KR20230119395A - Injection device of machine tool - Google Patents

Abstract

The present invention includes a housing portion that partitions a machine tool for processing a workpiece into inner and outer parts; a spraying unit disposed outside the housing to spray fluid; a storage unit for storing the jetting unit when the jetting unit is not in use; and a supply unit for supplying fluid to the spray unit, wherein the storage unit is disposed inside the housing of the machine tool and is built into the housing to prevent leakage of the fluid from the spray unit. It relates to a spraying device for a machine tool.

Description

Injection device of machine tool {Injection device of machine tool}

The present invention relates to a spraying device for a machine tool, and more particularly, to a spraying device for a machine tool in which a storage unit for storing a spraying unit is disposed inside a housing of the machine tool and can be conveniently stored without oil leakage.

In general, a machine tool refers to a machine used for the purpose of processing a metal/non-metal workpiece into a desired shape and dimension using an appropriate tool by various cutting processing methods or non-cutting processing methods.

Various types of machine tools, including turning centers, vertical/horizontal machining centers, door type machining centers, Swiss turns, electric discharge machines, horizontal type NC boring machines, CNC lathes, and multi-tasking machines, are widely used in various industrial fields to suit the purpose of the work. It is being used.

Among machine tools, a multi-tasking machine refers to a turning center equipped with a multifunctional automatic tool changer (ATC) and tool magazine that performs various types of machining such as turning, drilling, tapping, and milling. In a multi-tasking machine, an operator loads or replaces tools necessary for machining by manually loading the tools into the tool magazine.

In general, various types of machine tools currently in use have a control panel to which numerical control (NC) or computerized numerical control (CNC) technology is applied. Such a control panel has various function switches or buttons and a monitor.

In addition, the machine tool has a table on which the material, which is a workpiece, is seated and transported for processing, a pallet for preparing the workpiece before processing, a spindle that rotates when a tool or workpiece is combined, a tailstock for supporting the workpiece, etc. provide etc.

In general, in a machine tool, a table, a tool post, a main shaft, a tailstock, a resting ball, etc. are provided with a feed unit that feeds along a feed axis to perform various machining operations.

Also, in general, machine tools use a plurality of tools for various processing, and a tool magazine or a turret is used as a tool storage space for storing and storing a plurality of tools. These machine tools use a plurality of tools for various processing, and a tool magazine is used in the form of a tool storage area for storing and storing a plurality of tools.

Also, in general, a machine tool includes an automatic tool changer (ATC) for withdrawing or re-accommodating a specific tool from a tool magazine according to a command of a numerical controller to improve productivity of the machine tool.

In addition, in general, machine tools are provided with an automatic pallet changer (APC) to minimize non-processing time. An Automatic Pallet Changer (APC) automatically exchanges pallets between the workpiece processing area and the workpiece installation area. A workpiece may be mounted on the pallet.

In addition, machine tools are generally classified into turning centers and machining centers according to processing methods. A turning center refers to a machine tool that can perform turning by approaching a tool while rotating a workpiece, or drilling, tapping, and milling of a stationary workpiece. In general, a machine tool refers to a machine used for the purpose of processing a metal/non-metal workpiece into a desired shape and dimension using an appropriate tool by various cutting processing methods or non-cutting processing methods.

Various types of machine tools, including turning centers, vertical/horizontal machining centers, door type machining centers, Swiss turns, electric discharge machines, horizontal type NC boring machines, CNC lathes, and multi-tasking machines, are widely used in various industrial fields to suit the purpose of the work. It is being used.

Among machine tools, a multi-tasking machine refers to a turning center equipped with a multifunctional automatic tool changer (ATC) and tool magazine that performs various types of machining such as turning, drilling, tapping, and milling. In a multi-tasking machine, an operator loads or replaces tools necessary for machining by manually loading the tools into the tool magazine.

During the processing of these machine tools, dust or chips are generated and attached to the workpiece. An injector may be provided.

The injection device of these machine tools may be made in the form of a gun, and the injection device is mounted on the outside of the housing of the machine tool so that the operator sprays the fluid from the outside of the machine tool housing toward the workpiece located inside the housing. It is a device that removes dust or chips from workpieces by doing so.

However, in the conventional injection device of a machine tool, a worker located outside the housing sprays a fluid from the outside of the housing of the machine tool toward a workpiece located inside the housing to remove dust or chips from the workpiece. The spray unit is disposed on the outside of the housing, and parts capable of accommodating the spray unit are also installed on the outside of the housing so as to protrude outward, which interferes with the movement of the operator and causes inconvenience to the operator.

In addition, the injection device of a conventional machine tool was housed in a part with the position of the injection hole facing downward to treat the remaining fluid remaining after the injection of the fluid, which is cumulatively loaded on the part This entails a separate removal of the fluid, which increases the operator's work load, and leaks the fluid remaining in the spray unit to the outside of the spray unit, thereby impairing the cleanliness of the surrounding working environment.

Moreover, the injection device of the conventional machine tool is disposed to protrude on the movement line on which the operator frequently moves to perform work, so that the operator bumps into the injection device while moving or stumbles on the supply line for fluid supply, etc. There was a problem in that a safety accident occurred and the maintenance cost of the machine tool increased because the injection device was damaged due to a collision with a worker.

Republic of Korea Patent Publication Special 2003 - 0030152

The present invention is to solve the above problems, and an object of the present invention is to prevent fluid from leaking from the injection unit and to conveniently store the injection unit, a machine tool in which a storage unit is disposed inside the housing of the machine tool. It is to provide an injector of.

In order to achieve the object of the present invention, a spraying device for a machine tool according to the present invention includes a housing portion that partitions a machine tool for processing a workpiece into inner and outer parts; a spraying unit disposed outside the housing to spray fluid; a storage unit for storing the jetting unit when the jetting unit is not in use; and a supply unit for supplying fluid to the spray unit, wherein the storage unit is disposed inside the housing of the machine tool and is built into the housing to prevent leakage of the fluid from the spray unit.

In addition, in another preferred embodiment of the spraying device for a machine tool according to the present invention, the storage unit includes a main body having an accommodating portion in which the spraying unit is accommodated; and a drain part penetrating the main body so as to communicate with the accommodating part to recover the fluid remaining in the spray unit accommodated in the accommodating part.

In addition, in another preferred embodiment of the injection device for a machine tool according to the present invention, the injection unit has a base portion and a spray hole formed in the base portion, the injection portion for injecting the fluid through the spray hole; and a connection part having one side connected to the base part so as to flow the fluid to the spray hole.

In addition, in another preferred embodiment of the spraying device for a machine tool according to the present invention, the drain unit recovers the fluid leaking from the spraying hole in a state where the spraying unit is mounted in the accommodating portion so that the spraying hole is located in the storage position. It may include; a first drain part formed through the main body part to do so.

In addition, in another preferred embodiment of the spraying device for a machine tool according to the present invention, the drain unit is in the spraying unit in the process of taking the spraying hole stored in the accommodating unit out of the accommodating unit in order to use the spraying unit. It may further include a second drain part formed through the main body so as to be closer to the inlet of the accommodating part than the first drain part in order to recover the leaked fluid.

In addition, in another preferred embodiment of the injection device for a machine tool according to the present invention, the accommodating part may be formed to be inclined downward in a horizontal direction from the inlet of the accommodating part to the first drain part.

In addition, in another preferred embodiment of the injection device for a machine tool according to the present invention, the drain part communicates with the second drain part and is formed inside the body part so as to be adjacent to the inlet of the accommodation part and to be more indented than the accommodation part It may further include a groove part.

In addition, in another preferred embodiment of the injection device for a machine tool according to the present invention, the supply unit, one side of the supply line communicated with the connection portion disposed inside the housing to supply fluid to the connection portion; and an operating unit that operates to supply fluid to the supply line or block the supply of fluid.

In addition, in another preferred embodiment of the spraying device for a machine tool according to the present invention, the main body part further includes a space part penetrating the main body part so as to communicate with the receiving part, and the storage unit is provided in the space part. It may further include a sensing unit which is disposed and detects whether the jetting hole is located in a storage position in a state where the jetting unit is mounted on the accommodating unit.

In addition, in another preferred embodiment of the injection device for a machine tool according to the present invention, the sensing unit turns off the operation unit to block the supply of fluid to the supply line when detecting the injection port, and does not detect the injection port. If not, the operating unit may be turned on to supply fluid to the supply line.

In addition, in another preferred embodiment of the injection device for a machine tool according to the present invention, the storage unit may further include a cover portion for protecting the body portion, the drain portion, and the sensing portion.

In the spraying device of a machine tool according to the present invention, a storage unit for storing a spraying unit is disposed inside the housing of the machine tool without the need to provide parts for housing the spraying unit on the outside of the housing of the machine tool as in the prior art. As it is built into the housing part, there is an effect of increasing space utilization and maximizing operator convenience by preventing interference with the operator's moving line.

In addition, the spray device for a machine tool according to the present invention includes a drain unit to recover the fluid remaining in the spray unit accommodated in the receiving unit, and specifically, the first drain unit has a spray hole in a state where the spray unit is held in the storage position. The leaking fluid is recovered once, and the second drain unit recovers the fluid leaking from the spraying hole again in the process of taking the spraying unit out of the receiving unit to use the spraying unit, thereby leaking while the spraying unit is stored in the storage unit. Not only the fluid but also the fluid leaking in the process of removing the injection unit from the storage unit for use of the injection unit is recovered, so that the work of removing the cumulatively loaded fluid separately as in the prior art is unnecessary, reducing the operator's working time, It has the effect of preventing fluid from being wasted unnecessarily and maintaining the cleanliness of the surrounding work environment.

Furthermore, in the spraying device of a machine tool according to the present invention, the storage unit is disposed inside the housing of the machine tool so that it does not protrude on the moving line of the operator, and the supply line for supplying the fluid is also organized inside the housing so that the operator can Prevents safety accidents of workers, such as bumping into a sprayer during movement or tripping over a supply line for fluid supply, and reduces machine tool maintenance costs by preventing damage to the sprayer due to collision with a worker There is an effect.

In addition, the spraying device of the machine tool according to the present invention checks whether the storage unit is stored in the main body through the sensing unit disposed in the space of the main body, and automatically adjusts the operation of the supply unit according to whether or not it is stored. In the state stored in the storage unit, the flow of fluid from the supply unit to the spray unit is automatically blocked in advance to prevent unnecessary fluid from being wasted.

1 shows a perspective view and an enlarged view of a part of the injection device of a machine tool in which an injection device according to an embodiment of the present invention is installed.
2 is a view showing a front perspective view and a rear perspective view of a detailed view of an injection device according to an embodiment of the present invention.
Figure 3 shows a cross-sectional view of the BB portion of the front view and the front view of the injection device according to an embodiment of the present invention.
Figure 4 shows a perspective view and an enlarged view of the injection device portion of the machine tool in which the injection device according to another embodiment of the present invention is installed.
5 is a view showing a front perspective view and a rear perspective view of a detailed view of an injection device according to another embodiment of the present invention.
Figure 6 shows a cross-sectional view of the DD portion of the front view and the front view of the injection device according to another embodiment of the present invention.
7 is a view showing the storage unit in a state in which the sensing unit and the cover unit are removed.
8 is a view showing the supply unit of the present invention.

Hereinafter, it will be described in detail with reference to drawings of a spraying device for a machine tool according to an embodiment of the present invention. The embodiments introduced below are provided as examples to sufficiently convey the spirit of the present invention to those skilled in the art. Accordingly, the present invention may be embodied in other forms without being limited to the embodiments described below. And, in the drawings, the size and thickness of the device may be exaggerated for convenience. Like reference numbers indicate like elements throughout the specification.

Advantages and features of the present invention, and methods for achieving them, will become clear with reference to the embodiments described below in detail in conjunction with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but will be implemented in various different forms, and only these embodiments make the disclosure of the present invention complete, and the common knowledge in the art to which the present invention belongs It is provided to fully inform the holder of the scope of the invention, and the present invention is only defined by the scope of the claims. Like reference numbers designate like elements throughout the specification. The sizes and relative sizes of layers and regions in the drawings may be exaggerated for clarity of explanation.

Terms used in this specification are for describing embodiments, and therefore are not intended to limit the present invention. In this specification, singular forms also include plural forms unless specifically stated otherwise in a phrase. As used herein, "comprise" and/or "comprising" means that a stated component, step, operation, and/or element is the presence of one or more other components, steps, operations, and/or elements. or do not rule out additions.

1 shows a perspective view of a machine tool with an injection device according to an embodiment of the present invention and an enlarged view of a portion of the injection device, and FIG. 2 is a detailed view of the injection device according to an embodiment of the present invention. It is a drawing showing a perspective view and a rear perspective view.

Figure 3 shows a cross-sectional view of the B-B portion of the front view and the front view of the injection device according to an embodiment of the present invention, Figure 4 is a perspective view of the machine tool and the injection device portion installed with the injection device according to another embodiment of the present invention Indicates magnification.

Figure 5 shows a front perspective view and a rear perspective view of the injection device in detail with respect to the injection device according to another embodiment of the present invention, Figure 6 is a front view of the injection device according to another embodiment of the present invention and the D-D portion of the front view shows a cross section.

7 shows a storage unit in a state where the sensing unit and the cover unit are removed, and FIG. 8 is a view showing the supply unit of the present invention.

FIG. 7 is a cross-sectional view of part A-A of FIG. 5 .

The definitions of terms used below are as follows. "Horizontal direction" means the horizontal direction in the same member, that is, the X-axis direction in FIG. 1, and "width direction" means the vertical direction in the same member, that is, the Y-axis direction in FIG. 1, orthogonal to the horizontal direction, "Vertical direction" means a vertical direction in the same member orthogonal to the horizontal direction and the width direction. In addition, upward (upper) means an upward direction in the "vertical direction", that is, a direction upward of the Z-axis in FIG. means direction.

Referring to FIGS. 1 to 8, a spray device 1 for a machine tool according to an embodiment of the present invention will be described. As shown in Figures 1 to 8, the injection device 1 of the machine tool according to an embodiment of the present invention includes a housing part 100, a spray unit 200, a storage unit 300 and a supply unit 400 includes

The housing portion 100 of the injection device 1 of the machine tool according to an embodiment of the present invention partitions the machine tool for processing the workpiece into an inner side 110 and an outer side 120.

Specifically, the inner side 110 of the machine tool refers to an area in which processing of a workpiece is performed by a tool such as cutting as an area in which processing of a workpiece is performed.

In addition, in the outer side 120 of the machine tool, it means a space opposite to the machining area as an area in which the processing of the workpiece is not performed by a tool or the like.

That is, on the outside 120 of the machine tool, various and frequent tasks of the operator, such as manipulating a machining process or monitoring a machining process state, are performed.

The spraying unit 200 of the spraying device 1 of the machine tool according to an embodiment of the present invention is disposed on the outer side 120 of the housing 100 to spray the fluid.

That is, during the processing of machine tools, dust or chips are generated and adhered to the workpiece. Fluid (eg, coolant, air, etc.) is sprayed to remove dust or chips attached to the workpiece. A spraying unit 200 is provided.

The injection unit 200 of such a machine tool may be made in the form of a gun (GUN), and the outer 120 of the housing 100 of the machine tool, which is a space where the operator works so that the operator can manually spray the fluid. is fitted

The operator uses the injection unit 200 mounted on the outside 120 of the housing 100 to move the fluid toward the workpiece located on the inside 110 of the housing 100 from the outside 120 of the housing 100 of the machine tool. to remove dust or chips from the workpiece, etc.

Specifically, the injection unit 200 includes a spraying unit 210, a connection unit 220 and a control unit 230.

The injection unit 210 serves to inject fluid (eg, coolant, air, etc.). Specifically, referring to FIGS. 1 to 6, the fluid introduced through the supply unit 400 and the connection part 220 into which the fluid is introduced flows through the tube to the injection position, and then the fluid is injected to the position where the fluid is to be injected. do.

The injection unit 120 includes a base portion 211, a spray hole 212 formed in the base portion, and a lever portion 213.

The base part 211 is a part that can be directly grasped by the operator, and allows the fluid delivered from the connection part 220 to flow to the spray hole 212, and the connection part 220 is coupled to the base part 211 and installed so that the spray hole 212 ) to supply fluid.

The injection hole 212 serves to directly inject fluid to remove dust or chips from a workpiece or fixture and is formed on the base portion 211.

The lever part 213 is installed coupled to the base part 211 so as to pivot to the base part 211 as a hinge axis to the base part 211 in order to selectively control the injection of the fluid injected from the injection hole 212.

For example, the lever unit 213 ejects fluid when the operator pulls the lever unit 213 in a direction adjacent to the base unit, and conversely, when the operator releases the pulling force of the lever unit 213, the fluid spraying can be blocked.

The connection part 220 is installed so that one side communicates with the base part 211 and serves to flow the fluid to the injection port 212 .

In addition, the other side of the connection part 220 communicates with the supply unit 400 to receive the fluid supplied from the supply unit.

In addition to controlling the fluid through the lever 213, the control unit 230 is installed for the operator to block or supply fluid from flowing into the connection unit, but is not limited thereto, and may consist of an On/Off valve. can

The storage unit 300 of the spray device 1 of the machine tool according to an embodiment of the present invention is for storing the spray unit 200 when the spray unit 200 is not in use.

The storage unit 300 is disposed on the inside 110 of the housing 100 of the machine tool and is built-in to the housing 100 to prevent fluid from leaking from the spray unit 200.

Specifically, the storage unit 300 includes a body part 310, a drain part 320, a sensing part 330 and a cover part 340.

The main body portion 310 is a part where the spray unit is stored, and includes a receiving portion 311 in which a spray hole 212 through which a fluid is directly sprayed is accommodated among the spray unit 200, particularly the spray unit 210 of the spray unit, and The nozzle is accommodated and stored in the accommodating unit.

And, as will be described later, the body portion 310 may further include a space portion 313 formed through the body portion 310 to communicate with the receiving portion 311 .

In addition, the accommodating portion 311 is inclined downward in a horizontal direction (X-axis direction) from the inlet 312 of the accommodating portion 311 to the first drain portion 321 to be described later.

The main body part 310 is disposed to be embedded in the inside 110 of the housing part 100 of the machine tool, and is installed so that the main body part does not protrude outside the housing part as it is built-in to the housing part 100. .

As described above, in the spraying device of a machine tool according to the present invention, a storage unit for storing a spraying unit is disposed inside the housing of the machine tool without the need to provide parts for housing the spraying unit on the outside of the housing of the machine tool as in the prior art. As it is built into the housing part, it is possible to prevent interference with the operator's moving line, thereby increasing space utilization and maximizing operator's convenience.

In addition, in the injection device of a machine tool according to the present invention, the storage unit is disposed inside the housing of the machine tool so that it does not protrude on the moving line of the operator, and the supply line for supplying the fluid is also arranged inside the housing so that the operator can Prevents safety accidents of workers, such as bumping into a sprayer during movement or tripping over a supply line for fluid supply, and reduces machine tool maintenance costs by preventing damage to the sprayer due to collision with a worker there is.

Referring to FIGS. 3 and 6 to 7 , the drain unit 320 communicates with the housing unit 311 to recover the fluid remaining in the spray unit 200 accommodated in the housing unit 311. It is formed through (310).

After completing the injection of the fluid through the injection unit 200, the injection port 210 is accommodated in the receiving portion for storage of the injection unit 200.

In this way, after the spraying unit sprays, the fluid remains in the spraying unit and leaks out of the spraying unit. At this time, the drain unit 320 allows the leaked fluid to be recovered so that it leaks to the outside of the housing unit as in the prior art and cleans the surrounding environment. contamination can be prevented.

Although not necessarily limited thereto, the drain unit 320, although not shown in the drawing, may be returned to the fluid reservoir by communicating with a fluid reservoir in which fluid is stored.

Specifically, the drain part 320 includes a first drain part 321 , a second drain part 322 and a groove part 323 .

The first drain unit 321 is a main body to recover the fluid leaking from the spray hole 212 in a state where the spray unit 200 is mounted on the receiving part 311 so that the spray hole 212 is located at the storage position P. It is formed through the portion 310.

The storage position (P) means a part where the jetting hole is located in a state where the worker stores the jetting unit in the receiving unit.

This storage position (P) may vary depending on the type and shape of the injection unit.

That is, the first drain unit 321 is for recovering fluid leaking while the spray unit is stored in the storage position P.

Although not necessarily limited thereto, the first drain unit 321 may be formed at a lower portion in the vertical direction of the spraying position P so as to immediately recover the fluid leaking from the jetting port corresponding to the spraying position P.

In addition, as described above, since the accommodating portion 311 is inclined downward in the horizontal direction (X-axis direction) from the inlet 312 of the accommodating portion 311 to the first drain portion 321 described later, the first drain portion ( 321) is located at a part farther horizontally from the inlet 212 of the accommodation part than the injection position P, so that the fluid leaking from the injection port flows along the inclined part and can be recovered through the second drain part.

The second drain unit 322 is used to recover the fluid leaking from the jetting unit 200 in the process of taking the jetting hole 212 stored in the accommodating unit 311 out of the accommodating unit in order to use the jetting unit 200. It is formed through the body part 310 so as to be closer to the inlet of the accommodating part 311 than the first drain part 321 .

That is, the second drain unit 322 is used to recover the fluid leaked in the process of taking the spray unit out of the storage position P for use by the operator while the spray unit is stored in the storage position P. it is for

As described above, since the accommodating portion 311 is inclined downward in the horizontal direction (X-axis direction) from the inlet 312 of the accommodating portion 311 to the first drain portion 321 to be described later, Fluid leaking in the range up to the second drain part 322 may flow along the inclined portion and be recovered through the second drain part.

In this way, the spraying device of the machine tool according to the present invention includes a drain unit to recover the fluid remaining in the spraying unit accommodated in the accommodating unit, and specifically, in a state where the first drain unit is mounted in the storage position The fluid leaking from the jetting hole is recovered once, and the fluid leaking from the jetting hole is recovered again in the process of taking the jetting unit out of the receiving unit in order to use the jetting unit by the second drain unit. It recovers all the fluid that leaks even in the process of removing the spray unit from the storage unit for use of the spray unit, as well as the fluid that is being used for the spray unit. In this case, it is possible not only to prevent unnecessary waste of fluid, but also to keep the surrounding working environment clean.

The groove part 323 communicates with the second drain part 322 and is formed inside the body part 310 so as to be adjacent to the inlet 312 of the accommodating part and to be more indented than the accommodating part 311 .

Specifically, the groove portion 323 communicates with the second drain portion 322 and is disposed adjacent to the inlet 312 of the accommodating portion, and is disposed inside the main body portion 310 (ie, the portion where the accommodating portion 311 is formed). inner surface of) along the circumferential surface of the accommodating part.

That is, the groove part 323 is formed along the circumferential surface of the accommodation part by a predetermined depth from the inside of the main body part to the inlet of the accommodation part so as to have a circular ring shape as a whole, and a part of the groove part communicates with the second drain part. The fluid loaded into the groove part is discharged through the second drain part after flowing along the groove part.

Accordingly, in the process of putting the spray unit into the storage unit for use or storage, or taking it out, the fluid that may be on the outer surface or side of the spray unit comes out well through the groove part by the surface tension, and along the groove part through the surface tension. It is guided to the second drain unit so that the fluid can smoothly escape, thereby preventing the fluid from leaking.

In this way, the spraying device for a machine tool according to the present invention includes a drain unit, the first drain unit recovers fluid leaking once while the spraying unit is mounted in the storage position, and the second drain unit is used to use the spraying unit. In the process of taking the spray unit out of the receiving part, the fluid leaking from the spray hole is recovered as a second material, and in addition, it is deposited on the outer surface or side of the spray unit in the process of putting it in or taking it out of the storage unit for use or storage. In order to recover possible fluid, a groove part is provided so that the fluid is collected in the groove part through surface tension, so that the fluid is recovered a third time and the fluid is guided to the second drain part along the groove part to minimize fluid leakage. there is.

The detecting unit 330 is disposed in the space unit 313 to detect whether the spraying hole 212 is located at the storage position P in a state where the jetting unit 200 is mounted on the accommodating unit 311 .

The sensing unit 330 is not necessarily limited thereto, but is composed of a sensor and may detect the spray hole through a method such as approaching the spray hole or contacting the spray hole.

Specifically, when the detection unit 330 detects the nozzle 212 in the storage position P, the supply line 410 is turned off by turning off the operation unit 420 of the supply unit 4000 as will be described later. cut off the fluid supply.

Conversely, when the detection unit 330 does not detect the injection port 212 in the storage position P, as will be described later, the operation unit 420 of the supply unit 4000 is operated (on) to supply the supply line 410. ) to supply fluid.

As described above, the injection device of the machine tool according to the present invention checks whether the storage unit is stored in the main body through the sensing unit disposed in the space of the main body and automatically adjusts the operation of the supply unit according to whether or not it is stored. In the state stored in the storage unit, it is possible to prevent unnecessary fluid from being wasted by automatically blocking the flow of fluid from the supply unit to the spray unit in advance.

The cover part 340 is disposed on the inner side 110 of the housing part 100 to protect the body part 310, the drain part 320, and the sensing part 330.

Referring to FIG. 8, the supply unit 400 of the injection device 1 of the machine tool according to an embodiment of the present invention is for supplying fluid to the injection unit 200, and specifically includes a supply line 410, operation It includes a unit 420 and a supply unit 430 .

One side of the supply line 410 communicates with the connection part 220 and is disposed on the inside 110 of the housing 100 to supply fluid to the connection part 220 .

As described above, in the injection device of the machine tool according to the present invention, not only the storage unit is arranged inside the housing, but also the supply line is also arranged inside the housing, so that the outside of the housing is neatly arranged, and complicated connection lines are formed outside the housing as in the prior art. It is messy and entangled, so it can prevent safety accidents such as interfering with the worker's movement line or causing the worker to trip over the wire.

The operating unit 420 operates to supply fluid to the supply line 410 or to cut off the supply of fluid.

The supply unit 430 supplies fluid or blocks the supply of fluid according to the operation of the operation unit 420, but is not necessarily limited thereto, but the supply unit may be made of a pump.

In the detailed description of the present invention described above, it has been described with reference to preferred embodiments of the present invention, but those skilled in the art or those having ordinary knowledge in the art will find the scope of the present invention described in the claims to be described later. It will be understood that various modifications and changes can be made to the present invention without departing from the spirit and technical scope. Therefore, the technical scope of the present invention is not limited to the contents described in the detailed description of the specification, but should be defined by the claims.

1: injector,
100: lower part,
200: injection unit,
300: storage unit,
400: supply unit,

Claims (11)

A housing portion dividing a machine tool for processing a workpiece into inner and outer parts;
a spraying unit disposed outside the housing to spray fluid;
a storage unit for storing the jetting unit when the jetting unit is not in use; and
A supply unit for supplying fluid to the injection unit; includes,
The storage unit is disposed inside the housing of the machine tool and is built-in to the housing to prevent leakage of fluid from the spray unit.
According to claim 1,
The storage unit,
a main body having an accommodation portion in which the ejection unit is accommodated; and
A spraying device for a machine tool comprising a; drain part penetrating the main body so as to communicate with the receiving part to recover the fluid remaining in the spraying unit accommodated in the receiving part.
According to claim 2,
The injection unit,
a spraying unit having a base portion and a spraying hole formed in the base portion, and spraying a fluid through the spraying hole; and
A spraying device for a machine tool, comprising: a connecting portion having one side connected to the base and connected to flow the fluid into the spraying hole.
According to claim 3,
The drain part,
and a first drain part penetrating the main body to recover the fluid leaking from the jetting hole in a state where the jetting unit is mounted in the accommodating unit so that the jetting hole is located in the storage position. machine injectors.
According to claim 4,
The drain part,
In order to use the spray unit, in order to recover the fluid leaking from the spray unit in the process of taking the jet hole stored in the accommodation unit out of the accommodation unit, the main body is closer to the inlet of the accommodation unit than the first drain unit. A spray device for a machine tool further comprising a; second drain portion formed through the portion. According to claim 5,
The accommodating portion is a jetting device for a machine tool, characterized in that formed downwardly inclined in a horizontal direction from the inlet of the accommodating portion to the first drain portion.
According to claim 5,
The drain part,
A spraying device for a machine tool, characterized in that it further comprises: a groove part communicating with the second drain part and formed to be recessed than the receiving part while being adjacent to the inlet of the receiving part inside the main body part.
According to claim 3,
The supply unit,
a supply line disposed inside the housing so as to supply fluid to the connection part by communicating with one side of the connection part; and
An injection device for a machine tool comprising: an operating unit that operates to supply fluid to the supply line or to cut off the supply of fluid.
According to claim 8,
The body portion further includes a space portion formed through the body portion to communicate with the receiving portion,
The storage unit is disposed in the space portion detecting whether the injection hole is located in the storage position in a state in which the injection unit is mounted in the accommodating portion; injection device for a machine tool further comprising.
According to claim 9,
the sensor,
When the nozzle is detected, the operation unit is turned off to block the supply of fluid to the supply line, and when the nozzle is not detected, the operation unit is turned on to supply fluid to the supply line. A spraying device of a machine tool that does.
According to claim 2,
The storage unit further comprises a cover portion for protecting the main body portion, the drain portion, and the sensing portion.

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