate being connected to the inner case and the other side thereof being connected to the outer case, the partition plate being spaced apart along a circumferential direction of the inner case to divide the fluid accommodating space into a plurality of partial accommodating spaces; and a communication part for blocking both sides of the fluid containing space and communicating the plurality of partial containing spaces to form a cooling fluid flow path for moving the fluid. Thereby, the heat exchange area of the cooling fluid is increased to improve the cooling performance. The existing device is lack of a safety braking device, and the rotor is easy to lose control due to too high speed in the running process;

2. reference CN211655914U discloses a damping type servo motor for a driving device, which comprises a servo motor body, a motor rotating shaft, a servo motor mounting base and a first mounting hole, wherein the output end of the servo motor body is fixedly connected with the motor rotating shaft, the bottom of the servo motor body is fixedly connected with the servo motor mounting base, the inside of the servo motor mounting base is provided with the first mounting hole, the bottom of the servo motor mounting base is provided with a mounting mechanism, and the mounting mechanism comprises a mounting plate, a second mounting hole, a sleeve ring and a sliding hole. The utility model has the advantages that: fix the servo motor body on installation mechanism, the servo motor body passes through fixed establishment fixed connection with installation mechanism and is in the same place, and the rubber pad in the fixed establishment can play certain cushioning effect, prevents to take place between servo motor body and the installation mechanism not hard up, has improved the installation fastness of servo motor body. The existing device has a simple internal structure, lacks a temperature adjusting device, and cannot normally operate when the internal temperature of the motor is too high;

3. reference CN208767909U discloses a sound insulation and waterproof servo motor, "including bottom plate, connection key, soundproof cotton and bolt hole, the bottom plate top is provided with the fly leaf, wherein, fly leaf one side is provided with the ventilation net, the ventilation net is located the fly leaf, the fly leaf is provided with the rotation axis with the bottom plate junction, the bottom plate top is provided with servo motor, servo motor is located bottom plate central line department, servo motor and fly leaf coplane, servo motor keeps away from ventilation net one side and is provided with the axis of rotation. This just waterproof servo motor gives sound insulation is provided with mosaic structure, is provided with two fly leafs, and the fly leaf can rotate through the effect of rotation axis under can, can only carry out 90 rotations through the fixed of base, and two fly leafs can carry out rotatory combination into noise control case through the rotation axis for when carrying out work, carry out noise treatment to servo motor. "the inside of the existing device lacks the equipment for detecting air tightness, and the air tightness of the equipment is easy to change along with the increase of the using time.

Disclosure of Invention

The present invention is directed to a novel servo motor to solve the problems of the prior art.

In order to achieve the purpose, the utility model provides the following technical scheme: the utility model provides a novel servo motor, is including placing board, shell, dwang, gas tightness detector, compressor and temperature controller, the top of placing the board is installed the supporting seat through the bolt, the shell is installed at the top of supporting seat, the closing cap is installed to the front end of shell, the inboard of closing cap is run through and is installed the fixed lantern ring, the inboard cover of fixed lantern ring has the spacing ring, the inboard of spacing ring is run through and is installed the dwang, and the dwang runs through the inboard of the fixed lantern ring, the connecting seat is installed through the bolt in the top of shell, the top of connecting seat is connected with the gas tightness detector through the connecting rod, temperature controller is installed through the bolt in the top of shell, and temperature controller is located the rear of gas tightness detector.

Preferably, the bottom of placing the board is installed the spring holder, and the bottom of spring holder is installed the bottom plate.

Preferably, the baffle is installed to the rear of shell, the compressor is installed through the bolt in the back of baffle, the gomphosis seat is installed in the front of baffle, the embedding piece is installed in the inboard gomphosis of gomphosis seat, the embedding piece is installed in the rear end of dwang, and the layer of making an uproar falls is installed to the inboard of shell, and the heat absorption pipe is installed to the inboard on the layer of making an uproar, and the heat-resisting layer is installed to the inboard of heat absorption pipe, and the frame is installed to the inboard on heat-resisting layer, installs the stator ring on the inner wall of frame, and the partition wall is installed to the inboard on heat-resisting layer, and the partition wall is located one side of frame, and external power supply connecting seat is installed at the top of shell.

Preferably, the inside connecting hole that runs through of front end of dwang is provided with, and the connecting hole is located the place ahead of spacing ring, and the surface mounting of dwang has the rotor, and the rotor is located the rear of spacing ring, and the rotor is located the inboard of stator ring, and the surface mounting of dwang has a rotation piece, and rotates the piece and be located the rear of rotor, and the surface mounting of dwang has wear-resisting line, and wear-resisting line is located the rear of rotating the piece.

Preferably, the fixing base is installed to the inboard of heat-resistant layer, and the brake ring is installed to the inboard of fixing base, and the internally mounted of brake ring has the telescopic link, and the extrusion seat is installed to the output of telescopic link, and the extrusion seat is located the outside of wear-resisting line, and the inboard of brake ring is provided with the fixed slot, and the fixed slot is located the place ahead of telescopic link, and the velometer is installed to the inboard of fixed slot, and the velometer is located the outside of rotating the piece.

Preferably, a control panel is installed at the top of the air tightness detector, an induction line is connected in front of the air tightness detector, the bottom end of the induction line penetrates through the inner walls of the top of the shell and the heat-resistant layer, and the air tightness detector is installed at the bottom end of the induction line.

Preferably, the top of compressor is connected with the connecting pipe, the one end and the heat absorption pipe fixed connection of connecting pipe, and the bottom of compressor is connected with the transmission pipe, and the bottom of transmission pipe is connected with the top of condenser pipe, and the condenser pipe passes through the mounting and installs the inboard at fixed frame, and fixed frame is installed the inboard at the set casing, and the back at the baffle is fixed to the set casing, and the set casing is located the outside of compressor, has seted up the blow vent on the both sides inner wall of set casing, and the rear end of set casing is provided with the thermovent.

Preferably, the back surface of the baffle is provided with a support, the support is positioned below the compressor, the rear end of the support is connected with a driving piece, and the outer side of the driving piece is provided with fan blades.

Preferably, the bottom of the temperature controller is connected with a sensing wire, the bottom end of the sensing wire penetrates through the inner walls of the top of the shell and the heat-resistant layer, and the bottom end of the sensing wire is provided with a temperature sensor.

The working steps of the device are as follows:

s1, firstly, a user detects the device before the device is used, the safe operation of the motor is ensured, the user fixes the device on a designated position through a connecting hole, then the user fixedly connects the connecting hole with an external operation device before a rotating rod operates, the tightness of the connection between the devices is ensured, then the user connects an external power supply connecting seat with a power supply through an external power supply connector, the power is transmitted to the motor through the external power supply connecting seat for providing power for the motor, the normal operation of the motor is ensured, then a stator ring generates magnetic force to drive an internal rotor to rotate, the inner side of the rotor is fixedly provided with the rotating rod, the rotor rotates to drive the rotating rod to rotate, a limiting ring and a rotating member on the outer side are driven to rotate in the rotating process of the rotating rod, and the limiting ring rotates in a groove on the inner side of a fixed sleeve ring, the rotating rod is limited through the limiting ring, so that the rotating rod can be ensured to rotate stably, the embedded part at one end of the rotating rod is embedded into the inner side of the embedded seat, the embedded part at the inner side is limited and supported through the embedded seat, and the rotating rod can be ensured to operate stably;

s2, the rotating rod rotates to drive the rotating piece to rotate, the rotating piece can be scanned by the speedometer in the process of circumferential rotation, the time of the rotating piece passing through is scanned by the speedometer, so that the rotating speed of the rotating rod is obtained, and when the rotating speed of the rotating rod is too high, the extrusion seat is driven to move forwards by extending of the telescopic rod, so that the extrusion seat is pressed against the outer side of the wear-resistant line and used for limiting the rotating speed of the rotating rod, the situation that the rotating speed of the device is too high and dangerous is avoided is guaranteed, and the device can be guaranteed to be in a safe and stable rotating state;

s3, detecting the internal temperature of the shell through a temperature sensor, transmitting the detected stability to the inside of a temperature controller through a sensing line by the temperature sensor, controlling the operation of a compressor by the temperature sensor after the temperature in the shell reaches a specified temperature, pressurizing cooling liquid by the operation of the compressor to change the cooling liquid into high-temperature and high-pressure gas, transmitting the cooling liquid to the inside of a transmission pipe, transmitting the cooling liquid to the inside of a condensation pipe by the transmission pipe, converting the cooling liquid into low-temperature and high-pressure gas through the condensation pipe, electrifying and rotating a driving part while radiating heat of the condensation pipe, driving blades on the outer side to rotate by the rotation of the driving part, driving air to move towards the direction of the condensation pipe by the rotation of the blades, accelerating the moving speed of airflow around the condensation pipe, accelerating the radiating speed of the condensation pipe, and then transmitting the cooling liquid to the inside of a heat absorption pipe by the condensation pipe, absorb the heat by the heat absorption pipe, thereby reduce the inside temperature of motor, guarantee that the device can be in normal temperature operation, the inside that the coolant liquid got into the connecting pipe through the heat absorption pipe and gets back to the compressor again, person's of facilitating the use controlling means's temperature, detect the gas tightness of motor through the gas tightness detector, then give the gas tightness detector through the induction line transmission with gas tightness data, display information is carried out by the display screen on the gas tightness detector, person's of facilitating the use reads information, the staff of being convenient for knows the closure of motor, when the gas tightness changes, the user can in time perceive.

Compared with the prior art, the utility model has the beneficial effects that:

1. according to the utility model, the rotating rod rotates to drive the rotating part to rotate, the rotating part can be scanned by the velometer in the circumferential rotation process, the passing time of the rotating part is scanned by the velometer, so that the rotating speed of the rotating rod is obtained, and when the rotating speed of the rotating rod is too high, the extrusion seat is driven by the extension of the telescopic rod to move forwards, so that the extrusion seat is pressed against the outer side of the wear-resistant line to limit the rotating speed of the rotating rod, thereby ensuring that the dangerous condition caused by too high rotating speed of the device is avoided, and ensuring that the device can keep a safe and stable rotating state.

2. The utility model detects the internal temperature of the shell through the temperature sensor, then the temperature sensor transmits the detected stability to the interior of the temperature controller through the sensing wire, after the temperature in the shell reaches the designated temperature, the temperature sensor controls the compressor to operate, the compressor operates to pressurize the cooling liquid, so that the cooling liquid is changed into high-temperature high-pressure gas, then the cooling liquid is transmitted to the interior of the transmission pipe, the cooling liquid is transmitted to the interior of the condensation pipe through the transmission pipe, the cooling liquid is converted into low-temperature high-pressure gas through the condensation pipe, the driving piece is electrified to rotate while the condensation pipe radiates heat, the driving piece rotates to drive the fan blades on the outer side to rotate, the fan blades rotate to drive the air to move towards the condensation pipe, thereby accelerating the moving speed of the airflow around the condensation pipe, accelerating the radiating speed of the condensation pipe, and then the cooling liquid is transmitted to the interior of the heat absorption pipe through the condensation pipe, the heat absorption pipe absorbs heat, so that the temperature inside the motor is reduced, and the device can be ensured to operate at normal temperature.

3. According to the utility model, the air tightness of the motor is detected by the air tightness detector, then the air tightness data is transmitted to the air tightness detector through the induction line, and the display screen on the air tightness detector displays information, so that a user can conveniently read the information, the staff can conveniently know the sealing performance of the motor, and the user can timely perceive the change of the air tightness.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic cross-sectional view of the present invention;

FIG. 3 is a schematic front view of the present invention;

FIG. 4 is a schematic diagram of a mounting plate structure according to the present invention;

FIG. 5 is a schematic view of the structure of the placement board of the present invention;

FIG. 6 is a schematic view of a temperature display surface structure according to the present invention;

FIG. 7 is a schematic view of a lower platen structure according to the present invention;

fig. 8 is a schematic structural view of the water pipe of the present invention.

In the figure: 1. placing the plate; 101. a spring seat; 102. a base plate; 2. a housing; 201. a noise reduction layer; 202. a heat absorbing tube; 203. a heat-resistant layer; 204. a supporting seat; 205. a baffle plate; 206. a tabling seat; 207. a partition wall; 208. a machine base; 209. a stator ring; 2010. the external power supply connecting seat; 3. a closure cap; 301. a fixed collar; 4. rotating the rod; 401. a limiting ring; 402. connecting holes; 403. a rotor; 404. a rotating member; 405. wear-resistant lines; 406. an insert; 5. a brake ring; 501. a fixed seat; 502. a telescopic rod; 503. a pressing base; 504. fixing grooves; 505. a velometer; 6. an air tightness detector; 601. a connecting seat; 602. a control panel; 603. an induction line; 604. an air-tightness detector; 7. a compressor; 701. a connecting pipe; 702. a conveying pipe; 703. a condenser tube; 704. a fixing frame; 705. a stationary case; 706. a vent; 707. a heat dissipation port; 8. a support; 801. a drive member; 802. a fan blade; 9. a temperature controller; 901. a sensing line; 902. and a temperature sensor.

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. 1-8, an embodiment of the present invention: a novel servo motor comprises a placing plate 1, a shell 2, a rotating rod 4, an air tightness detector 6, a compressor 7 and a temperature controller 9, wherein a supporting seat 204 is installed at the top of the placing plate 1 through bolts, the supporting seat 204 is supported through the placing plate 1, the stability of the supporting seat 204 is ensured, the supporting seat 204 is convenient to provide a fixing space for the shell 2 at the top, the shell 2 is installed at the top of the supporting seat 204, a closed cover 3 is installed at the front end of the shell 2, the shell 2 at the top is fixed through the supporting seat 204, the stability of the shell 2 is ensured, the shell 2 is connected with the closed cover 3 through welding, the tightness of the interior of the device is ensured, external substances are prevented from permeating into the interior of the device in the process of a user, a fixing sleeve ring 301 is installed on the inner side of the closed cover 3 in a penetrating manner, and the closed cover 3 is installed at the output end of the shell 2, the fixing sleeve ring 301 is fixed through the sealing cover 3, the stability of the fixing sleeve ring 301 is ensured, the fixing sleeve ring 301 is convenient to provide a fixing space for the inner limit ring 401, the limit ring 401 is sleeved on the inner side of the fixing sleeve ring 301, the rotating rod 4 is installed on the inner side of the limit ring 401 in a penetrating manner, the limit ring 401 is movably installed on the inner side of the fixing sleeve ring 301, the limit ring 401 is limited through the groove on the inner side of the fixing sleeve ring 301, the limit ring 401 can be ensured to stably rotate on the inner side of the fixing sleeve ring 301, the rotating rod 4 is ensured to stably rotate through the limit ring 401, the rotating rod 4 penetrates through the inner side of the fixing sleeve ring 301, the connecting seat 601 is installed at the top of the shell 2 through a bolt, the top of the connecting seat 601 is connected with the air tightness detector 6 through the connecting rod, and the shell 2 fixes the connecting seat 601 at the top, make things convenient for connecting seat 601 to fix the gas tightness detector 6 at top, make things convenient for the device to support gas tightness detector 6, support gas tightness detector 6's bottom through connecting seat 601 for gas tightness detector 6's control panel 602 faces upwards, and the person of facilitating the use observes information, temperature controller 9 is installed through the bolt in the top of shell 2, and temperature controller 9 is used for setting for the upper limit of temperature in advance, and when induction system sensed the high temperature, the temperature of 2 insides of shell was adjusted by temperature controller 9 control thermoregulation device, and temperature controller 9 is located gas tightness detector 6's rear.

The spring seat 101 is installed at the bottom of the placing plate 1, the bottom plate 102 is installed at the bottom of the spring seat 101, the device is fixed at a specified position through the bottom plate 102, the spring seat 101 at the top is supported through the bottom plate 102, the spring seat 101 is convenient to fix the placing plate 1 at the top, and the placing plate 1 supports the device at the top.

The rear of the shell 2 is provided with a baffle 205, the baffle 205 is arranged at the rear end of the shell 2, the shell 2 is sealed by matching the shell 2 with the baffle 205, the sealing performance of the shell 2 is ensured, the waterproof performance of the device is improved, the back of the baffle 205 is provided with a compressor 7 through bolts, the compressor 7 is fixed through the baffle 205, the stability of the compressor 7 is ensured, the compressor 7 is used for providing moving power for cooling liquid, the normal transportation of a temperature adjusting system is ensured, the front of the baffle 205 is provided with an embedded seat 206, the inner side of the embedded seat 206 is embedded with an embedded part 406, the embedded part 406 is arranged at the rear end of the rotating rod 4, the embedded seat 206 is fixed at the baffle 205, the embedded part 406 at one end of the rotating rod 4 is embedded into the inner side of the embedded seat 206, the embedded part 406 at the inner side is limited and supported through the embedded seat 206, and the smooth operation of the rotating rod 4 is ensured, the noise reduction layer 201 is installed on the inner side of the shell 2, the heat absorption pipe 202 is installed on the inner side of the noise reduction layer 201, the heat resistance layer 203 is installed on the inner side of the heat absorption pipe 202, the base 208 is installed on the inner side of the heat resistance layer 203, the stator ring 209 is installed on the inner wall of the base 208, the partition wall 207 is installed on the inner side of the heat resistance layer 203 and is located on one side of the base 208, the external power supply connecting seat 2010 is installed on the top of the shell 2, the noise reduction layer 201 in the noise reduction layer 201 is made of sound insulation and noise reduction materials, noise generated in the device can be effectively weakened, normal work of workers is prevented from being influenced by overlarge noise, the heat absorption pipe 202 is connected with a temperature adjusting device, temperature adjustment of the device is facilitated, the heat resistance layer 203 is made of materials with good heat resistance, dangerous conditions caused by overhigh temperature in the device are avoided, the base 208 is fixed through the heat resistance layer 203, and stability of the base 208 is guaranteed, fix inboard stator ring 209 through frame 208, the inside winding of stator ring 209 has the electric coil, make things convenient for the inside electromagnetic field that produces of stator ring 209, be used for supporting rotor 403, guarantee that rotor 403 can be steady rotatory, partition wall 207 is used for separating into two parts with the inside space of shell 2, support dwang 4 simultaneously, guarantee that dwang 4 can be stable rotatory, couple together external power supply connecting seat 2010 through external power supply joint and power, transmit power for the motor through external power supply connecting seat 2010, be used for providing electric power for the motor, guarantee that the motor can normal operating.

The inside through connection hole 402 that is provided with of front end of dwang 4, and connecting hole 402 is located the place ahead of spacing ring 401, the surface mounting of dwang 4 has rotor 403, rotor 403 is located the rear of spacing ring 401, and rotor 403 is located the inboard of stator ring 209, the surface mounting of dwang 4 has a rotation piece 404, and a rotation piece 404 is located the rear of rotor 403, the surface mounting of dwang 4 has wear-resisting line 405, and wear-resisting line 405 is located the rear of a rotation piece 404, dwang 4 connects outside equipment through connecting hole 402, the fastness of connecting between the assurance device, rotor 403 is installed in the inboard of stator ring 209, stator ring 209 produces magnetic force and drives inside rotor 403 to rotate, the inboard of rotor is fixed with dwang 4, rotor 403 rotates and drives dwang 4 to rotate, it rotates to drive rotation piece 404 in the outside at dwang 4 pivoted in-process, in the process that the rotating member 404 rotates circumferentially, the rotating member 404 is scanned by the velometer 505, the time that the rotating member 404 passes is scanned by the velometer 505, so that the rotating speed of the rotating rod 4 is obtained, the friction force of the device is increased by the wear-resistant lines 405, and the device is convenient to limit the speed of the rotating rod 4.

The fixing seat 501 is installed on the inner side of the heat-resistant layer 203, the brake ring 5 is installed on the inner side of the fixing seat 501, the telescopic rod 502 is installed inside the brake ring 5, the extrusion seat 503 is installed at the output end of the telescopic rod 502, the extrusion seat 503 is located on the outer side of the wear-resistant line 405, the fixing groove 504 is arranged on the inner side of the brake ring 5, the fixing groove 504 is located in front of the telescopic rod 502, the velometer 505 is installed on the inner side of the fixing groove 504, the velometer 505 is located on the rotating member 404, the fixing seat 501 is fixed on the inner side of the heat-resistant layer 203, the fixing seat 501 is convenient to fix the brake ring 5, the stability of the brake ring 5 is guaranteed, the rotating member 404 can be scanned by the velometer 505 in the circumferential rotation process, the rotating member 404 is scanned by the velometer 505, the rotating speed of the rotating member 404 is obtained, and when the rotating speed of the rotating member 4 is too fast, drive extrusion seat 503 through the extension of telescopic link 502 and move forward for extrusion seat 503 supports the outside at wear-resisting line 405, is used for restricting the rotation speed of dwang 4, guarantees to avoid the device rotational speed too fast, takes place the dangerous condition, guarantees that the device can keep safe and stable's rotation state.

Control panel 602 is installed at the top of gas tightness detector 6, the place ahead of gas tightness detector 6 is connected with induction line 603, the bottom of induction line 603 runs through the top inner wall of shell 2 and heat-resistant layer 203, gas tightness detector 604 is installed to the bottom of induction line 603, detect the gas tightness of motor through gas tightness detector 604, then transmit gas tightness data for gas tightness detector 6 through induction line 603, control panel 602 on by gas tightness detector 6 shows information, the person of facilitating the use reads information, the staff of being convenient for knows the closure of motor, when the gas tightness changes, the user can in time perceive.

The top of the compressor 7 is connected with a connecting pipe 701, one end of the connecting pipe 701 is fixedly connected with the heat absorbing pipe 202, the bottom of the compressor 7 is connected with a transmission pipe 702, the bottom end of the transmission pipe 702 is connected with the top of a condensation pipe 703, the condensation pipe 703 is installed on the inner side of a fixing frame 704 through a fixing piece, the fixing frame 704 is installed on the inner side of a fixing shell 705, the fixing shell 705 is fixed on the back of a baffle 205, the fixing shell 705 is positioned on the outer side of the compressor 7, vent holes 706 are formed in the inner walls of the two sides of the fixing shell 705, the rear end of the fixing shell 705 is provided with a heat dissipation port 707, the compressor 7 is operated to pressurize the cooling liquid so that the cooling liquid is changed into high-temperature high-pressure gas, then the cooling liquid is conveyed into the inside of the transmission pipe 702, the cooling liquid is conveyed into the inside of the condensation pipe 703 through the condensation pipe 703, the driving piece 801 is electrified to rotate while the condensation pipe 703 dissipates heat, the driving piece 801 rotates the flabellum 802 that drives the outside and rotates, flabellum 802 rotates the direction that drives the air and remove to condenser pipe 703, thereby accelerate the air current removal speed around the condenser pipe 703, thereby accelerate the radiating rate of condenser pipe 703, then pass through the inside of pipe carrier heat absorption pipe 202 with the coolant liquid by condenser pipe 703, absorb the heat by heat absorption pipe 202, thereby reduce the inside temperature of motor, guarantee that the device can be in normal temperature operation, the coolant liquid gets into the inside that compressor 7 was got back to again to connecting pipe 701 through heat absorption pipe 202, the temperature of person of facilitating the use controlling means, the air circulates through blow vent 706 and blow vent 706, guarantee the circulation of air on the device.

The back mounted of baffle 205 has support 8, and support 8 is located the below of compressor 7, the rear end of support 8 is connected with driving piece 801, flabellum 802 is installed in driving piece 801's the outside, carry out fixed bolster 8 by baffle 205, guarantee support 8's stability, driving piece 801's inside drives through the magnetic field and rotates, driving piece 801 rotates flabellum 802 that drives the outside and rotates, flabellum 802 rotates the direction that drives the air and removes to condenser pipe 703, thereby accelerate the air current removal speed around the condenser pipe 703, thereby accelerate the radiating rate of condenser pipe 703.

The bottom of the temperature controller 9 is connected with a sensing wire 901, the bottom end of the sensing wire 901 penetrates through the inner walls of the top of the shell 2 and the heat-resistant layer 203, the bottom end of the sensing wire 901 is provided with a temperature sensor 902, the temperature sensor 902 detects the internal temperature of the shell 2, and the temperature sensor 902 transmits the detected stability to the inside of the temperature controller 9 through the sensing wire 901.

The working steps of the device are as follows:

s1, firstly, a user detects the device before the device is used, the safe operation of the motor is ensured, the user fixes the device on a designated position through a bottom plate 102, then the user fixedly connects a connecting hole 402 with an external operation device before a rotating rod 4 operates, the connection tightness between the devices is ensured, then the user connects an external power supply connecting seat 2010 with a power supply through an external power supply connector 2010, the power is transmitted to the motor through the external power supply connecting seat 2010 for providing power for the motor, the normal operation of the motor is ensured, then a stator ring 209 generates magnetic force to drive an internal rotor 403 to rotate, the inner side of the rotor 403 is fixed with the rotating rod 4, the rotor 403 rotates to drive the rotating rod 4 to rotate, a limiting ring 401 and a rotating piece 404 on the outer side are driven to rotate in the rotating process of the rotating rod 4, the limiting ring 401 rotates in a groove on the inner side of a fixed sleeve ring 301, the rotating rod 4 is limited by the limiting ring 401, so that the rotating rod 4 can be ensured to rotate stably, the embedded part 406 at one end of the rotating rod 4 is embedded into the inner side of the embedding seat 206, the embedded part 406 at the inner side is limited and supported by the embedding seat 206, and the rotating rod 4 can be ensured to operate stably;

s2, the rotating rod 4 rotates to drive the rotating piece 404 to rotate, the rotating piece 404 is scanned by the velometer 505 in the process of circumferential rotation, the time of the rotating piece 404 is scanned by the velometer 505, the rotating speed of the rotating rod 4 is obtained, when the rotating speed of the rotating rod 4 is too high, the extruding seat 503 is driven to move forwards by extending the telescopic rod 502, so that the extruding seat 503 is abutted against the outer side of the wear-resistant line 405, the rotating speed of the rotating rod 4 is limited, the phenomenon that the rotating speed of the device is too high is avoided, the dangerous condition is generated, and the device can be kept in a safe and stable rotating state;

s3, detecting the internal temperature of the shell 2 through a temperature sensor 902, transmitting the detected stability to the inside of a temperature controller 9 through a sensing line 901 by the temperature sensor 902, after the internal temperature of the shell 2 reaches a specified temperature, controlling the operation of a compressor 7 by the temperature sensor 902, pressurizing the cooling liquid by the operation of the compressor 7 so that the cooling liquid is changed into high-temperature and high-pressure gas, then conveying the cooling liquid to the inside of a conveying pipe 702, conveying the cooling liquid to the inside of a condensing pipe 703 through the conveying pipe 702, converting the cooling liquid into low-temperature and high-pressure gas through the condensing pipe 703, electrifying the driving part 801 to rotate while the condensing pipe 703 radiates heat, driving a fan blade 802 on the outer side to rotate by the rotation of the driving part 801, driving air to move towards the direction of the condensing pipe 703 by the rotation of the fan blade 802, thereby accelerating the moving speed of air flow around the condensing pipe 703 and accelerating the radiating speed of the condensing pipe 703, then carry the inside of heat absorption pipe 202 with the coolant liquid by condenser pipe 703, absorb the heat by heat absorption pipe 202, thereby reduce the inside temperature of motor, guarantee that the device can be in normal temperature operation, the coolant liquid gets into the inside that compressor 7 was got back to again to connecting pipe 701 through heat absorption pipe 202, the temperature of person's of facilitating the use controlling means, detect the gas tightness of motor through gas tightness detector 604, then transmit gas tightness data for gas tightness detector 6 through induction line 603, show information by the display screen on gas tightness detector 6, the person of facilitating the use reads information, the staff of being convenient for knows the closure of motor, when the gas tightness changes, the user can in time perceive.

The working principle is as follows: firstly, a user detects the device before the device is used, the safe operation of the motor is ensured, the user fixes the device on a designated position through the bottom plate 102, then the connecting hole 402 is fixedly connected with an external operation device, the connection tightness between the devices is ensured, then the user connects the external power supply connecting seat 2010 with a power supply through an external power supply connector, the power is transmitted to the motor through the external power supply connecting seat 2010 for providing power for the motor, the normal operation of the motor is ensured, then the stator ring 209 generates magnetic force to drive the rotor 403 inside to rotate, the rotor 403 rotates to drive the rotating rod 4 to rotate, the limiting ring 401 and the rotating piece 404 on the outer side are driven to rotate in the rotating process of the rotating rod 4, the limiting ring 401 rotates in the groove on the inner side of the fixed sleeve ring 301, and the rotating rod 4 is limited through the limiting ring 401, the rotating rod 4 can be ensured to rotate smoothly, the embedded part 406 at the inner side is limited and supported by the embedded seat 206, the rotating rod 4 can be ensured to run smoothly, the rotating rod 4 rotates to drive the rotating part 404 to rotate, the rotating part 404 is scanned by the velometer 505 in the process of circumferential rotation, the time of the rotating part 404 passing by the velometer 505 is scanned by the velometer 505, the rotating speed of the rotating rod 4 is obtained by the time of the rotating part 404 passing by the velometer 505 after rotating for one circle, when the rotating speed of the rotating rod 4 is too high, the extruding seat 503 is driven to move forwards by the extension rod 502, so that the extruding seat 503 is abutted against the outer side of the wear-resistant line 405, the rotating speed of the rotating rod 4 is limited, the device is ensured to avoid over-high rotating speed and dangerous condition, the device can be ensured to keep a safe and stable rotating state, the internal temperature of the shell 2 is detected by the temperature sensor 902, then the temperature sensor 902 transmits the detected stability to the inside of the temperature controller 9 through the sensing line 901, the temperature controller 9 is electrically connected with the compressor 7, after the temperature inside the casing 2 reaches the set temperature of the temperature controller 9, the temperature sensor 902 controls the operation of the compressor 7, the compressor 7 operates to pressurize the cooling liquid, so that the cooling liquid becomes high-temperature and high-pressure gas, then the cooling liquid is transmitted to the inside of the transmission pipe 702, the transmission pipe 702 transmits the cooling liquid to the inside of the condensation pipe 703, the condensation pipe 703 converts the cooling liquid into low-temperature and high-pressure gas, the driving part 801 is electrified and rotated while the condensation pipe 703 radiates heat, the driving part 801 rotates to drive the fan 802 on the outer side to rotate, the fan 802 rotates to drive the air to move towards the direction of the condensation pipe 703, thereby increasing the air flow moving speed around the condensation pipe 703 and increasing the heat radiation speed of the condensation pipe 703, then carry the inside of heat-absorbing pipe 202 with the coolant liquid by condenser pipe 703, absorb the heat by heat-absorbing pipe 202, thereby reduce the inside temperature of motor, guarantee that the device can be in normal temperature operation, the coolant liquid gets into the inside that compressor 7 was got back to again to connecting pipe 701 through heat-absorbing pipe 202, the temperature of person's of facilitating the use controlling means, detect the gas tightness of motor through gas tightness detector 604, then transmit gas tightness data for gas tightness detector 6 through induction line 603, show information by the display screen on gas tightness detector 6, the person of facilitating the use reads information, be convenient for the staff knows the closure of motor, when the gas tightness changes, the user can in time perceive.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims

1. The utility model provides a novel servo motor, is including placing board (1), shell (2), dwang (4), gas tightness detector (6), compressor (7) and temperature controller (9), its characterized in that: the top of the placing plate (1) is provided with a supporting seat (204) through a bolt, the top of the supporting seat (204) is provided with a shell (2), a sealing cover (3) is arranged at the front end of the shell (2), a fixed lantern ring (301) is arranged on the inner side of the sealing cover (3) in a penetrating way, a limiting ring (401) is sleeved on the inner side of the fixed sleeve ring (301), a rotating rod (4) is arranged on the inner side of the limiting ring (401) in a penetrating way, the rotating rod (4) penetrates through the inner side of the fixed lantern ring (301), the top of the shell (2) is provided with a connecting seat (601) through a bolt, the top of the connecting seat (601) is connected with an air tightness detector (6) through a connecting rod, the top of the shell (2) is provided with a temperature controller (9) through a bolt, and the temperature controller (9) is positioned behind the air tightness detector (6).

2. A novel servo motor as claimed in claim 1, wherein: a spring seat (101) is installed at the bottom of the placing plate (1), and a bottom plate (102) is installed at the bottom of the spring seat (101).

3. The novel servo motor of claim 1, wherein: a baffle (205) is arranged behind the shell (2), a compressor (7) is arranged on the back of the baffle (205) through a bolt, a fitting seat (206) is arranged on the front surface of the baffle plate (205), an embedded piece (406) is fitted and arranged on the inner side of the fitting seat (206), the embedded part (406) is installed at the rear end of the rotating rod (4), the noise reduction layer (201) is installed on the inner side of the shell (2), the heat absorption pipe (202) is installed on the inner side of the noise reduction layer (201), the heat-resistant layer (203) is installed on the inner side of the heat absorption pipe (202), the base (208) is installed on the inner side of the heat-resistant layer (203), the stator ring (209) is installed on the inner wall of the base (208), the partition wall (207) is installed on the inner side of the heat-resistant layer (203), and the partition wall (207) is positioned at one side of the base (208), and the top of the shell (2) is provided with an external power supply connecting seat (2010).

4. The novel servo motor of claim 1, wherein: the inside connecting hole (402) that runs through of front end of dwang (4), and connecting hole (402) are located the place ahead of spacing ring (401), the surface mounting of dwang (4) has rotor (403), rotor (403) are located the rear of spacing ring (401), and rotor (403) are located the inboard of stator ring (209), the surface mounting of dwang (4) has a rotation piece (404), and rotate piece (404) and be located the rear of rotor (403), the surface mounting of dwang (4) has wear-resisting line (405), and wear-resisting line (405) are located the rear of rotating piece (404).

5. A novel servo motor as claimed in claim 3, wherein: fixing base (501) are installed to the inboard of heat-resistant layer (203), brake ring (5) are installed to the inboard of fixing base (501), the internally mounted of brake ring (5) has telescopic link (502), extrusion seat (503) are installed to the output of telescopic link (502), and extrusion seat (503) are located the outside of wear-resisting line (405), the inboard of brake ring (5) is provided with fixed slot (504), fixed slot (504) are located the place ahead of telescopic link (502), velometer (505) are installed to the inboard of fixed slot (504), and velometer (505) are located the outside of rotating piece (404).

6. The novel servo motor of claim 1, wherein: control panel (602) is installed at the top of gas tightness detector (6), and the place ahead of gas tightness detector (6) is connected with response line (603), and the bottom of response line (603) runs through shell (2) and the top inner wall of heat-resistant layer (203), and gas tightness detector (604) are installed to the bottom of response line (603).

7. The novel servo motor of claim 1, wherein: the top of compressor (7) is connected with connecting pipe (701), the one end and the heat absorption pipe (202) fixed connection of connecting pipe (701), the bottom of compressor (7) is connected with transmission pipe (702), the bottom of transmission pipe (702) is connected with the top of condenser pipe (703), the inboard at fixed frame (704) is installed through the mounting in condenser pipe (703), the inboard at fixed shell (705) is installed in fixed frame (704), the back at baffle (205) is fixed in fixed shell (705), fixed shell (705) are located the outside of compressor (7), vent (706) have been seted up on the both sides inner wall of fixed shell (705), the rear end of fixed shell (705) is provided with thermovent (707).

8. A novel servo motor as claimed in claim 3, wherein: the back mounted of baffle (205) has support (8), and support (8) are located the below of compressor (7), and the rear end of support (8) is connected with driving piece (801), and flabellum (802) are installed to the outside of driving piece (801).

9. The novel servo motor of claim 1, wherein: the bottom of the temperature controller (9) is connected with a sensing wire (901), the bottom end of the sensing wire (901) penetrates through the inner walls of the top of the shell (2) and the heat-resistant layer (203), and the bottom end of the sensing wire (901) is provided with a temperature sensor (902).

10. A novel servo motor according to any of claims 1-9, characterized in that the device is operated as follows:

s1, firstly, a user detects the device before the device is used, the safe operation of the motor is ensured, the user fixes the device at a designated position through a connecting hole (402), then the user fixedly connects the connecting hole (402) with an external operation device before a rotating rod (4) operates, the tightness of the connection between the devices is ensured, then the user connects an external power supply connecting seat (2010) with a power supply through an external power supply connector, the power is transmitted to the motor through the external power supply connecting seat (2010) for providing power for the motor, the normal operation of the motor is ensured, then a stator ring (209) generates magnetic force to drive an inner rotor (403) to rotate, the rotating rod (4) is fixed on the inner side of the rotor (403), the rotor (403) rotates to drive the rotating rod (4) to rotate, and a limiting ring (401) and a rotating piece (404) on the outer side are driven to rotate in the rotating process of the rotating rod (4), the limiting ring (401) rotates in the groove on the inner side of the fixed sleeve ring (301), the rotating rod (4) is limited through the limiting ring (401), the rotating rod (4) can be ensured to rotate stably, the embedded part (406) at one end of the rotating rod (4) is embedded into the inner side of the embedding seat (206), the embedded part (406) on the inner side is limited and supported through the embedding seat (206), and the rotating rod (4) can be ensured to run stably;

s2, the rotating rod (4) rotates to drive the rotating piece (404) to rotate, in the process that the rotating piece (404) rotates circumferentially, scanning of the velometer (505) can be carried out, the time that the rotating piece (404) passes through is scanned through the velometer (505), so that the rotating speed of the rotating rod (4) is obtained, when the rotating speed of the rotating rod (4) is too high, the telescopic rod (502) extends to drive the extrusion seat (503) to move forwards, the extrusion seat (503) is abutted to the outer side of the wear-resistant pattern (405), the rotating speed of the rotating rod (4) is limited, the rotating speed of the device is prevented from being too high, a dangerous condition is generated, and the device can be kept in a safe and stable rotating state;

s3, detecting the internal temperature of the shell (2) through a temperature sensor (902), transmitting the detected stable temperature to the inside of a temperature controller (9) through a sensing line (901) by the temperature sensor (902), controlling the operation of a compressor (7) by the temperature sensor (902) after the internal temperature of the shell (2) reaches a specified temperature, pressurizing cooling liquid by the operation of the compressor (7) so that the cooling liquid is changed into high-temperature and high-pressure gas, then conveying the cooling liquid to the inside of a transmission pipe (702), conveying the cooling liquid to the inside of a condensation pipe (703) by the transmission pipe (702), converting the cooling liquid into low-temperature and high-pressure gas through the condensation pipe (703), electrifying and rotating a driving part (801) while the condensation pipe (703) dissipates heat, rotating the driving part (801) to drive blades (802) on the outer side to rotate, and driving the air to move towards the direction of the condensation pipe (703) by the rotation of the blades (802), thereby quickening the moving speed of the air current around the condensation pipe (703), thereby quickening the heat dissipation speed of the condensation pipe (703), then the condensation pipe (703) conveys the cooling liquid to the inside of the heat absorption pipe (202), the heat absorption pipe (202) absorbs the heat, thereby reducing the temperature inside the motor, ensuring that the device can operate at normal temperature, the cooling liquid enters the connecting pipe (701) through the heat absorption pipe (202) and returns to the inside of the compressor (7) again, being convenient for a user to control the temperature of the device, detecting the air tightness of the motor through the air tightness detector (604), then transmitting the air tightness data to the air tightness detector (6) through the induction wire (603), displaying information through the display screen on the air tightness detector (6), being convenient for the user to read the information, being convenient for the working personnel to know the sealing performance of the motor, when the air tightness changes, the user can perceive in time.