CN203554202U

CN203554202U - An integrated servo motor

Info

Publication number: CN203554202U
Application number: CN201320658103.8U
Authority: CN
Inventors: 刘坚
Original assignee: Ningbo Tenglong Outdoor Implement Co Ltd
Current assignee: Ningbo Tenglong Outdoor Implement Co Ltd
Priority date: 2013-10-22
Filing date: 2013-10-22
Publication date: 2014-04-16
Anticipated expiration: 2023-10-22

Abstract

The utility model discloses an integrated servo motor. The servo motor (1) is connected with a servo driver through a cooling device. The cooling device comprises a cooling sleeve in which the servo motor (1) is sleeved. The housing (2) of the servo driver is connected with the cooling sleeve. A cooling channel is disposed in the wall body of the cooling sleeve. The housing (2) of the servo driver is produced by metallic heat-conducting material and has an inner enclosed hollow cavity. A fan (11) is installed in the housing (2) of the servo driver. An electrical junction box (16) is arranged in the cooling sleeve. An encoder is connected with an end, close to the electrical junction box (16), of the central axis of the servo motor (1). An anti-vibration device used for protecting an electronic element (12) installed in the servo driver is disposed in the servo driver. By using such structure, advantages of good heat-dissipating effect, good cooling effect, and easy maintenance are achieved.

Description

Integrated servo motor

Technical field

The utility model relates to motor technologies field, is specifically a kind of by servo motor and the integrated as a whole integrated servo motor of servo-driver.

Background technology

At present, in the technical field such as motor, motor, servo motor and servo-driver are the absolute construction unit being separated from each other, in actual applications, these two separate units must couple together by signal cable and power cable, by cable, the position of servo motor, velocity information are passed to servo-driver and the control signal of servo-driver is flowed to servo motor.Due to the defect such as cable routing is complicated, difficult in maintenance, conventionally servo motor and servo-driver can be made of one to formula structure.If disclosed publication number on Chinese patent website is that CN1877970A, name are called the utility model patent of " integrate motor ", it is by being arranged on servo-driver on the radiator of servomotor, servo-driver and servomotor are integrated into a unified integral body, thereby jettisoning not only long but also complicated telecommunication cable and power cable, make commercial Application scene easy for installation, safeguard simple.

But there is following shortcoming in the integrated servomotor of above-mentioned this structure:

1) because servo-driver and servomotor are all cooling by naturally cooling mode, therefore, cooling effect is poor; And servo-driver is mounted on the radiator of servomotor, therefore, the heat of the radiator junction being connected with servo-driver can not leave in time, causes radiator heat-dissipation weak effect;

2) in addition, powerful electronic module is installed in servo-driver, it can produce a large amount of heats when work, therefore, servo-driver must normally be worked through supercooling guarantee, but, the cooling cooling mode of nature that conventionally just adopts of the prior art, in other words, on the casing of servo-driver, there is the wind hole communicating with the external world, like this, electric component in servo-driver is to adopt natural air cooled mode, therefore, the cooling effect of servo-driver is poor on the one hand, on the other hand, the impurity such as can accumulate dust in servo-driver, thereby affect the serviceability of electric component, on the one hand, because servo-driver communicates with the external world, airborne moisture also can affect the use of electric component again, when electric component has spark to produce, has the potential safety hazard setting off an explosion,

3) in addition, because encoder and servo-driver link together, therefore, when servo-driver keeps in repair or regularly detect, need encoder also to be pulled down, therefore simultaneously, can destroy the original data of encoder on the one hand, maintenance is also very inconvenient on the other hand.

Utility model content

Technical problem to be solved in the utility model is that a kind of integrated servo motor servo motor and servo-driver, that cooling effect is better, easy to maintenance and dustproof and waterproof is explosion-proof that integrates is provided.

For solving the problems of the technologies described above, the integrated servo motor that the utility model provides, comprise electrical junction box, encoder, the servo motor connecting and servo-driver, described servo motor is connected with servo-driver by cooling device, this cooling device comprises coolant jacket, servo motor is socketed in coolant jacket, and the casing of servo-driver is connected with coolant jacket, and has cooling duct in the wall body of coolant jacket; The casing of described servo-driver is the housing that inside that metal heat-conducting material is made is closed cavity, and its inside is provided with fan; Described electrical junction box is positioned at coolant jacket, and encoder is connected to the central shaft of servo motor near one end of electrical junction box; In described servo-driver, there is the vibration abatement that electronic component is within it installed for protection.

As the first cooling structure, described cooling duct is water-cooling channel, coolant jacket comprises lower coolant jacket and the upper coolant jacket being connected by screw together, the both sides of lower coolant jacket have respectively feet, and the upper end of two feets is connected with lower coolant jacket, and the lower edge of the casing of servo-driver is connected with upper coolant jacket; Water-cooling channel is arranged in the circle wall of coolant jacket and lower coolant jacket, and upper coolant jacket two ends, the same side are in the longitudinal direction connected with respectively water supply connector and water out adapter, and described water supply connector and water out adapter all communicate with water-cooling channel.

As the second cooling structure, described cooling duct is air-cooled passage, described air-cooled channel axis is to connecting adapter sleeve, and the capping at servo motor two ends and fan end cover be connected to the two ends of adapter sleeve, all has the ventilation hole communicating with air-cooled passage on capping and fan end cover.

Described servo-driver also comprises integrated circuit board and cover plate, and described electronic component is arranged on integrated circuit board, and integrated circuit board is connected to the bottom in the casing of servo-driver; Described cover plate is connected to the top of the casing of servo-driver, and described vibration abatement is arranged between integrated circuit board and the casing of servo-driver.

As the vibration abatement of the first structure, described vibration abatement comprises rubber column and attachment screw, and described attachment screw is two, and the head of attachment screw is rabbeted respectively the two ends at rubber column; One of them attachment screw is connected to the bottom of the casing of servo-driver, and another one attachment screw is connected on integrated circuit board by nut.

As the vibration abatement of the second structure, described vibration abatement comprises rubber strip and fixing briquetting, one end of described rubber strip and integrated circuit board interlocking, and the other end is fixedly connected with the casing of servo-driver by fixing briquetting.

On described lower coolant jacket and the cylindrical wall of upper coolant jacket, all there is the multi-turn uniform heat dissipating ring being arranged in parallel along its length.

Brake resistance in described servo-driver is connected on coolant jacket the opposite side with respect to water supply connector.

Adopt after above structure, the utility model compared with prior art, has the following advantages:

1) because the casing of servo-driver and the coolant jacket of servo motor connect, and have cooling duct in the wall body of coolant jacket, the heat that can in time servo motor be produced be taken away, therefore, and good heat dissipation effect; Meanwhile, also taken away the part heat in servo-driver, also made the cooling effect of servo-driver better;

2) coolant jacket can be suitable for the servo motor of different capacity, and the length according to servo motor in adapter sleeve designs the electrical junction box of different length, die sinking in addition, and therefore, versatility is good, and cost is low;

3) in servo-driver after provided with fan, the housing of relative closure will be formed in the casing of servo-driver simultaneously, like this, on the one hand by the mode of fan air blast cooling, make the air in the casing of servo-driver obtain compulsory circulation, there is the air of heat after encountering the wall body of metal heat-conducting material, moment obtains cooling, thereby make the electric component in servo-driver obtain better cooling, on the other hand, also avoided at impurity such as servo-driver inner accumulated dusts, thus the serviceability of assurance electric component;

4) encoder is arranged in coolant jacket, servo-driver is arranged on outside coolant jacket, like this, servo-driver and encoder are relatively independent, when keeping in repair, only servo-driver need be pulled down, without encoder is also pulled down simultaneously, thereby neither can destroy the original data of encoder, keep in repair also very convenient;

5) brake resistance in servo-driver is connected to after upper water sleeve, facilitates user installation on the one hand, saved on the other hand signal line cable, therefore, handled easily, saving cost;

6) between integrated circuit board and the casing of servo-driver, be provided with after vibration abatement, the shock energy that servo motor in use produces is cushioned, therefore, can more protect the serviceability of the electronic component of servo-driver.

Accompanying drawing explanation

Fig. 1 is the structural representation of the integrated servo motor of the utility model.

Fig. 2 is the structural representation of the integrated servo motor of the utility model.

Fig. 3 is the partial structurtes schematic diagram of axially analysing and observe during water-cooling pattern in the utility model.

Fig. 4 is the partial structurtes schematic diagram of radially analysing and observe during water-cooling pattern in the utility model.

Fig. 5 is the structural representation of axially analysing and observe during air cooling way in the utility model.

Fig. 6 is the structure for amplifying schematic diagram of the A portion of Fig. 3.

Fig. 7 is the structural representation of the second vibration abatement in the utility model.

Wherein: 1, servo motor; 2, the casing of servo-driver; 3, ventilation hole; 4, heat dissipating ring; 5, upper water sleeve; 6, water out adapter; 7, lower water jacket; 8, feet; 9, water supply connector; 10, brake resistance; 11, fan; 12, electronic component; 13, integrated circuit board; 14, water-cooling channel; 15, cover plate; 16, electrical junction box; 17, encoder; 18, air-cooled passage; 19, capping; 20, fan end cover; 21, ventilation hole; 22, rubber column; 23, attachment screw; 24, nut; 25, rubber strip; 26, fixing briquetting.

Embodiment

Below in conjunction with the drawings and specific embodiments, the utility model is described in more detail.

From the structural representation of the integrated servo motor of the utility model shown in Fig. 1～Fig. 4 and Fig. 6, it comprises electrical junction box 16, encoder 17, the servo motor 1 and the servo-driver that connect.Described servo motor 1 is connected with servo-driver by cooling device, and this cooling device comprises coolant jacket, and servo motor 1 is socketed in coolant jacket, and the casing 2 of servo-driver is connected with coolant jacket, and has cooling duct in the wall body of coolant jacket.The housing that the inside that the casing 2 of described servo-driver is made for metal heat-conducting material is closed cavity, its inside is provided with fan 11.Described electrical junction box 16 is positioned at coolant jacket, and encoder 17 is connected to the central shaft of servo motor 1 near one end of electrical junction box 16.In described servo-driver, there is the vibration abatement that electronic component 12 is within it installed for protection.In the present embodiment, metal heat-conducting material is aluminium alloy, can be also copper or other metal heat-conducting materials.

As the first type of cooling, described cooling duct is water-cooling channel 14, coolant jacket comprises lower coolant jacket 7 and the upper coolant jacket 5 being connected by screw together, the both sides of lower coolant jacket 7 have respectively feet 8, and the upper end of two feets 8 is connected with lower coolant jacket 7, the lower edge of the casing 2 of servo-driver is connected with upper coolant jacket 5.Water-cooling channel 14 is arranged in the circle wall of coolant jacket 5 and lower coolant jacket 7, and upper coolant jacket 5 two ends, the same side are in the longitudinal direction connected with respectively water supply connector 9 and water out adapter 6, and described water supply connector 9 and water out adapter 6 all communicate with water-cooling channel 14.In the present embodiment, described water-cooling channel 14 distributes in the shape of a spiral for the wall body along coolant jacket.

Described servo-driver also comprises integrated circuit board 13 and cover plate 15, and described electronic component 12 is arranged on integrated circuit board 13, and integrated circuit board 13 is connected to the bottom in the casing 2 of servo-driver.Described cover plate 15 is connected to the top of the casing 2 of servo-driver, and described vibration abatement is arranged between the casing 2 of integrated circuit board 13 and servo-driver.

As the vibration abatement of the first structure, described vibration abatement comprises rubber column 22 and attachment screw 23, and described attachment screw 23 is two, and the head of attachment screw 23 is rabbeted respectively the two ends at rubber column 22.One of them attachment screw 23 is connected to the bottom of the casing 2 of servo-driver, and another one attachment screw 23 is connected on integrated circuit board 13 by nut 24.

Vibration abatement as the second structure, as shown in Figure 7, described vibration abatement comprises rubber strip 25 and fixing briquetting 26, one end of described rubber strip 25 and integrated circuit board 13 interlockings, and the other end is fixedly connected with the casing 2 of servo-driver by fixing briquetting 26.Like this, utilize the elasticity of rubber strip 25, make integrated circuit board 13 energy floating connections on the casing 2 of servo-driver, make integrated circuit board 13 and electronic component 12 mounted thereto in the course of work of motor, obtain the effect of damping.

On described lower coolant jacket 7 and the cylindrical wall of upper coolant jacket 5, all there is the multi-turn uniform heat dissipating ring being arranged in parallel 4 along its length.

Brake resistance 10 in described servo-driver is connected on coolant jacket 5 opposite side with respect to water supply connector 9.

As the second type of cooling, known as shown in Figure 5, described cooling duct is air-cooled passage 18, described air-cooled passage 18 axially connects adapter sleeve, and the capping 19 at servo motor two ends and fan end cover 20 are connected to the two ends of adapter sleeve, on capping 19 and fan end cover 20, all there is the ventilation hole 21 communicating with air-cooled passage 18.

In the utility model, the casing 2 of servo-driver can be and the removable connection of upper coolant jacket 5, can be to be also linked to be an integral body with upper coolant jacket 5; Equally, the upper end of feet 8 can be and the removable connection of lower coolant jacket 7, can be to be also linked to be an integral body with lower coolant jacket 7.

In the utility model, water-cooling channel 14 is the spiral structure existence of wall body around upper coolant jacket 5 and lower coolant jacket 7, and in addition, water-cooling channel 14 can be also axial straight channel.

In the utility model, the electric wire through wires hole 3 of servo-driver is arranged on the end face of casing 2 of servo-driver, also can be arranged on the bottom of the casing 2 of servo-driver.

In the utility model, the cover plate 15 of servo-driver can be releasable connection at casing 2 tops of servo-driver, can be to be also linked to be an integral body with the casing 2 of servo-driver.

Within these variations all fall into protection range of the present utility model above.

Claims

1. an integrated servo motor, comprise electrical junction box (16), encoder (17), the servo motor (1) and the servo-driver that connect, it is characterized in that: described servo motor (1) is connected with servo-driver by cooling device, this cooling device comprises coolant jacket, servo motor (1) is socketed in coolant jacket, the casing of servo-driver (2) is connected with coolant jacket, and has cooling duct in the wall body of coolant jacket; The housing that the inside that the casing of described servo-driver (2) is made for metal heat-conducting material is closed cavity, its inside is provided with fan (11); Described electrical junction box (16) is positioned at coolant jacket, and encoder (17) is connected to the central shaft of servo motor (1) near one end of electrical junction box (16); In described servo-driver, there is the vibration abatement that electronic component (12) is within it installed for protection.

2. integrated servo motor according to claim 1, it is characterized in that: described cooling duct is water-cooling channel (14), coolant jacket comprises lower coolant jacket (7) and the upper coolant jacket (5) being connected by screw together, the both sides of lower coolant jacket (7) have respectively feet (8), and the upper end of two feets (8) is connected with lower coolant jacket (7), the lower edge of the casing of servo-driver (2) is connected with upper coolant jacket (5); Water-cooling channel (14) is arranged in the circle wall of coolant jacket (5) and lower coolant jacket (7), and upper coolant jacket (5) two ends, the same side are in the longitudinal direction connected with respectively water supply connector (9) and water out adapter (6), described water supply connector (9) and water out adapter (6) all communicate with water-cooling channel (14).

3. integrated servo motor according to claim 2, it is characterized in that: described cooling duct is air-cooled passage (18), described air-cooled passage (18) axially connects adapter sleeve, and the capping at servo motor two ends (19) and fan end cover (20) are connected to the two ends of adapter sleeve, on capping (19) and fan end cover (20), all there is the ventilation hole (21) communicating with air-cooled passage (18).

4. integrated servo motor according to claim 1, it is characterized in that: described servo-driver also comprises integrated circuit board (13) and cover plate (15), it is upper that described electronic component (12) is arranged on integrated circuit board (13), and integrated circuit board (13) is connected to the interior bottom of casing (2) of servo-driver; Described cover plate (15) is connected to the top of the casing (2) of servo-driver, and described vibration abatement is arranged between the casing (2) of integrated circuit board (13) and servo-driver.

5. integrated servo motor according to claim 4, it is characterized in that: described vibration abatement comprises rubber column (22) and the attachment screw (23) that is arranged on (13) four edges of integrated circuit board, the attachment screw of each edge (23) is two, and the head of attachment screw (23) is rabbeted respectively the two ends in rubber column (22); One of them attachment screw (23) is connected to the bottom of the casing (2) of servo-driver, and another one attachment screw (23) is connected on integrated circuit board (13) by nut (24).

6. integrated servo motor according to claim 4, it is characterized in that: described vibration abatement comprises rubber strip (25) and fixing briquetting (26), the interlocking of one end of described rubber strip (25) and integrated circuit board (13), the other end is fixedly connected with the casing (2) of servo-driver by fixing briquetting (26).

7. integrated servo motor according to claim 2, is characterized in that: on described lower coolant jacket (7) and the cylindrical wall of upper coolant jacket (5), all have the multi-turn uniform heat dissipating ring being arranged in parallel (4) along its length.

8. integrated servo motor according to claim 2, is characterized in that: the brake resistance in described servo-driver (10) is connected to the upper opposite side with respect to water supply connector (9) of coolant jacket (5).