CN112951684A - Self-adaptive mounting structure of same-side extraction electrode xenon lamp - Google Patents

Abstract

The invention discloses a self-adaptive installation structure of a xenon lamp with the same side lead-out pole, which comprises: two connecting columns, a base, and two fastening seats. connected. The center of the base is provided with two through holes, and the connecting column penetrates through the through holes, and the fastening seat fixes or adjusts the connecting column. The design has a simple structure, is convenient for manual operation, improves the installation efficiency, and solves the difficult installation problem caused by the inconsistency of the lead-out pole spacing of the xenon lamp on the same side.

Description

Self-adaptive mounting structure of same-side extraction electrode xenon lamp

Technical Field

The invention discloses a self-adaptive mounting structure of a xenon lamp with an extraction electrode at the same side, and belongs to the technical field of electric light sources.

Background

The xenon lamp light source is to fill high-purity xenon into a quartz tube, then the voltage is instantly increased to thousands to tens of thousands of volts by a precise ballast (stabilizer), an exciting electrode emits electrons, further xenon molecules in the tube are ionized, avalanche discharge is formed, and plasma luminescence is generated. The xenon lamp has high light intensity and radiation spectrum energy distribution close to that of sunlight. Xenon lamps include long-arc xenon lamps, short-arc xenon lamps, pulsed xenon lamps, and the like. The xenon lamp has the characteristics of strong load capacity, high pumping efficiency, good laser beam quality, long service life and the like, and has huge potential application and requirements in many fields such as scientific and technical production and the like.

For the xenon lamp of extraction utmost point in same one side, for example U type, annular, heliciform etc. are mostly manual or manual auxiliary manufacturing, and two extraction utmost point interval uniformity are relatively poor, often appear with the installation base mismatch and the unable condition of installing, or there is stress to lead to later stage use to damage after the installation.

Disclosure of Invention

In order to solve the technical problems, the invention provides a self-adaptive mounting structure of a xenon lamp with an extraction electrode at the same side, which has good matching property, can firmly fix a xenon lamp tube after mounting, plays a good supporting role, reduces the damage in the later use process, has a good self-adaptive adjusting function for the mounting of the xenon lamp with the extraction electrode at the same side, enlarges the mounting range of the xenon lamp, avoids the damage to the xenon lamp tube, has good stability, is convenient and fast to manually operate, and improves the mounting efficiency.

The invention is realized by the following technical scheme:

the self-adaptive mounting structure of the xenon lamp with the same-side extraction electrode comprises connecting columns, a base and a fastening seat, and is characterized in that the two connecting columns are used for connecting the cathode and anode extraction electrodes of the xenon lamp with external leads respectively, and the adjustable fixing piece is used for realizing self-adaptive mounting with the connecting columns according to the distance between the two extraction electrodes of the xenon lamp.

Furthermore, the connecting column is in a T-shaped cylinder shape, and a spring round hole is formed in the circular truncated surface of the top of the T-shaped part and used for inserting the leading-out electrode of the xenon lamp to form low-resistance connection.

Furthermore, the adjusting fixing piece is composed of a base and a fastening seat, a first through hole and a second through hole are formed in the center of the base and are respectively used for the connecting column to penetrate through, the minimum inner diameters of the two through holes are smaller than the outer diameter of a spring round hole at the T-shaped part of the connecting column, the minimum inner diameters of the two through holes are larger than the outer diameter of the T-shaped vertical part of the connecting column, and the fastening seat is sleeved on the T-shaped vertical part of the connecting column so that the connecting column is fixedly connected with the adjusting fixing piece.

Furthermore, the connecting part of the lead at the lower part of the connecting column can be connected with the lead in a punching connection mode, a copper wire nose welding mode, a cold pressing mode and the like.

Furthermore, the top of the connecting column also comprises a locking sleeve which is sleeved on a spring round hole of a circular table top at the top of the connecting column, and firmness between the xenon lamp extraction electrode and the connecting column is further enhanced through screw threads and other modes.

Further, the base can be equipped with two rectangular straight through hole combinations or a round through hole and a rectangular straight through hole combination, and the length of rectangular straight through hole major axis is greater than the external diameter of the vertical portion of spliced pole T word, and in the spliced pole through-hole, through controlling about rectangular straight through hole, the realization is adjusted the nonconformity of xenon lamp extraction interpole distance, and the round through hole matches with the spliced pole is fixed.

Furthermore, the four sides of the long straight-through hole strip of the base are straight sides or the corresponding short sides are arc sides.

Furthermore, the base plate is made of insulating materials, such as ceramic, wood plates, epoxy plates and the like.

Furthermore, the fastening seat is matched with the T-shaped vertical part of the connecting column in an installing mode, and the position of the connecting column is fixed or adjusted in a threaded rotating mode.

Compared with the prior art, this patent is a self-adaptation mounting structure of homonymy extraction electrode xenon lamp, and this patent lies in that the negative and positive pole extraction electrode of xenon lamp links to each other with the spliced pole respectively, links to each other with external conductor through the spliced pole, and the material of base is insulating material, has seted up rectangular through hole on its face, and this design can be to the great xenon lamp self-adaptation regulation installation of tolerance range, has solved the problem of manual production xenon lamp installation difficulty, simple structure moreover, make things convenient for manual operation, has improved the installation effectiveness.

Drawings

Fig. 1 is a schematic view of a first embodiment of a connecting column in the adaptive mounting structure for a xenon lamp with an extraction electrode on the same side according to the present invention, wherein a is a schematic view in front view and b is a schematic view in cross section;

fig. 2 is a schematic view of a second embodiment of a connecting column in the adaptive mounting structure for a xenon lamp with an extraction electrode on the same side according to the present invention, wherein a is a schematic view in front view and b is a schematic view in cross section;

fig. 3 is a schematic view of a third connecting column in the self-adaptive mounting structure of a xenon lamp with an extraction electrode on the same side according to the present invention, wherein a is a schematic view in front view, and b is a schematic view in cross section;

fig. 4 is a schematic view of a second embodiment of the base in the adaptive mounting structure of the xenon lamp with the extraction electrode on the same side according to the present invention.

FIG. 5 is a front view of an adaptive mounting structure for a xenon lamp with an extraction electrode on the same side according to the present invention;

FIG. 6 is a front sectional view of the self-adaptive mounting structure of the xenon lamp with the same side lead-out electrode according to the present invention;

FIG. 7 is a top view of the adaptive mounting structure of the xenon lamp with the same side extraction electrode according to the present invention;

FIG. 8 is a schematic view of the U-shaped xenon lamp installation of the self-adaptive installation structure of the xenon lamp with the extraction electrode on the same side of the invention;

FIG. 9 is a schematic view of the installation of a ring-shaped xenon lamp of the self-adaptive installation structure of the xenon lamp with the extraction electrode on the same side of the invention;

in the figure: a 1-a first connecting column, b 1-a second connecting column, 2-a base, a 3-a first fastening seat, b 3-a second fastening seat, a 4-xenon lamp, a 5-lead, a 11-a first spring round hole, b 11-a second spring round hole, a 12-a first lead connecting part, b 12-a second lead connecting part, a 13-a first locking sleeve, b 13-a second locking sleeve, 21-a first through hole and 22-a second through hole.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions of the present invention will be further explained below with reference to the drawings of the embodiments of the present invention.

The first embodiment is as follows:

referring to fig. 1, 7 and 8, an adaptive mounting structure for a xenon lamp with a lead electrode on the same side includes: first spliced pole a1, second spliced pole b1, base 2, first fastening seat a3, second fastening seat b3, U type xenon lamp 4, wire 5, first spring round hole a11, second spring round hole b11, first wire connecting portion a12, second wire connecting portion b12, first lock cover a13, second lock cover b13, first through-hole 21, the second through-hole, first through-hole 21 and second through-hole 22 are rectangular hole, the inconsistency of xenon lamp interval has been solved at same side to this structure, and the spoilage is high.

The first connecting column a1 and the second connecting column b1 are in a T-shaped cylindrical shape, a first spring round hole a11 and a second spring round hole b11 are arranged on the circular truncated cone surface of the top of the T-shaped part, and the design is used for inserting the leading-out electrode of the U-shaped xenon lamp.

The base 2 is centrally provided with a first elongate through hole 21 and a second elongate through hole 22.

The long sides of the first long strip through hole 21 and the second long strip through hole 22 are straight sides, the short sides of the first long strip through hole 21 and the second long strip through hole 22 are arc sides, the diameter of each arc side is smaller than the outer diameter of the vertical parts of the first connecting column a1 and the second connecting column b1T, the outer diameter of the first spring round hole a11 and the outer diameter of the second spring round hole b11 are larger than the outer diameter of the vertical parts of the first connecting column a1 and the second connecting column b1T, the T-shaped vertical parts of the first connecting column a1 and the second connecting column b1 penetrate through the first long strip through hole 21 and the second long strip through hole 22, the long axes of the first long strip through hole 21 and the second long strip through hole 22 are larger than the outer diameters of the T-shaped vertical parts of the first connecting column a1 and the second connecting column b1, and the design respectively allows the first connecting column a1 and the second connecting column b1 to penetrate through and can move left and right to.

The first fastening seat a3 and the second fastening seat b3 are sleeved on the T-shaped vertical parts of the first connecting column a1 and the second connecting column b1, and the first connecting column a1 and the second connecting column b1 are fixedly connected with the adjustable fixing piece in a threaded rotation mode.

The first wire connecting part a1 and the second wire connecting part b12 of the first connecting column a1 and the second connecting column b1 are connected with the wires in a punching welding mode, and the design is convenient for the cathode and anode leading-out poles of the xenon lamp 4 to be directly connected with the wires 5 through the first connecting column a1 and the second connecting column b 1.

The first locking sleeve a13 and the second locking sleeve b13 are sleeved on the first spring round hole a11 and the second spring round hole b11 at the tops of the first connecting column a1 and the second connecting column b1, and the firmness between the leading-out pole of the U-shaped xenon lamp 4 and the first connecting column a1 and the second connecting column b1 is further enhanced through a thread screwing mode.

When an operator needs to fix the U-shaped xenon lamp 4, the U-shaped xenon lamp 4 is manufactured by bending a tube manually in the manufacturing process, so that the distance between two leading-out electrodes of the U-shaped xenon lamp has large deviation.

Firstly, an operator penetrates the vertical parts of the first connecting column a1 and the second connecting column b1T through a first through hole 21 and a second through hole 22 in the center of the base 2;

secondly, an operator adjusts the distance between the first connecting column a1 and the second connecting column b1 to be matched with the distance between the cathode and the anode of the U-shaped xenon lamp 4 according to prediction;

thirdly, an operator manually fixes the vertical part of the first connecting column a1T on the base 2 in a thread rotating mode through the first fastening seat a 3;

and fourthly, manually pressing the cathode leading-out electrode of the U-shaped xenon lamp 4 into the first spring round hole a11 at the upper part of the first connecting column a1 by an operator, and finely adjusting the second connecting column b1 to the right and left through the second strip through hole 22 on the base 2 so as to adapt to the pressing of the anode leading-out electrode into the second spring round hole b11 at the upper part of the second connecting column b1 by the U-shaped xenon lamp.

Fifthly, the operator manually fixes the second fastening seat b3 on the base plate 2 through the second connecting column b1T in a thread rotating mode;

an operator at the sixth step sleeves a first locking sleeve a13 and a second locking sleeve b13 on a first spring round hole a11 and a second spring round hole b11 at the tops of the character parts of a first connecting column a1 and a second connecting column b1T, and further safely fixes the cathode and anode leading-out electrodes of the U-shaped xenon lamp 4 on the first connecting column a1 and the second connecting column b1 in a threaded screwing mode;

the seventh process operator connects the wires 5 by punch solder welding at the first wire connection portion a12 and the second wire connection portion b 12.

Example II,

Referring to fig. 2, 4 and 9, an adaptive mounting structure for a xenon lamp with a lead electrode on the same side includes: the xenon lamp comprises a first connecting column a1, a second connecting column b1, a base 2, a first fastening seat a3, a second fastening seat b3, an annular xenon lamp 4, a lead 5, a first spring round hole a11, a second spring round hole b11, a first lead connecting part a12, a second lead connecting part b12, a first locking sleeve a13, a second locking sleeve b13, a first through hole 21 and a second through hole 22. The first through hole 21 is circular, and the second through hole 22 is elongated. The design structure solves the problem of inconsistency of distances between the xenon lamps on the same side of the extraction electrode, and the damage rate is high.

The first connecting column a1 and the second connecting column b1 are in a T-shaped cylindrical shape, a first spring round hole a11 and a second spring round hole b11 are arranged on the circular truncated cone surface of the top of the T-shaped part, and the design is used for inserting the extraction electrode of the annular xenon lamp.

The center of the base 2 is provided with a first round through hole 21 and a second long straight through hole 22, the first round through hole 21 is circular, the inner diameter of the first round through hole 21 is smaller than the outer diameter of a top spring round hole a11 of a T-shaped part of a first connecting column a1 and larger than the outer diameter of a vertical part of a T-shaped first connecting column a1, the long side of the second long straight through hole 22 is long, the length of the short side of the second long straight through hole is smaller than the outer diameter of a top spring round hole b11 of a T-shaped part of a second connecting column b1T and larger than the outer diameter of a vertical part of a T-shaped second connecting column b T, the long side of the second long straight through hole 22 is larger than the outer diameter of the vertical part of the T-shaped second connecting column b1, the design is respectively used for the first connecting column a1 and the second connecting column b1 to penetrate through, the first round through hole 21 is fixedly matched with the first connecting column a1, and the second.

The first fastening seat a3 and the second fastening seat b3 are sleeved on the T-shaped vertical parts of the first connecting column a1 and the second connecting column b1, and the first connecting column a1 and the second connecting column b1 are fixedly connected with the adjustable fixing piece in a threaded rotation mode.

The first wire connecting part a1 and the second wire connecting part b12 of the first connecting column a1 and the second connecting column b1 are connected with the wire 5 in a mode of fixing a copper nose through screw penetration, and the design is convenient for the cathode and anode leading-out electrodes of the annular xenon lamp 4 to be directly connected with the wire 5 through the first connecting column a1 and the second connecting column b 1.

The first locking sleeve a13 and the second locking sleeve b13 are sleeved on the first spring round hole a11 and the second spring round hole b11 at the tops of the first connecting column a1 and the second connecting column b1, and the design further enhances the firmness between the leading-out pole of the ring-type xenon lamp 4 and the first connecting column a1 and the second connecting column b1 in a threaded screwing mode.

When an operator needs to fix the ring-shaped xenon lamp 4, the distance between the two leading-out electrodes of the xenon lamp has larger deviation because the manufacturing process of the ring-shaped xenon lamp 4 is manually bent.

Firstly, an operator penetrates the vertical parts of the first connecting column a1 and the second connecting column b1T into the first through hole 21 and the second through hole 22 in the center of the base 2;

secondly, an operator adjusts the distance between the first connecting column a1 and the second connecting column b1 to be matched with the distance between the cathode and the anode leading-out electrode of the annular xenon lamp 4 according to prediction;

thirdly, an operator fixes the T-shaped vertical part of the first connecting column a1 on the base 2 in a threaded rotation mode through the first fastening seat a 3;

and in the fourth step, an operator manually presses the cathode leading-out electrode of the annular xenon lamp 4 into the first spring round hole a11 at the upper part of the first connecting column a1, and simultaneously finely adjusts the second connecting column b1 left and right through the second long straight-through hole 22 on the base 2 so as to adapt to the annular xenon lamp to press the anode leading-out electrode into the second spring round hole b11 at the upper part of the second connecting column b 1. Fifthly, the operator manually presses the cathode and anode leading-out electrodes of the ring-shaped xenon lamp 4 into the first spring round hole a11 and the second spring round hole b11 on the upper parts of the first connecting column a1 and the second connecting column b 1;

the fifth step of operator manually fixes the second fastening seat b3 on the base plate 2 through the second connecting column b1T in a thread rotating mode

The operator at the sixth step sets the first locking sleeve a13 and the second locking sleeve b13 on the first spring round hole a11 and the second spring round hole b11 at the top of the letter parts of the first connecting column a1 and the second connecting column b1T, and further safely fixes the cathode and anode leading-out pole of the ring-shaped xenon lamp 4 on the first connecting column a1 and the second connecting column b1 in a threaded screwing mode.

The seventh step is that the operator connects the first wire connecting part a12 and the second wire connecting part b12 with the wire 5 by fixing the copper nose through the screw holes.

The above two examples describe more specific and detailed embodiments of the present invention, but should not be construed as limiting the scope of the invention. The professional in the field can make some improvements to the present invention through other ways, for example, a locking sleeve can be added on the connecting column for secondary fixation to improve the safety and firmness of the xenon lamp, and on the premise of not departing from the concept of the present invention, a plurality of changes and improvements can be made, which belong to the protection scope of the present invention.

Claims (9)

1. a self-adaptive installation structure of the same side extraction pole xenon lamp, is characterized in that, comprises: Two connecting columns are used for the connection between the cathode and anode leads of the xenon lamp and the external wires; The adjustable fixing piece is used for adapting the connection between the two leading poles of the xenon lamp and the external wires through two connecting posts respectively according to the distance between the two leading poles of the xenon lamp. 2. The self-adaptive installation structure of a same-side lead-out pole xenon lamp according to claim 1, wherein the connecting column is in the shape of a T-shaped cylinder, and the top circular table of the T-shaped part is provided with a spring circle A hole is used to insert the lead-out pole of the xenon lamp, and the bottom of the connecting column is the wire connecting part. 3 . The self-adaptive installation structure of the xenon lamp with the same side lead-out according to claim 2 , wherein the wire connecting part is connected to the wire by welding or crimping. 4 . 4 . The self-adaptive installation structure of the xenon lamp with the same side lead-out according to claim 2 , wherein the wire connection part is connected to the wire by means of screw holes to fix the copper nose. 5 . 5 . The self-adaptive installation structure of the same-side lead-out pole xenon lamp according to claim 2 , wherein the top of the connecting column further comprises a locking sleeve, and the locking sleeve is sleeved on the connecting column. 6 . On the spring round hole on the top round table, the firmness between the xenon lamp lead-out pole and the connecting column is further enhanced by screwing. 6 . The self-adapting installation structure of the same-side lead-out pole xenon lamp according to claim 2 , wherein the adjustable fixing member is composed of a base and a fastening base, and a center of the base is provided with a base. 7 . The first through hole and the second through hole are respectively provided for the connecting column to pass through, and the fastening seat is sleeved on the T-shaped vertical part of the connecting column, so that the connecting column is connected with the outgoing pole of the xenon lamp. 7 . The self-adaptive installation structure of the same-side lead-out pole xenon lamp according to claim 6 , wherein the first through hole and the second through hole are both long straight through holes, or one is a circular through hole. 8 . , the other is a long straight through hole; the vertical part of the T-shaped connecting column is made to penetrate through the hole, and move left and right in the long straight through hole, so as to adjust the inconsistency of the distance between the xenon lamps on the same side. The connecting column is fixedly matched. 8 . The base of the self-adaptive installation structure of the xenon lamp with the same-side lead-out pole according to claim 3 , wherein the material is insulating material, which can be ceramics, wooden boards, and epoxy boards. 9 . 9 . The self-adaptive installation structure of the same-side lead-out pole xenon lamp according to claim 3 , wherein the fastening seat is installed and matched with the T-shaped vertical part of the connecting column, and is rotated by a screw thread. 10 . Fix or adjust the position of the connecting column.

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