KR200244650Y1 - Drill assembly for cutting glass hole - Google Patents

Abstract

The present invention consists of a motor for accommodating the rotor and stator in the motor housing, and a rotating shaft that receives power from the motor to the pulley and the belt,

In the rotating shaft is a glass hole cutting device in which the cooling water supply passage is penetrated in the longitudinal direction and the drill connector at one end and the coupling 13 for cooling water supply through the joint 12 at the other end,

The drill connector 200 for cutting a glass hole is integrally added to one side of the shaft 120 of the motor unit 100 including the rotor 110, and the joint 12 and the coupling for supplying the cooling water to the other side. ) In sequence;

Drill connector portion 200 is a hole forming drill connector 210 is integrally extended to be rotatably coupled to one end of the shaft 120 constituting the rotor 110,

It comprises a drill housing 220 is attached to one side of the motor housing 150 to bond the drill connector for forming holes 210 at the outer circumference;

The shaft 120 and the drill connector 210 are drill holes for cutting glass holes configured to penetrate the cooling water supply path 130 in a longitudinal center thereof.

Description

Drill assembly for cutting glass hole

The present invention is to provide a drill assembly for cutting a glass hole that does not require a separate power transmission means by connecting the drill connector directly to the rotating shaft of the motor.

Generally, glass is used in various ways, and is used in the form of a plate and a container. In the case of a plate, a thin thickness is used for a window and a thick thickness for a door. In the case of thick (approximately 1 centimeter, 1/2 centimeter) glass used for doors, cut a hole in the glass and fix the necessary fixture or handle to the hole. As an example of a device for forming such a hole, as shown in FIG. 1, the motor 2 and the outer housing 3 are fixedly installed on the fixing bracket 1, and the magnetic force of the rotating shaft 4 is formed inside the outer housing 3. The rotating shaft 4 is attached via a bearing 5 to provide a shaft, and the shaft 2-2 constituting the rotor 2-1 of the motor 2 is connected to the pulley 6 and the belt 8. Power is provided to the pulley 7 of the rotary shaft 4 through, and the pulley 7 and the rotary shaft 4 are configured such that the rotary shaft 4 is moved up and down through the snap ring 9. The rotor 2-1 of the motor 2 is supplied with rotational force through the stator 2-3. The stator 2-3 is installed on the inner wall of the motor housing 2-4. In this case, the auxiliary ring 10 for coupling the pulley 7 functions to enable the rotational movement and the vertical movement in the longitudinal direction by coupling the uneven 11 in the longitudinal direction with the rotary shaft (4). A drill connector 11 is formed at the lower end of the rotary shaft 4, and the coupling 13 is coupled to the upper end of the rotary shaft 4 through the joint 12. The rotating shaft 4 is provided with a cooling water supply path 14 for cooling water supply in the longitudinal direction, and the cooling water supply path 14 receives the cooling water from the coupling 13 through the joint 12. Denoted at 15 is a drill coupling hole having a female threaded portion at an inner circumference to engage the drill 20.

In this case, the drill 20 is coupled to the drill connector 11, and the motor 2 is rotated while the coolant is supplied through the coupling 13. Of course, although not shown in the drawings, a means for ascending and descending (represented by vertical movement jig in the drawing) is coupled through the joint 12. Therefore, the user places the glass plate to cut the hole at a desired position and drills the hole using the drill 20. Drill 20 can be illustrated in the configuration as shown in Figures 2 and 3, the drill 20 is screwed to the connection head 21 to the female thread formed in the drill coupling hole (15). It is coupled to the threaded portion formed on the outer periphery of the connection head 21. The drill 20 is a connection head 21 for screwing, a cutting blade support tube 23 integral with the connection head 21 and connecting the cutting blade 22, the connection head 21 and the cutting blade support. It comprises a cooling water supply passage 24 for connecting the pipes 23 so as to penetrate each other in the center. Therefore, the rotational force of the motor 2 is applied to the rotary shaft 4 through the pulleys 6 and 7 and the belt 8, and to the drill coupling hole 15 of the drill connector 11 at the lower end of the rotary shaft 4. Since the connection head 21 of the drill 20 of FIGS. 2 and 3 is coupled in a screw-coupled state, the cutting blade 22 is rotated by the rotational force of the rotary shaft 4. Since the cutting blade 22 is tubular, a hole corresponding to the diameter of the drill 20 can be formed in a glass plate (not shown). At this time, the coolant is supplied through the coupling 13, and the joint 12 connects the means for moving up and down, so that the rotation shaft 4 can form a predetermined hole in the glass plate while maintaining the cooling.

By the way, since the cutting device using this method receives the rotational force of the motor 2 through the pulleys 6 and 7 and the belt 8, vibration occurs and accordingly, the loss of the bearing is large and the loss of the bearing is increased. In many cases, there is a vibration error of the rotating shaft, making it difficult to cut out the correct hole. In addition, since the motor and the rotating shaft are configured separately, there are many components, which increases the volume and becomes a factor of cost increase.

The present invention is to solve this, an object of the present invention is to provide a drill assembly that improves durability by eliminating the vibration of the rotary shaft by directly connecting the drill connector to the rotary shaft of the motor.

Another object of the present invention is to provide a drill assembly that can be miniaturized by directly connecting a drill connector to a motor.

To this end, the present invention provides a drill assembly that does not require a separate power transmission means (pulley and belt) by connecting a drill connector directly to a rotating shaft (shaft) of the motor.

1 is a cross-sectional configuration of a conventional glass hole cutting device,

2 is a partial cross-sectional view of a typical drill connector,

3 is a partially cutaway sectional view of a typical drill connector,

4 is a partially cutaway sectional view of the present invention.

Explanation of symbols for the main parts of the drawings

12; Joint 13; Coupling

100; motor 110; rotor

120; shaft 130; cooling water supply passage

140; stator 150; motor housing

160; bearing 170; sealing

200; drill connector portion 210; drill connector

220; drill housing

That is, the present invention is a glass hole cutting device having a motor for accommodating the rotor and the stator in the motor housing, and a rotating shaft having a cooling water supply passage penetrating in the longitudinal direction and a drill connector at one end and a coupling for cooling water supply at the other end,

A glass hole cutting drill connector part is integrally added to one side of the motor, and a cooling water supply coupling is provided on the other side;

The drill connector portion is a drill connector for forming a hole rotatably extended to the shaft forming the rotor,

A drill housing added to the motor housing to bond the drill connector for forming a hole;

The shaft and the drill connector to provide a drill assembly for cutting a glass hole, characterized in that the cooling water supply passage through the center in the longitudinal direction.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

4 is a partially cutaway sectional view of the present invention, in which the motor 2 and the cooling water supply passage 14 accommodate the rotor 2-1 and the stator 2-3 in the motor housing 2-4. Cut the glass hole having a rotary shaft (4) rotated by the power of the motor (2), the drill connector (11) at one end and the coupling (13) for cooling water supply through the joint (12) at the other end. On the device,

The drill connector 200 for cutting a glass hole is integrally added to one side of the shaft 120 constituting the motor unit 100 of the motor 2, and the joint 12 and the coupling for supplying cooling water are provided on the other side. Install in turn;

The drill connector part 200 includes a drill connector for forming holes 210 rotatably extended to the shaft 120 constituting the rotor 110,

And a drill housing (220) added to the motor housing (130) to bond the drill connector (210) for forming holes;

The shaft 120 and the drill connector 210 are configured to penetrate the cooling water supply path 130 in the longitudinal center. 140 is a stator, which is installed at the inner circumference of the motor housing 150. 160 is a bearing and 170 is a sealing. Reference numeral 211 is a drill connection screw penetrated with the cooling water supply path 130 and screwed with the connection head 21 of the drill 20. In the drawings, the means for raising and lowering the motor unit 100 is combined with the joint to raise and lower, but the means for raising and lowering as described above are the same as in the related art, and thus the configuration and description thereof will be omitted.

According to the present invention configured as described above, the motor unit 100 and the drill connector unit 200 are integrally coupled to each other, and the shaft 120 constituting the motor unit 100 forms the drill connector unit 200. It is integrally coupled with the drill, the drill connector 210 of the drill connector 200 receives the rotational force of the motor unit 100 is integrally rotated. Of course, in this case, the drill 20 must first be screwed to the drill connection screw 211 of the drill connector 210.

Then, the cooling water is supplied through the coupling 13 to supply the cooling water to the cooling water supply path 130, and to allow the cooling water to pass through the cooling water supply path 24 of the drill 20 to be discharged.

In addition, the present invention is the motor unit 100 and the drill connector 200 is integrally coupled, the drill connector 210 constituting the drill connector 200 is adhered by the bearing 160, so additional vibration generating factors ( There is no conventional pulley and belt), thereby improving durability.

In addition, since the drill connector 200 is directly connected to the motor unit 100, a separate power transmission means is not required, thereby miniaturizing the size, thereby contributing to cost reduction.

Therefore, the cooling water supply path 130 formed in the drill connector 210 is allowed to penetrate the central portion in the longitudinal direction of the shaft 120 of the motor unit 100, so that the cooling water is directly supplied from the shaft 120 of the motor and the motor unit 100. And cooling).

The present invention described above is not limited to the above-described embodiments and drawings, and various substitutions, modifications, and changes can be made without departing from the technical spirit of the present invention. It will be apparent to those who have

As described above, the present invention does not require an auxiliary power transmission means such as a pulley and a belt, which are directly connected to the drill connector on the rotating shaft of the motor, which causes vibration of the rotating shaft, thereby improving durability.

The present invention is also a method of directly connecting the drill connector to the motor, which can be miniaturized so that many devices can be installed and used in a small space.

Therefore, this paper uses the method of connecting the drill connector directly to the motor, which reduces vibration and improves durability, and reduces the number of parts, contributing to cost reduction, and the volume is also small, so that many devices can be installed and used in the same space. to be.

Claims (1)

A motor accommodating the rotor and the stator in the motor housing, and a rotating shaft that receives power from a power transmission means consisting of a pulley and a belt from the motor, In the rotating shaft is a glass hole cutting device in which the cooling water supply passage is penetrated in the longitudinal direction and the drill connector at one end and the coupling 13 for cooling water supply through the joint 12 at the other end, The drill connector 200 for cutting a glass hole is integrally added to one side of the shaft 120 of the motor unit 100 including the rotor 110, and the joint 12 and the coupling for supplying the cooling water to the other side. ) In sequence; The drill connector part 200 is a hole connecting drill connector 210 and the hole forming drill connector 210 is integrally extended so as to be rotatably coupled to one end of the shaft 120 forming the rotor 110 from the outer periphery. It comprises a drill housing 220 added to one side of the motor housing 150 to make; The shaft assembly 120 and the drill connector 210 is a drill assembly for cutting a glass hole, characterized in that configured to pass through the cooling water supply path 130 in the longitudinal center.