KR102176105B1 - Hot Air Staking Machine - Google Patents

Abstract

A hot air welding machine comprises: a heater unit having a tubular heater housing which has an air inlet and forms an air flow path, and a heater which is disposed inside the heater housing and heats air; a pressing forming unit including a forming main body unit which has a hot air passage through which hot air from the heater unit is received and passes, and is connected to the heater unit along an axial direction, and a pressing forming tip which is coupled to a front end region of the forming main body unit to press and form a workpiece; and a connection unit which couples the heater unit and the forming main body unit to allow relative rotation with respect to an axial line and relative movement along the axial direction. According to the present invention, the heater is prevented from being damaged and performance can be stably maintained.

Description

Hot Air Staking Machine

The present invention relates to a hot air fusing machine, and more particularly, to a hot air fusing machine capable of melting and fusing the workpiece by supplying hot air to the workpiece.

The hot air fusing machine supplies heat to a plastic workpiece to make a molten state that is easy to mold, and then presses it with a pressure molding tip to form the workpiece. The hot air fusion machine includes a heat unit having a hollow heater housing into which a heater for heating incoming external air is inserted, and a pressurizing body that is coupled to the heater housing, and a pressurizing molding tip that forms the workpiece. Have. The heater housing and the pressurized body are fixedly coupled to each other.

However, if the user excessively couples the heater housing and the pressurized molding body in the process of fixing each other, the heater inserted in the heater housing may be broken or damaged. In addition, if the process of pressing the heater housing and the pressurized body moving up and down in the process of forming the workpiece is repeatedly performed, the heater comes into contact with the bonding portion between the heater housing and the pressurized body, causing a problem that a short circuit occurs. It is also possible.

Accordingly, an object of the present invention is to provide a hot air fusing machine that prevents damage to the heater and can stably maintain its performance.

A hot air fusion machine according to the present invention for achieving the above object includes: a heater unit having a tubular heater housing having an air inlet and forming an air flow path, and a heater disposed in the heater housing to heat air; A molding body having a hot-air passage for receiving and passing the heat from the heater unit and connected to the heater unit along the axial direction, and a pressing molding that pressurizes and molds the workpiece by being coupled to the tip region of the molding body A pressing part having a tip; And a connection unit for coupling the heater unit and the molded body to enable relative rotation with respect to an axis and a relative movement along the axis direction. Due to the connection unit, the heater housing and the molded body can be rotated around the axis of the heater housing and can be moved relative to the longitudinal direction, thus preventing problems such as damage due to twisting and tightening of heaters, supports, and connecting cables. And it can prevent the short circuit caused by the movement of the heater in the longitudinal direction, so the performance of the heater can be stably maintained.

Here, the connection unit includes: a stop flange portion protruding outwardly in a ring shape on any one of the heater housing and the molding body portion; A fastening male screw portion provided on the other of the heater housing and the molding body portion; A coupler body tubularly surrounding the connection area of the heater housing and the molding body, an inward flange part formed on the inner wall surface of the connection body and caught on the stopping flange part, and the fastening male screw provided on the inner wall surface of the coupler body Including a coupler having a fastening female screw portion screwed to the portion is preferable because the heater housing and the molding body can be rotated about the axis of the heater housing and can be relatively movable in the longitudinal direction.

And the connection unit, if the coupler body further has a parallel movement guide extending in surface contact along the surface of the heater housing from the stopping flange so that the coupler body moves in parallel along the axis of the air flow path. It is preferable because it can stably move in parallel along the axis.

Here, when the inward flange portion further includes a sealing member that allows the heater housing and the molding body to be hermetically coupled by the connection unit while the inward flange portion is caught on the stopping flange portion, external air introduced into the heater housing is formed with the heater housing. It is preferable because it can prevent leakage into the joint between the body parts.

And a sleeve into which at least a portion of the molding body is inserted and accommodates the pressing molding tip to be slidably moved. And an elastic member disposed between the heater housing and the sleeve to apply elasticity to the sleeve in a direction away from the heater housing, so that the pressing tip of the pressing part can easily return to its original position after molding the workpiece. It is preferable.

According to the present invention, due to the connection unit, the heater housing and the molded body can be rotated around the axis of the heater housing and can be moved relative to the longitudinal direction, so problems such as damage due to twisting and tightening of the heater, support or connection cable, etc. It is possible to prevent a short circuit due to movement of the heater in the longitudinal direction, so that the performance of the heater can be stably maintained, thereby improving the efficiency of the molding operation.

1 is a perspective view of a hot air fusing machine according to the present invention.
2 is an exploded perspective view of a hot air fusion machine
And 3 are cross-sectional views of a hot air fusion machine.
4 is an exemplary view of the sealing member.
5 is a diagram showing the installation operation of the connection unit.

Hereinafter, a hot air fusing machine 1 according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

Figure 1 is a perspective view of a hot air fusing machine according to the present invention, Figure 2 is an exploded perspective view of the hot air fusing machine, Figure 3 is a cross-sectional view of the hot air fusing machine, Figure 4 is an exemplary view of the sealing member, Figure 5 is the installation operation of the connection unit Is also.

The hot air fusing machine includes a heater unit, a pressurization molding unit, a connection unit, a sleeve, an elastic member, and a sealing member.

The heater unit has a heater housing, a heater and a heater support. The heater housing has an air inlet and forms an air flow path. The heater housing is provided in a tubular shape and has a shape that allows external air to communicate in the longitudinal direction.

The heater is disposed in the heater housing to heat the air. It is preferable to use a quartz heater that is formed of metal and generates very little foreign matter rather than a heater.

The heater support allows the heater housing to be supported in different configurations. The heater support is combined with the heater housing and is a component that is connected to and supported by other components.

The pressure molding part has a molding body part and a pressure molding tip. The molded body is connected to the heater unit along the axial direction. The molded body portion has a hot air passage and a coupling portion. The hot-air passage is formed to receive and pass heat from the heater unit. The coupling portion is provided with a fastening male screw portion to be described later and is coupled with a coupler to be described later.

The pressing molding tip is formed by extending from the molding body in the transverse direction of the axis. The pressing molding tip is coupled to the front end area of the molding body to pressurize and mold the workpiece. The pressing molding tip may have a roundly concave shape to be pressed and molded. The workpiece is composed of an upper workpiece and a lower workpiece, and a molding operation to combine the upper workpiece and the lower workpiece can be performed. The upper workpiece has a through hole in the central region, and the lower workpiece has a protruding pipe portion inserted into the through hole of the upper workpiece. The molding part of the pressing molding tip, which will be described later, is formed to pressurize in a round shape.When pressed with heat, the protruding pipe part is formed wide so that the through hole does not pass while the protruding pipe part is inserted into the through hole. It is to combine the work piece and the lower part.

The connection unit couples the heater unit and the molded body so as to be able to rotate relative to the axis and move relative to the axis. The connection unit includes a stopping flange part, a fastening male thread part, a coupler and a parallel guide part.

The stopping flange portion has a shape protruding outwardly in a ring shape to one of the heater housing and the molding body portion. The stopping flange portion may be formed by welding a ring to one of the heater housing and the molding body. Accordingly, the stopping flange portion is formed to have a locking shape by protruding from the surface of any one of the heater housing and the molding body portion.

The fastening male screw portion may be provided on the other of the heater housing and the molding body.

The coupler has a coupler body, an inward flange, and a fastening female thread. The coupler body is formed to surround the connection region of the heater housing and the molded body in a tubular shape.

The inward flange portion is formed on the inner wall surface of the coupler body and is formed to be caught by the stopping flange portion. The inward flange portion is provided in a flange shape so as to protrude inward from the inner wall surface of the front end of the coupler body to be caught by the stopping flange portion.

The fastening female thread is provided on the inner wall surface of the coupler body and is screwed to the fastening male thread.

The parallel guide portion has a shape that extends while being in surface contact along the surface of the heater housing from the stopping flange portion so that the coupler body moves in parallel along the axis of the air flow path. Thereby, the coupler body can be stably moved relative to the direction along the axis line.

The sleeve has a shape in which at least a portion of the molded body is inserted and the pressing molded tip is slidably accommodated. The sleeve has a cooling air inlet hole, a cooling air connection port, a work opening, a molded body receiving part, and an inward engaging part.

The cooling air inlet hole cools the workpiece after molding and cools the molded part.

The cooling air connection port is a connector through which cooling air moves.

The working opening is formed so that the pressing tip can enter and exit when the pressing tip is to mold the workpiece.

The molding body receiving portion is formed in a tubular shape to accommodate the molding body and the pressing molding tip.

Even if the inward locking part is inwardly extended from the upper area of the sleeve and the pressing molding tip is caught? Is formed.

The elastic member is disposed between the heater housing and the sleeve to apply elasticity to the sleeve in a direction away from the heater housing. After the press-molding tip molds the workpiece by the elastic member, elasticity is applied to return the press-molding part to the position before the molding.

The sealing member allows the heater housing and the molded body to be hermetically coupled by a connection unit while the inward flange portion is caught on the stopping flange portion.

5 is a diagram showing the installation operation of the connection unit.

Figure 5 (a) A coupler is disposed below to accommodate the heater housing.

Figure 5 (b) The coupler accommodates the heater housing.

Fig. 5 (c) After the stopping flange is disposed in the lower region of the heater housing, it is fixedly coupled by welding. Move the coupler to the lower area.

Fig. 5 (d) A fastening male thread formed at the tip of the molded body is screwed into the fastening female thread of the coupler.

Deformable embodiments other than the above-described embodiments will be described.

The pressurized molding unit may be controlled to drive the work, and a plurality of motors may be driven to make the pressurized molding unit move up and down, and a control unit for controlling the cooling air to move to the workpiece may be further included. It may further include a work drive unit configured to include a plurality of motors for forming the workpiece.

When the heater housing and the molding body are coupled by a connection unit, one of the lower end of the heater housing and the upper end of the molding body has at least one inclined surface toward the other, and the other has an inclined surface corresponding to the inclined surface. It is preferable that the heater housing has an inclination angle inward from the surface of the lower region and the molded body portion has an inclination angle outward from the upper end surface. Accordingly, when the pressing unit pressurizes the work piece, it can be supported by the coupler when the molding body unit is pressed downward by the heater housing. If the heater housing and the inclination angle of the main body are formed opposite, there may be a problem in transferring the load because the heater housing is squeezed inside the molding body.

Due to the above-described hot air fusion machine, the heater housing and the molding body can be rotated around the axis of the heater housing and can be moved relative to the longitudinal direction due to the connection unit, so damage caused by twisting and tightening of the heater, support, connection cable, etc. It is possible to prevent problems such as, etc., and a short circuit due to movement of the heater in the longitudinal direction, so that the performance of the heater can be stably maintained.

The connecting unit includes a coupler having a stopping flange, a fastening male thread, a coupler body, an inward flange, and a fastening female thread, and the heater housing and the molding body can rotate around the axis of the heater housing and can be moved relative to the length direction. Can be combined. Due to the parallel movement guide, the coupler body can be stably moved in parallel along the axis of the heater housing.

Due to the sealing member, external air introduced into the heater housing can be prevented from leaking out to the joint portion between the heater housing and the molding body.

Due to the sleeve and the elastic member, the pressing tip of the pressing part can be easily returned to its original position after molding the workpiece.

1: hot air fusion machine 2: upper work piece
3: lower work piece 10: heater unit
11: heater housing 12: heater
13: heater support 20: pressurized molding part
21: molding body part 22: pressure molding tip
30: connection unit 31: stop flange
32: fastening male thread 33: coupler
34: parallel guide portion 40: sleeve
41: cooling air inlet hole 42: cooling air connection port
43: work opening 44: molding body receiving part
45: inward engaging portion 50: elastic member
60: sealing member

Claims (5)

In the hot air fusing machine,
A heater unit having a tubular heater housing having an air inlet and forming an air flow path, and a heater disposed in the heater housing to heat air;
A molding body having a hot-air passage for receiving and passing the heat from the heater unit and connected to the heater unit along the axial direction, and a pressing molding that pressurizes and molds the workpiece by being coupled to the tip region of the molding body A pressing part having a tip; And
And a connection unit for coupling the heater unit and the molded body to enable relative rotation with respect to an axis and a relative movement along an axis direction,
The connection unit,
A stopping flange part protruding outwardly in a ring shape to one of the heater housing and the molding body part;
A fastening male screw portion provided on the other of the heater housing and the molding body portion;
A coupler body tubularly surrounding the connecting region of the heater housing and the molding body, an inward flange part formed on the inner wall surface of the coupler body and caught on the stopping flange part, and the fastening male screw provided on the inner wall surface of the coupler body A hot air fusing machine comprising a coupler having a fastening female screw portion screwed to the portion.
delete The method of claim 1,
The connection unit,
A hot air fusing machine, characterized in that it further comprises a parallel movement guide extending from the stopping flange portion to the surface contact along the surface of the heater housing so that the coupler body moves in parallel along the axis of the air flow path.
The method of claim 1,
And a sealing member for airtightly coupling the heater housing and the molded body part by the connection unit while the inward flange part is caught on the stopping flange part.
The method of claim 1,
A sleeve into which at least a portion of the molding body is inserted and accommodates the pressing molding tip in a sliding manner; And
And an elastic member disposed between the heater housing and the sleeve to apply elasticity to the sleeve in a direction away from the heater housing.

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