CN108469056B - Halogen tube outgoing line insulation fixing structure and halogen tube electric heater - Google Patents

Abstract

The invention relates to an insulating fixing structure of a halogen tube outgoing line, which is used for halogen tube electric heater products. According to the halogen tube outgoing line insulation fixing structure, the glass fiber tube is sleeved at the joint of the outgoing line and the heating wire, one end of the glass fiber tube is fixedly connected with the glass pressing plate, the insulation fixing clamp is sleeved on the glass fiber tube at the joint of the outgoing line and the heating wire, and the insulation fixing clamp is fixedly connected with the glass pressing plate. The glass fiber tube is fixedly connected with the glass pressing plate, so that the glass fiber tube is stressed and cannot fall off even when the halogen tube is assembled, an insulation protection effect is achieved on the connection position of the outgoing line and the heating wire, and the hidden danger of electricity leakage caused by the exposure of the connection position of the outgoing line and the heating wire is effectively eliminated. The invention also provides a halogen tube electric heater comprising the insulating and fixing structure of the halogen tube outgoing line.

Description

Halogen tube outgoing line insulation fixing structure and halogen tube electric heater

Technical Field

The invention relates to the field of heaters, in particular to an insulating fixing structure of a halogen tube outgoing line and a halogen tube electric heater.

Background

The halogen tube electric heater is one kind of electric heater, and its heat-generating body is quartz heating tube, and quartz heating tube includes heating wire and quartz tube, and the heating wire wears in the quartz tube, and the quartz tube plays support, protection and heating effect. The halogen tube electric heater is heated by using a far infrared quartz tube, the heat transfer mode is radiation, the penetrating power is strong, the heating orientation is good, the halogen tube electric heater is characterized by small and exquisite appearance, fast heat transfer, convenient movement and low price.

However, in the process of assembling the halogen tube in actual production, the lead-out wire of the halogen tube is inevitably bent and pulled, and the lead-out wire is sleeved with the ceramic tube and bent and fixed on the metal bracket. The existing halogen tube structure is that after the outgoing line is welded with the heating wire, a glass fiber tube is sleeved at the welding part, and then the glass fiber tube is positioned by a ceramic fixing clamp, and the fixing clamp is fixed on a halogen tube glass pressing plate by using gypsum slurry. However, the front end of the glass fiber tube with the structure is of a planar structure, and when the ceramic fixing clamp is fixed by gypsum slurry, the glass fiber tube cannot be effectively fixed, so that the glass fiber tube is pulled, bent and separated in the assembly process, and after the glass fiber tube is separated, the outgoing line is exposed to the outside, so that potential leakage hazards exist.

Disclosure of Invention

Based on the above, it is necessary to provide a halogen tube outgoing line insulation fixing structure and a halogen tube electric heater, aiming at the problem that the outgoing line is exposed to the outside and has hidden trouble of electric leakage caused by that the glass fiber tube of the existing halogen tube structure is easily pulled and bent in the assembly process.

An insulating fixing structure of a halogen tube outgoing line, comprising:

a heating wire is arranged in the glass pressing plate;

The outgoing line is fixedly connected with the heating wire;

the glass fiber tube is sleeved at the joint of the outgoing line and the heating wire, and one end of the glass fiber tube is fixedly connected with the glass pressing plate;

the insulation fixing clamp is sleeved on the glass fiber tube at the joint of the outgoing line and the heating wire, and the insulation fixing clamp is fixedly connected with the glass pressing plate.

In one embodiment, the insulating fixing structure of the outgoing line of the halogen tube further comprises a metal outgoing rod, the metal outgoing rod is arranged at the outlet of the glass pressing plate, one end of the metal outgoing rod is fixedly connected with the heating wire, and the other end of the metal outgoing rod is fixedly connected with the outgoing line.

In one embodiment, the metal leadout bar is crimped and fixed with the leadout wire.

In one embodiment, the glass fiber tube is sleeved at the connection part of the metal lead-out rod and the lead-out wire, one end of the glass fiber tube, which is close to the glass pressing plate, is provided with a lap joint part, and the lap joint part is fixedly connected with the glass pressing plate.

In one embodiment, the overlap is a double spike structure that overlaps the surface of the glass platen.

In one embodiment, the double spike structure is formed by cutting two sharp corners with a V-shaped cutter.

In one embodiment, the insulating fixing clamp comprises a movable part, and the movable part is sleeved on the outer surface of the glass fiber tube at the joint of the metal lead-out rod and the lead-out wire.

In one embodiment, the insulating fixing clip further comprises a clamping portion, the clamping portion is fixedly connected with the movable portion, the clamping portion clamps the double peak structure on the surface of the glass pressing plate, and the clamping portion and the double peak structure are fixedly connected with the glass pressing plate.

In one embodiment, the clamping portion is a circular arc-shaped protrusion symmetrically arranged, and the protrusion is formed by extending the outer edge of the movable portion along the length direction of the movable portion.

In one embodiment, the insulating and fixing structure of the halogen tube outgoing line further comprises gypsum slurry, and the double peak structure and the clamping part are adhered and fixed with the glass pressing plate through the gypsum slurry.

A halogen tube electric heater comprises the halogen tube outgoing line insulation fixing structure.

Above-mentioned halogen tube lead-out wire insulation fixed knot constructs, is provided with the heater in the glass clamp plate, heater and lead-out wire fixed connection, the fine pipe of glass is located the lead-out wire with the junction of heater just the fine pipe of glass one end with glass clamp plate fixed connection, insulating fixation clamp is in the lead-out wire with the junction cover of heater is located on the fine pipe of glass just insulating fixation clamp with glass clamp plate fixed connection. The glass fiber tube is fixedly connected with the glass pressing plate, so that the glass fiber tube is stressed and cannot fall off even when the halogen tube is assembled, an insulation protection effect is achieved on the connection position of the outgoing line and the heating wire, and the hidden danger of electricity leakage caused by the exposure of the connection position of the outgoing line and the heating wire is effectively eliminated. Simultaneously, insulating fixation clamp be in the lead-out wire with the junction cover of heater is located on the fine pipe of glass just insulating fixation clamp with glass clamp plate fixed connection has played the junction department of protection lead-out wire and heater and has prevented its effect of crooked overwhelm.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required for the description of the embodiments will be briefly described below, and it is apparent that the drawings in the following description are only some embodiments of the present invention, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram showing the overall assembly of an insulating and fixing structure for a halogen tube outgoing line according to an embodiment of the present invention;

FIG. 2 is a schematic diagram showing the connection between a heating wire and a lead-out wire of a halogen tube lead-out wire insulation fixing structure according to an embodiment of the present invention;

FIG. 3 is a schematic view of a glass fiber tube with an insulating and fixing structure for a halogen tube outgoing line according to an embodiment of the present invention;

FIG. 4 is a side view of a glass fiber tube of a halogen tube lead-out wire insulation fixing structure according to an embodiment of the present invention;

fig. 5 is a front view of an insulation fixing clip of an insulation fixing structure of a halogen tube outgoing line according to an embodiment of the present invention;

FIG. 6 is a top view of an insulating fixture clip of a halogen tube lead-out wire insulating fixture structure according to an embodiment of the present invention;

fig. 7 is a side view of an insulating fixing clip of an insulating fixing structure of a halogen tube outgoing line according to an embodiment of the present invention.

Reference numerals illustrate:

Glass platen 100

Heating wire 110

Metal extraction bar 120

Outgoing line 200

Glass fiber tube 300

Overlap 310

Insulating fixing clip 400

Movable portion 410

Clamping part 420

Detailed Description

The present invention will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present invention more apparent. It should be understood that the detailed description is intended to illustrate the invention, and not to limit the invention.

It will be understood that when an element is referred to as being "fixed to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. In contrast, when an element is referred to as being "directly on" another element, there are no intervening elements present. In contrast, when an element is referred to as being "directly connected" to another element, there are no intervening elements present. The terms "vertical," "horizontal," "left," "right," and the like are used herein for illustrative purposes only.

In the description of the present invention, it should be understood that the terms "length," "width," "thickness," "upper," "lower," "front," "rear," "left," "right," "top," "bottom," "inner," "outer," and the like indicate orientations or positional relationships based on the orientation or positional relationships shown in the drawings, merely to facilitate describing the present invention and simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention.

Referring to fig. 1, a halogen tube lead-out wire 200 insulation fixing structure, the halogen tube lead-out wire 200 insulation fixing structure includes a glass pressing plate 100, a lead-out wire 200, a glass fiber tube 300 and an insulation fixing clip 400. The glass pressing plate 100 is internally provided with a heating wire 110, the heating wire 110 is fixedly connected with the outgoing wire 200, the glass fiber tube 300 is sleeved at the joint of the outgoing wire 200 and the heating wire 110, one end of the glass fiber tube 300 is fixedly connected with the glass pressing plate 100, the insulating fixing clamp 400 is sleeved at the joint of the outgoing wire 200 and the heating wire 110 on the glass fiber tube 300, and the insulating fixing clamp 400 is fixedly connected with the glass pressing plate 100.

Alternatively, the glass pressing plate 100 may be a quartz glass tube, the glass pressing plate 100 is produced using a quartz product, a quartz raw material is melted in a furnace, heating wires 110 are arranged inside, and the heating wires 110 are die-cast in quartz glass to fix the glass pressing plate 100.

Optionally, the heating wire 110 is made of tungsten wire.

Optionally, the heating wire 110 and the outgoing wire 200 are welded or press-bonded and fixed outside the glass pressing plate 100.

Optionally, the insulating fixing clip 400 may be made of ceramic, so as to adapt to a high-temperature environment generated by the heating wire of the glass pressing plate.

Referring to fig. 1 and 2, in one embodiment, the insulating fixing structure of the halogen tube outgoing line 200 further includes a metal outgoing rod 120, the metal outgoing rod 120 is disposed at the outlet of the glass pressing plate 100, one end of the metal outgoing rod 120 is fixedly connected with the heating wire 110, and the other end is fixedly connected with the outgoing line 200.

Alternatively, all structures of the heating wire 110 are located in the glass pressing plate 100, all structures of the heating wire 110 are located in a quartz glass tube, one end of the metal extraction rod 120 is connected with the heating wire 110 and is die-cast in the glass pressing plate 100, and the other end of the metal extraction rod 120 extends out of the glass pressing plate 100 to be exposed in the air and is connected with the extraction wire 200.

Optionally, the metal bar 120 is crimped and fixed to the lead wire 200. The metal extraction rod 120 is made of stainless steel. Because the heating wire 110 is made of tungsten wire, the mechanical strength is low, and the metal lead-out rod 120 is easy to break, the strength is high, and the metal lead-out rod 120 is easy to be crimped and fixed with the lead-out wire 200 and cannot break.

Referring to fig. 1, 3 and 4, in one embodiment, the glass fiber tube 300 is sleeved at the connection position of the metal lead-out rod 120 and the lead-out wire 200 to play an insulating role, so as to prevent potential leakage hazards caused by exposure of the connection position of the metal lead-out rod 120 and the lead-out wire 200. The glass fiber tube 300 is provided with a lap joint part 310 near one end of the glass pressing plate 100, and the lap joint part 310 is lapped on the glass pressing plate 100 and fixedly connected with the glass pressing plate 100.

Optionally, the overlap 310 is a double spike structure. The double spike structure is overlapped on opposite surfaces of the glass pressing plate 100 and fixedly connected with the glass pressing plate 100.

Preferably, the dual spike structures are oppositely disposed.

Specifically, the double peak structure is formed by cutting a V-shaped cutter, and the V-shaped cutter cuts out two sharp corners to form the double peak structure. In the production process, only the cutting knife is changed into a V-shaped cutting knife, and one end of the glass fiber tube 300, which is close to the glass pressing plate 100, can be cut into a double peak structure from a planar structure in one step.

Referring to fig. 5 to 7, in one embodiment, the insulating fixing clip 400 includes a movable portion 410, the movable portion 410 is a hollow sleeve structure, and the movable portion 410 is sleeved on the outer surface of the glass fiber tube 300 at the connection position of the metal lead-out rod 120 and the lead-out wire 200. On the one hand, the glass fiber tube 300 is sleeved at the crimping position of the outgoing line 200 and the metal outgoing rod 120, and is used as a first layer of insulation to isolate the crimping position from air; on the other hand, the movable portion 410 of the insulation fixing clip 400 is sleeved on the outer surface of the glass fiber tube 300 at the position where the lead-out wire 200 is in press connection with the metal lead-out rod 120, so as to form a second insulation layer at the press connection position of the lead-out wire 200 and the metal lead-out rod 120. The movable portion 410 protects the press-contact position between the lead wire 200 and the metal lead bar 120 from being broken by bending stress.

Referring to fig. 5 to 7, in one embodiment, the insulating fixing clip 400 further includes a clamping portion 420, the clamping portion 420 is fixedly connected with the movable portion 410, the clamping portion 420 and the movable portion 410 may be integrally formed, the clamping portion 420 clamps the dual peak structure on the surface of the glass pressing plate 100, and the clamping portion 420 and the dual peak structure are both fixedly connected with the glass pressing plate 100. Optionally, the clamping portions 420 are arc-shaped and are disposed opposite to each other. Specifically, after the double-peak structure is lapped on the surface of the glass pressing plate 100, the clamping portion 420 is clamped on the double-peak structure, and then the clamping portion 420 and the double-peak structure are fixedly connected with the glass pressing plate 100.

Alternatively, the engaging portion 420 is a symmetrically arranged arc-shaped protrusion, and the protrusion is formed by extending the outer edge of the movable portion 410 along the length direction thereof.

Specifically, the insulating fixing clip 400 is a hollow sleeve, a slot is formed near one end of the glass pressing plate 100 to form a symmetrical arc-shaped protrusion, the symmetrical arc-shaped protrusion is positioned on two sides of the glass pressing plate 100 after the glass pressing plate passes through the outgoing line 200, gypsum slurry is filled in the inside of the glass pressing plate, and after the gypsum slurry is cooled, the insulating fixing clip 400 and the glass pressing plate 100 are bonded together and cannot fall off.

In one embodiment, the insulating and fixing structure of the halogen tube 200 further includes gypsum slurry, and the dual peak structure and the clamping portion 420 are adhered and fixed to the glass pressing plate 100 by the gypsum slurry. After the double peak structure of the glass fiber tube 300 is assembled in place, the double peak structure is positioned on two sides of the glass pressing plate 100, the gypsum slurry and the clamping part 420 of the insulation fixing clamp 400 are bonded and fixed together, and at the moment, the double peak structure is condensed in gypsum and bonded and fixed together with the insulation fixing clamp 400 effectively. Even if pulled by an external force, the glass fiber tube 300 is not detached and loses the function of additional insulation because the double spike structure is fixed in the gypsum slurry.

The invention also provides a halogen tube electric heater, which comprises the insulating and fixing structure of the halogen tube outgoing line. By adopting the halogen tube outgoing line insulation fixing structure, the production efficiency of the halogen tube outgoing line insulation fixing structure can be effectively improved, the glass fiber tube cannot fall off any more, no fault case that the glass fiber tube falls off is found in the production process, no defective product is reworked, the yield is improved, the product quality is ensured, the hidden quality trouble is caused because the glass fiber tube is difficult to find due to slight falling off, the quality risk is avoided after the halogen tube outgoing line insulation fixing structure is used, the product quality is effectively ensured, and the after-sale complaint is reduced.

Above-mentioned halogen tube lead-out wire 200 insulation fixed knot constructs, is provided with heater 110 in the glass clamp plate 100, heater 110 and lead-out wire 200 fixed connection, fine pipe 300 cover is located lead-out wire 200 with the junction of heater 110 just the one end of fine pipe 300 with glass clamp plate 100 fixed connection, insulating fixation clamp 400 is in lead-out wire 200 with the junction of heater 110 cover is located on the fine pipe 300 just insulating fixation clamp 400 with glass clamp plate 100 fixed connection. The glass fiber tube 300 is fixedly connected with the glass pressing plate 100, so that the glass fiber tube 300 is not separated even if being stressed when the halogen tube is assembled, the connection position of the outgoing line 200 and the heating wire 110 is insulated and protected, and the hidden trouble of electric leakage caused by the exposure of the connection position of the outgoing line 200 and the heating wire 110 is effectively eliminated. Meanwhile, the insulation fixing clip 400 is sleeved on the glass fiber tube 300 at the connection position of the outgoing line 200 and the heating wire 110, and the insulation fixing clip 400 is fixedly connected with the glass pressing plate 100, so that the function of protecting the connection position of the outgoing line 200 and the heating wire 110 from bending overwhelm is achieved.

The beneficial effects of the invention are as follows:

The glass fiber tube is close to one end of the glass pressing plate and is changed into a double-peak structure, after the glass fiber tube is sleeved on the lead-out wire, the double peaks are positioned on two sides of the glass pressing plate, the two sides are just the fixing positions of the insulating fixing clamps, gypsum slurry plays a binding role, the glass fiber tube and the insulating fixing clamps are fixed by the gypsum slurry, and the glass fiber tube and the insulating fixing clamps are fixed together after condensation, so that the glass fiber tube cannot fall off even if stressed. The production efficiency of preassembly assembly can be effectively improved, and because the glass fiber tube can not fall off any more, no defective products are reworked, the output is improved, the product quality is ensured, and the product quality is effectively ensured.

The technical features of the above-described embodiments may be arbitrarily combined, and all possible combinations of the technical features in the above-described embodiments are not described for brevity of description, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description.

The above examples illustrate only a few embodiments of the invention, which are described in detail and are not to be construed as limiting the scope of the invention. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the invention, which are all within the scope of the invention. Accordingly, the scope of protection of the present invention is to be determined by the appended claims.

Claims (8)

1. A halogen tube outgoing line insulation fixing structure, characterized by comprising:

A glass pressing plate (100), wherein a heating wire (110) is arranged in the glass pressing plate (100);

The outgoing line (200), the outgoing line (200) is fixedly connected with the heating wire (110);

the glass fiber tube (300) is sleeved at the joint of the outgoing line (200) and the heating wire (110), and one end of the glass fiber tube (300) is fixedly connected with the glass pressing plate (100);

the insulation fixing clamp (400) is sleeved on the glass fiber tube (300) at the joint of the outgoing line (200) and the heating wire (110), and the insulation fixing clamp (400) is fixedly connected with the glass pressing plate (100);

The metal lead-out rod (120) is arranged at the outlet of the glass pressing plate (100), one end of the metal lead-out rod (120) is fixedly connected with the heating wire (110), and the other end of the metal lead-out rod is fixedly connected with the lead-out wire (200);

Wherein, the metal leading-out rod (120) is fixedly connected with the leading-out wire (200) in a crimping way; one end of the glass fiber tube (300) close to the glass pressing plate (100) is provided with a lap joint part (310), and the lap joint part (310) is fixedly connected with the glass pressing plate (100); the overlap (310) is a double spike structure that overlaps the surface of the glass platen (100).

2. The structure according to claim 1, wherein the glass fiber tube (300) is sleeved at the connection between the metal lead-out rod (120) and the lead-out wire (200).

3. The structure according to claim 2, wherein the double spike structure is formed by cutting two sharp corners with a V-shaped cutter.

4. The structure according to claim 2, wherein the insulating fixing clip (400) comprises a movable portion (410), and the movable portion (410) is sleeved on the outer surface of the glass fiber tube (300) at the connection position of the metal extraction rod (120) and the extraction wire (200).

5. The insulating and fixing structure for a halogen tube outgoing line according to claim 4, wherein the insulating and fixing clamp (400) further comprises a clamping portion (420), the clamping portion (420) is fixedly connected with the movable portion (410), the clamping portion (420) clamps the double-peak structure on the surface of the glass pressing plate (100), and the clamping portion (420) and the double-peak structure are fixedly connected with the glass pressing plate (100).

6. The structure according to claim 5, wherein the engaging portion (420) is a symmetrically arranged arc-shaped protrusion formed by extending the outer edge of the movable portion (410) along the longitudinal direction thereof.

7. The halogen tube lead-out wire insulation fixing structure according to claim 5, further comprising gypsum slurry, wherein the double spike structure and the clamping portion (420) are both adhesively fixed with the glass pressing plate (100) through the gypsum slurry.

8. A halogen tube electric heater comprising the halogen tube lead-out wire insulation fixing structure as claimed in any one of claims 1 to 7.