JP2883083B2 - Light source device for equipment - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to a light source device for an instrument such as an operating microscope, an ophthalmoscope, or an endoscope. (Prior Art) In the above-described apparatus, a high-intensity light source such as a halogen lamp is used to illuminate a site to be operated, a fundus of an eye to be examined, or a site to be observed in a body, and this is transmitted through a transmission unit such as an optical fiber. The illuminated part is illuminated directly or through the observation optical device part. A halogen lamp used as a light source for illumination has a short life, and thus may be cut off during surgery or observation.
One solution to this is disclosed in US Pat.
There is a known technique disclosed in Japanese Patent Application Laid-Open Publication No. H11-209,873. According to the technique disclosed in this publication, a rotatable circular flange is provided in a lamp house housing, a plurality of halogen lamps are arranged on the circular flange, and a light source arranged in an illumination light path among the plurality of light sources. And a connector that is selectively electrically connected to the connector. Thereby, when the light source arranged in the illumination light path is cut off, one of the other auxiliary light sources is arranged in the illumination light path by rotating the flange, the connector is electrically connected to this, and the auxiliary light source is turned on. To avoid interruption of surgery and observation. (Problems to be Solved by the Invention) In the prior art disclosed in the above-mentioned U.S. Patent Publication, the work of fixing the light sources one by one to a predetermined position on the flange by removing the cover of the lamp house when attaching the light source to the lamp house. Necessary, this operation was extremely complicated. In addition, if the lighting switch is forgotten to be turned off while the connector is electrically connected during the light source mounting operation, there is a risk of electric shock accident or the like. The present invention has been made in view of the problems of the related art, and an object of the present invention is to provide a novel light source device for an apparatus which can easily perform a light source mounting operation and can reliably prevent an accident such as an electric shock. . (Means for Solving the Problems) In order to achieve the above-described object, the present invention provides a housing, first electrical connection means connected to a power supply and provided inside the housing, and a plurality of light sources. And a support member that is removably fitted to the housing, and second electrical connection means connected to the light source, wherein the light source and the second electrical connection means are the support member And a unit integrated with the supporting member by being attached to a portion inside the housing, and by inserting and removing the unit into and from the housing, the second electric connection means is connected to the first electric unit. The electric connection with the power supply and the release of the electric connection are detached from the connection means,
A light source device for an appliance, wherein the light source can be replaced by detaching the unit from the housing. (Operation) According to such a configuration, when a plurality of light sources are inserted into the housing in a state where they are mounted on the unit, the support member on which the light sources and the second electric connection means are mounted is inserted into the housing and fitted. Then, the second electric connection means on the unit side is connected to the first electric connection means on the housing side and connected to the power supply. On the other hand, when replacing the light source in the case where the light source is cut off, for example, by removing the unit from the housing, the support member having the light source and the second electrical connection unit is detached from the housing and the unit side is removed. Is disconnected from the first electrical connection means on the housing side, and the electrical connection with the power supply is released. In this way, by simply pulling out the unit from the housing, a plurality of light sources can be taken out of the housing at one time and the connection with the power supply can be cut off. It is possible to prevent electric shock accidents during replacement work. (Example) Hereinafter, an example of the present invention will be described with reference to the drawings. FIG. 5 shows an example of a usage form of medical equipment in which the light source device 1 according to the present invention is used, and illustrates a surgical microscope as the medical equipment. Surgical microscope M is a mounted for horizontal pivoting about the axis O ₁ to the support 2 of the floor stand, not shown 1
An arm 3, horizontally pivotably and about the axis O ₂ arrows 4a
A second arm 4 supported at the tip of the first arm 3 so as to be able to swing up and down in a vertical plane, and a second arm 4 capable of turning in a horizontal plane.
An L-shaped arm 5 attached to the tip of the arm 4;
And a microscope body 6 fixed to the lower end of the arm 5. The illumination light from the light source device 1 includes first and second arms 3 and 4.
The light is transmitted to the microscope main body 6 by an optical fiber 7 disposed therein, and illuminates the observed portion via an illumination optical system in the microscope main body 6. The first arm 3 is provided with a lighting switch 8 for turning on / off the lighting of the light source device 1. A lamp house room 10 is formed in the first arm 3 as shown in FIGS. This lamp house room 10
Is formed between the base 3a and the outer wall 3b as shown in FIG. 2, and a circular mounting hole 102 is formed in the outer wall 3b. The base 3a and the outer wall 3b extend in the vertical direction of the first arm 3. A hollow shaft body 101 disposed in the lamp house room 10 is fixed to the base 3a.
A rotary arm 100 having a U-shaped cross section supported rotatably at 01 is provided. This rotary arm 100
A bottom plate 100a rotatably supported by the hollow shaft body 101, and a bottom plate 1
It is formed in a U-shape from side plates 100b and 100c provided at both ends of 00a. A cylindrical lamp mount receiver 103 is fixed to the ends of the side plates 100b and 100c. The lamp mount receiver 103 is rotatably fitted in the circular mounting hole 102. The circular opening in the lamp mount receiver 103 forms an insertion port for a lamp mount 200 described later. Side plates 100 are provided at both ends of the bottom plate 100a of the rotary arm 100.
Two guide pipes 104, 104 'extending along b, 100c are fixedly erected. Slide pipes 105, 105 'are fitted around the guide pipes 104, 104' so as to be movable in the axial direction. The slide pipes 105, 105 'are provided on the outer circumference of the free ends of the guide pipes 104, 104' and the inner circumference of the end on the bottom plate 100b side of the slide pipes 105, 105 '.
A stopper flange is provided to prevent the stopper flange from coming off from 4,104 '. In addition, spring supports E, E 'are attached to the intermediate portions of the guide pipes 104, 104', and a guide spring 106 is interposed between the slide pipe 105 and the spring support E, so that the slide pipe 105 'and the spring support E are mounted. And a guide spring 106 'is interposed between the slide pipes 105 and 105'.
It is urged in the direction, that is, outside the lamp house room 10. Side plate 100b of bottom plate 100a forming rotary arm 100
Micro switches 107 and 108 arranged on both sides so as to sandwich the guide pipe 104 are attached to the side ends. Further, a pair of socket mounting legs 109, 109 'and 110, 110' arranged along each side edge of the bottom plate 100b are fixedly mounted on a portion between the center of the bottom plate 100a and the microswitches 107, 108. A connector socket 111 is mounted on the socket mounting legs 109, 109 ', and a connector socket 112 is mounted on the socket mounting legs 110, 110'. Although the illustration of the electrical connection relationship between the connector sockets 111 and 112 is omitted in FIGS. 1 and 2, the connector socket 111 has a pair of terminals 111a and 111b as shown in FIG.
The connector socket 112 has a pair of terminals 112a and 112b, and the terminals 111a and 112a are connected to the microswitches 107 and 108.
The fixed contacts 107b and 108b of the microswitches 107 and 108 are electrically connected to one pole of the power source B via the illumination switch 8. The other pole of the power supply B is electrically connected to terminals 111b and 112b of the connector sockets 111 and 112. The power source B is housed in a column (not shown), and the cord electrically connecting the power source B to the microswitches 107 and 108 and the connector sockets 111 and 112 is wired through the hollow portion 101a of the hollow shaft body 101. In FIG. 4, a lamp mount knob 201 is formed on the front (upper part in the figure) of a disk-shaped lamp mount 200. Also, on the back of the lamp mount 200, FIG.
As shown in FIG. 4, two guide poles arranged at positions opposite to each other on the peripheral edge and perpendicular to the back surface
202, 202 ', two lamp supports 203, 204 arranged on one side adjacent to the guide pole 202, and along the periphery of the lamp mount 200 and between the guide pole 202' and the lamp support 203, 204. Two terminal brackets 205,206 and terminal brackets 205,2
Two connector plugs 214 and 215, which are arranged adjacent to 06 and between the side edge of the guide pole 202 'of the lamp mount 200 and the center, are attached. In addition, 203
Reference numerals a and 204a denote heat insulating plates of the lamp supports 203 and 204. Halogen lamps 210 and 211 are inserted and held in the circular openings of the lamp supports 203 and 204, respectively. The halogen lamps 210 and 211 are fixed to known lamp holders 212 and 213 attached to the lamp supports 203 and 204, respectively. The socket 210a inserted into the halogen lamp 210 is electrically connected to the connector plug 214 via the terminal bracket 205, and the socket 211a mounted on the halogen lamp 211 is connected to the connector plug 216 via the terminal bracket 206. Electrically connected. The lamp mount 200 is mounted on the guide pole 20
By inserting 2,202 'into the guide pipes 104, 104', it can be held on the rotary arm 100.
When the lamp mount 200 is fitted into the lamp mount receiver 103, the connector plug 215 is connected to the connector socket 111, and the connector plug 214 is connected to the connector socket 112. As shown in FIG. 1, the first arm 3 is located outside the rotation locus of the rotary arm 100 in the lamp house room 10.
A light guide support 300 fixed to is provided. The light guide support 300 has an opening 301 opening toward the rotation center 0 of the rotary arm 100.
At 01, the incident end of the optical fiber 7 is inserted and fixed. A heat-insulating filter 302 is adjacently opposed to the rotation center 0 side of the opening 301. Stopper bosses 303 and 3 for further restricting the rotation of the rotary arm 100 are provided on the base 3a of the lamp house room 10.
03 'and limit dogs 304, 305 for turning on the micro switches 107, 108 when the rotary arm 100 is rotated to a predetermined position are fixed. The lamp mount receiver 103 has three click holes 301a for determining the rotation position of the rotary arm 100.
301b and 301c are formed. In addition, a holding hole (not shown) is formed in the outer wall 3b of the first arm 3 so as to open on the inner peripheral surface of the circular mounting hole 102. The holding hole has a ball 311 that selectively engages with the three click holes 301a, 301b, and 301c.
A spring 312 biasing to the third side is provided. As shown in FIGS. 1 and 6, a flange 320 projecting into the lamp house chamber 10 is formed on the first arm 3, and the front end of the flange 320 is attached to the inner end face of the lamp mount receiver 103 by the seventh arm. A stopper pressing plate 321 that is brought into contact as shown in the figure is attached.
And an end face 323 are provided continuously. 4 and 7
As shown in FIG. 8 and FIG. 8, a safety stopper 325 made of a leaf spring is attached to the lamp mount 200, and a bent portion 325 provided at the tip of the safety stopper 325 is provided.
A stopper pin 326 is attached to a. Further, a stopper groove 330 is formed on the inner peripheral surface 3b 'of the outer wall 3b forming the circular mounting hole 102 of the first arm 3, as shown in FIG. On the other hand, a slot 331 is formed in the lamp mount receiver 103 as shown in FIG. A detent pin 332 having a nut 332a is inserted into the slot 331 so as to be movable in the direction in which the slot 331 extends. In addition, a pin 333 is fixedly implanted in the lamp mount receiver 103 near the slot 331, and a spring 334 is wound around the pin 333. One end of the spring 334 is engaged with the inner end surface of the lamp mount receiver 103, and the other end thereof presses against the side surface of the nut 332a, and constantly rotates the detent pin 332 in the direction of arrow C (FIGS. 11 and 12). Middle right)
Is urged. Next, the operation of the light source device for medical equipment having such a configuration will be described.
This will be described with reference to FIGS. 13 (a) to 15 (b). The lamp mount 200 to which the halogen lamps 210 and 211 are attached has the guide poles 202 and 202 'with a rotary arm.
The guide arm 104 is mechanically connected to the rotary arm 100 by being inserted and engaged with the guide pipes 104, 104 '. In this case, the connector plugs 214 and 215 are connected to the connector sockets 111 and 112, respectively, so that the halogen lamp 2
11, 212 are electrically connected to the power supply B. As shown in FIG. 13 (a), when the lamp mount knob 201 is rotated, the rotational operation force of the lamp mount knob 201 is transmitted to the rotary arm 100 as rotational force via the guide poles 104, 104 'and the guide pipes 202, 202'. Being
The rotary arm 100 rotates about the hollow shaft body 101.
In addition, the index 201a with the lamp mount knob 201 attached thereto is the index LAMP marked on the first arm 3.
When the side surface of the rotary arm 100 is brought into contact with the stopper boss 303 'by rotating to move to the (A) side, the index 201a coincides with the index LAMP (A), and at the same time, the lamp mount receiver 103 is clicked. The ball 311 is engaged with the hole 310a. By this turning operation, the halogen lamp 211 turns integrally with the lamp mount 200 in the lamp house room 10,
It is aligned with the axis of the optical fiber 7 and positioned in the illumination light path. In addition, at this time, the movable contact 108a of the micro switch 108 attached to the rotary arm 100 contacts the limit dog 305, and the micro switch 108 is turned on. When the lighting switch 8 is turned on in this state, the power from the power source B is supplied to the lamp 210 via the microswitch 108, the connectors 112 and 214, the terminal bracket 205, and the socket 210a, and the lamp 210 is turned on. If the lamp 210 burns out during the operation, FIG. 14 (b)
When the lamp mount knob 201 is rotated clockwise to rotate the lamp mount knob 201 so that the index 201a moves to the LAMP (B) side as shown in FIG. Then, it rotates in a direction opposite to the above. Then, the rotary arm 100 is moved to the stopper boss 303.
, The index 201a matches the LAMP (B), and the ball 311 engages with the click hole 310c.
A lamp 210 is positioned in the illumination light path opposite the optical fiber 7. At the same time, the movable contact 107a of the micro switch 107 comes into contact with the limit dog 304, and the micro switch 107 is turned on. At this time,
The movable contact 108a of the micro switch 108 is a limit dog 3
Since the contact with 05 has been released, the micro switch 10
8 is in the OFF state. Accordingly, the power from the power supply B is supplied to the lamp 211 via the switch 8, the microswitch 107, the connectors 111 and 215, the terminal bracket 206, and the socket 211a in the ON state, and the lamp 211 is turned on. In this way, the operating lamp 210 can be switched to 211 and illuminated by a one-touch rotation operation of the lamp mount 201. When replacing lamp 210 or 211 with a new lamp,
As shown in FIG. 15 (b), the lamp mount knob 201 is rotated until the index 201a matches the EXP (replacement position). As a result, the rotary arm 100
As shown in FIG. 7A, the micro switches 107 and 108 are turned off, and the power supply from the power source B to the lamps 210 and 211 is cut off. Ball 3 at the same time
11 engages with the click hole 310b of the lamp mount receiver 103, and the index 201a matches EXP. Moreover, the stopper pin 326 of the stopper piece 325 is the eighth pin when the lamp 210 or 211 is positioned in the illumination optical path.
As shown in the figure, it comes into contact with the inner end face of the lamp mount receiver 103 to prevent the lamp mount 200 from coming off. On the other hand, when the index 201a is rotated from the LAP (B) side to the EXP as described above, the stopper pin 326 is moved by the slope 322 of the stopper pressing plate 321 to the safety stopper piece.
It is pushed down against the spring force of 325 (displaced toward the central axis of the lamp mount receiver 103). Then, the stopper pin 326 sets the index 201a to EX from the LAP (B) side.
When P coincides with P, the lamp mount receiver 103 is displaced from the inner end face toward the central axis, and the lamp mount 200 can be separated from the lamp mount receiver 103 and the rotary arm 100. Moreover, in this position, the detent pins 332 held in the slots 331 of the lamp mount receiver 103 correspond to the stopper grooves 330 formed in the outer wall 3b. Accordingly, in this state, the lamp mount 200 is moved outward from the lamp house room 10 of the rotary arm 100, that is, the first position.
It can be pulled out of the arm 3. Then, when the lamp mount 200 is pulled out, as shown in FIG. 2, the slide pipes 105, 10 fitted into the guide pipes 104, 104 'are used.
The tip 5 'is advanced outside the first arm 3 by the elastic force of the guide springs 106, 106'. After replacing the new lamp with the pulled-out lamp mount 200, insert the guide poles 202, 202 'into the ends of the slide pipes 105, 105' projecting out of the slide pipes 105, 105 '. Insert into the house room 10. Since the slide pipes 105, 105 'partially protrude out of the first arm 3 when inserted, the guide poles 202, 202' and the guide pipes 104, 104 'are aligned when the lamp mount 200 is inserted into the lamp house room 10. This embodiment has an advantage that the insertion is easy. Then, mount the lamp mount 200 on the lamp mount receiver 103.
When the nut is inserted into the lamp housing 200, the nut 332a is pressed against the elasticity of the spring 334 at the peripheral edge of the rear surface of the lamp mount 200 to be displaced toward the lamp house room 10. And the twelfth
As shown in the figure, when the lamp mount 200 is completely inserted and fitted into the lamp mount receiver 103, the detent pin 332 is
Is disengaged from the stopper groove 330 and the engagement with the stopper groove 330 is released.
Rotation to the P (A) and LAMP (B) positions is allowed. If the lamp mount 200 is not fully inserted into the lamp house room 10, as shown in FIG.
Since the engagement of the stopper groove 332 with the stopper groove 330 is not released, even if the lamp mount 200 is rotated to the position of LAMP (A) or LAMP (B), the action of the detent pin 332 and the stopper groove 330 causes the lamp to rotate. The rotation of the mount 200 is prevented. Therefore, in an incomplete lamp mount insertion position in which the filaments of the lamps 210 and 211 are not located on the surface including the optical axis of the optical fiber 7, the lamp mount
0 can be prevented from rotating, and incomplete illumination due to optical axis misalignment between the lamps 210 and 211 and the optical fiber 7 can be prevented. Also, connector socket 111,
It is possible to prevent power loss due to incomplete engagement of the connector plugs 215 and 214 with the connector plug 112, and to prevent accidental contact leakage with other components due to rotation in this state. On the other hand, when the lamp mount knob 201 is rotated to the position of LAMP (A) or LAMP (B) after the lamp mount 200 is completely inserted into the lamp house room 10, the stopper pin 326 of the safety stopper piece 324 is Since the engagement of the stopper pressing plate 321 with the inclined surface 322 is released, the stopper pin 326 is connected to the safety stopper piece 324 as shown in FIG.
Is brought into contact with the side surface of the lamp mount receiver 103 by the spring force of. As a result, during the rotation operation of the lamp mount 200 or L
Lamp mount 200 at AMP (A) or LAMP (B) position
Is prevented from being pulled out. In the embodiment described above, each of the lamp mount receiver 103 provided on the rotary arm 100 as a moving flange and the lamp mount receiver 103 as an operation member is formed in a circular shape, and is inserted into the illumination light path of the lamps 210 and 211 as illumination light sources. , The operation of the micro switches 107 and 108 as the switch means, the release operation of the safety stopper mechanism, the operation of the detent pin 332 as the movement prevention mechanism, and the like are all configured to respond to the turning operation of the lamp mount 200. . By using the rotating operation mechanism in this way, the size of the light source device can be reduced. However, the present invention is not limited to this,
The moving flange and the lamp mount may be a linear moving mechanism, and the switching of the light source may be positioned in the illumination optical path by the linear movement. In this case, ON / O of micro switch 107,108
The FF operation, the release of the safety stopper mechanism, and the movement stop mechanism may be configured to respond to the linear movement of the moving flange and the lamp mount, respectively, and such a configuration is easy for those skilled in the art reading the above-described embodiment. is there. In addition, two mechanical micro switches 107 and 108 are used as switch means. However, this can be configured by a photoelectric switch such as a photo interrupter, or a single pole double throw neutral that can share one micro switch 107 and 108. It may be configured as an attached switch. (Effects of the Invention) As described above, the present invention provides a housing, a first electric connection means connected to a power supply and provided inside the housing,
It has a plurality of light sources, a support member that is removably fitted to the housing, and second electrical connection means connected to the light sources, wherein the light source and the second electrical connection means The support member constitutes a unit that is mounted on a portion inside the housing of the support member and is integrated with the support member. By inserting and removing the unit into and from the housing, the second electrical connection unit is connected to the second electrical connection unit. The electric connection means and the electric connection with the power supply, and the release of the electric connection,
Since the light source can be replaced by detaching the unit from the housing, a support member equipped with a plurality of light sources can be fitted to the housing by simply inserting the unit into the housing, The second electrical connection means connected to the light source can be electrically connected to the first electrical connection means in the housing.
In addition, when replacing the light source when the light source is cut off, remove the unit from the housing,
A plurality of light sources can be removed from the housing at one time, and the second electric connection means connected to the light source is automatically separated from the first electric connection means in the housing, so that the light source can be connected to the unit mounted with the light source. The electrical connection can be interrupted. In this way, by simply removing the unit from the housing, a plurality of light sources can be taken out of the housing at the same time and the connection of the light source to the power supply can be cut off. In addition, it is possible to reliably prevent an electric shock accident during the replacement work.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a cross-sectional view showing a configuration of a light source device according to the present invention on a rotating flange side, FIG. 2 is a cross-sectional view taken along line II-II of FIG. 1, and FIG. FIG. 4 is a front view showing the configuration on the mount side. FIG. 4 is a third view showing the configuration on the lamp mount side of the light source device.
FIG. 5 is an explanatory view showing a surgical microscope utilizing the present invention. FIG. 6 is an explanatory view showing a relationship between a lamp mount receiver and a stopper holding plate. FIG. 7 is a stopper at an EXP position. FIG. 8 is a sectional view showing the relationship between the holding plate, the stopper pin and the lamp mount receiver, FIG. 8 is a sectional view showing the relationship between the stopper holding plate, the stopper pin and the lamp mount receiver at a position other than EXP, and FIG. 9 is the stopper. FIG. 10 is a schematic view showing the relationship between the groove EXP positions, FIG. 10 is a plan view showing the structure of the detent pin, FIG. 11 is a cross-sectional view showing the state of the detent pin when the lamp mount is incompletely inserted, and FIG. 12 is a lamp. FIG. 13 (a) is a cross-sectional view showing a state of a detent pin when the mount is completely inserted. FIG. 13 (a) is a schematic view showing a positional relationship of each component when one lamp is positioned in an illumination light path. FIG. 13 (b), FIG. 14 ( FIGS. 15 (b) and 15 (b) are schematic diagrams showing the relationship between the lamp mount knob and the index display, and FIG. 15 (a) shows the positional relationship between the components when the other lamp is arranged in the illumination light path. FIG. 15 (a) is a schematic diagram showing a positional relationship of each component at an EXP position, and FIG. 16 is an electric circuit diagram of the light source device shown in FIGS. 1 to 15 (b). . 100 Rotary arm (moving flange) 103 Lamp mount receiver 104, 104 'Guide pipe (engaging body) (connecting means) 105, 105' Slide pipe (guide body) (connecting means) 106, 106 'Guide spring ( Moving means) (connecting means) 202, 202 'guide pole (pillar) (connecting means) 107, 108 microswitch 111, 112 connector socket 210, 211 halogen lamp 215, 216 connector plug 321 stopper stopper plate (safety stopper) Mechanism) 325 Safety stopper piece (safety stopper mechanism) 326 Stopper pin 330 Stopper groove (movement preventing means) 331 Slot (movement preventing means) 332 Lock pin (movement preventing means) 334 ... Springs (movement preventing means)

──────────────────────────────────────────────────続 き Continuation of the front page (56) References JP-A-59-20140 (JP, A) Japanese Utility Model Application No. 59-79104 (JP, U) Japanese Utility Model Application No. 58-101408 (JP, U) Japanese Utility Model Application No. Sho 62- 86001 (JP, U) Actually open 1953-19374 (JP, U) (58) Fields investigated (Int. Cl. ⁶ , DB name) G02B 23/26 A61B 1/06 F21V 19/00-19/16

Claims (1)

(57) [Claims] A housing, first electrical connection means connected to a power supply and provided inside the housing, a plurality of light sources, a support member removably fitted to the housing, and connected to the light source. A second electric connection means, wherein the light source and the second electric connection means are mounted on a portion of the support member inside the housing to constitute a unit integrated with the support member. With the insertion and removal of the unit from the housing, the second electric connection means is attached to and detached from the first electric connection means, and the electric connection with the power source and the electric connection are released, and The light source device for an apparatus, wherein the light source can be replaced by detaching the unit from the housing.