CN111146680B - Driving power supply system for curvature aperture lens wheel of pulse laser - Google Patents

Abstract

The invention discloses a driving power supply system for a curvature aperture lens wheel of a pulse laser, which structurally comprises: the invention realizes the matching of the pulse disc seat and the laser lens square groove to form a rotary focusing effect of a transverse irradiation path combined with the lens partition groove, and forms an aperture capturing effect of a corner through multi-position light-sensitive curvature refraction of a rotary mirror plate frame.

Description

Driving power supply system for curvature aperture lens wheel of pulse laser

Technical Field

The invention discloses a driving power supply system for a curvature aperture lens wheel of a pulse laser, and belongs to the field of power supply systems.

Background

The driving power supply system is a main core power supply source of the transmission processing equipment, when the driving power supply system suddenly stops, a pulse laser needs to be called to form a trigger switch feedback circuit, so that the driving power supply is restarted to work, the whole circuit system recovers a stable working effect, the photoconductivity and the potential trigger of the pulse laser are extremely sensitive and delicate matching operation, and the common defect to be optimized in the prior art is as follows:

pulse laser's light conductivity often is single straight line transmission, form the automatically controlled effect of feedback of a contactor or trigger, adjust detection operating efficiency low to the initiative, and pulse laser's refracting index is low, the light guide feedback in-process that causes can have the wall transmission phenomenon, thereby make trigger switch can not obtain effective potential feedback and miss the best opportunity of drive electrical power generating system, when causing the power supply not enough, the paralysed phenomenon of inner circuit, it improves this condition to cause operating personnel to need manual operation guide laser beam line, it is very big to staff's electric shock hidden danger, and the frequent dismouting of the transmission inner part that leads to drive power supply can cause not hard up the influence.

Disclosure of Invention

Aiming at the defects of the prior art, the invention aims to provide a driving power supply system for a curvature aperture lens wheel of a pulse laser, which aims to solve the problems that the photoconductivity of the pulse laser is always single and straight-line transmission to form a feedback electric control effect of a contactor or a trigger, the efficiency of active adjustment and detection is low, the refractive index of the pulse laser is low, and the transmission separation phenomenon exists in the photoconductive feedback process, so that a trigger switch cannot obtain effective potential feedback to miss the optimal time of the driving power supply system, the internal circuit is broken down when the power supply is insufficient, so that an operator needs to manually operate and guide laser beam lines to improve the condition, the electric shock hidden danger to the operator is great, and the loosening influence is caused by frequent disassembly and assembly of transmission internal parts of the driving power supply.

In order to achieve the purpose, the invention is realized by the following technical scheme: a power supply system for driving a curvature aperture lens wheel of a pulse laser structurally comprises: the laser lens square groove is provided with a laser lamp tube seat, a separation cover shell, a square groove tube, a display frame dimming seat, a diffuse reflection spring plate, a wheel rotating mirror plate frame, a lens separation lobe groove and a refraction light plate, the laser lamp tube seat is arranged in the separation cover shell, the separation cover shell is nested on the left side of the square groove tube, the exhibition frame dimming seat is provided with two and is respectively arranged at the upper end and the lower end of the right side of the shield shell, the diffuse reflection spring plates are arranged between the exhibition frame dimming seat and the lens partition groove, the wheel runner plate frame is inserted in the lens partition groove, the refraction light plates are provided with two and are respectively arranged at the upper end and the lower end of the right side of the square groove barrel, the lens partition groove is mechanically connected with the square groove barrel, and the square groove barrel is tightly attached to the lower surface of the top shield plate.

In order to optimize the technical scheme, the method further comprises the following steps:

as a further improvement of the invention, the display frame dimming seat is composed of a display frame folded plate, a display board socket groove, a torsion spring tube and a base block, wherein the display frame folded plate is mechanically connected with the display board socket groove, the torsion spring tube is movably connected with the display board socket groove, and the display board socket groove and the base block are nested into a whole and are positioned on the same vertical plane.

As a further improvement of the invention, the display board socket groove consists of an endoscope counterweight ball, a traction rod, a top cover column block and a folding inner groove, wherein the traction rod is inserted and embedded at the right side of the endoscope counterweight ball, the endoscope counterweight ball is arranged at the left side in the top cover column block, and the top cover column block and the folding inner groove are of an integral structure and are positioned on the same vertical plane.

As a further improvement of the invention, the diffuse reflection spring plate consists of a diffuse reflection plate block and a spring wire, the diffuse reflection plate block is mechanically connected with the spring wire and is positioned on the same vertical line, and the spring wire is arranged inside the diffuse reflection plate block.

As a further improvement of the invention, the diffuse reflection plate block comprises two or more opposite bent tubes, a gradient clamping plate, a tooth edge inner cylinder and a frosted lens plate, wherein the gradient clamping plate is arranged in the tooth edge inner cylinder, the tooth edge inner cylinder and the frosted lens plate are nested into a whole and are positioned on the same vertical surface, and the opposite bent tubes and the frosted lens plate are in interference fit.

As a further improvement of the invention, the wheel-rotating lens frame comprises an ellipsoid lens, light holes, optical fiber tubes and a wheel-axle lens disk seat, wherein the ellipsoid lens and the light holes are of an integral structure, the axes of the ellipsoid lens and the light holes are collinear, the ellipsoid lens is nested on the top of the optical fiber tubes and is positioned on the same vertical surface, and the optical fiber tubes are two and are respectively nested on the upper side and the lower side of the wheel-axle lens disk seat.

As a further improvement of the invention, the arbor wheel mirror plate seat consists of a polar plate plectrum, a relay seat, a mirror plate groove seat and a protective tube, wherein the polar plate plectrum is vertically clung to the left side of the relay seat and is positioned on the same vertical surface, the relay seat is provided with two relay seats which are respectively nested at the upper end and the lower end of the protective tube, and the relay seats are arranged inside the mirror plate groove seat and are positioned on the same vertical surface.

As a further improvement of the invention, the lens partition groove consists of a thick-petal mirror plate, small-sized convex mirror blocks, a hollow inner chamber and a thin-plate mirror cover, wherein the thick-petal mirror plate and the thin-plate mirror cover are respectively clung to the left side and the right side of the hollow inner chamber, and the small-sized convex mirror blocks are provided with two small-petal mirror blocks which are both arranged in the hollow inner chamber and are positioned on the same cambered surface.

As a further improvement of the invention, the endoscope counterweight ball is of a composite spherical structure with a crescent hemisphere solid counterweight block and a small hemisphere convex mirror in a spherical shell, so that the hemispherical crescent counterweight block can conveniently swing in a small range from left to right, and the convex mirror forms a focusing and aligning operation of lighting and upward reflection, thereby ensuring the synchronism of the unfolded light plates.

As a further improvement of the invention, the frosted lens plate is a long plate block structure with the left and right small semi-ellipsoidal lenses continuously pressed and attached, so that a diffuse reflection mirror surface with multiple inner arcs is conveniently formed, the weakening effect of shading penetration is ensured, pulse laser forms certain stability, and the effect of triggering a driving power supply by matching with a later-stage mirror body is achieved.

As a further improvement of the invention, the relay base is a relay base structure with a pin slot arranged in a crescent thin mirror plate, so that the transverse pulse can be conveniently rectified while the laser beam is focused by the lens, the phenomenon of divergent arc-extinguishing radiation electrons is avoided, and the stability of the pulse driving effect is ensured.

As a further improvement of the invention, the hollow inner chamber is of an inner chamber structure which is narrow at the upper part and the lower part and is provided with a convex spherical block and a thick arc at the middle part, so that the transverse correlation effect between left and right focusing when the light guide is formed by combining the hollow environment is convenient, and the smoothness of multi-angle refraction of laser is ensured.

Advantageous effects

The invention relates to a driving power supply system for a curvature aperture lens wheel of a pulse laser, which is characterized in that a worker places a bottom base plate in a case groove of the driving power supply system, then a top cover plate holds an integrated circuit board through a clamping plate in an occluded manner to form pin butt joint of an internal circuit, then a pulse disc seat is inserted and embedded into the front end of a laser lens square groove through a bolt rod piece, an internal buried lead is butted with a laser lamp tube seat to emit light, a transverse pulse wave and a laser beam line are formed in a separation cover shell and the square groove tube, a display frame folded plate of a display frame dimming seat is pressed by a torsion spring tube, a display plate socket groove in a base block drives a traction rod through an endoscope counterweight ball to link a display frame folded plate to slightly lift the display plate, a top cover column block and a folding inner groove form an outer support effect, the divergence of transverse laser is guaranteed to be wrapped, collected and focused through a light plate, and a spring wire of a diffuse reflection spring plate is used for, the operation of jacking the top elbow pipe on the inner cylinder of the gear edge in the frosted lens plate is formed, the gradient clamping plate is enabled to be gradually subjected to scale lifting and adjustment to adjust the diffuse reflection daylighting rate, so that the curvature refraction adjusting effect of a mirror arc surface is induced to be formed by laser, the laser is enabled to be transversely shot into the thick-petal mirror plate of the lens partition groove and is converged into the hollow inner chamber through the transverse multi-bunch of small convex mirror blocks, the luminosity intensive effect is strengthened through the angle collection of the sheet mirror cover in an outward-shooting type matched refraction light plate, the autonomous adjustment activity of the transverse pulse laser trigger driving power supply system is guaranteed, the trigger probability is improved, and the labor force is saved.

The invention has the following advantages after operation:

the pulse disk seat is matched with the square groove of the laser lens, the pulse disk seat is connected with the tube seat of the laser lamp through pulse current output by the pulse disk seat to emit laser beam lines to form pulse laser, then the generated pulse laser forms a transverse irradiation path in the housing of the separation cover in combination with the rotary focusing effect of the partition groove of the lens, and forms the aperture capturing effect of a corner through the multi-position light-sensitive curvature refraction of the rotary mirror plate frame, the matching equipment forms adjustable lifting and descending refraction operation aiming at the trigger switch angle of a driving power system, so that the partition groove of the lens forms the aperture displacement and traction moving effect, the conventional direct laser beam forms multi-angle adjustable angular torque split position through the rotary mirror plate frame, the transverse breakdown efficiency of the pulse current is improved, the initiative of the laser is improved, and the stable butt joint and regulation effect are realized on the driving power supply of circuits in the equipment, the manual operation of people is avoided, and the condensation operation of the curvature of the convex mirror can be automatically adjusted by equipment.

Drawings

Other features, objects, and advantages of the present invention will become more apparent from the following detailed description of the embodiments of the invention when taken in conjunction with the accompanying drawings, in which:

fig. 1 is a schematic structural diagram of a driving power system for a curvature aperture lens wheel of a pulse laser according to the present invention.

FIG. 2 is a schematic cross-sectional view of a laser lens square groove of the present invention.

Fig. 3 is a schematic structural diagram of the working states of the exhibition stand dimming seat, the diffuse reflection spring plate and the lens partition groove.

Fig. 4 is a schematic perspective internal view of the display board socket slot in an operating state according to the present invention.

Fig. 5 is an enlarged structural view of a cross section of the diffuse reflection plate block in an operating state according to the present invention.

Fig. 6 is a schematic perspective view of the wheel mirror plate frame according to the present invention in an operating state.

Fig. 7 is a perspective structural diagram of the arbor wheel disk base in the working state.

Description of reference numerals: a bottom backing plate-1, a pulse disc seat-2, a bolt rod-3, a buckle plate-4, a top cover plate-5, an integrated circuit board-6, a laser lens square groove-7, a laser lamp tube seat-7A, a separation cover shell-7B, a square groove cylinder-7C, a display frame dimming seat-7D, a diffuse reflection spring plate-7E, a wheel mirror plate frame-7F, a lens partition light plate groove-7G, a refraction spring-7H, a display frame folded plate-7D 1, a display plate socket groove-7D 2, a torsion spring tube-7D 3, a base block-7D 4, an endoscope counterweight ball-7D 21, a traction rod-7D 22, a top cover column block-7D 23, a folding inner groove-7D 24, a diffuse reflection plate block-7E 1, a spring wire-7E 2, a counter top bent pipe-7E 11, a gradient clamp plate-7E 12, a baffle plate-7E 12, Tooth edge inner cylinder-7E 13, frosted lens plate-7E 14, ellipsoidal lens-7F 1, light-transmitting hole-7F 2, optical fiber tube-7F 3, arbor wheel mirror base-7F 4, pole plate plectrum-7F 41, relay base-7F 42, mirror plate groove base-7F 43, protective tube-7F 44, thick-petal mirror plate-7G 1, small-size convex mirror block-7G 2, hollow inner chamber-7G 3 and thin-piece mirror cover-7G 4.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

The first embodiment is as follows:

referring to fig. 1-7, the present invention provides a driving power system for a curvature aperture lens wheel of a pulsed laser, which comprises: the laser wheel assembly comprises a bottom base plate 1, a pulse disc seat 2, a bolt rod piece 3, a clamping plate 4, a top cover plate 5, an integrated circuit board 6 and a laser lens square groove 7, wherein the laser lens square groove 7 is tightly attached to the bottom surface of the top cover plate 5, the bolt rod piece 3 is inserted and embedded at the front side of the laser lens square groove 7, the bottom base plate 1 is tightly attached to the bottom surface of the laser lens square groove 7, the pulse disc seat 2 is nested at the front side of the laser lens square groove 7 and is collinear in the axis, the top cover plate 5 is buckled with the integrated circuit board 6 through the clamping plate 4 and is positioned on the same horizontal plane, the pulse disc seat 2 is electrically connected with the integrated circuit board 6 through a lead, the laser lens square groove 7 is provided with a laser lamp tube seat 7A, a separation cover shell 7B, a square groove barrel 7C, a display frame dimming seat 7D, a diffuse reflection spring plate 7E, a wheel mirror plate frame 7F, a lens separation flap, laser lamp tube seat 7A installs in the inside that separates cover casing 7B, separate cover casing 7B nestification in the inside left side of a square groove section of thick bamboo 7C, exhibition frame seat of adjusting luminance 7D is equipped with two and installs respectively at the upper and lower both ends that separate cover casing 7B right side, diffuse reflection reed board 7E installs between exhibition frame seat of adjusting luminance 7D and lens separation lamella groove 7G, round commentaries on classics mirror plate frame 7F inserts the inside of inlaying at lens separation lamella groove 7G, refraction worn plate 7H is equipped with two and install respectively in the upper and lower both ends on square groove section of thick bamboo 7C right side, lens separation lamella groove 7G and square groove section of thick bamboo 7C mechanical connection, square groove section of thick bamboo 7C hugs closely under the bottom surface of top cover board 5.

Referring to fig. 3, the display dimming seat 7D is composed of a display flap 7D1, a display socket slot 7D2, a torsion spring tube 7D3, and a base block 7D4, the display flap 7D1 is mechanically connected to the display socket slot 7D2, the torsion spring tube 7D3 is movably connected to the display socket slot 7D2, the display socket slot 7D2 is nested with the base block 7D4 to form a whole and located on the same vertical plane, the diffuse reflection spring 7E is composed of a diffuse reflection plate block 7E1 and a spring wire 7E2, the diffuse reflection plate block 7E1 is mechanically connected to the spring wire 7E2 and located on the same vertical line, the spring wire 7E2 is installed inside the diffuse reflection plate block 7E1, the lens partition lobe slot 7G is composed of a thick-petal 7G 5, a small-type mirror block 7G2, an inner cavity 7G3, a mirror cover 7G 24, the mirror cover 7G 597G 599 is closely attached to the left and right side of the inner cavity 597G 599, small-size convex mirror piece 7G2 is equipped with two and all installs in cavity inner chamber 7G 3's inside and be in same cambered surface, cavity inner chamber 7G3 is narrow from top to bottom and takes the interior cavity structure of thick arc in the middle of the convex ball piece, conveniently combines the middle horizontal correlation effect of focusing about when the hollow environment forms the light guide, guarantee the smoothness of laser multi-angle refraction, lay the narrow angle from top to bottom through exhibition frame folded plate 7D1 and form the operation of focusing laser, cooperate evacuation of diffuse reflection board piece 7E1 again and shelter from, reach the unidirection printing opacity effect, make diffuse reflection's spotlight inseparabler in advance, promote the transition of later stage lens and trigger drive electrical power generating system effect.

Referring to fig. 4, the display board socket slot 7D2 is composed of an inner mirror weight ball 7D21, a drawbar 7D22, a top cover column block 7D23, and a folding inner slot 7D24, the draw bar 7D22 is inserted and embedded at the right side of the endoscope counterweight ball 7D21, the endoscope counterweight ball 7D21 is arranged at the left side inside the top cover column block 7D23, the top cover column block 7D23 and the folding inner groove 7D24 are of an integral structure and are positioned on the same vertical plane, the endoscope counterweight ball 7D21 is a composite sphere structure with a crescent hemisphere solid counterweight block and a small hemisphere convex mirror in the spherical shell, is convenient to swing left and right by a small amplitude, and the convex mirror forms the focusing and aligning operation of lighting and upward reflection, thereby ensuring the synchronism of the unfolded light plate, the traction rod 7D22 is lifted by the endoscope counterweight ball 7D21 when the counterweight turns over, so that the exhibition frame folded plate 7D1 forms an angle lifting fine adjustment effect of an up-and-down alignment optical net, and the stability and the wrapping degree of a laser beam line are guaranteed.

Referring to fig. 5, the diffuse reflection plate 7E1 is composed of a bent opposite top tube 7E11, a gradient snap-in plate 7E12, a toothed inner tube 7E13, and a ground lens plate 7E14, the gradient snap-in plate 7E12 is provided with more than two and is installed inside the toothed inner tube 7E13, the toothed inner tube 7E13 and the ground lens plate 7E14 are nested into a whole and are located on the same vertical plane, the bent opposite top tube 7E11 and the ground lens plate 7E14 are in interference fit, the ground lens plate 7E14 is a long plate structure with small half ellipsoid lenses continuously pressed on the left and right, so as to form a diffuse surface with multiple inner arcs, ensure the weakening effect of shading penetration, make the pulse laser form a certain stability, and cooperate with the lens body in the later stage to trigger the effect of the driving power supply, and form an accurate value of a scale through the rising and falling linkage of the gradient snap-in plate 7E12 and the toothed inner tube 7E13, the lifting progress can be matched with the diffuse reflection mirror cambered surface curvature refraction data to form a plate pulling adjusting effect.

The working process is as follows: a worker places the bottom cushion plate 1 in a groove of a box shell of a driving power supply system, then a top cover plate 5 is meshed through a buckle plate 4 to support an integrated circuit board 6 to form pin butt joint of an internal circuit, a pulse disc seat 2 is inserted and embedded into the front end of a laser lens square groove 7 through a bolt rod piece 3, an embedded lead is butted with a laser lamp tube seat 7A to emit light, a transverse pulse wave and a laser beam line are formed in a separation cover shell 7B and a square groove tube 7C, a display frame folded plate 7D1 of a display frame dimming seat 7D is pressed by a torsion spring tube 7D3, a display plate socket groove 7D2 in a base block 7D4 drives a draw bar 7D22 to link with a display frame folded plate 7D1 to slightly lift the display plate, a top cover column block 7D23 and a folding inner groove 7D24 to form an outer support effect, transverse laser focusing is guaranteed to obtain package collection through the light plate, and a diffuse reflection spring 7E lifting spring 7E1 is reflected by a diffuse spring wire 7E2, the operation of jacking the bent top 7E11 against the toothed edge inner cylinder 7E13 in the ground lens plate 7E14 is formed, the gradient snap-gauge 7E12 is gradually scaled up and down to adjust the diffuse reflection daylighting rate, so that the curvature refraction adjusting effect of the laser forming mirror arc surface is induced to enable the laser to transversely irradiate into the thick-petal mirror plate 7G1 of the lens partition groove 7G, the laser is transversely irradiated into the hollow inner cavity 7G3 through the transverse multi-bunch of the small-sized convex mirror block 7G2, the luminosity dense effect is enhanced through the outward irradiation type matching of the sheet mirror cover 7G4 and the refraction light plate 7H, the autonomous adjustment activity of the transverse pulse laser trigger driving power supply system is guaranteed, the trigger probability is improved, and the labor force of the equipment is saved.

Example two:

referring to fig. 1 to 7, the present invention provides a driving power system for a curvature aperture lens wheel of a pulsed laser, which is otherwise the same as embodiment 1, except that:

referring to fig. 6, the rotating mirror plate frame 7F is composed of an ellipsoidal lens 7F1, a light transmission hole 7F2, a fiber optic tube 7F3, and an arbor wheel mirror base 7F4, the ellipsoidal lens 7F1 and the light transmission hole 7F2 are integrated and have collinear axes, the ellipsoidal lens 7F1 is nested on the top of the fiber optic tube 7F3 and is located on the same vertical plane, the two fiber optic tubes 7F3 are respectively nested on the upper and lower sides of the arbor wheel mirror base 7F4, and the ellipsoidal lens 7F1 forms a vertically rotating aperture collecting effect on the arbor wheel mirror base 7F4, so that the divergent light beam forms a track guiding effect of a transverse beam line.

Referring to fig. 7, the arbor wheel mirror seat 7F4 is composed of a pole plate shifting piece 7F41, a relay seat 7F42, a mirror plate groove seat 7F43, and a fuse 7F44, the pole plate plectrum 7F41 is vertically clung to the left side of the relay socket 7F42 and is positioned on the same vertical plane, the relay seats 7F42 are provided with two and respectively nested at the upper end and the lower end of the fuse tube 7F44, the relay seats 7F42 are arranged inside the mirror disc groove seat 7F43 and are positioned on the same vertical surface, the relay seat 7F42 is a relay seat structure with a pin slot in a crescent thin mirror plate, which is convenient for rectifying transverse pulse while a lens focuses laser beam, avoids the phenomena of divergent arc-extinguishing radiation electrons, ensures the stability of pulse driving effect, the pole plate plectrum 7F41 presses against the relay seat 7F42 to form the lens narrow angle effect of the upper and lower crescent plates, and also forms a relay current stabilizing function for the pulse current which is transversely punctured.

When the pulse laser is subjected to transverse up-down angle adjustment through equipment to output and trigger a driving power supply system, a scattering light source of an internal environment cannot be captured by a bunch and is omitted, so that waste after laser resources are generated is caused, during the period, the oval lens 7F1 of the lens frame 7F and the light-transmitting hole 7F2 are rotated to be integrally daylighted and brightened to form an aperture, the lens disk groove seat 7F43 of the lens disk seat 7F4 of the shaft wheel is matched with the light-guide fiber tube 7F3 to rotate, the effect of capturing the aperture of the disk surface and improving permeability is achieved, light beams of the pulse laser are captured finely, the phenomenon that the mirror body is continuously irradiated by the omission is avoided and is scalded is avoided, transverse breakdown current of rear pulses is loaded to the relay seat 7F42 through the pole plate shifting sheet 7F41, the fuse tube 7F44 is in rated load, flatness of the pulse plate is stably controlled and protected, and working efficiency of the pulse.

The invention achieves the effect that the pulse disk seat 2 is matched with the laser lens square groove 7 by utilizing the mutual combination of the components, the pulse disk seat 2 outputs pulse current to be connected with the laser lamp tube seat 7A to emit laser beam lines to form pulse laser, the generated pulse laser forms a transverse irradiation path in the separation cover shell 7B to combine with the rotary focusing effect of the lens partition groove 7G, the rotary mirror plate frame 7F is used for multi-bit light-sensitive curvature refraction to form the aperture capturing effect of a corner, the adjustable lifting and descending refraction operation is formed by matching equipment aiming at the trigger switch angle of a driving power supply system, the lens partition groove 7G is used for forming aperture displacement and traction movement effects, the conventional direct laser beam forms multi-angle adjustable angular torque division through the rotary mirror plate frame 7F, and the transverse breakdown efficiency of pulse current is improved, the initiative of the laser is improved, the laser has stable butt joint and regulation and control effects on a driving power supply of a circuit in the equipment, manual operation of people is avoided, the device can automatically adjust the curvature of the convex mirror for light condensation operation, thereby solving the problem that the light guide property of the pulse laser is always single straight line transmission to form the feedback electric control effect of a contactor or a trigger, the operation efficiency of active adjustment and detection is low, and the refractive index of the pulse laser is low, so that the phenomenon of transmission interruption exists in the light guide feedback process, so that the trigger switch can not get effective potential feedback to miss the optimum time of driving power supply system, and when the power supply is insufficient, the breakdown of the internal circuit causes the operator to manually guide the laser beam to improve the situation, the hidden danger of electric shock to the staff is very big, and lead to the frequent dismouting of drive power supply's transmission inner part to cause not hard up problem of influence.

The specific embodiments described herein are merely illustrative of the invention. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the scope of the invention or exceeding the scope of the claims appended hereto.

Claims (1)

1. A power supply system for driving a curvature aperture lens wheel of a pulse laser structurally comprises: backing plate (1), pulse dish seat (2), bolt member (3), buckle board (4), top cover plate (5), integrated circuit board (6), laser lens square groove (7) hug closely under the bottom surface of top cover plate (5), inlay the front side at laser lens square groove (7) in inserting bolt member (3), backing plate (1) hugs closely under the bottom surface of laser lens square groove (7), pulse dish seat (2) nests in the front side of laser lens square groove (7), top cover plate (5) are in the same place through buckle board (4) and integrated circuit board (6) lock, pulse dish seat (2) are connected its characterized in that through wire and integrated circuit board (6) electricity:

the laser lens square groove (7) is provided with a laser tube seat (7A), a separation cover shell (7B), a square groove barrel (7C), an exhibition frame dimming seat (7D), a diffuse reflection reed plate (7E), a wheel rotating mirror plate frame (7F), a lens partition groove (7G) and refraction light plates (7H), the laser tube seat (7A) is installed in the separation cover shell (7B), the separation cover shell (7B) is nested on the left side of the inside of the square groove barrel (7C), the exhibition frame dimming seat (7D) is provided with two and is respectively installed at the upper end and the lower end of the right side of the separation cover shell (7B), the diffuse reflection reed plate (7E) is installed between the exhibition frame dimming seat (7D) and the lens partition groove (7G), the wheel rotating mirror plate frame (7F) is inserted and embedded in the lens partition groove (7G), the refraction light plates (7H) are provided with two and are respectively installed at the upper end and the lower end of the right side of the square groove barrel (7C), the lens partition groove (7G) is mechanically connected with a square groove barrel (7C), and the square groove barrel (7C) is tightly attached to the lower part of the bottom surface of the top cover plate (5);

the exhibition frame dimming seat (7D) consists of an exhibition frame folded plate (7D1), an exhibition board socket groove (7D2), a torsion spring tube (7D3) and a base block (7D4), wherein the exhibition frame folded plate (7D1) is mechanically connected with the exhibition board socket groove (7D2), the torsion spring tube (7D3) is movably connected with the exhibition board socket groove (7D2), and the exhibition board socket groove (7D2) and the base block (7D4) are nested into a whole;

the exhibition board socket groove (7D2) is composed of an endoscope counterweight ball (7D21), a draw bar (7D22), a top cover column block (7D23) and a folding inner groove (7D24), the draw bar (7D22) is inserted and embedded in the right side of the endoscope counterweight ball (7D21), the endoscope counterweight ball (7D21) is installed on the left side inside the top cover column block (7D23), and the top cover column block (7D23) and the folding inner groove (7D24) are of an integrated structure;

the diffuse reflection spring plate (7E) is composed of a diffuse reflection plate block (7E1) and a spring wire (7E2), the diffuse reflection plate block (7E1) is mechanically connected with the spring wire (7E2), the spring wire (7E2) is installed inside the diffuse reflection plate block (7E1), the diffuse reflection plate block (7E1) is composed of an opposite vertex bent pipe (7E11), a gradient clamping plate (7E12), a tooth edge inner cylinder (7E13) and a frosted lens plate (7E14), the gradient clamping plate (7E12) is provided with more than two gradient clamping plates and is installed inside the tooth edge inner cylinder (7E13), the tooth edge inner cylinder (7E13) and the frosted lens plate (7E14) are nested into a whole, and the opposite vertex bent pipe (7E11) is matched with the frosted lens plate (7E 14);

the wheel-rotating lens frame (7F) is composed of an ellipsoid lens (7F1), light holes (7F2), a light guide fiber tube (7F3) and an arbor wheel lens base (7F4), the ellipsoid lens (7F1) and the light holes (7F2) are of an integral structure, the ellipsoid lens (7F1) is nested on the top of the light guide fiber tube (7F3), and the two light guide fiber tubes (7F3) are respectively nested on the upper side and the lower side of the arbor wheel lens base (7F 4);

the arbor wheel mirror disc seat (7F4) consists of a pole plate shifting piece (7F41), a relay seat (7F42), a mirror disc groove seat (7F43) and a protective tube (7F44), wherein the pole plate shifting piece (7F41) is vertically clung to the left side of the relay seat (7F42), the relay seat (7F42) is provided with two pole plate shifting pieces which are respectively nested at the upper end and the lower end of the protective tube (7F44), and the relay seat (7F42) is arranged inside the mirror disc groove seat (7F 43);

lens separate lamella groove (7G) comprise thick lamella mirror plate (7G1), small-size convex mirror piece (7G2), cavity interior chamber (7G3), thin slice mirror cover (7G4), thick lamella mirror plate (7G1) and thin slice mirror cover (7G4) hug closely respectively in the left and right sides of cavity interior chamber (7G3), small-size convex mirror piece (7G2) are equipped with two and all install in the inside of cavity interior chamber (7G 3).

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