CN211531652U - Heat dissipation device for servo motor driver - Google Patents

Abstract

The utility model discloses a heat dissipation device for a servo motor driver, which comprises a rectangular frame body, wherein a supporting and protecting structure is arranged on the rectangular frame body, and a heat dissipation structure is arranged on the supporting and protecting structure; the support and protection structure comprises: the device comprises a strip-shaped slide rail, a slide body, a bearing plate and a pressing plate; the utility model relates to a cutter arbor production technical field. Support protection architecture, support the servo motor driver and place, protect the servo motor driver, reduce the servo motor driver and knock down the loss, can not hinder the servo motor driver simultaneously and use, dispel the heat when using the servo motor driver through heat radiation structure, through carrying out the fan to the servo motor driver and blowing cooling heat dissipation or water-cooling heat dissipation cooling, reach good radiating effect when letting the servo motor driver use, and can not hinder the normal use of servo motor driver.

Description

Heat dissipation device for servo motor driver

Technical Field

The utility model relates to a cutter arbor production technical field specifically is a heat abstractor for servo motor driver.

Background

Servo motor driver is when using, because the operation of internal part operation, lead to heat production, the servo motor driver of work under the high temperature for a long time, lead to internal part high temperature scaling loss, so need carry out reasonable heat dissipation, there is the heat radiation structure inside traditional servo motor driver really, but the radiating effect is not obvious, because servo motor driver self single structure, so when using, servo motor driver's fan is less, it is not to reaching the thermal dashing and dispersing, lead to servo motor driver heat gathering on every side, so can't play good nevertheless thermal effect, and when servo motor driver uses, should reduce and knock the touching of losing, reduce self loss.

SUMMERY OF THE UTILITY MODEL

The utility model provides a not enough to prior art, the utility model provides a heat abstractor for servo motor driver, solved current servo motor driver when using, because the operation of internal part, lead to the heat production, the servo motor driver of long-time work under high temperature, lead to the internal part scaling loss, so need carry out reasonable heat dissipation, there is heat radiation structure inside traditional servo motor driver really, but the radiating effect is not obvious, because servo motor driver self single structure, so when using, servo motor driver's fan is less, it is scattered to thermal dashing not to reach.

In order to achieve the above purpose, the utility model discloses a following technical scheme realizes: the heat dissipation device comprises a rectangular frame body, wherein a supporting and protecting structure is arranged on the rectangular frame body, and a heat dissipation structure is arranged on the supporting and protecting structure;

the support and protection structure comprises: the device comprises a strip-shaped slide rail, a slide body, a bearing plate and a pressing plate;

the upper wall surface of the rectangular frame body is provided with a pair of strip-shaped grooves, the strip-shaped slide rails are respectively arranged inside the pair of strip-shaped grooves, the slide bodies are respectively arranged on each strip-shaped slide rail, the upper wall surface of each slide body is provided with a first support, the bearing plate is arranged on the pair of first supports, the upper wall surface of the bearing plate, which is close to four corners, is provided with a first circular groove, a first bearing is inserted in the first circular groove, a first support is inserted in the first bearing, the upper end of the first support is sleeved with a support, the upper wall surface of the support is provided with a first threaded hole, a threaded rod is inserted in the first threaded hole, the lower end of the threaded rod is provided with a pressing plate, the upper wall surface of the rectangular frame body, which is positioned at the left side and the right side of the pair of, and a third baffle plate is jointly arranged on the rear wall surfaces of the pair of first baffle plates.

Preferably, the heat dissipation structure includes: the device comprises a fan, a water pipe, a refrigerating sheet and a water tank;

the fan is mounted on the support frame, a pair of second circular grooves is formed in the upper wall surface of the rectangular frame body, a first circular through hole corresponding to the position of the second circular groove is formed in the upper wall surface of the third baffle, a second bearing is inserted into each second circular groove, a second support extending out of each second bearing through the first circular through hole is inserted into each second support, a wind shield is mounted on each second support, the water tank is mounted on the lower wall surface of the rectangular frame body, a micropump is mounted in the water tank, one end of each water pipe is sleeved on the micropump, the water pipes extend out of the water tank, penetrate through the second baffles and are laid on the pair of first baffles, the other end of each water pipe passes through the second baffles and is inserted into the water tank, and the refrigerating sheet is mounted inside the water tank.

Preferably, the connecting plates are installed at four corners of the lower wall surface of the rectangular frame body, each connecting plate is provided with a second threaded hole, and a first screw is inserted into each second threaded hole.

Preferably, one of the first baffle side wall surfaces is connected with a shutter through a hinge, and the shutter side wall surface is provided with a plurality of strip-shaped openings.

Preferably, a limiting rod penetrating through the sliding body is installed in the strip-shaped groove, third threaded holes are formed in four corners of the upper wall surface of the bearing plate, first threaded grooves corresponding to the third threaded holes are formed in the upper wall surface of the rectangular frame body, and second screws in lap joint with the first threaded grooves are inserted in the third threaded holes.

Preferably, the side wall surface of the second baffle plate is provided with a vent, and the side wall surface of the second baffle plate is connected with a baffle plate matched with the vent through a hinge.

Preferably, all the sleeves are provided with annular base plates on the upper ends of the first and second struts, a fourth threaded hole is formed in the side wall surface of each annular base plate, a second threaded groove matched with the fourth threaded hole is formed in the upper wall surfaces of the bearing plate and the third baffle, and a third screw lapped with the second threaded groove is inserted in the fourth threaded hole.

Advantageous effects

The utility model provides a heat abstractor for servo motor driver. The method has the following beneficial effects: support protection architecture, support the servo motor driver and place, protect the servo motor driver, reduce the servo motor driver and knock down the loss, can not hinder the servo motor driver simultaneously and use, dispel the heat when using the servo motor driver through heat radiation structure, through carrying out the fan to the servo motor driver and blowing cooling heat dissipation or water-cooling heat dissipation cooling, reach good radiating effect when letting the servo motor driver use, and can not hinder the normal use of servo motor driver.

Drawings

Fig. 1 is a schematic structural diagram of a heat dissipation device for a servo motor driver according to the present invention.

Fig. 2 is a side sectional view of a heat dissipation device for a servo motor driver according to the present invention.

Fig. 3 is a top view of the heat dissipation device for a servo motor driver according to the present invention.

In the figure: 1-a rectangular frame body; 2-a strip-shaped slide rail; 3-a sliding body; 4-a carrier plate; 5, pressing a plate; 6-a first support; 7-a first bearing; 8-a first pillar; 9-a scaffold; 10-a threaded rod; 11-a first baffle; 12-a second baffle; 13-a third baffle; 14-a fan; 15-a water pipe; 16-a refrigerating sheet; 17-a water tank; 18-a support frame; 19-a second bearing; 20-a second strut; 21-a wind deflector; 22-a micro pump; 23-a connecting plate; 24-a first screw; 25-a stop gate; 26-a third screw; 27-a limiting rod; 28-a shutter; 29-annular shim plate; 30-second screw.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-3, the present invention provides a technical solution: a heat dissipation device for a servo motor driver comprises a rectangular frame body 1, wherein a supporting protection structure is arranged on the rectangular frame body 1, and a heat dissipation structure is arranged on the supporting protection structure;

the support and protection structure comprises: the device comprises a strip-shaped slide rail 2, a slide body 3, a bearing plate 4 and a pressure plate 5;

the upper wall surface of a rectangular frame body 1 is provided with a pair of strip-shaped grooves, strip-shaped slide rails 2 are respectively arranged inside the pair of strip-shaped grooves, sliding bodies 3 are respectively arranged on each strip-shaped slide rail 2, the upper wall surface of each sliding body 3 is provided with a first support 6, a bearing plate 4 is arranged on the pair of first supports 6, the upper wall surface of the bearing plate 4, which is close to four corners, is provided with first circular grooves, first bearings 7 are inserted in the first circular grooves, first supports 8 are inserted in the first bearings 7, the upper ends of the first supports 8 are sleeved with supports 9, the upper wall surface of the supports 9 is provided with first threaded holes, threaded rods 10 are inserted in the first threaded holes, the lower ends of the threaded rods 10 are provided with pressing, first baffle plates 11 are arranged on the left side and the right side of the pair of strip-shaped grooves, second baffle plates 12 are arranged at the upper ends of the pair of first baffle plates 11, and third baffle plates 13 are arranged on the rear wall surfaces of the pair of first baffle plates 11;

it should be noted that: the rectangular frame body 1 plays a role in supporting the sliding body 3 on the strip-shaped slide rail 2, the sliding body 3 can move on the strip-shaped slide rail 2 to drive the bearing plate 4 on the first support 6 to move, the strip-shaped slide rail 2 is longitudinally installed, so that the bearing plate 4 can longitudinally move forwards and backwards, the bearing plate 4 is pulled forwards to enable the bearing plate 4 to extend out of the lower part of the second baffle 12, the bearing plate 4 is convenient for placing a servo motor driver, then the first support column 8 on the first bearing 7 plays a supporting role, the first bearing 7 can rotate, the first support column 8 can rotate to adjust the use angle, the support 9 on the first support column 8 is adjusted to adjust the angle, the support 9 plays a supporting role in supporting the pressure plate 5 on the threaded rod 10, the pressure plate 5 adjusts the use angle position, the pressure plate 5 is adjusted above the installation base plate of the servo motor driver, and then the, let clamp plate 5 whereabouts, clip the servo motor driver, later promote loading board 4, let loading board 4 be located the space of third baffle 13, a pair of first baffle 11 and first shutter 25 erection joint, shelter from the protection servo motor driver.

The heat radiation structure includes: a fan 14, a water pipe 15, a refrigerating sheet 16 and a water tank 17;

a support frame 18 is installed on the side wall surface of the third baffle 13, the fan 14 is installed on the support frame 18, a pair of second circular grooves is formed in the upper wall surface of the rectangular frame body 1, first circular through holes corresponding to the positions of the second circular grooves are formed in the upper wall surface of the third baffle 13, a second bearing 19 is inserted in each second circular groove, a second support column 20 extending out through the first circular through holes is inserted in each second bearing 19, a wind shield 21 is installed on each second support column 20, the water tank 17 is installed on the lower wall surface of the rectangular frame body 1, a micro pump 22 is installed in the water tank 17, one end of the water pipe 15 is sleeved on the micro pump 22, the water pipe 15 extends out through the water tank 17, the water pipe penetrates through the second baffle 12 and is laid on the pair of first baffles 11, the other end of the water pipe passes through the second baffle 12 and is inserted into the water tank 17;

it should be noted that: the supporting frame 18 on the third baffle 13 plays a supporting role for supporting the fan 14, when the fan 14 is used, the air flow in the space where the pair of first baffle 11, the second baffle 12, the third baffle 13 and the first baffle 25 are installed and connected is improved, when the servo motor driver is used, the heat flow is accelerated, the heat around the servo motor driver is dissipated and cannot be gathered in the space where the pair of first baffle 11, the second baffle 12, the third baffle 13 and the first baffle 25 are installed and connected and protecting the servo motor driver, the refrigerating sheet 16 cools the water in the water tank 17, the micro pump 22 in the water tank 17 works to suck out the water in the water tank 17, the water pipe 15 is paved on the pair of first baffle 11 through the water pipe 15, so as to cool the periphery of the servo motor driver by water cooling, the water pipe 15 stretches out through the water tank 17 and is paved on the pair of first baffle 11 through the second baffle 12, and the other end passes through the third baffle 13 and is inserted into the inside of the water tank 17, so that the water flows into the inside of the water tank 17 again after passing through the water pipe 15, thereby achieving water circulation, saving water source, cooling the space where the pair of first baffle plates 11, the second baffle plates 12, the third baffle plates 13 and the first baffle door 25 are installed and connected by cold water in the water pipe, the space formed by installing and connecting the pair of first baffle plates 11, the second baffle plates 12, the third baffle plates 13 and the first baffle door 25 allows cold air generated by water cooling to cool heat, thereby achieving the purpose of cooling the servo motor driver, simultaneously using air cooling and water cooling or separately using air cooling and water cooling, the second support column 20 supported by the second bearing 19 can swing to adjust the inclination angle of the wind shield 21, so that a gap is reserved between the wind shield 21 and the wind shield 21 in a relatively inclined manner, and when the fan 14 is used, wind power is gathered, and the heat dissipation effect is improved.

As a preferred technical scheme, furthermore, the four corners of the lower wall surface of the rectangular frame body 1 are respectively provided with a connecting plate 23, each connecting plate 23 is provided with a second threaded hole, and a first screw 24 is inserted into each second threaded hole; the device is conveniently fixedly installed on the table top or the supporting chopping board by the first screw 24 on the connecting plate 23.

As a preferred technical scheme, furthermore, a side wall surface of one of the first baffle plates 11 is connected with a shutter 25 through a hinge, and a plurality of strip-shaped openings are formed in the side wall surface of the shutter 25; the shutter 25 is used for shielding the space reserved in front of the first baffle plates 11, and the strip-shaped opening is convenient for line use.

As a preferred technical scheme, furthermore, a limiting rod 27 penetrating through the sliding body 3 is installed in the strip-shaped groove, third threaded holes are formed in four corners of the upper wall surface of the bearing plate 4, second first threaded grooves corresponding to the third threaded holes are formed in the upper wall surface of the rectangular frame body 1, and threaded rods 10 connected with the first threaded grooves in an overlapping mode are inserted into the third threaded holes; the sliding body 3 is supported by the limiting rod 27, so that the sliding body 3 is prevented from inclining when in use and penetrates through the inside of the sliding body 3, the sliding body 3 cannot be prevented from moving, and the bearing plate 4 is fixed by screwing the second screw 30 into the first thread groove after the bearing plate 4 extends into the pair of first baffle plates 11 through the second screw 30 on the bearing plate 4.

As a preferable technical solution, further, a ventilation opening is formed in the side wall surface of the second baffle plate 12, and the side wall surface of the second baffle plate 12 is connected with a baffle plate 28 matched with the ventilation opening through a hinge; through the vent on the second baffle 12, when the fan 14 is used, external air enters the space where the pair of first baffle 11, second baffle 12, third baffle 13 and first shutter 25 are installed and connected, the vent is conveniently shielded through the shielding plate 28, when water cooling is used, the shielding plate 28 can shield the vent, and the fan 14 is not used.

As a preferable technical scheme, furthermore, annular backing plates 29 are sleeved on the upper ends of the first support column 8 and the second support column 20, a fourth threaded hole is formed in the side wall surface of each annular backing plate 29, second threaded grooves matched with the fourth threaded holes are formed in the upper wall surfaces of the bearing plate 4 and the third baffle 13, and third screws 26 overlapped with the second threaded grooves are inserted into the fourth threaded holes; the third screw 26 is screwed through the third screw 26 on the annular cushion plate 29, after the first strut 8 rotates, the third screw 26 is connected with the second thread groove, so that the rotation angle of the first strut 8 is fixed, and similarly, after the second strut 20 rotates, the third screw 26 is screwed to be overlapped with the second thread groove, so that the rotation angle of the second strut 20 is fixed.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation. The use of the phrase "comprising one of the elements does not exclude the presence of other like elements in the process, method, article, or apparatus that comprises the element.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. A heat dissipation device for a servo motor driver comprises a rectangular frame body (1), and is characterized in that a supporting protection structure is arranged on the rectangular frame body (1), and a heat dissipation structure is arranged on the supporting protection structure;

the support and protection structure comprises: the device comprises a strip-shaped slide rail (2), a slide body (3), a bearing plate (4) and a pressing plate (5);

the upper wall surface of the rectangular frame body (1) is provided with a pair of strip-shaped grooves, the strip-shaped slide rails (2) are respectively installed inside the pair of strip-shaped grooves, the sliding bodies (3) are respectively installed on each strip-shaped slide rail (2), the upper wall surface of each sliding body (3) is provided with a first support (6), the bearing plate (4) is installed on the pair of first supports (6), the upper wall surface of the bearing plate (4) close to four corners is provided with a first circular groove, a first bearing (7) is inserted in the first circular groove, a first support (8) is inserted in the first bearing (7), the upper end of the first support (8) is sleeved with a support (9), the upper wall surface of the support (9) is provided with a first threaded hole, a threaded rod (10) is inserted in the first threaded hole, and the lower end of the threaded rod (10) is provided with a pressing plate (5, rectangle support body (1) wall is gone up, and is located a pair of bar recess left and right sides and installs first baffle (11), and is a pair of second baffle (12) are installed to first baffle (11) upper end, wall installs third baffle (13) jointly behind a pair of first baffle (11).

2. The heat dissipating device for a servo motor driver as set forth in claim 1, wherein the heat dissipating structure comprises: the refrigerator comprises a fan (14), a water pipe (15), a refrigerating sheet (16) and a water tank (17);

the fan is characterized in that a support frame (18) is installed on the side wall surface of the third baffle (13), the fan (14) is installed on the support frame (18), a pair of second circular grooves are formed in the upper wall surface of the rectangular frame body (1), first circular through holes corresponding to the positions of the second circular grooves are formed in the upper wall surface of the third baffle (13), a second bearing (19) is inserted into each second circular groove, a second support column (20) extending out of each second circular through hole is inserted into each second bearing (19), a wind shield (21) is installed on each second support column (20), the water tank (17) is installed on the lower wall surface of the rectangular frame body (1), a micro pump (22) is installed in the water tank (17), one end of a water pipe (15) is sleeved on the micro pump (22), the water pipe (15) extends out through the water tank (17), penetrates through the second baffles (12) and is laid on the pair of first baffles (11), and the other end of the refrigerating plate passes through the second baffle (12) and is inserted into the water tank (17), and the refrigerating plate (16) is arranged inside the water tank (17).

3. The heat dissipation device for the servo motor driver as recited in claim 1, wherein the rectangular frame body (1) is provided with connection plates (23) at four corners of a lower wall surface thereof, each connection plate (23) is provided with a second threaded hole, and a first screw (24) is inserted into each second threaded hole.

4. The heat dissipation device for the servo motor driver as recited in claim 1, wherein a shutter (25) is connected to a side wall surface of one of the first shutters (11) through a hinge, and a plurality of strip-shaped openings are formed in the side wall surface of the shutter (25).

5. The heat dissipation device for the servo motor driver as recited in claim 1, wherein a limit rod (27) penetrating through the sliding body (3) is installed in the strip-shaped groove, third threaded openings are formed at four corners of the upper wall surface of the bearing plate (4), a first threaded groove corresponding to the third threaded opening is formed in the upper wall surface of the rectangular frame body (1), and a second screw (30) overlapping with the first threaded groove is inserted into the third threaded opening.

6. The heat dissipation device for the servo motor driver as claimed in claim 1, wherein a ventilation opening is formed in a side wall surface of the second baffle plate (12), and the side wall surface of the second baffle plate (12) is connected with a baffle plate (28) matched with the ventilation opening through a hinge.

7. The heat dissipation device for the servo motor driver as recited in claim 1, wherein the upper end of the first support column (8) and the upper end of the second support column (20) are sleeved with annular backing plates (29), a fourth threaded hole is formed in the side wall surface of each annular backing plate (29), a second threaded groove matched with the fourth threaded hole is formed in the upper wall surfaces of the bearing plate (4) and the third baffle plate (13), and a third screw (26) overlapped with the second threaded groove is inserted into the fourth threaded hole.

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