CN203853865U - Wall grinding machine - Google Patents

Abstract

The utility model discloses a wall grinding machine which comprises a shell. A high-power density brushless motor and a controller of the high-power density brushless motor are arranged inside the shell. The high-power density brushless motor comprises a rotor shaft arranged on the shell in a rotating mode. The rotor shaft and a driving shaft of a grinding disc of the wall grinding machine are coaxially arranged and are of an integrated structure. The controller is arranged on the side, away from the grinding disc, of the high-power density brushless motor. The grinding disc is covered with a dustproof protective cover. A dust collection pipeline connected with an external dust collection device is arranged on the dustproof protective cover. The dustproof protective cover is connected with the shell. The axis of the rotor shaft is perpendicular to an operating face of the grinding disc and passes through the circle center of the grinding disc. According to the wall grinding machine, generation of carbon dust is avoided, and environment pollution is avoided; no transmission devices are arranged inside the shell, the service life is prolonged, energy losses are reduced, output efficiency is improved, noise and vibration are reduced, tedious transmission gear engagement installation is avoided, the size and weight are reduced, and assembly is convenient.

Description

Wall surface grinding machine

Technical Field

The utility model relates to a equipment technical field that polishes, in particular to wall polisher.

Background

The wall surface polisher is an electric tool, and the polishing disc of the wall surface polisher rotates and is in contact with the wall surface to complete the polishing effect of the wall surface.

Referring to fig. 1, fig. 1 is a schematic structural diagram of a wall surface grinding machine in the prior art.

The wall surface grinding machine comprises a shell 01, a dust removal protective cover 04, a motor 02 (comprising a rotor, a stator, a motor shaft and carbon brushes) with carbon brushes, a grinding disc 05 and a gear transmission device 03, wherein the motor 02 (comprising a rotor, a stator, a motor shaft and carbon brushes) is arranged in the shell 01, the grinding disc 05 is arranged in the dust removal protective cover 04, and the gear transmission device is used for connecting the motor shaft and a driving shaft of the. The motor 02 sets up in shell 01, rotates through motor 02 to through gear 03 variable speed, transmit the drive shaft and then drive the disc 06 rotation of polishing dish 05, accomplish and polish.

However, current wall polishers generally use a series excited motor with a carbon brush structure, and a gear transmission 03 is required between a motor shaft and a driving shaft to change the rotating speed. The gear transmission device 03 is arranged, so that the energy loss of the wall surface grinding machine is large, the output efficiency of a tool is reduced, the service life of the wall surface grinding machine is directly influenced by the abrasion of the carbon brush and the transmission gear, and the carbon powder is generated by the abrasion of the carbon brush, so that certain pollution is caused to the environment; the parts in the wall polisher are more, and the transmission gears meshed with each other inevitably can produce great noise and vibration in the power transmission process, and the wall polisher is not convenient to assemble.

Therefore, how to improve output efficiency and life, avoid environmental pollution, noise reduction and vibration, the equipment of the wall polisher of being convenient for is the problem that this technical field personnel need to solve urgently.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model provides a wall polisher to improve output efficiency and life, avoid environmental pollution, noise reduction and vibration, the equipment of the wall polisher of being convenient for.

In order to achieve the above object, the utility model provides a following technical scheme:

a wall surface grinding machine comprises a shell, wherein a high-power-density brushless motor and a controller of the high-power-density brushless motor are arranged in the shell;

the high-power-density brushless motor comprises a rotor shaft which is rotatably arranged on the shell, the rotor shaft and a driving shaft of a polishing disc of the wall surface polishing machine are coaxially arranged and are of an integrated structure, the controller is arranged on one side of the high-power-density brushless motor, which is far away from the polishing disc, a dust removal protective cover is arranged outside the polishing disc, a dust collection pipeline connected with an external dust collection device is arranged on the dust removal protective cover, and the dust removal protective cover is connected with the shell;

the axis of the rotor shaft is perpendicular to the operating surface of the polishing disc and passes through the circle center of the polishing disc.

Preferably, the wall surface grinding machine further includes a fan provided on the rotor shaft;

the fan is arranged below the rotor iron core; or, the fan is arranged above the rotor iron core; or, the number of the fans is two, one fan is positioned above the rotor core, and the other fan is positioned below the rotor core.

Preferably, in the wall surface grinding machine, a hand-held handle is provided on the housing.

Preferably, in the wall surface grinding machine, the high power density brushless motor is a hall-free inner rotor high power density brushless motor.

Preferably, in the wall surface grinding machine, the high power density brushless motor further includes: the cover is located the rotor core in the rotor shaft outside, set up in the stator in the rotor core outside, set up in the stator with permanent magnet between the rotor core.

Preferably, in the wall surface grinding machine, the housing is provided with an air inlet and an air outlet, and the high power density brushless motor is arranged between the air inlet and the air outlet.

Preferably, in the wall surface grinding machine, the stator includes a stator core, a plurality of stator enameled wire groups wound in the stator core, and a cold air channel disposed in the stator core.

Preferably, in the wall surface grinding machine, the cold air channel is formed by a gap between two adjacent stator enameled wire groups and a gap between the stator core and the rotor core.

Preferably, the wall surface grinding machine further comprises a power line connected with an external power frequency alternating current power supply, and a rectifying and filtering device arranged in the casing;

and an insulating sleeve is arranged between the rotor iron core and the rotor shaft.

Preferably, in the wall surface grinding machine, the housing is a plastic housing.

Preferably, in the wall surface sander, the power supply device for driving the high power density brushless motor to operate is a battery pack.

Preferably, in the wall surface sander, the battery pack is disposed in the housing; or, the battery pack is arranged outside the shell, and an interface connected with the battery pack is arranged on the shell.

According to the technical scheme, the wall surface grinding machine provided by the utility model has the advantages that the high-power-density brushless motor is arranged to drive the grinding disc to rotate, so that the service life of the device is effectively prolonged; and, owing to set up high power density brushless motor, with the coaxial setting of the drive shaft of rotor shaft and the dish of polishing to set up rotor shaft and the dish of polishing into the integral type structure, avoided setting up transmission in the shell, further improved life, and, avoid the carbon dust to produce, and then avoided environmental pollution, reduced energy loss, improved output efficiency. Because the rotor shaft and the polishing disc are of an integrated structure, the meshing between the transmission gears is effectively avoided, and further the noise and the vibration generated by the gear transmission are reduced. In addition, the polishing disc is a circular disc, the axis of the rotor shaft is perpendicular to the operating surface of the polishing disc, and the axis of the rotor shaft passes through the circle center of the polishing disc, so that the polishing disc rotates stably, and noise and vibration generated by the rotation of the polishing disc are reduced. And set up high power density brushless motor's controller in the shell, effectively avoided the controller external and cause because of taking up an area of the big inconvenient condition of operation that makes of space, so that the use of wall polisher, set up high power density brushless motor in the dust removal protection casing, and the controller sets up in the shell, with high power density brushless motor and controller communication connection back, avoided the loaded down with trivial details of drive gear meshing installation, the volume and the weight of wall polisher have effectively been reduced, the equipment of wall polisher has been made things convenient for effectively.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic view of a prior art wall sander;

wherein,

the dust removal device comprises a shell-01, a motor-02, a gear transmission device-03, a dust removal protective cover-04 and a polishing disc-05;

fig. 2 is a schematic structural view of a wall surface grinding machine according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a high power density brushless motor according to an embodiment of the present invention.

Wherein,

the dust removal device comprises a dust removal protective cover-1, a dust collection pipeline-11, a rotor shaft-2, a rotor core-3, a stator-4, a stator core-41, a stator enameled wire group-42, a cold air channel-43, a controller-5, a polishing disc-6, a shell-7, a handheld handle-71, a permanent magnet-8, a fan-9 and an insulating sleeve-10.

Detailed Description

The utility model discloses a wall polisher to improve output efficiency and life, avoid environmental pollution, noise reduction and vibration, the equipment of the wall polisher of being convenient for.

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. 2, fig. 2 is a schematic structural diagram of a wall surface grinding machine according to an embodiment of the present invention.

The embodiment of the utility model provides a wall surface grinding machine, which comprises a shell 7, wherein a high-power density brushless motor and a controller 5 of the high-power density brushless motor are arranged in the shell 7; the high-power-density brushless motor comprises a rotor shaft 2 which is rotatably arranged on a shell 7, the rotor shaft 2 and a driving shaft of a polishing disc 6 of a wall surface polishing machine are coaxially arranged and are of an integrated structure, a controller 5 is arranged on one side of the high-power-density brushless motor, which is far away from the polishing disc 6, a dust removal protective cover 1 is arranged outside the polishing disc 6, a dust collection pipeline 11 connected with an external dust collection device is arranged on the dust removal protective cover 1, and the dust removal protective cover 1 is connected with the shell 7; the axis of the rotor shaft 2 is perpendicular to the operating surface of the grinding disc 6 and passes through the center of the grinding disc 6.

The wall surface grinding machine provided by the embodiment of the utility model effectively prolongs the service life of the device by arranging the high power density brushless motor to drive the grinding disc 6 to rotate; and, owing to set up high power density brushless motor, with the coaxial setting of rotor shaft 2 with the drive shaft of the dish 6 of polishing to set up rotor shaft 2 and the dish 6 of polishing into the integral type structure, avoided setting up transmission in shell 7, further improved life, and, avoid the carbon dust to produce, and then avoided environmental pollution, reduced energy loss, improved output efficiency. Because rotor shaft 2 and the structure of 6 integrations of discs of polishing have effectively avoided the meshing between the drive gear, and then reduced noise and vibration because of gear drive produces. In addition, because the polishing disc 6 is a circular disc, the axis of the rotor shaft 2 is perpendicular to the operating surface of the polishing disc 6 and the axis of the rotor shaft 2 passes through the center of the polishing disc 6, the polishing disc 6 rotates stably, and noise and vibration generated by the rotation of the polishing disc 6 are reduced. And set up high power density brushless motor's controller 5 in shell 7, effectively avoided the controller 5 external and cause because of taking up an area of the big inconvenient condition of operation that makes of space, so that the use of wall polisher, set up high power density brushless motor in dust removal protection casing 1, and controller 5 sets up in shell 7, behind high power density brushless motor and the 5 communication connection of controller, the loaded down with trivial details of having avoided the drive gear meshing installation, the volume and the weight of wall polisher have effectively been reduced, the equipment of wall polisher has been made things convenient for effectively.

See the following data for details:

table 1 series excited machine in prior art and comparison data of brushless motor of the embodiment of the present invention

And, can find out in by the table, the embodiment of the utility model provides an in wall polisher compare with prior art, improved the output efficiency and the life of motor, reduced the noise.

The dust removal protective cover 1 is provided with a dust absorption pipeline 11 connected with an external dust absorption device, so that dust generated by polishing the wall surface by the polishing disc 6 directly enters the external dust absorption device through the dust absorption pipeline 11.

In order to avoid the embodiment of the utility model provides a high power density brushless motor among the wall polisher is overheated and influence life, still including setting up fan 9 on rotor shaft 2. In the operation process of the high power density brushless motor, the rotor shaft 2 rotates and simultaneously drives the fan 9 to rotate, so that the high power density brushless motor is subjected to heat dissipation operation.

In the present embodiment, the fan 9 is disposed below the rotor core 3. The fan 9 may be provided above the rotor core 3; or two fans 9 may be provided, one of which is located above rotor core 3 and the other of which is located below rotor core 3. Will not be described in detail herein and are within the scope of protection.

Further, the housing 7 is provided with an air inlet and an air outlet, and the high-power-density brushless motor is arranged between the air inlet and the air outlet. So that the outside cooling air enters the shell 7 from the air inlet, passes through the high-power-density brushless motor, cools the brushless motor and then is discharged from the air outlet.

In order to facilitate air flow, when the fan 9 is disposed below the rotor core 3, the air outlet is disposed at the top of the housing 7, so that the cooling air fanned out by the fan 9 passes through the high power density brushless motor and is then discharged from the top of the housing 7.

Furthermore, in order to ensure the heat dissipation of the controller 5, the positions of the air inlet and the air outlet may be adjusted, so that the external air passes through the controller 5 and the high power density brushless motor under the action of the fan 9, so as to dissipate the heat of the controller 5 while dissipating the heat of the high power density brushless motor.

As shown in fig. 2, since the axis of the rotor shaft 2 is perpendicular to the operation surface of the grinding disk 6, it is preferable to arrange the rotor shaft 2 coaxially with the driving shaft of the grinding disk 6. In order to improve the connection stability and the convenient installation of the rotor shaft 2 and the driving shaft of the polishing disc 6, the rotor shaft 2 and the driving shaft of the polishing disc 6 are of an integrated structure. The rotor shaft 2 may also be connected to the drive shaft of the sanding disc 6 by a coupling or the like, which will not be described in detail here.

Further, a hand grip 71 is provided on the housing 7. To facilitate the hand-holding, the bottom end of the hand-held grip 71 is provided with a receiving groove for receiving fingers. Can also set up the switch on handheld handle 71, hold handheld handle 71 back through operating personnel, press the switch that sets up on handheld handle 71, open high power density brushless motor and then start the embodiment of the utility model provides a wall polisher, and only need let go of the switch that sets up on handheld handle 71 when closing can.

Further, it is preferable that the fan 9 is disposed below the rotor core 3 so that air flows from the dust removing cover 1 to the rotor core 3, that is, a negative pressure is formed in the dust removing cover 1 by the fan 9 inside the wall surface grinding machine to generate a certain suction force, thereby reducing a holding force used by a user during work. The negative pressure of air can also be formed in the dust removing protective cover 1 by a fan in an external dust suction device connected with the dust outlet pipeline 11. Will not be described in detail herein and are within the scope of protection.

In the present embodiment, the high power density brushless motor is a hall-free inner rotor high power density brushless motor; the high power density brushless motor further comprises: rotor core 3 outside rotor shaft 2 is located to the cover, sets up in the stator 4 in the rotor core 3 outside, sets up the permanent magnet 8 between stator 4 and rotor core 3. Also can be applied to outer rotor brushless DC motor as high power density brushless motor the embodiment of the utility model provides an in the wall polisher.

Among them, a permanent magnet material with high magnetism is preferably used as the permanent magnet 8 to improve the power of the high power density brushless motor.

Since temperature is inversely proportional to current density, the effective heat dissipation of the stator 4 determines the power density of the machine. As shown in fig. 3, the stator 4 includes a stator core 41, a plurality of stator enameled wire groups 42 wound around the stator core 41, and a cold air channel 43 disposed in the stator core 41. By providing the cold air passage 43 for air flowing, the temperature of the stator enameled wire set 42 is effectively reduced. Since the current density is further increased, the high power density of the high power density brushless motor in the present embodiment, that is, the power generated per unit volume of the motor is high.

The cold air passage 43 is formed by a gap between two adjacent stator enameled wire groups 42 and a gap between the stator core 41 and the rotor core 3. The stator enameled wire is wound around the stator core 41 to form a stator enameled wire group 42. In the winding process, a gap exists between two adjacent stator enameled wire groups 42 to allow air to flow, and the gap between the two adjacent stator enameled wire groups 42 is communicated with the gap between the stator core 41 and the rotor core 3, so that the air flow is further enhanced, and the cooling effect is improved.

As shown in the following data table, a high power density brushless motor with a stator 4 having a diameter of 55mm to 65mm and a stator height of 20mm to 30mm is taken as an example:

TABLE 2 comparison of data between the prior art and the present invention

Therefore, the embodiment of the present invention provides a high power density brushless motor, the size (stator diameter and height) of which is smaller than the size of the high power density brushless motor in the prior art, but the power is larger than the power of the high power density brushless motor in the prior art, therefore, the power generated by the motor of the unit volume is higher, so as to ensure the high power density of the high power density brushless motor provided by the embodiment of the present invention.

The embodiment of the utility model provides a wall polisher can be driven by direct current low voltage power supply or power frequency alternating current. The power line is connected with an external power frequency alternating current power supply to drive the high-power-density brushless motor to operate.

The high-power density brushless motor is a direct current motor, and the external power frequency alternating current power supply supplies power frequency alternating current. When the wall surface grinding machine is connected with an external power supply through a power line, the number of rectifying and filtering devices for converting alternating current into direct current needs to be increased or decreased. That is, in this embodiment, the wall surface grinding machine further includes a power line for connecting with an external power supply and a rectifying and filtering device disposed in the housing 7, wherein the rectifying and filtering device may be directly integrated with the controller 5 or may be separately disposed. Power frequency alternating current supplied by an external power supply is introduced into the wall surface grinding machine through a power line, and is converted into direct current to be supplied to the high-power-density brushless motor after passing through a rectifying and filtering device. Wherein the rectifying and filtering means comprise a large capacitor. Present power frequency AC power commonly used is 220 and supplyes 240V or 110 and supplyes 127V, through adjusting rectification and filter equipment in order to adapt to different power frequency AC power, and then enlarge the embodiment of the utility model provides a use area of wall polisher.

Because the current intensity of the external power frequency alternating current power supply is high, preferably, an insulating sleeve 10 is arranged between the rotor core 3 and the rotor shaft 2.

Preferably, the embodiment of the utility model provides a dust removal protection casing 1 is the plastics dust removal protection casing to realize the requirement of instrument double insulation, further improved the safety in utilization.

However, since the power cord needs to be provided, which hinders the operation of the wall surface sander, in the present embodiment, the power supply device for driving the high power density brushless motor is preferably a battery pack. Because the battery pack supplies direct current, the battery pack directly supplies power to the high-power-density brushless motor. The battery pack after charging is used for supplying power to the high-power-density brushless motor, so that the operation that the wall surface grinding machine is connected with an external power supply device through a power line is effectively avoided, and the condition that the operation of the wall surface grinding machine is blocked by the power line in the operation process is also avoided.

Further, the battery pack is disposed inside the case 7. The condition that the normal use of the wall surface grinding machine is influenced due to the fact that the battery pack is arranged outside is effectively avoided.

The battery pack can also be arranged outside the shell 7, and the shell 7 is provided with an interface connected with the battery pack. The battery pack is connected to the housing 7 via an interface and is electrically connected to the high power density brushless motor.

Preferably, the housing 7 and the dust removing protective cover 1 are of an integral structure so as to improve the connection strength of the two. The shell 7 and the dust removal protective cover 1 can be connected through bonding or welding, buckling or screw connection and the like, which are not described in detail herein and are within the protection range, and only the connection strength between the shell 7 and the dust removal protective cover 1 is required.

In this embodiment, the polishing disc 6 is a hook and loop chassis on which sand paper can be mounted or a metal abrasive sheet which can grind marble. Other types may be provided, and are not described herein.

The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. A wall surface grinding machine comprises a shell (7), and is characterized in that a high-power-density brushless motor and a controller (5) of the high-power-density brushless motor are arranged in the shell (7);

the high-power-density brushless motor comprises a rotor shaft (2) rotatably arranged on the shell (7), the rotor shaft (2) and a driving shaft of a polishing disc (6) of the wall surface polishing machine are coaxially arranged and are of an integrated structure, the controller (5) is arranged on one side, away from the polishing disc (6), of the high-power-density brushless motor, a dust removal protective cover (1) is arranged on the outer cover of the polishing disc (6), a dust suction pipeline (11) connected with an external dust suction device is arranged on the dust removal protective cover (1), and the dust removal protective cover (1) is connected with the shell (7);

the axis of the rotor shaft (2) is perpendicular to the operating surface of the polishing disc (6) and passes through the circle center of the polishing disc (6).

2. A wall grinding machine according to claim 1, characterized by a fan (9) arranged on the rotor shaft (2).

3. A wall grinder as claimed in claim 2, characterised in that the fan (9) is arranged below the rotor core (3); or the fan (9) is arranged above the rotor iron core (3); or the number of the fans (9) is two, one fan is positioned above the rotor core (3), and the other fan is positioned below the rotor core (3).

4. A wall grinding machine according to claim 3, characterized in that the housing (7) is provided with an air inlet and an air outlet, and the high power density brushless motor is arranged between the air inlet and the air outlet.

5. The wall sander of claim 1, wherein the high power density brushless motor is a hall-less inner rotor high power density brushless motor;

the high power density brushless motor further comprises: the cover is located rotor core (3) in rotor shaft (2) outside, set up in stator (4) in the rotor core (3) outside, set up in stator (4) with permanent magnet (8) between rotor core (3).

6. A wall grinding machine according to claim 5, characterized in that the stator (4) comprises a stator core (41), a plurality of stator enameled wire groups (42) wound in the stator core (41), and a cold air channel (43) arranged in the stator core (41).

7. A wall grinding machine according to claim 6, characterized in that the cold air channel (43) is composed of a gap between two adjacent stator enameled wire groups (42) and a gap between the stator core (41) and the rotor core (3).

8. A wall grinding machine according to claim 1, characterized by further comprising a power line for connection to an external mains frequency ac power supply, and rectifying and filtering means arranged inside said casing (7);

an insulating sleeve (10) is arranged between the rotor iron core (3) and the rotor shaft (2).

9. A wall sander as set forth in claim 1, wherein the power supply means for driving said high power density brushless motor to operate is a battery pack.

10. A wall sander as set forth in claim 9, characterized in that said battery pack is disposed inside said housing (7) or said battery pack is disposed outside said housing (7), said housing (7) being provided with an interface for connection with said battery pack.