CN208640883U - A kind of laser scanning system hand tool - Google Patents

Abstract

A kind of laser scanning system hand tool belongs to laser beautifying therapy field, including hand has mounting base；Hand tool mounting base upper surface is successively arranged X-axis scan module hole and incidence hole along its axial direction；Lower surface is axially arranged with light hole；Radial side is equipped with Y axis scanning motor hole；X-axis scan module with X-axis scanning galvanometer, the Y axis scanning motor with Y axis scanning galvanometer enter light microscopic cylinder and light microscopic cylinder is fixed on the hand by X-axis scan module hole, Y axis scanning motor hole, incidence hole and light hole respectively and has in mounting base out；The X-axis scanning galvanometer and Y axis scanning galvanometer are located in hand tool mounting base and are oppositely arranged, the Y axis scanning galvanometer is located at the top of light hole, the shrink beam component for exporting directional light is equipped in the light microscopic cylinder out, and the external proficiency in the light microscopic cylinder lower part out has bracket；Hot spot by the utility model output is the directional light of shrink beam, it ensure that the hot spot of required treatment is consistent with the structural spot size for the treatment of is acted on, be conducive to the healing of the surface of a wound, while the treatment of relatively deep can be realized using the large spot of 1-2mm, reaches ideal therapeutic effect.

Description

A kind of laser scanning system hand tool

Technical field

The utility model belongs to laser beautifying therapy field, and in particular to a kind of laser scanning system hand tool.

Background technique

In recent years, with the continuous development of laser technology, gradually become using laser therapy cicatrix of skin more and more The selection of patient.Compared with other types laser therapy means, dot matrix CO2 laser has other types in treatment cicatrix of skin Laser institute unrivaled advantage, CO2 laser can generate the thousands of scars " corium " that are distributed in when treating tissue Small thermal damage generates fuel factor by laser, so that histological change occurs for treatment region.

And generally treated using the following two kinds mode for the scar deeper for hyperplasia, in clinic, one is adopt With the stamping-type scanning compared with small light spot, this small luminous spot dimension is generally less than 0.5mm, in the deeper scar for the treatment of hyperplasia, by Limited in its penetration capacity, the ability for alleviating scope of activities is bad, and ideal therapeutic effect is often not achieved；Another way is It is treated in the form of " artificial dot matrix ", i.e., under Super pulse mode, non-sequentially arranges laser on the target tissue manually Punching, distance is 2-3mm between points, and penetration depth is controlled by floor push.Artificial dot matrix techniques and tradition dot matrix CO2 swash Light treatment is compared, and laser penetration tissue can be made deeper, inhibits proliferation of fibrous tissue, scar mid-deep strata fibroblast is caused to wither It dies.But this therapeutic modality has as a drawback that, firstly, " artificial dot matrix " punching due to by it is artificial one by one on the skin Punching, easily causes operator's large labor intensity, reduces the comfort of patient；Secondly, drill process is in the presence of inevitably artificial The factors such as error cause punching to be unevenly distributed, and then can not obtain satisfactory therapeutic effect；Finally, for hypertrophica increasing Raw scar, such as using the light beam irradiation cicatricial tissue routinely assembled, in order to make laser spot be finally reached scar innermost layer tissue When, the hot spot for being radiated at skin surface will be very big, thus unfavorable wound healing.

Utility model content

The purpose of the utility model is to provide a kind of laser scanning system hand tool, needed for can satisfy in treatment clinical course Large spot；And it is directed to deeper hyperplasia scar, make the hot spot ruler of layer tissue in acting on structural spot size and treating It is very little almost the same, meet Treatment need, reaches satisfactory therapeutic effect.

The utility model technical scheme applied to solve the technical problem is as follows:

A kind of laser scanning system hand tool, including hand have mounting base；The hand tool mounting base upper surface is axial successively along it Equipped with X-axis scan module hole and incidence hole；Hand tool mounting base lower surface is axially arranged with light hole；The hand has mounting base diameter Y axis scanning motor hole is equipped with to side；

X-axis scan module with X-axis scanning galvanometer and the Y axis scanning motor with Y axis scanning galvanometer pass through the X-axis respectively Scan module hole and Y axis scanning motor hole are fixed in the hand tool mounting base；Enter light microscopic cylinder and light microscopic cylinder passes through institute respectively out It states incidence hole and light hole is mounted in the hand tool mounting base；The X-axis scanning galvanometer and Y axis scanning galvanometer are located at the hand It in tool mounting base and is oppositely arranged, the Y axis scanning galvanometer is located at the top of light hole, is equipped in the light microscopic cylinder out for defeated The shrink beam component of directional light out, and the external proficiency in the light microscopic cylinder lower part out has bracket；

Laser is incident above light microscopic cylinder by entering, and after incident laser is entered light microscopic cylinder on output to X-axis scanning galvanometer, X-axis is swept Galvanometer is retouched to reflect the laser light in certain hunting range on Y axis scanning galvanometer, Y axis scanning galvanometer in certain hunting range again Laser beam is reflected by certain angle, the laser beam after reflection is gone out light microscopic cylinder and hand tool bracket output.

Further, it is described enter light microscopic cylinder upper end opening, inside be hollow tube, lower end be with respect to the horizontal plane be in 45 degree Opening face, set a reflex reflector lens on the opening face, it is described enter light microscopic cylinder side wall be equipped with it is opposite with the reflex reflector lens Horizontal light hole, the center of the X-axis scanning galvanometer on the axis of the horizontal light hole, laser enter described in enter light microscopic After cylinder, is reflected through the reflex reflector lens, export from the horizontal light hole to the center of the X-axis scanning galvanometer, make laser The transmission direction of light beam becomes horizontal direction by vertical direction.

Further, the shrink beam component is made of the convex lens and concavees lens set gradually along laser outbound course；Institute Stating convex lens can be any one in plano-convex, biconvex and concave-convex lens, and the concavees lens can be plano-concave, concave-concave and convex-concave Any one in lens；

When the distance between the convex lens and concavees lens are set as 46-50mm, have by the laser scanning system hand defeated Treatment hot spot out is 1-2mm.

Further, hand tool mounting base upper surface is axially additionally provided with motor harness socket aperture, for fixing motor lines Beam socket；

X-axis scan module harness and Y axis scanning motor harness are each welded on the motor harness socket, and the motor Harness socket is connect with the motor harness plug plug-in type being fixed on laser therapy host.

Further, a fixing seat is set in the hand tool mounting base, the fixing seat and hand tool mounting base pass through spiral shell Bolt fastening；It is described enter light microscopic cylinder, the X-axis scan module with X-axis scanning galvanometer and motor harness socket pass through the fixing seat, point The hand is not fixed on by incidence hole, X-axis scan module hole and motor harness socket aperture to have in mounting base.

Further, the laser scanning system hand tool further includes X-axis scan module lid, the X-axis scan module lid One end is circular mounting hole, it is described enter light microscopic cylinder pass through the circular mounting hole；

The other end of the X-axis scan module lid is the circular seal lid for closing X-axis scan module, the circular seal lid Inner wall sets the lug edge there are two types of different height, and the high and low raised edge of circular seal lid two is located at the top of the X-axis scan module Between.

Further, the laser scanning system hand tool further includes Y axis scanning motor cover, and the Y axis scanning motor cover is set It sets and has mounting base in the radial direction in the hand, and be coaxially disposed with Y axis scanning motor hole, the Y axis scanning motor Lid is screwed with hand tool mounting base, realizes the fastening to the Y axis scanning motor.

Further, the X-axis scan module with X-axis scanning galvanometer is limited by X-axis scan module seat, and drives X Axis scanning galvanometer is swung in the range of ± 10 °；

The Y axis scanning motor with Y axis scanning galvanometer is limited by Y axis scanning motor cabinet, and drives Y axis scanning galvanometer It is swung in the range of ± 10 °.

Further, it is described enter light microscopic cylinder on set an interface block being connected with external guide-lighting wall, inside the interface block If a protection eyeglass.

Further, a ventilation screw is set on the hand tool rack side wall, is provided with Hollowed ventilation inside the ventilation screw Channel, and the ventilation screw top is connected with air pipeline, bottom is threadedly coupled with hand tool bracket.

The beneficial effects of the utility model are:

1, in the utility model, by the way that a shrink beam component is arranged along laser transmission direction in light microscopic cylinder out, through the shrink beam Therefore the treatment beam sizes of component output are applied to structural beam sizes and skin surface for the directional light of shrink beam Wound size is essentially identical, and since beam pattern is still traditional stamping-type scanning, mobile is once exportable tens uniform point In the hot spot of cloth, with " artificial dot matrix " technology, mobile situations such as once only getting a hole and not can guarantee pore size distribution density phase Than can reduce operator's labor intensity, guaranteeing treatment hot spot precision, while can be realized relatively deeply using the large spot of 1-2mm The treatment of level.

2, in the utility model, fix a motor harness socket in mounting base by having in hand, X-axis scan module line and Y axis scanning motor lines are each welded on the motor harness socket, the motor harness socket and are fixed on laser therapy machine host Motor harness plug can realize plug-in type connect, can realize at any time different type laser scanning system hand tool replacement.

3, in the utility model, by being equipped with dust-proof protective glass among the interface block at the top of laser scanning system hand tool Piece can prevent hand tool from declining into dust, optical path is avoided to be contaminated when replacing laser scanning system hand tool, after optical path pollution It can cause light loss, the case where laser can break eyeglass when serious.

4, in the utility model, set a ventilation screw on rack side wall by having in hand, the ventilation screw top with lead to One end of air pipe line is connected, and the other end of air pipeline is connected to the ventilation module in laser cure apparatus fuselage, in therapeutic process In, laser burns can be blown away via the natural wind of the ventilation screw and air pipeline or cut generated gas and solid Grain, prevents outermost eyeglass to be contaminated and influence therapeutic effect.

Detailed description of the invention

Fig. 1 is the separate structure schematic diagram of the utility model；

Fig. 2 is the schematic diagram of internal structure that the utility model hand has mounting base；

Description of symbols:

1, hand has mounting base；2, fixing seat；3, enter light microscopic cylinder；4, with the X-axis scan module of X-axis scanning galvanometer；5, band Y-axis The Y axis scanning motor of scanning galvanometer；6, motor harness socket；7, go out light microscopic cylinder；8, hand has bracket, 9, X-axis scan module lid； 10, Y axis scanning motor cover；11, interface block；12, convex lens；13, concavees lens；14, ventilation screw, 15, protection eyeglass；101,X Axis scan module hole；102, incidence hole；103, motor harness socket aperture；104, Y axis scanning motor hole；105, light hole；301, Reflex reflector lens；302, horizontal light hole.

Specific embodiment

The utility model is described in further details with reference to the accompanying drawings and examples.

As depicted in figs. 1 and 2, a kind of laser scanning system hand tool, including hand have mounting base 1；Hand has 1 upper surface of mounting base X-axis scan module hole 101 and incidence hole 102 are successively arranged along its axial direction；Hand tool 1 lower surface of mounting base is axially arranged with light hole 105；Hand has the radial side of mounting base 1 and is equipped with Y axis scanning motor hole 104；

X-axis scan module 4 with X-axis scanning galvanometer and the Y axis scanning motor 5 with Y axis scanning galvanometer are swept by X-axis respectively It retouches motor hole 101 and Y axis scanning motor hole 104 is fixed in hand tool mounting base 1；Enter light microscopic cylinder 3 and light microscopic cylinder 7 passes through respectively out Incidence hole 102 and light hole 105 are mounted in hand tool mounting base 1, are entered between light microscopic cylinder 3 and hand tool mounting base 1 for threaded connection； X-axis scanning galvanometer and Y axis scanning galvanometer are located in hand tool mounting base 1 and are oppositely arranged, and Y axis scanning galvanometer is located at light hole 105 Top, the shrink beam component for exporting directional light is equipped in light microscopic cylinder 7 out, and the external proficiency in 7 lower part of light microscopic cylinder has bracket out 8, hand tool bracket 8 and out light microscopic cylinder 7 are to be detachably connected；

Hand tool 1 upper surface of mounting base is axially additionally provided with motor harness socket aperture 103, for fixing motor harness socket 6；X Axis scan module harness and Y axis scanning the motor harness internal cabling between hand tool mounting base 1 and fixing seat 2, and weld Onto motor harness socket 6, and motor harness socket 6 connects with the motor harness plug plug-in type being fixed on laser therapy host It connects, the replacement for facilitating different type laser scanning system hand to have and the detection to scan module failure.

A fixing seat 2 is set in hand tool mounting base 1, fixing seat 2 is fastened by bolts with hand tool mounting base 1；Enter light microscopic cylinder 3, X-axis scan module 4 and motor harness socket 6 with X-axis scanning galvanometer pass through fixing seat 2, are swept respectively by incidence hole 102, X-axis It retouches motor hole 101 and motor harness socket aperture 103 is fixed in hand tool mounting base 1.

Enter 3 upper end opening of light microscopic cylinder, inside is hollow tube, and lower end is the opening face for being with respect to the horizontal plane in 45 degree, is opened Mouth sets a reflex reflector lens 301 on face, and the side wall for entering light microscopic cylinder 3 is equipped with the horizontal light hole 302, X opposite with reflex reflector lens 301 The center of axis scanning galvanometer is on the axis of horizontal light hole 302, anti-through reflex reflector lens 301 after laser enters light microscopic cylinder 3 It penetrates, from the output to the center of X-axis scanning galvanometer of horizontal light hole 302, becomes the transmission direction of laser beam by vertical direction Horizontally.

The shrink beam component being arranged in light microscopic cylinder 7 out is by the convex lens 12 and concavees lens 13 that set gradually along laser outbound course Composition；The convex lens 12 can be any one in plano-convex, biconvex and concave-convex lens, and the concavees lens 13 can be flat Any one in recessed, concave-concave and meniscus；Two types lens can be arbitrarily made with a variety of shrink beam components, by shrink beam The treatment laser of component output is a branch of relatively narrow directional light, meets Treatment need, ensure that hot spot and the effect of required treatment Treating, structural spot size is consistent, is conducive to the healing of the surface of a wound.

X-axis scan module 4 with X-axis scanning galvanometer is limited by X-axis scan module seat, and X-axis scanning galvanometer is driven to exist It is swung in the range of ± 10 °；Y axis scanning motor 5 with Y axis scanning galvanometer is limited by Y axis scanning motor cabinet, and drives Y-axis Scanning galvanometer is swung in the range of ± 10 °.

Laser is fallen on reflex reflector lens 301, laser is through reflective by entering 3 surface vertical incidence of light microscopic cylinder by entering light microscopic cylinder 3 After eyeglass 301 reflects, projected by horizontal light hole 302, at this point, the transmission direction of laser becomes horizontal direction by vertical direction, Laser reflexes to X-axis scanning galvanometer after the injection of horizontal light hole 302, and drop point is the center of X-axis scanning galvanometer, X-axis scanning vibration Laser is reflected into Y axis scanning galvanometer according to certain orientation and angle in ± 10 ° of hunting range by mirror, and drop point is swept positioned at Y-axis The center of galvanometer is retouched, Y axis scanning galvanometer is again reflected laser by certain angle in ± 10 ° of hunting range, finally, after reflection Laser pass sequentially through convex lens 12 and concavees lens 13 in shrink beam component and carry out shrink beam, then handle tool bracket 8 and export, output is controlled It is the directional light of shrink beam that treat hot spot, which be the treatment hot spot of interface display on host, ensure that the hot spot of required treatment and acts on It treats that structural spot size is consistent, is conducive to the healing of the surface of a wound, meanwhile, the scar deeper for hyperplasia can achieve reason The therapeutic effect thought, and when the distance between convex lens and concavees lens are 46-50mm in shrink beam component, it may be output as 1-2mm Large spot, meet clinical demand.Using tradition stamping-type scanning, movement is once exportable tens and uniformly divides beam pattern The hot spot of cloth can reduce operator's labor intensity, improve the comfort of patient, guarantee to control compared with " artificial dot matrix " technology Treat hot spot precision.

Laser scanning system hand provided in this embodiment tool further includes X-axis scan module lid 9, and the one of X-axis scan module lid 9 End is circular mounting hole, enters light microscopic cylinder across the circular mounting hole and fixing seat 2, by incidence hole 102, is fixed on hand tool installation In seat 1；The other end of X-axis scan module lid 9 is the circular seal lid of the X-axis scan module 4 of confining zone X-axis scanning galvanometer, circle Shape sealing cover inner wall sets the lug edge there are two types of different height, is located at circle at the top of the X-axis scan module 4 with X-axis scanning galvanometer The high and low protrusion of shape sealing cover two is between.

Laser scanning system hand tool provided in this embodiment further includes Y axis scanning motor cover 10, and Y axis scanning motor cover 10 is set It sets and has mounting base 1 in the radial direction in hand, and be coaxially disposed with Y axis scanning motor hole 104, Y axis scanning motor cover 10 and hand Tool mounting base 1 is screwed, and realizes the fastening to the Y axis scanning motor 5 with Y axis scanning galvanometer.

The entering to set one on light microscopic cylinder 3 of laser scanning system hand provided in this embodiment tool connects with what external leaded light wall was connected Mouthful seat 11 sets a protection eyeglass 15 inside interface block 11, when replacing laser scanning system hand tool, can prevent the ash in light-conducting arm Dirt is fallen among laser scanning system hand tool, avoids optical path from being contaminated and by laser breakdown.

A ventilation screw 14 is set on hand tool 8 side wall of bracket of laser scanning system hand tool provided in this embodiment, spiral shell of ventilating It is provided with Hollowed ventilation channel inside silk 14, and top is connected with air pipeline, bottom is threadedly coupled with hand tool bracket 8, ventilation duct Road is connected to the ventilation module in laser cure apparatus fuselage, and over the course for the treatment of, the natural wind from ventilation module is through ventilating Screw 14 blows to treatment affected part, takes away laser burns or gas and solid particle caused by cutting, prevent outermost eyeglass by Therapeutic effect is influenced to pollution.

It is above that certain exemplary embodiments of the utility model are only described by way of explanation, undoubtedly, for Those skilled in the art can be with a variety of different without departing from the spirit and scope of the utility model Mode is modified described embodiment.Therefore, above-mentioned attached drawing and description are regarded as illustrative in nature, and should not be construed as Limitation to the utility model claims protection scope.

Claims (10)

1. a kind of laser scanning system hand tool, it is characterised in that: have mounting base including hand；

Hand tool mounting base upper surface is successively arranged X-axis scan module hole and incidence hole along its axial direction；The hand has mounting base Lower surface is axially arranged with light hole；Hand tool mounting base radial direction side is equipped with Y axis scanning motor hole；

X-axis scan module with X-axis scanning galvanometer and the Y axis scanning motor with Y axis scanning galvanometer are scanned by the X-axis respectively Motor hole and Y axis scanning motor hole are fixed in the hand tool mounting base；Enter light microscopic cylinder and out light microscopic cylinder pass through respectively it is described enter Unthreaded hole and light hole are mounted in the hand tool mounting base；The X-axis scanning galvanometer and Y axis scanning galvanometer are located at hand tool peace It in dress seat and is oppositely arranged, the Y axis scanning galvanometer is located at the top of light hole, is equipped in the light microscopic cylinder out flat for exporting The shrink beam component of row light, and the external proficiency in the light microscopic cylinder lower part out has bracket；

Laser is incident above light microscopic cylinder by entering, after incident laser is entered light microscopic cylinder on output to X-axis scanning galvanometer, X-axis scanning vibration Mirror is reflected the laser light in certain hunting range on Y axis scanning galvanometer, and Y axis scanning galvanometer will swash again in certain hunting range Light light beam is reflected by certain angle, and the laser beam after reflection is gone out light microscopic cylinder and hand tool bracket output.

2. a kind of laser scanning system hand tool according to claim 1, it is characterised in that: it is described enter light microscopic cylinder upper end open Mouthful, inside is hollow tube, and lower end is the opening face for being with respect to the horizontal plane in 45 degree, a reflex reflector lens are set on the opening face, It is described enter light microscopic cylinder side wall be equipped with the horizontal light hole opposite with the reflex reflector lens, the center of the X-axis scanning galvanometer On the axis of the horizontal light hole, after entering light microscopic cylinder described in laser entrance, reflected through the reflex reflector lens, from the level Light hole is exported to the center of the X-axis scanning galvanometer, and the transmission direction of laser beam is made to become level side by vertical direction To.

3. a kind of laser scanning system hand tool according to claim 1, it is characterised in that: the shrink beam component is by along laser Convex lens and the concavees lens composition that outbound course is set gradually；The convex lens can be in plano-convex, biconvex and concave-convex lens Any one, the concavees lens can be any one in plano-concave, concave-concave and meniscus；

When the distance between the convex lens and concavees lens are set as between 46-50mm, have by the laser scanning system hand defeated Treatment hot spot out is 1-2mm.

4. a kind of laser scanning system hand tool according to claim 1, it is characterised in that: the hand has mounting base upper surface It axially is additionally provided with motor harness socket aperture, for fixing motor harness socket；

X-axis scan module harness and Y axis scanning motor harness are each welded on the motor harness socket, and the motor harness Socket is connect with the motor harness plug plug-in type being fixed on laser therapy host.

5. a kind of laser scanning system hand tool according to claim 4, it is characterised in that: set one in the hand tool mounting base Fixing seat, the fixing seat are fastened by bolts with hand tool mounting base；It is described enter light microscopic cylinder, the X-axis with X-axis scanning galvanometer Scan module and motor harness socket pass through the fixing seat, are inserted respectively by incidence hole, X-axis scan module hole and motor harness Bore is fixed in the hand tool mounting base.

6. a kind of laser scanning system hand tool according to claim 1, it is characterised in that: the laser scanning system hand tool Further include X-axis scan module lid, one end of the X-axis scan module lid is circular mounting hole, it is described enter light microscopic cylinder pass through it is described Circular mounting hole；

The other end of the X-axis scan module lid is the circular seal lid for closing X-axis scan module, the circular seal lid inner wall If being located at the high and low lug of circular seal lid there are two types of the lug edge of different height, at the top of the X-axis scan module along it Between.

7. a kind of laser scanning system hand tool according to claim 1, it is characterised in that: the laser scanning system hand tool Further include Y axis scanning motor cover, hand tool mounting base is arranged in the radial direction in the Y axis scanning motor cover, and with institute The coaxial arrangement of Y axis scanning motor hole is stated, the Y axis scanning motor cover is screwed with hand tool mounting base, realization pair The fastening of the Y axis scanning motor.

8. a kind of laser scanning system hand tool according to claim 1, it is characterised in that: the X with X-axis scanning galvanometer Axis scan module is limited by X-axis scan module seat, and X-axis scanning galvanometer is driven to swing in the range of ± 10 °；

The Y axis scanning motor with Y axis scanning galvanometer is limited by Y axis scanning motor cabinet, and drive Y axis scanning galvanometer ± It is swung in the range of 10 °.

9. a kind of laser scanning system hand tool according to claim 1, it is characterised in that: it is described enter light microscopic cylinder on set one with The interface block that external leaded light wall is connected sets a protection eyeglass inside the interface block.

10. a kind of laser scanning system hand tool according to claim 1, it is characterised in that: on the hand tool rack side wall If a ventilation screw, Hollowed ventilation channel, and the ventilation screw top and air pipeline phase are provided with inside the ventilation screw Even, bottom is threadedly coupled with hand tool bracket.