KR100434034B1 - device for forming of glass case in lamp - Google Patents

Abstract

The present invention relates to an apparatus for forming a glass sphere for a lamp, the lens unit forming frame for forming the lens portion of the glass sphere can be rotated, the lens unit groove and the first, second reflecting unit molding frame of the lens unit molding frame When the glass sphere forms a space part by the first and second reflection part grooves of the glass part and then forms one glass sphere in accordance with the shape of the space part, the glass sphere rotates together with the lens mold in the process of becoming a solid state. The outer circumferential surface of the glass sphere to be molded is smoothed while slipping in contact with the groove surface of the first and second reflection portions of the first and second reflection portion forming molds.

To this end, the present invention is provided with a lens unit forming frame 106 having a lens unit groove 105 concave to the upper surface in the support 101, and the first and second reflector grooves 108 respectively as a part facing each other. First and second reflector forming mold 109 (111) having a 110, the lens unit groove 105 and the first and second reflector forming mold 109 of the lens forming mold 106 In the first and second reflecting portion grooves 108 and 110 of the 111 to form a single space portion for forming the glass sphere, the indentation portion 102 with the upper side open to the support 101. Is formed, and the rotary table 104 is axially coupled to rotate in response to the driving force of the motor 103, and the lens unit forming mold 106 is rotated together when the rotary table 104 is rotated. The first and second reflector forming molds 109 and 111 are fixed to a rotating table so that the first and second reflector forming molds 109 and 111 may be gathered or unfolded about the same hinge axis 112 in a horizontal direction. It is installed to be rotatable, and around the concave inlet portion 102 of the upper surface of the support 101 along the circumference of the support engaging jaw 115 and the support engaging groove 116 is formed integrally, the first, second The first and second reflecting molds are rotated in the direction in which the first and second reflecting molds are gathered with respect to the hinge shaft 112 and are brought into contact with the lower ends of the reflecting molds 109 and 111. First and second molding frame locking jaws 117 and 118 to be prevented from being detached from the lower part of the first and second reflector forming molds 109 and 111 while being caught by the jaw 115 and the support locking groove 116. And first and second molding frame locking grooves 119 and 120 are integrally formed to provide a molding apparatus for a glass sphere for a lamp.

Description

Device for forming of glass case in lamp

The present invention relates to the field of the molding of the glass sphere for lamps, and more particularly, the outer peripheral surface of the reflecting portion during molding while integrally molding the lens portion having a plurality of protrusions in the reflection portion having a substantially conical shape and a slightly curved streamline shape The molding apparatus of the glass sphere for lamps which became smooth.

In general, the lamp is one of the electrical appliances to light the surroundings by generating electric light by the power supply, in particular, the lamp used in the outdoor is a good condition that can be externally shocked, as well as the voltage Due to the relatively high relationship, some components are different from ordinary incandescent lamps.

So let's first look at the structure of the lamp mainly used in the outdoors to help the understanding of the present invention.

As shown in FIG. 1, a base portion 1 having a thread is formed on an outer surface thereof so as to be integral with the stem tube 12 having the filament 11 so as to be coupled to the socket, and one end of the base portion is fixed thereto. It consists of a glass sphere (2) for protecting the stem tube (12) while extending in a closed state and maintaining the interior in a vacuum state.

The glass sphere 2 has a reflecting portion 21 having a substantially conical shape so as to be collected on one side while reflecting light spreading in all directions as the filament 11 of the stem tube 12 is emitted, and at the end of the reflecting portion. It consists of a lens unit 22 having a slight curvature in a streamlined shape along the horizontal direction so that the light collected integrally formed and collected to one side is spread out while being irradiated to the outside. A plurality of hemispherical protrusions 23 are formed in a state of protruding to the outside.

Accordingly, when the lamp is screwed into the socket using the base 1 and then the power is supplied through the socket, the filament 11 of the stem tube 12 constituting the base 1 emits light. The light which is generated and spreads to the reflecting portion 21 of the glass sphere 2 is reflected while hitting the inner diameter portion of the reflecting portion, and its path is changed toward the lens portion 22 forming the glass sphere 2 and immediately the The light that spreads toward the lens part and hits the reflector 21 and whose path is changed toward the lens part 22 merges with the light that spreads toward the lens part 22 directly from the beginning and then through the lens part 22 to the outside. As it is irradiated and emitted, the dark place in the outdoor brightens.

As described above, the glass sphere 2, which is a component of the lamp, includes a reflecting portion 21 having a substantially conical shape and a lens portion 22 having a slight deflection in a streamlined shape along the horizontal direction. In order to mold the glass sphere of the structure, one molding apparatus is required.

Conventional glass sphere molding apparatus has a support 51 that is supported on the bottom surface as shown in Figures 2 to 4 attached, the upper surface of the support so that the lens portion 22 of the glass sphere 2 can be molded The lens part forming mold 53 in which the sub groove 52 is recessed to be slightly curved in a streamline shape is fixed, and the lens part of the glass sphere 2 is formed in the lens part groove 52 of the lens part forming mold. When the 22 is molded, a plurality of hemispherical grooves 54 are formed so that the plurality of protrusions 23 are integrally formed in the lens unit, and between the lens unit forming frame 53 of the upper surface of the support 51. On the both sides thereof, the first reflecting portion forming mold 56 and the first reflecting portion forming mold 56 and the second reflecting portion forming grooves 58 formed with the first reflecting portion grooves 55 are formed on the opposite sides, respectively. It is installed to be movable in the horizontal direction, the first and second reflector forming molds 56, 58 are formed on the support 51, respectively, during the movement Separate means, not shown, which are guided in a state not separated by the first and second guide pieces 59 and 60, which are not shown, on the outer side surface of the first and second reflector forming molds 56 and 58. The first and second links 61 and 62 are connected to each other so as to receive the movement force generated by the second and second links.

Hereinafter, a process of molding the glass sphere by the conventional molding apparatus for the glass bulb for lamp having such a structure will be described.

In the state before the forming operation of the glass sphere (2), as shown in Figure 3a attached to each of the upper surface of the support 51, the lens unit forming frame 53 is disposed between the movable in the horizontal direction, respectively The first and second reflector forming molds 56 and 58 are moved away from each other, and in this state, the first and second reflector forming molds 56 and 58 are separated from each other at a predetermined distance. .

In the state as shown in FIG. 3A, the liquefied glass is buried in a blowing pipe, and then the liquefied glass is blown into the liquefied glass through the blowing pipe. The blowing pipe is positioned perpendicular to the center between the first and second reflector forming frames 56, 58 so that it is below the horizontal line connecting the upper ends of the 56, 58.

In this state, the blowing force is gradually blown into the liquefied glass by the blowing pipe, and a moving force is generated by means not shown, thereby transferring the moving force to the outer side surfaces of the first and second reflector forming molds 56 and 58. When the first and second reflector molds 56 and 58 are transferred to the first and second reflector molds 56 and 58 through the first and second links 61 and 62, respectively, the first and second reflector molds move in a direction closer to each other. At some point in the movement, as shown in FIGS. 3B and 4A, the first and second reflector forming molds 56 and 58 face each other while being positioned directly above the lens forming mold 53 fixed to the support plate 51. The face is in contact.

Therefore, the first and second reflecting portion grooves formed on the opposing surfaces of the lens portion groove 52 and the first and second reflecting portion forming molds 56 and 58 formed concave on the upper surface of the lens forming mold 53 ( 55 and 57 form one space for forming the glass sphere 2.

On the other hand, if the operator continues to blow air into the liquefied glass through the blowing pipe in the state as shown in Figure 4a and the liquefied glass is inflated at any time, the first and second reflection mold 56, 58 of the first and second The first and second reflector grooves 55 and 57 and the lens unit groove 52 are in contact with the reflector grooves 55 and 57 and the lens unit grooves 52 of the lens forming mold 53. One glass sphere (2) to be used for the lamp is provided once while maintaining the shape of the space portion made by), in which case liquefied glass is formed in the lens portion groove (52) of the lens portion forming mold (53). Since each of the plurality of grooves 54 are filled, a plurality of protrusions for preventing diffuse reflection of light on the lens unit 22 of the glass sphere when the glass sphere 2 is formed in a complete form through the process described below ( It is understood that 23) is formed in a hemispherical shape.

Through this process, immediately after one glass sphere shape to be used for the lamp is prepared (caustic state), when the liquefied glass solidifies to a solid state and the complete glass sphere 2 is formed, The transfer force by the first and second reflector molds 56 and 58, which are in contact with each other, so that the first and second reflector molds are horizontally moved in a direction away from each other, and then the molded glass sphere (2) is taken out, and then the glass sphere is used to manufacture a lamp through a separate post-treatment process.

When the first and second reflector forming molds 56 and 58 are moved in a direction close to each other or move in a direction away from each other by receiving a moving force generated by a separate means in the operation of the conventional apparatus described above. It is understood that the lower part of the first and second reflector forming molds 56 and 58 is moved by the first and second guide pieces 59 and 60 formed on the support 51, respectively. Accordingly, in the process of moving the first and second reflector forming molds 56 and 58, stability is achieved without disturbance.

However, the conventional molding apparatus for the glass sphere for lamps has a structure in which the lens unit forming mold 53 does not rotate, so that the lens unit groove 52 and the first and second reflecting unit molding frames 56 of the lens unit molding frame are rotated. When the glass sphere 2 is formed by forming the space portion by the first and second reflector grooves 55 and 57 of (58), and then forming one glass sphere in accordance with the shape of the space portion, the glass sphere is in a solid state in a perfect form. As the glass sphere in the state of completion of molding is not smooth in the process of being made, the surface, which is the outer circumferential surface of the reflector 21, becomes unsmooth, and is then used in the manufacture of the lamp after the post-treatment process. When the lamp is operated in the light reflectance of the reflector 21 is lowered, there is a problem in that the efficiency of the use of the lamp is eventually reduced.

In addition, the first and second reflector forming molds 56 and 58 move in the horizontal direction, and in order to actually form the glass sphere 2, the first and second reflector forming molds 56 and 58 are formed. 1) and 2nd guide piece 59 (60) formed only at the lower end portions of the first and second reflector forming molds 56 and 58, respectively, when they are moved in a direction close to each other. Since the separation is prevented in the state of hanging, the coupling force between the first and second reflective part forming molds 56 and 58 and the support 51 is dropped, and the first and second reflective part forming molds are formed during the molding process of the glass sphere. 56) 58 is easily shaken when subjected to any external impact, which is provided as a cause of the problem that leads to the failure of the glass sphere.

The present invention has been made to solve the above-mentioned problems, the object of the present invention is to provide a structure that can rotate the lens unit forming frame for molding the lens unit of the glass sphere, the lens unit groove and the first of the lens unit forming frame The lens part is formed in the process of forming the glass part in the solid state when forming the glass part according to the shape of the space part after forming the space part by the first and second reflecting part grooves of the second reflecting part forming mold. The outer circumferential surface of the glass sphere to be formed as it rotates together with the frame is to be smoothed while slipping in contact with the groove surface of the first and second reflector of the first and second reflector forming mold.

In addition, another object of the present invention is to have a structure in which the first and second reflector forming mold rotates around the same one hinge axis, and the first and second reflector forming mold is centered on the hinge axis to actually form the glass sphere. When the contact is rotated in the direction of gathering with each other, the lower part of the first and second reflector forming molds are coupled to each other in a state where the separation is prevented from the support, so that the bonding force is improved. The 1st and 2nd reflector molds do not shake easily even if they are externally impacted.

1 is a front view of a state in which a portion is cut to show the lamp as a reference

Figure 2 is an exploded perspective view showing a conventional molding apparatus for the glass sphere for lamps

3A is a plan view illustrating a process of molding a glass sphere by a conventional apparatus for forming a glass sphere for a lamp, and a state diagram in which the first and second reflection part molding frames are horizontally moved away from each other;

3B is a plan view illustrating a process of forming a glass sphere by a conventional apparatus for forming a glass sphere for lamps, in which the first and second reflector forming molds are horizontally moved to contact each other;

4A is a cross-sectional view taken along the line I-I of FIG. 3B, showing a state before the glass sphere has a perfect shape.

FIG. 4B is a cross-sectional view taken along the line I-I of FIG. 3B, in which the glass sphere has a complete shape. FIG.

Figure 5 is an exploded perspective view showing a molding apparatus of the glass sphere for the lamp of the present invention

Figure 6a is a plan view showing a process of forming a glass sphere by the molding apparatus of the glass sphere for the lamp of the present invention, a state in which the first and second reflecting portion forming frame is rotated apart from each other

Figure 6b is a plan view showing a process of forming a glass sphere by the molding apparatus of the glass sphere for the lamp of the present invention, a state in which the first and second reflector forming mold is rotated in contact with each other

FIG. 7A is a cross-sectional view taken along the line II-II of FIG. 6B, showing a state before the glass sphere is fully formed. FIG.

FIG. 7B is a cross-sectional view taken along the line II-II of FIG. 6B, in which the glass sphere has a complete shape; FIG.

Explanation of symbols for the main parts of the drawings

101. Support 102. Indent

103. Motor 104. Rotary Table

105. Lens part groove 106. Lens part molding frame

107. Groove 108. First reflector groove

109. Mold for the first reflector 110. Groove for the second reflector

111. Molding frame for the second reflector 112. Hinge shaft

113. The first link 114. The second link

115. Supporting latch 116. Supporting locking groove

117. Jaw Jaw of First Mold 118. Jaw Jaw of Second Mold

119. 1st molding frame locking groove 120. 2nd molding frame locking groove

According to an aspect of the present invention for achieving the above object, the support portion is provided with a lens portion forming frame having a lens portion groove concave to the upper surface and the first and second reflection portion grooves each having a portion facing each other, In the case where the reflector forming mold is provided, the lens groove of the lens forming mold and the first and second reflector grooves of the first and second reflector forming molds together form a space for forming a glass sphere. And a concave inlet is formed with the upper portion open to the support, and the concave table is axially coupled to rotate under the driving force of the motor, and the lens part forming frame rotates together when the rotating table rotates. Fixed to the first and second reflector forming molds are rotatably installed in a horizontal direction so that they can be gathered or unfolded about the same hinge axis, and the upper surface of the support In the periphery of the mouth, the support locking jaw and the support locking groove are integrally formed along the periphery of the mouth, and the first and second reflecting molds are formed in the bottom of the first and second reflecting molds. The first and second molding frame locking jaws and the first and second molds to prevent the entire lower portion of the first and second reflector forming molds from being detached while being caught by the support catching jaw and the support catching groove formed in the support when rotated to the contact. Provided is a molding apparatus for a glass sphere for a lamp, characterized in that the forming mold locking groove is formed integrally.

Hereinafter, the present invention will be described in more detail with reference to FIGS. 5 to 7.

5 is an exploded perspective view showing a molding apparatus of the glass sphere for the lamp of the present invention, Figures 6a and 6b is a plan view showing a process of molding the glass sphere by the molding apparatus of the glass sphere for the lamp of the present invention, Figures 7a and 7b is 6B is a cross-sectional view taken along the line II-II of the present invention, in which the support 101 is supported on the bottom surface, and the support is formed with a recess 102 having an open top. The motor 103 is installed to generate a driving force by receiving power, and the rotation table 104 is axially coupled to the motor so as to be rotated by the driving force of the motor 103 in a state located in the recess 102. The lens part forming frame 106 is fixed to the rotating table so that the lens part groove 105 is concave to be slightly curved in a streamline shape so that the lens part 22 of the glass sphere 2 can be molded. Glass in the lens groove 105 of the sub-molding die When the lens portion 22 of the sphere 2 is molded, a plurality of hemispherical grooves 107 are formed such that the plurality of protrusions 23 are integrally formed on the lens portion.

In addition, the second reflecting portion is formed on the upper surface of the support 101, the first reflecting portion forming frame 109 and the second reflecting portion groove 110, the first reflecting portion groove 108 is formed in the portion facing each other Molding frame 111 is rotatably installed in the horizontal direction about the same hinge shaft 112, the hinge shaft 112 of the outer side of the first and second reflector forming frame (109, 111) The first and second links 113 and 114 are connected to the front opposite to each other so as to receive rotational force generated by a separate means (not shown).

And around the concave inlet portion 102 of the upper surface of the support 101, the support engaging jaw 115 and the support engaging groove 116 is integrally formed along the circumference, the first and second reflector forming frame 109 The first and second molding frame locking jaws 117 and 118 and the first and second molding frame locking grooves 119 and 120 are integrally formed in the lower end of the 111, respectively. When the two reflector forming molds 109 and 111 are rotated in contact with each other about the hinge axis and contacted with each other, all of the lower ends of the first and second reflector forming molds 109 and 111 are respectively supported. ) To ensure that the separation is prevented.

The outer side of the first and second reflector forming molds 109 and 111 and the support 101 are gathered with each other around the hinge shaft 112 of the first and second reflector forming molds 109 and 111. The first and second reflector forming molds 109 and 111 are connected to the first and second springs 121 and 122, respectively, so as to have a restoring force when rotated in contact with each other.

The process of molding the glass sphere by the molding apparatus of the glass sphere for lamps of the present invention having such a structure will be described below.

In the state before starting the forming operation of the glass sphere 2, the first and second reflecting portion which is installed to be rotatable by the same hinge shaft 112 on the upper surface of the support 101 as shown in Figure 6a attached Molding molds 109 and 111 are rotated in a direction in which each other, and in this state, the first and second reflector molding molds 109 and 111 are separated while maintaining a constant angle.

In the state as shown in FIG. 6A, the operator drives the motor 103 installed in the recess 102 of the support 101 to form the lens part fixed to the rotation table together with the rotation table 104 axially coupled to the motor. After the mold 106 is rotated, the liquefied glass is buried in a blowing pipe, and the liquefied glass connects the upper ends of the first and second reflector forming molds 109 and 111 in a state of blowing some air. The blowing pipe is positioned perpendicular to the center between the first and second reflector forming molds 109 and 111 so as to be below the horizontal line.

In this state, the blowing force is gradually blown into the liquefied glass through the blowing pipe to generate a moving force by means not shown, and the moving force is hinged on the outside of the first and second reflector forming molds 109 and 111. The first and second reflector forming molds 109 and 111 are transferred to the first and second reflector forming molds 109 and 111 through first and second links 113 and 114 connected to the front opposite to the shaft 112, respectively. Is rotated in the direction of gathering while receiving the elasticity of the first and second springs 121 and 122, respectively, the first and second reflector forming molds 109 and 111 as shown in FIGS. 6B and 7A. The bottom circumferences of the first and second reflector grooves 108 and 110 of the first and second reflector grooves 108 and 110 respectively coincide with the bottom circumferences of the lens part grooves 105 of the lens molding die 106.

Accordingly, the first and second reflector grooves formed on the opposing surfaces of the lens unit grooves 105 and the first and second reflector forming molds 109 and 111 formed in the upper surface of the lens unit forming mold 106. 108 and 110 form one space for forming the glass sphere 2.

On the other hand, if the operator continuously blows air into the liquefied glass through the blowing pipe in the state as shown in Figure 7a and the liquefied glass is inflated at any moment, the first and second of the first and second reflector forming mold 109 (111) Contacting the lens grooves 105 of the reflector grooves 108 and 110 and the lens shaping mold 106, and thus the first and second reflector grooves 108 and 110 and the lens grooves 105 One glass sphere 2 to be used for the lamp is provided once while maintaining the shape of the space portion formed by the above, wherein the liquefied glass is formed in the lens portion groove 105 of the lens portion forming mold 106. Since the plurality of grooves 107 are respectively filled in, the plurality of protrusions 23 for preventing diffuse reflection of light on the lens unit 22 of the glass sphere when the molding of the glass sphere 2 is completed through the process described below. It is understood that is formed in a hemispherical shape.

As soon as the liquefied glass swells in contact with the lens groove 105 of the lens unit forming mold 106, the worker places the blowing pipe on which the liquefied glass is buried and the rotation direction of the lens unit forming frame 106. It has to be turned slightly in the same direction, which means that when the liquefied glass is in contact with the lens groove 105 of the rotating lens mold 106, the blown pipe is not rotated in the same direction and is still solid. It is to prevent this in advance because the shape is disturbed by the instantaneous interference with the lens unit forming frame 106 that the lens portion of the liquefied glass is not rotated.

Immediately after the shape of one glass sphere 2 to be used for the lamp through the above process (caustic state), the liquefied glass is in a solidified state to some extent. As the 106 is rotated, there is no choice but to rotate together, and in this case, the first and second reflector forming molds 109 and 111 of the glass sphere, which are rotating in the pseudo-molding state, are fixed. Since the slip between the first and second reflector grooves 108 and 110 must occur, the outer circumferential surface becomes smooth during the process of solidifying the glass sphere to form a complete shape.

On the other hand, after the glass sphere 2 has been formed in a complete form, since the movement force generation by a separate means is stopped, the first and second reflector forming molds through the first and second links 113 and 114. Transfer force to (109) and (111) is no longer made, from which time the first and second reflector forming molds (109) (11) receive the restoring force of the first and second springs (121, 122), respectively, from each other. It rotates in the opening direction, and then the worker takes out the molded glass sphere 2 and then uses the taken out glass sphere through a separate post-treatment process to manufacture a lamp.

The direction in which the first and second reflector forming molds 109 and 111 are retracted from each other by receiving a moving force generated by a separate means in order to shape the glass sphere 2 in the operation of the apparatus described above. When rotating with the support 101 of the upper surface of the support 101 is formed around the recess 102 and the support engaging projection 115 and the support engaging groove 116 integrally formed, forming the first and second reflecting portion Inside the lower ends of the molds 109 and 111, first and second molding frame locking jaws 117 and 118 and first and second molding frame locking grooves 119 and 120 are formed integrally with their circumferences, respectively. As the first and second reflector forming molds 109 and 111 are rotated in contact with each other and are in contact with each other, the support latching jaw formed in the support 101 is illustrated as shown in FIGS. 7A and 7B. 115 is inserted into the first and second molding die engaging grooves 119 and 120 formed in the first and second reflector forming molds 109 and 111 and the support base formed on the support 101. Since the first and second molding frame locking jaws 117 and 118 formed in the first and second reflecting molds 109 and 111 are fitted into the rim groove 116, the first and second reflecting molds 109 are formed. All the lower ends of the (111) is in a state that is coupled to the support 101, thereby improving the bonding force of the first and second reflector forming mold 109 (111) to form a first and second reflector forming mold Even if the external impact is applied to some extent, the first and second reflector forming molds 109 and 111 are not severely shaken or separated from the support 101.

Therefore, the apparatus for forming a glass sphere for a lamp of the present invention has a structure in which the lens unit forming frame 106 rotates, so that the lens unit groove 105 and the first and second reflecting unit forming frames 109 and 111 of the lens unit forming frame 106 rotate. The glass sphere becomes a solid state when the glass sphere 2 is formed by forming the space part by the first and second reflection part grooves 108 and 110 of As the glass sphere is finally formed as it rotates together with the lens mold in the process, the reflecting portion 21 is a surface whose outer circumferential surface is slipped by the slip with the first and second reflecting molds 109 and 111. When the lamp is operated in a state in which the molded glass sphere 2 has been smoothed and then subjected to a post-treatment process and then used for the manufacture of a lamp, the light reflectance at the reflector 21 becomes high, resulting in high efficiency in use of the lamp. There is an effect to be improved.

In addition, the first and second reflecting part forming frame (109, 111) has a structure that rotates about one hinge axis 112, and the first and second reflecting part to actually form the glass sphere (2) When the molds 109 and 111 are rotated in contact with each other and are brought into contact with each other, the molds 109 and 111 are separated from each other in the state in which all of the lower ends of the molds 109 and 111 of the first and second reflection parts are hung on the support 101, respectively. Since the first and the second reflector forming mold 109 (111) and the support base 101 is increased, the first and second reflector forming molds 109 and 111 are external in the process of forming the glass sphere. Even when subjected to a certain degree of shock is not easily shaken or escaped, thereby reducing the defect rate of the glass sphere.

Claims (2)

The support part is provided with a lens part forming mold having a recessed lens part groove in the upper surface, and the first and second reflecting part forming molds having first and second reflecting part grooves are provided to face each other. In the lens groove of the frame and the first and second reflector grooves of the first and second reflector forming molds together to form one space for forming the glass sphere, A concave inlet is formed with the upper portion open to the support, and the concave portion is axially coupled to rotate under the driving force of the motor in the concave portion, and the lens portion forming frame is rotated together to rotate with the rotation table. It is fixed, the first and second reflector forming frame is installed to be rotated in the horizontal direction so that it can be gathered or unfolded around the same one hinge axis, and the support along the circumference around the indentation of the upper surface of the support The locking jaw and the support locking groove are integrally formed, and when the first and second reflecting molds are rotated in the direction in which the first and second reflecting molds are gathered with each other about the hinge axis, the supporters are in contact with each other. First and second molding frame hooks to be prevented from falling off the entire lower portion of the first and second reflector molding frame while being caught in the support locking jaw and the support locking groove formed in the The jaw and the first and second glass sphere-forming device for the lamp, characterized in that the forming die engaging groove is formed in one piece. delete