KR101213503B1 - Processing method and device for tube - Google Patents

Abstract

PURPOSE: A manufacturing method of a tube for vehicle bulbs and a device thereof are provided to manufacture two tubes at once from a trimmed glass pipe. CONSTITUTION: A manufacturing method of a tube for vehicle bulbs comprises the following steps: heating the middle portion of the cut glass tubes(5) with a first burner(21); forming a narrow portion(51) in the middle portion of the glass tube by pressurizing with a disk-shaped pressing knife(35); cooling the pressed glass tube; manufacturing two tubes(101) in which a connecting port(102) is formed at one time by cutting the cooled glass pipe; clamping the tube and exhaust pipes(103) to a tube clamp and an exhausting pipe clamp and heating the connector of the tube and the lower part of the exhaust pipe with a second burner(45); and combining the lower part of the exhausting pipe with the connector of the tube. [Reference numerals] (AA) Heating; (BB) Pressing; (CC, DD) External force

Description

Tube manufacturing method and device incorporating exhaust pipe for automobile bulbs {Processing method and device for tube}

The present invention relates to a tube manufacturing method and apparatus in which an exhaust pipe for automobile bulbs is coupled, and more particularly, a material conveying means for conveying a cut glass tube via heating means and cutting means; Heating means for installing a plurality of first burners in an intermediate portion of the material conveying means to heat the intermediate portion of the glass tube conveyed by the material conveying means; Cutting means which is installed at the upper end of the rear end of the material transfer means, presses the middle part of the glass tube heated by the heating means to form the cut portion at the middle part of the glass tube so that both ends of the glass tube are cut into two tubes around the cut portion. and; Combining means for heating and then combining the tube cut separately from the cutting means and the exhaust pipe manufactured separately, it can produce two tubes at a time from the cut glass tube can improve the product productivity significantly compared to the existing, The present invention relates to a tube manufacturing method and apparatus in which an exhaust pipe is combined so that the working environment is improved by eliminating the occurrence of silica generated when the glass tube is transferred in a heated state by coupling the carbon ring to the feed roller of the conveying means.

In general, bulbs are commonly referred to as automobile lamps. Bulb 100 made of glass inserts the filament 104 in a vacuum state inside the tube 101 forming the body of the bulb 100 as shown in FIG. 1A. It seals and manufactures the some terminal 105 in the lower end of the bulb 100.

In order to manufacture such a bulb, a connector 102 is formed on the upper portion of the tube 101 as shown in FIG. 1B, and a tube having a shape in which an exhaust pipe 103 having a predetermined length is coupled to the connector 102 is provided.

That is, after inserting and sealing the filament 104 in a vacuum state inside the tube 101 to which the exhaust pipe 103 is coupled as shown in FIG. 1B, the lower end of the exhaust pipe 103 is cut and then sealed to manufacture a bulb.

The prior art of manufacturing the tube 101 as shown in Figure 1b is to heat and process one end of the cut glass tube to a size capable of manufacturing one tube to form a connector 102, the exhaust pipe (102) 103).

However, the prior art is to produce a tube from a glass tube 5 having a size capable of producing one tube, which causes a problem of low production efficiency.

Therefore, the present invention for solving the above problems and the material conveying means for conveying the cut glass tube to be via the heating means and the cutting means; Heating means for installing a plurality of first burners in an intermediate portion of the material conveying means to heat the intermediate portion of the glass tube conveyed by the material conveying means; Cutting means which is installed at the upper end of the rear end of the material transfer means, presses the middle part of the glass tube heated by the heating means to form the cut portion at the middle part of the glass tube so that both ends of the glass tube are cut into two tubes around the cut portion. and; Combining means for heating and then combining the tube cut separately from the cutting means and the exhaust pipe manufactured separately, it can produce two tubes at a time from the cut glass tube can improve the product productivity significantly compared to the existing, The purpose of the present invention is to provide a tube manufacturing method and apparatus in which an exhaust pipe is combined so that the working environment is improved by eliminating the generation of silica generated when the glass tube is transferred in a heated state by coupling the carbon ring to the feed roller of the transfer means. do.

In order to achieve the above object,

A material conveying means for conveying the cut glass tube through the heating means and the cutting means;

Heating means for installing a plurality of first burners in an intermediate portion of the material conveying means to heat the intermediate portion of the glass tube conveyed by the material conveying means;

Cutting means which is installed at the upper end of the rear end of the material transfer means, presses the middle part of the glass tube heated by the heating means to form the cut portion at the middle part of the glass tube so that both ends of the glass tube are cut into two tubes around the cut portion. and;

And a coupling means for heating the tube cut in the cutting means and the exhaust pipe manufactured separately, and then combining the cut means.

According to the present invention, it is possible to produce two tubes from the cut glass tube at a time to significantly improve the product productivity compared to the existing, and the glass tube in the heated state by combining the carbon ring to the feed roller of the material transfer means Silica generated when the transfer is eliminated can be expected to improve the working environment.

1 illustrates a tube in which an automobile bulb and an exhaust pipe are coupled;
2 is a view showing a tube manufacturing process coupled to the exhaust pipe of the present invention.
Figure 3 is a view showing a tube manufacturing apparatus coupled to the exhaust pipe of the present invention.
Figure 4 is a perspective view showing a material transfer means applied to the present invention.
5 is a plan view showing a material transfer means applied to the present invention.
6 and 7 is a front sectional view showing a material transport means applied to the present invention.
8 is a perspective view showing a feed roller applied in the present invention.
Figure 9 is a sectional view showing a feed roller applied to the present invention.
10 is a view showing a coupling means applied to the present invention.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings, FIGS. 1 to 10.

According to the drawings, the tube manufacturing method is coupled to the exhaust pipe of the present invention,

A first step of having a cut glass tube (5) and heating the middle portion of the glass tube (5) using the first burner (21);

While rotating the glass tube 5 heated in the first step, the middle portion of the glass tube 5 is pressed using a disc-shaped pressing knife 35 so that the cut portion 51 is formed in the middle portion of the glass tube 5. A second process of doing;

A third step of cooling the glass tube 5 pressed in the second step;

A fourth process of producing two tubes 101 having the connector 102 formed at a time by cutting by applying external force while holding both ends of the glass tube 5 cooled in the third process;

After the tube 101 produced in the fourth process and the exhaust pipe 103 separately manufactured are clamped to the tube clamp 43 and the exhaust pipe clamp 44 so that the exhaust pipe 103 is positioned directly above the tube 101. A fifth process of injecting a second burner 45 between the tube 101 and the exhaust pipe 103 to heat a portion of the connector 102 of the tube 101 and the lower end of the exhaust pipe 103 at a time;

A sixth process of lowering the exhaust pipe clamp 44 after the fifth process so that the lower end of the exhaust pipe 103 is coupled to the connector 102 of the tube 101; Characterized in that configured.

On the other hand, the tube manufacturing apparatus is coupled to the exhaust pipe of the present invention

A material conveying means (1) for conveying the cut glass tube (5) via the heating means (2) and the cutting means (3);

Heating means (2) for installing a plurality of first burners (21) in the middle of the material conveying means (1) to heat the middle part of the glass tube (5) conveyed by the material conveying means (1);

It is installed at the upper end of the rear end of the material conveying means 1, and presses the middle part of the glass tube 5 heated by the heating means 2 so that the cut part 51 is formed in the middle part of the glass tube 5. Cutting means (3) for cutting both ends of the glass tube (5) into two tubes (101) around the portion (51);

Coupling means (4) for heating and then combining the tube 101 cut from the cutting means 3 and the exhaust pipe 103 manufactured separately; Characterized in that configured.

The material transfer means (1)

A plurality of rotating shafts 13 that rotate with the power of the driving motor 14 are installed on the roller mounting stand 12 provided to face the predetermined intervals on the base 11 at equal intervals, and a plurality of the rotating shafts 13 are provided on each of the rotating shafts 13. Combining the feed rollers 15 of the feed rollers, the outer periphery of the feed rollers 15 fitted to each of the rotating shaft 13 is configured to intersect, and the glass tube 5 is transferred to the outer periphery of the feed roller 15 Forming a conveying groove 156 to make the glass tube 5 is characterized in that configured to be transported to the next conveying roller position in the conveying groove 156 according to the rotation period of the conveying roller 15.

The material transfer means 1 is a predetermined length is formed on the upper left side of the base 11, as shown in Figure 3, and installed on the upper left side of the base 11 so as to face a pair of roller mounting brackets 12, A plurality of rotary shafts 13 are fitted to the roller mount 12, and each rotary shaft 13 is configured to rotate by the power of the drive motor 14.

Then, four feed rollers 15 are fitted to each of the rotating shafts 13 so that the outer periphery of the feed rollers 15 intersects with a predetermined portion, and the glass tube 5 is provided on the outer periphery of the feed rollers 15. By forming the conveying groove 156 for conveying in one direction, the glass tube 5 is sequentially conveyed to the right side in the drawing by the conveying groove 156 of the rotating conveying roller 15.

At this time, the glass tube 5 is stopped while rotating between the conveying roller 15 and the conveying roller 15 for a while.

A first burner 21 is installed between the rotating shaft 13 and the rotating shaft 13 from the plurality of rotating shafts 13 installed on the roller mounting stand 12 to reach the middle end to the rear end thereof, so that the feed roller 15 and the transfer roller 15 are transported. The first burner 21 causes the middle of the glass tube 5 to heat when the glass tube 5 stops rotating between the rollers 15.

On the other hand, the alignment plate 16a is installed on the upper portion of the roller mounting stand 12, and the alignment plate 16a for aligning the glass tube 5 transferred by the feed roller 15 by operating back and forth by the alignment cylinder 16. Is installed so as to face both sides of the feed roller 15 so that when the glass tube 5 moves between the feed roller 15 and the feed roller 15, the alignment plate 16a is advanced to closely adhere to both sides of the glass tube 5. Thus, the first burner 21 can be heated precisely in the middle of the glass tube 5.

On the other hand, the cutting means (3)

The first cylinder 31 is installed upward on both sides of the upper end of the roller mounting stand 12, the horizontal stand 32 is installed on the piston of the first cylinder 31, and the middle portion of the horizontal stand 32 is provided. 2 cylinder 33 is installed downward, the operating plate 34 is coupled to the piston end of the second cylinder 33, and the disk-shaped pressing knife 35 rotatably coupled to the operating plate 34 By pressing the first knife 31 and the second cylinder 33, the pressing knife 35 descends and presses the middle portion of the glass tube 5 transferred to the cutting position, and the cut portion 51 is placed in the middle portion of the glass tube 5. Is formed is configured to be cut into two tubes 101 at both ends of the glass tube (5) around the cut portion (51).

The glass tube cutting position is preferably set to the glass tube cutting position when the glass tube 5 is positioned between the eighth and ninth feed rollers 15 from the left among the feed rollers 15 installed on the roller mount 12. Do.

On the other hand, the alignment actuator for aligning the end of the glass tube (5) to the right position by moving back and forth between the operation (17a) in the upper portion of the rear end of the roller mounting table 12 in order to align the glass tube (5) conveyed to the cutting position ( 17) of the pressing means of the cutting means 3 as the alignment actuator 17 is operated when the glass tube 5 is transferred to the cutting position and the operation 17a aligns the glass tube 5 in position. 35 can accurately press the middle part of the glass tube 5.

In addition, the feed roller 15 is configured as shown in Figure 8 and 9 has a disk-shaped roller body 152 is formed with a shaft coupling hole 151 in the center, the outside of the roller body 152 A stepped portion 153 is formed on the circumference, and the carbon ring 154 having the stepped surface 155 to be joined to the stepped portion 153 is coupled to the outer circumference of the roller body 152 and the carbon ring 154 The outer periphery of the) is characterized in that the conveying groove 156 for conveying the glass tube (5).

As such, when the carbon ring 154 of the carbon material is coupled to the outer circumference of the roller body 152, silica is not generated when the glass tube 5 is transferred by the feed roller 15, thereby maintaining a clean working environment. .

That is, when the heated glass is in contact with the metal, the heated portion of the glass is in contact with the metal surface to generate dust such as spider web, that is, silica. The carbon ring 154 of the carbon material is formed on the outer circumference of the roller body 152. When installed in the surface of the heated glass tube 5 and the carbon ring 154 is in contact with the silica such as spider web is not generated.

The reason is that the carbon ring 154 is manufactured by compressing fine carbon powder, so that the heated portion does not adhere to the carbon ring 154 even when the heated portion of the glass tube 5 contacts the carbon ring 154.

On the other hand, when the middle portion of the glass tube 5 heated by the pressing knife 35 is pressed, a convex portion 51 is formed in the middle portion of the glass tube 5 as shown in FIG. 2D, and is located at the rear end of the cutting position. The glass tube 5 is naturally cooled as the glass tube 5 is transported to the rear end by two feed rollers 15, and when not transferred to the position of the last feed roller 15, the cutting robot (not shown) is provided at both ends of the glass tube 5. After grabbing and bending, it will produce two tubes 101 as shown in FIG. 2e.

The produced tube 101 is supplied to the coupling means 4 through a separate transfer line.

The coupling means 4 is

The rear end of the base 11 is provided with a rotating device portion 41 to rotate in one direction, and a plurality of coupling bodies 42 are installed on the circumference of the rotating device portion 41,

The lower end of the coupling body 42 is provided with a tube clamp 43 for clamping the tube 101, the upper end of the coupling body 42 to move up and down the exhaust pipe clamp 44 for clamping the exhaust pipe 103 manufactured separately It is possible to install, and enters between the tube clamp 43 and the exhaust pipe clamp 44, the second burner 45 for heating the connector 102 portion of the tube 101 and the lower end of the exhaust pipe 103 at the same time, the rotary device unit ( 41) It is characterized by being installed outside.

Coupling means 4 is a device for coupling the tube 101 produced by the cutting means 3 and the exhaust pipe 103 produced separately.

As shown in FIG. 10, the tube 101 is clamped to the tube clamp 43 provided at the lower end of the coupling body 42, and the exhaust pipe is provided at the exhaust pipe clamp 44 provided to enable the vertical movement of the coupling body 42. 103 is clamped in the longitudinal direction.

The second burner 45 is advanced between the tube 101 and the exhaust pipe 103 to eject the flame in the vertical direction to simultaneously heat the connector 102 portion of the tube 101 and the lower end of the exhaust pipe 103. When the tube 101 and the exhaust pipe 103 are sufficiently heated by the two burners 45, the exhaust pipe clamp 44 is lowered to couple the lower end of the exhaust pipe 103 to the connector 102 of the tube 101. .

Referring to the operation of the present invention configured as described above is as follows.

First, the cut glass tube 5 as shown in FIG. 2a is provided, and the prepared glass tube 5 is supplied to the material conveying means 1 so as to be sequentially conveyed by a plurality of feed rollers 15.

In the process of conveying the glass tube 5 by the feed roller 15, the intermediate portion of the glass tube 5 is formed by the first burner 21 between the feed roller 15 and the feed roller 15. Heated together.

When the intermediate portion of the glass tube 5 is heated by the plurality of first burners 21 and reaches the cutting position in the process of being transferred by the feed roller 15, the pressing knife 35 is moved from the upper side of the cutting position. By lowering (see FIG. 2C), the middle portion of the glass tube 5 is pressed so that the cut portion 51 is formed in the middle portion as shown in FIG. 2D.

The glass tube 5 in which the cut-out part 51 is formed in the middle part at the cutting position is naturally cooled by being conveyed by the feed roller 15 of the rear end, and the glass pipe 5 conveyed to the last feed roller 15 is not shown. The robot for cutting is to hold both ends of the glass tube (5) and then be folded to produce two tubes (101) as shown in FIG.

The produced tube 101 is clamped to the tube clamp 43 of the coupling means 4 as shown in FIG. 2F, and the second burner 45 is clamped after the separately manufactured exhaust pipe 103 is clamped to the exhaust pipe clamp 44. By heating the upper end of the tube 101 and the lower end of the exhaust pipe 103 at the same time by dropping the exhaust pipe clamp 44 is to couple the exhaust pipe 103 to the tube 101.

1: material transfer means, 2: heating means,
3: cutting means, 4: coupling means,
5: glass tube, 11: base,
12: roller mount, 13: rotating shaft,
14: drive motor, 15: feed roller,
16: alignment cylinder, 16a: alignment plate,
17: alignment actuator, 17a: between operations,
21: first burner, 31: first cylinder,
32: horizontal stage, 33: second cylinder,
34: operating plate, 35: pressing knife,
41: the rotating unit 42, the coupling body,
43: tube clamp, 44: exhaust pipe clamp,
45: second burner, 51: buckle,
100: bulb, 101: tube,
102: connector, 103: exhaust pipe,

Claims (7)

A first step of having a cut glass tube (5) and heating the middle portion of the glass tube (5) using the first burner (21);
While rotating the glass tube 5 heated in the first step, the middle portion of the glass tube 5 is pressed using a disc-shaped pressing knife 35 so that the cut portion 51 is formed in the middle portion of the glass tube 5. A second process of doing;
A third step of cooling the glass tube 5 pressed in the second step;
A fourth process of producing two tubes 101 having the connector 102 formed at a time by cutting by applying external force while holding both ends of the glass tube 5 cooled in the third process;
After the tube 101 produced in the fourth process and the exhaust pipe 103 separately manufactured are clamped to the tube clamp 43 and the exhaust pipe clamp 44 so that the exhaust pipe 103 is positioned directly above the tube 101. A fifth process of injecting a second burner 45 between the tube 101 and the exhaust pipe 103 to heat a portion of the connector 102 of the tube 101 and the lower end of the exhaust pipe 103 at a time;
A sixth process of lowering the exhaust pipe clamp 44 after the fifth process so that the lower end of the exhaust pipe 103 is coupled to the connector 102 of the tube 101; Tube manufacturing method is coupled to the exhaust pipe for automobile bulbs, characterized in that configured as.
A material conveying means (1) for conveying the cut glass tube (5) via the heating means (2) and the cutting means (3);
Heating means (2) for installing a plurality of first burners (21) in the middle of the material conveying means (1) to heat the middle part of the glass tube (5) conveyed by the material conveying means (1);
It is installed at the upper end of the rear end of the material conveying means 1, and presses the middle part of the glass tube 5 heated by the heating means 2 so that the cut part 51 is formed in the middle part of the glass tube 5. Cutting means (3) for cutting both ends of the glass tube (5) into two tubes (101) around the portion (51);
Coupling means (4) for heating and then combining the tube 101 cut from the cutting means 3 and the exhaust pipe 103 manufactured separately; Tube manufacturing apparatus is coupled to the exhaust pipe for automobile bulbs, characterized in that configured as.
The method of claim 2,
The material transfer means (1)
A plurality of rotating shafts 13 that rotate with the power of the driving motor 14 are installed on the roller mounting stand 12 provided to face the predetermined intervals on the base 11 at equal intervals, and a plurality of the rotating shafts 13 are provided on each of the rotating shafts 13. Combining the feed rollers 15 of the feed rollers, the outer periphery of the feed rollers 15 fitted to each of the rotating shaft 13 is configured to intersect, and the glass tube 5 is transferred to the outer periphery of the feed roller 15 The exhaust pipe for automobile bulbs, characterized in that for forming the conveying groove 156 to the glass tube 5 is transported to the next conveying roller position in accordance with the rotation cycle of the conveying roller (15) Combined tube making device.
The method of claim 2,
Material transfer means (1)
The alignment cylinder 16 is installed on the upper portion of the roller mounting stand 12, and the alignment plate 16a is transferred to the front and rear operation by the alignment cylinder 16 to align the glass tube 5 transferred by the feed roller 15. Installed so as to face both sides of the roller (15),
Alignment actuator 17 for aligning the end of the glass tube 5 to the right position by moving the operating section 17a forward and backward on the rear end of the roller mounting stand 12 to align the glass tube 5 transferred to the cutting position. Tube manufacturing apparatus is coupled to the exhaust pipe for automobile bulbs characterized in that installed.
The method of claim 3, wherein
The feed roller 15 is provided with a disk-shaped roller body 152 having a shaft coupling hole 151 in the center, and forms a stepped portion 153 on the outer periphery of the roller body 152, the stepped portion The transfer ring for transporting the glass tube 5 to the outer periphery of the roller body 152 and the carbon ring 154 having the stepped surface 155 to be joined to the 153, the outer periphery of the carbon ring 154 156, the tube manufacturing apparatus is coupled to the exhaust pipe for automobile bulbs.
The method according to claim 2,
The cutting means (3)
The first cylinder 31 is installed upward on both sides of the upper end of the roller mounting stand 12, the horizontal stand 32 is installed on the piston of the first cylinder 31, and the middle portion of the horizontal stand 32 is provided. 2 cylinder 33 is installed downward, the operating plate 34 is coupled to the piston end of the second cylinder 33, and the disk-shaped pressing knife 35 rotatably coupled to the operating plate 34 By pressing the first knife 31 and the second cylinder 33, the pressing knife 35 descends and presses the middle portion of the glass tube 5 transferred to the cutting position, and the cut portion 51 is placed in the middle portion of the glass tube 5. Is formed is a tube manufacturing apparatus coupled to the exhaust pipe for automobile bulbs, characterized in that configured to be cut into two tubes 101 at both ends of the glass tube (5) around the narrowing portion (51).
The method of claim 2,
The coupling means 4 is
The rear end of the base 11 is provided with a rotating device portion 41 to rotate in one direction, and a plurality of coupling bodies 42 are installed on the circumference of the rotating device portion 41,
The lower end of the coupling body 42 is provided with a tube clamp 43 for clamping the tube 101, the upper end of the coupling body 42 to move up and down the exhaust pipe clamp 44 for clamping the exhaust pipe 103 manufactured separately It is possible to install, and enters between the tube clamp 43 and the exhaust pipe clamp 44, the second burner 45 for heating the connector 102 portion of the tube 101 and the lower end of the exhaust pipe 103 at the same time, the rotary device unit ( 41) Tube manufacturing apparatus combined with the exhaust pipe for automobile bulbs, characterized in that installed on the outside.

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