CN214805324U - Laser surgical workstation - Google Patents

Abstract

The utility model discloses a laser surgery workstation, including laser work host computer I, laser work host computer II, parallel laser control pedal device and laser work host computer box, be equipped with two-layer rack on the laser work host computer box, install respectively on the two-layer rack and place laser work host computer I with laser work host computer II, laser work host computer I with laser work host computer II all installs through parallel data transmission line connection on the parallel laser control pedal device, the inside of parallel laser control pedal device transversely separates and is equipped with the baffle. Has the advantages that: the use and operation of clinicians are facilitated through the foot-operated parallel laser control device, the laser working host with different wavelengths is selected and adjusted at the same time, the requirements of treatment of various diseases in an operating room and a plurality of clinical departments are met, the utilization rate and turnover rate of equipment are improved, the idle rate and repeated purchase cost of the equipment are reduced, and the economic benefit of the equipment is improved.

Description

Laser surgical workstation

Technical Field

The utility model relates to a laser treatment device field especially relates to laser surgery workstation.

Background

Because the laser wavelength is different, the absorption medium in the tissue is different, the selectivity of the laser with different wavelengths on human tissue is very obvious, the generated biological effect and action effect are different, and the light emitting mode and treatment mode of the laser used in the laser operation are different, therefore, when using the laser to treat different clinical diseases, doctors must select laser instruments with different laser wavelengths, different working modes, different light emitting modes and different treatment modes to operate, the existing various laser treatment equipment has the defects of single laser wavelength, small range of clinical indications, few light emitting channels, limited operation and use, single light emitting mode, few clinical application functions, few auxiliary functional instruments, low use and operation accuracy, low intelligent digitization degree, insufficient clinical diagnosis and treatment auxiliary functions and the like, and the clinical indications are narrow, the laser therapy equipment has the advantages of few clinical application functions, low operation and treatment accuracy, low digital diagnosis and treatment service level and incapability of meeting the treatment requirements of various clinical diseases, so that doctors have to use various laser therapy equipment to treat different clinical diseases, and have to purchase various different laser therapy equipment to meet the treatment requirements of various clinical diseases, which causes the troubles of disinfection, transportation and allocation caused by frequent replacement of equipment and treatment equipment, hospitals have to purchase various laser therapy equipment with single function, the cost of purchasing equipment and instruments in hospitals is increased, the purchased equipment and equipment can not meet the treatment requirements of different diseases in operating rooms and multiple clinical departments, the cost of repeatedly purchasing equipment is increased, the utilization rate and turnover rate of the equipment are low, the idle rate is high, and various matched auxiliary equipment and functional equipment simultaneously need to be purchased to match the safety of the laser therapy equipment, The operation is accurate and standard to prevent danger, and the cost of equipment use is increased.

SUMMERY OF THE UTILITY MODEL

It is an object of the present invention to provide a laser surgical workstation in order to solve the above problems.

The utility model discloses a following technical scheme realizes above-mentioned purpose:

the laser surgical workstation comprises a laser working host machine I, a laser working host machine II, a parallel laser control pedal device and a laser working host machine box body, wherein the laser working host machine box body is provided with two layers of placing racks, the laser working host machine I and the laser working host machine II are respectively arranged on the two layers of placing racks, the laser working host machine I and the laser working host machine II are connected and arranged on the parallel laser control pedal device through a parallel data transmission line, a partition board is transversely arranged in the parallel laser control pedal device in a spaced mode, a control main board is arranged in the parallel laser control pedal device below the partition board, a control pressing key is arranged on the parallel laser control pedal device above the partition board, the control pressing key is in communication connection with the control main board, the top of the parallel laser control pedal device is provided with a pedal hole, the hole wall of the pedal hole is rotatably provided with a pedal piece through a rotating shaft, the bottom of the pedal piece is fixedly provided with a mounting column top connecting piece, the bottom of the mounting column top connecting piece is provided with a pressing plate through a pressing plate mounting column, and the pressing plate is pressed and contacted on the control pressing key.

Furthermore, the front surface is provided with multi-functional touch display screen, emergency brake button, power meter, fiber connector, laser pilot lamp, abnormal operation pilot lamp on laser work host computer I with laser work host computer II, laser work host computer I with the back is provided with foot control device interface, interconnection lock connector, scanner connector, data line interface, supply socket, radiator fan louvre and switch on the laser work host computer II.

Furthermore, the parallel data transmission lines are plugged into the interfaces of the pedal control device of the laser working host I and the laser working host II, and filter screens are installed on heat dissipation holes of the heat dissipation fans for protection.

Furthermore, a foot pedal extending wall extends from the foot pedal below the foot pedal hole, and the foot pedal extending wall is connected and installed on the inner top shell wall of the parallel type laser control foot pedal device through a foot pedal return spring for realizing return.

Furthermore, the press plate mounting column shaft is mounted on a connecting piece at the top of the mounting column, and the control main board is fixedly mounted inside the parallel type laser control pedal device through a main board mounting column.

In the structure, a laser working host I of the laser surgical workstation can output laser with 1470nm wavelength, a laser working host II can output laser with 980nm wavelength, a new laser working host developed aiming at various clinical disease treatments can be continuously loaded, a doctor can select the laser working host with proper wavelength to output laser energy with different wavelengths according to the requirements of the clinical disease treatments for operation treatment, the laser working host I and the laser working host II can be interconnected and communicated by using a data line and a parallel laser control pedal device through a data interface and can be freely switched and controlled to use according to the requirements of the clinical operation, before the operation, power lines of the laser working host I and the laser working host II are firstly connected, an interconnection lock controller of the laser working host I and the laser working host II is plugged, and the parallel laser control pedal device of the laser working host I and the laser working host II is plugged, turning on power switches of a laser working host machine and a laser working host machine II, selecting functional software modules required by clinical disease treatment through intelligent man-machine interactive multifunctional touch display screens on the laser working host machine I and the laser working host machine II respectively, selecting and setting treatment parameters such as laser working modes (continuous pulse, single pulse and repeated pulse) required by laser treatment, light emitting modes (circular light emitting, direct light emitting and defocused light emitting), treatment modes (cutting, solidification, gasification and irradiation), optical fiber instruments (optical fiber specification, treatment probe and operating handle), power magnitude, energy density, pulse frequency, indication brightness and the like, connecting light emitting channels (optical fiber connectors) of the laser working host machine I and the laser working host machine II through laser optical fibers or high-power optical fiber lines, and then controlling the laser working host machine which needs to work to emit light to output laser through a parallel laser control pedal device, when the laser control device is treaded for the first time, the pre-lock is started, and when the laser control device is treaded for the second time, the output laser is emitted. When the laser energy with another wavelength is needed to be output for clinical disease treatment in the operation, after the corresponding treatment parameters are selected and set through the intelligent man-machine interactive multifunctional touch display screen on the other laser working host, the optical fiber connector (light-emitting channel) of the laser working host is connected through the laser optical fiber or the high-power optical fiber line, the switching control is realized by treading the parallel laser control pedal device for three times, the parallel laser control pedal device is treaded for the first time to start the pre-locking, the parallel laser control pedal device is treaded for the second time to emit the output laser for the operation treatment application, when the laser working host is switched again to output laser for operation, unless the treatment parameters are adjusted, the operation control can be directly completed by treading the parallel laser control pedal device for three times without setting the treatment parameters again.

Has the advantages that: laser surgery workstation make things convenient for clinician's use operation through pedal-operated parallel laser control pedal device, select the laser host computer of adjusting different wavelengths simultaneously to adjust the use, satisfy the needs of the multiple disease treatment of operating room and a plurality of clinical department, improved the rate of utilization, the turnover rate of equipment, reduced the idle rate of equipment and the cost of repeated purchase, improved the economic benefits of equipment.

Drawings

Fig. 1 is a schematic front view of a laser surgical workstation according to the present invention;

fig. 2 is a schematic back view of the laser surgical workstation of the present invention;

fig. 3 is a schematic view of a parallel laser control pedal device of the laser surgical workstation of the present invention.

The reference numerals are explained below:

1. a laser working host machine I; 2. a laser working host II; 3. a parallel laser control pedal device; 4. a multifunctional touch display screen; 5. a laser working main machine box body; 6. a power meter; 7. parallel data transmission lines; 8. heat dissipation holes of the heat dissipation fan; 9. an interconnecting lock connection port; 10. a power switch; 11. a partition plate; 12. a control main board; 13. controlling the pressing key; 14. a foot pedal; 15. a footrest extension wall; 16. a footrest return spring; 17. mounting the column according to the plate; 18. installing a column top connecting piece; 19. pressing a plate; 20. the mainboard erection column.

Detailed Description

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are used merely for convenience of description and for simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention. Furthermore, the terms "first", "second", etc. are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first," "second," etc. may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art through specific situations.

The present invention will be further explained with reference to the accompanying drawings:

as shown in fig. 1-3, the laser surgical workstation is composed of a laser working host machine i 1, a laser working host machine ii 2, a parallel laser control pedal device 3 and a laser working host machine box 5;

the laser working host box body 5 is provided with two layers of placing racks, the two layers of placing racks are respectively provided with a laser working host I1 and a laser working host II 2, and the laser working host I1 and the laser working host II 2 are connected and arranged on the parallel laser control pedal device 3 through a parallel data transmission line 7;

the inside of parallel laser control pedal device 3 transversely separates and is equipped with baffle 11, and the 3 internally mounted of parallel laser control pedal device of baffle 11 below has control mainboard 12, installs control on the parallel laser control pedal device 3 of baffle 11 top and presses the key 13, and control is pressed key 13 communication connection to control mainboard 12 on, and pedal hole has been seted up at the top of parallel laser control pedal device 3, install pedal 14 through the pivot rotation on the pore wall in pedal hole, the bottom fixed mounting of pedal 14 has erection column top connecting piece 18, and the bottom of erection column top connecting piece 18 is installed through pressing board erection column 17 and is pressed board 19, presses board 19 to press the contact to control on the key 13.

In this embodiment, the front surfaces of the laser working host i 1 and the laser working host ii 2 are provided with a multifunctional touch display screen 4, an emergency brake button 1, a power meter 6, an optical fiber connector, a laser indicator light, and an abnormal operation indicator light, and the back surfaces of the laser working host i 1 and the laser working host ii 2 are provided with a foot control device interface, an interconnection lock connector 9, a scanner connector, a data line interface, a power socket, a heat dissipation fan heat dissipation hole 8, and a power switch 10;

preferably, the parallel data transmission line 7 is inserted into the interfaces of the back pedal control device on the laser working host I1 and the laser working host II 2, and the radiating fan radiating holes 8 are provided with filter screens for protection.

In this embodiment, a foot pedal extension wall 15 extends from the foot pedal 14 below the foot pedal hole, and the foot pedal extension wall 15 is connected and mounted to the inside top shell wall of the parallel type laser control foot pedal device 3 through a foot pedal return spring 16 for return.

In this embodiment, the board mounting post 17 is pivotally mounted to the mounting post top connection member 18, and the control main board 12 is fixedly mounted inside the parallel type laser control foot unit 3 via the main board mounting post 20.

In the structure, the laser working host I1 of the laser surgical workstation can output laser with 1470nm wavelength, the laser working host II 2 can output laser with 980nm wavelength, laser working hosts with other wavelengths developed for various clinical disease treatments can be continuously loaded in the future, doctors can select the laser working host with the proper wavelength to output laser energy to perform operation treatment operation according to the requirements of clinical disease treatment, the laser working host I1 and the laser working host II 2 can be interconnected and communicated by utilizing the parallel data transmission line 7 and the parallel laser control pedal device 3 through the pedal control device interface and can be freely switched and controlled to use according to the requirements of clinical operation, before the operation, the power lines of the laser working host I1 and the laser working host II 2 are firstly connected, and the interconnection locking device of the interconnection locking connector 9 on the laser working host I1 and the laser working host II 2 is inserted, a parallel laser control pedal device 3 inserted with a laser working host I1 and a laser working host II 2 is used for turning on power switches of the laser working host I1 and the laser working host II 2, selecting a functional software module required by clinical disease treatment through a multifunctional touch display screen 4 on the laser working host I1 and the laser working host II 2 respectively, selecting and setting a laser working mode (continuous pulse, single pulse, repeated pulse) required by laser treatment, a light emitting mode (circular emission light, direct emission light, defocused light), a treatment mode (cutting, solidification, gasification, irradiation), an optical fiber instrument (optical fiber specification, a treatment probe, an operating handle), power magnitude, energy density, pulse frequency, indication brightness and other treatment parameters, and then connecting an optical fiber connector (light emitting channel) of the laser working host I1 or the laser working host II 2 through a laser optical fiber or a high-power optical fiber line, then the parallel laser control pedal device 3 controls a laser working host machine which needs to work and emit light to output laser, when the parallel laser control pedal device 3 is treaded down for the first time, the pre-locking is started, and when the parallel laser control pedal device is treaded down for the second time, the output laser is emitted. When the laser energy with another wavelength is needed to be output for clinical disease treatment in the operation, after the corresponding treatment parameters are selected and set through the multifunctional touch display screen 4 on the other laser working host, the optical fiber connector (light-emitting channel) of the laser working host is connected through the laser optical fiber or the high-power optical fiber line, the switching control is realized by treading the pedal of the parallel laser control pedal device for three times, the pedal of the parallel laser control pedal device is treaded for the first time to start the pre-locking, the pedal device 3 of the parallel laser control pedal device is treaded for the second time to emit the output laser for the operation treatment application, when the laser working host is switched again to output laser for operation, unless the treatment parameters are adjusted, the operation control can be accomplished directly by depressing the parallel laser control stepping device 3 three times without setting the treatment parameters again.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (5)

1. A laser surgical workstation, comprising: the laser working machine comprises a laser working host machine I, a laser working host machine II, a parallel laser control pedal device and a laser working host machine box body, wherein two layers of placing racks are arranged on the laser working host machine box body, the laser working host machine I and the laser working host machine II are respectively arranged on the two layers of placing racks, the laser working host machine I and the laser working host machine II are connected and arranged on the parallel laser control pedal device through a parallel data transmission line, a partition board is transversely arranged in the parallel laser control pedal device in a spaced mode, a control main board is arranged in the parallel laser control pedal device below the partition board, a control pressing key is arranged on the parallel laser control pedal device above the partition board, the control pressing key is in communication connection with the control main board, a pedal hole is formed in the top of the parallel laser control pedal device, the hole wall of the pedal hole is rotatably provided with a pedal piece through a rotating shaft, the bottom of the pedal piece is fixedly provided with a mounting column top connecting piece, the bottom of the mounting column top connecting piece is provided with a pressing plate through a pressing plate mounting column, and the pressing plate is pressed and contacted on the control pressing key.

2. The laser surgical workstation of claim 1, wherein: laser work host computer I with openly be provided with multi-functional touch display screen, emergency brake button, power meter, fiber connector, laser pilot lamp, abnormal operation pilot lamp on the laser work host computer II, laser work host computer I with the back is provided with foot control device interface, interconnection lock connector, scanner connector, data line interface, supply socket, radiator fan louvre and switch on the laser work host computer II.

3. The laser surgical workstation of claim 2, wherein: the parallel data transmission line is plugged into the interfaces of the parallel laser control pedal device of the laser working host machine I and the laser working host machine II, and a filter screen for protection is installed on a radiating hole of the radiating fan.

4. The laser surgical workstation of claim 1, wherein: and a pedal member extension wall extends on the pedal member below the pedal hole, and the pedal member extension wall is connected and installed on the wall of the top shell of the inner side of the parallel laser control pedal device through a pedal member return spring for realizing return.

5. The laser surgical workstation of claim 1, wherein: the press plate mounting column shaft is mounted on a connecting piece at the top of the mounting column, and the control main board is fixedly mounted inside the parallel laser control pedal device through the main board mounting column.

Images