CN115681905A - Medical illuminating lamp - Google Patents

Abstract

The invention belongs to the technical field of medical illuminating lamps and discloses a medical illuminating lamp.A regulating plate is fixed in the middle of a fixing ring, and a magic tape is fixed at the rear end of the regulating plate; the retainer plate anterior segment has the light through hinged joint, and the light anterior segment is fixed with adjusting device, and light inside is fixed with vibrations adjusting device. The sweat absorbing pad is pasted to the retainer plate inboard, and the retainer plate is inside to be equipped with the slide, is connected with the regulating plate through the slider, and the magic subsides have been sewed up to the regulating plate rear end, and the lamp stand external fixation has the slipmat. The illuminating lamp is provided with a lamp holder, a sensor is fixed inside the lamp holder and embedded at the bottom of the lamp holder, the sensor is linearly connected with a controller, and the sensor is a vibration sensor. A magic tape is fixed at the rear end of the adjusting plate; the adjustable clothes rack is convenient for a user to adjust and wear, and the tightness is also convenient to adjust through the adjusting plate; the vibration adjusting device is fixed in the bright lamp, and the vibration intensity is associated with the illumination intensity, so that the vibration adjusting device can be adjusted according to the nodding intensity of a doctor during an operation, and the operation efficiency is improved.

Description

Medical illuminating lamp

Technical Field

The invention belongs to the technical field of medical illuminating lamps, and particularly relates to a medical illuminating lamp.

Background

The wearable illuminating lamp is also called as a head-mounted illuminating lamp, is a small illuminating device which is composed of head-mounted stabilizing equipment and light-emitting equipment and is convenient to move and operate, and is commonly used for single-person operation.

Most of the existing illuminating devices are simple, inconvenient to adjust and sometimes need to be focused at one position, the simple illuminating lamp cannot meet the requirement, and when the illuminating lamp is fixed, a bandage is often fixed on the head of a doctor, but the fixing effect of the bandage is not ideal, and the doctor can affect diagnosis due to sweating when using the illuminating lamp.

The angle and brightness adjustment of the existing head lamp in the using process are complex, and inconvenience is brought to the use of doctors.

Through the above analysis, the problems and defects of the prior art are as follows: the sweat of doctor's head when operation can not be absorbed to current light to because wear the light and make the sweat of doctor's head assemble more easily, seriously influence operation efficiency, need manual regulation when adjusting light intensity of illumination, make the wound have the infection risk.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides a medical illuminating lamp.

The invention is realized in such a way that a medical lighting lamp is provided with:

a fixed ring;

an adjusting plate is fixed in the middle of the fixing ring, and a magic tape is fixed at the rear end of the adjusting plate;

the lamp is characterized in that the front section of the fixing ring is connected with a lamp through a hinge, the front section of the lamp is fixed with an adjusting device, and a vibration adjusting device is fixed inside the lamp.

Furthermore, the sweat absorbing pad is pasted to the fixed ring inboard, the inside slide that is equipped with of fixed ring is connected with the regulating plate through the slider, magic subsides have been sewed up to the regulating plate rear end, the lamp stand external fixation has the slipmat.

Further, the light is equipped with the lamp stand, lamp stand internal fixation has the inductor, the inductor is inlayed in the lamp stand bottom, the linear connection director of inductor, the inductor is the vibrations inductor, and different illumination intensity through doctor's different nod amplitude control light can be controlled through the vibration amplitude of head when the doctor operates.

Furthermore, a control key is fixed on one side of the upper end of the lamp holder and is linearly connected with the controller, the control key is provided with keys with different colors, and the keys with different colors are used for controlling different working modes of the illuminating lamp.

Furthermore, radiator fans are fixed to two sides of the adjusting plate and fixed to the upper end of the adjusting plate through clamping grooves, heat generated when a doctor performs an operation in a high-tension state is relieved through the radiator fans, and sweat on the head is reduced.

Furthermore, the illuminating lamp is provided with two light sources which are a main light source and an auxiliary light source respectively, the auxiliary light source is fixed on a rotating plate on the outer side of the main light source, the main light source is embedded in the middle of the rotating plate, and the rotating plate is fixedly connected with a sliding groove in the upper end of the lamp holder through an adjusting rod.

Further, the controller is equipped with colour temperature illuminance module, wireless data transmission module, microprocessor, vibrations module, colour temperature illuminance module linear connection colour temperature illuminance sensor, colour temperature illuminance sensor inlays on the lamp stand, colour temperature illuminance sensor is SPIC-300 type colour temperature illuminometer, the microprocessor model is STM32F103R6, wireless data transmission module is HC-05 type bluetooth serial ports communication interface, the vibrations module.

Another object of the present invention provides a method for controlling a medical illuminating lamp, which comprises: the light adjusting method is applied to the medical light device and comprises the following steps:

the method comprises the following steps: the vibration module receives the initial command and transmits data to the microprocessor, and the microprocessor identifies the vibration intensity of the vibration module;

step two: the microprocessor sends an initial command including a light starting command, a target illumination, a target color temperature and a treatment time command according to the vibration intensity of the vibration module;

step three: the microprocessor generates an initial PWM signal according to the light starting command and transmits the initial PWM signal to a main light source;

step four: the main light source receives the PEM signal, and the mode can be switched by controlling the main light source to realize nodding.

Further, microprocessor is provided with vibrations screening module, vibrations screening module is used for detecting vibrations intensity, produces the maloperation when avoiding the activity head, the concrete operation step of vibrations screening module is:

(1): starting an illuminating lamp, and receiving vibration intensity data of a vibration sensor;

(2): classifying different categories according to the vibration intensity in different directions and performing counting processing to obtain a first accumulated parameter corresponding to the vibration intensity instruction;

(3): counting the received vibration data according to the three-dimensional coordinates to obtain a second accumulated parameter corresponding to the touch instruction;

(4): when the first accumulative parameter is larger than or equal to a first preset threshold, generating a target inhibition mode corresponding to the target application according to the second accumulative parameter and a second preset threshold;

(5): and carrying out false touch prevention processing on the target application according to the target suppression mode.

Further, the fan automatically adjusts the intensity by collecting the environmental information and the human body sensation coefficient of the current position, and the specific steps are as follows:

1): determining a rotation working range according to the sweat amount information of the human head;

2): and determining the target wind speed for air outlet of the personnel according to the environmental information and the human body sensation coefficient.

Further, the step of determining the target wind speed for the air outlet of the personnel further comprises:

detecting human body sensation coefficients and human body radiation intensity of personnel, and determining a difference value between the existing human body sensation coefficients and the comprehensive human body sensation coefficients through a controller, specifically determining according to sex, age, fat and thin degree of the personnel and a distance between the personnel and a fan through the human body sensation coefficients;

and controlling the fan to discharge air at the target air speed determined in the maximum air speed range.

The invention has the advantages and positive effects that:

in the embodiment of the invention, the adjusting plate is fixed in the middle of the fixing ring, and the magic tape is fixed at the rear end of the adjusting plate; the adjustable clothes rack is convenient for a user to adjust and wear, and the tightness is also convenient to adjust through the adjusting plate;

the front section of the fixed ring is connected with a lighting lamp through a hinge, the front section of the lighting lamp is fixed with an adjusting device, the interior of the lighting lamp is fixed with a vibration adjusting device,

through carrying out the relevance with vibrations intensity and illumination intensity, can adjust according to doctor's nod intensity when the operation, avoid disturbing operation rhythm with the hand regulation.

The medical illuminating lamp provided by the embodiment of the invention is provided with the fan heater and the sweat absorbing pad, so that sweat on the head can be absorbed and dispersed during operation of a doctor, and the operation efficiency is prevented from being reduced due to the sweat.

Drawings

Fig. 1 is a schematic structural view of a medical illuminating lamp provided by an embodiment of the invention;

fig. 2 is a schematic view of a lamp socket structure provided by an embodiment of the invention;

FIG. 3 is a schematic diagram of an adjusting plate structure provided by an embodiment of the present invention;

in the figure: 1. a heat radiation fan; 2. an adjusting plate; 3. magic tape; 4. an illuminating lamp; 5. adjusting a rod; 6. pressing a key; 7. a hinge; 8. a card slot; 9. a sweat absorbing pad.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail with reference to the following embodiments.

It should be understood that the specific embodiments described herein are merely illustrative of the invention and do not limit the invention.

As shown in fig. 1 to 3, a medical illumination lamp 4 according to an embodiment of the present invention includes: radiator fan 1, regulating plate 2, magic subsides 3, light 4, regulation pole 5, button 6, hinge 7, draw-in groove 8, sweat pad 9. An adjusting plate 2 is fixed in the middle of the fixing ring, and a magic tape 3 is fixed at the rear end of the adjusting plate 2;

the retainer plate anterior segment is connected with light 4 through hinge 7, and 4 anterior segments of light are fixed with adjusting device, and 4 internal fixations in light have vibrations adjusting device.

The inboard sweat-absorbing pad 9 that has pasted of retainer plate, the inside slide that is equipped with of retainer plate is connected with regulating plate 2 through the slider, and 2 rear ends of regulating plate sew up has magic subsides 3, and the lamp stand external fixation has the slipmat.

Light 4 is equipped with the lamp stand, and lamp stand internal fixation has the inductor, and the inductor is inlayed in the lamp stand bottom, and the linear connection director of inductor, inductor are vibrations inductor, and different illumination intensity through doctor's different little head amplitude control light 4 can be controlled through the vibration amplitude of head when the doctor operates.

A control key 6 is fixed on one side of the upper end of the lamp holder, the control key 6 is linearly connected with a controller, the control key 6 is provided with keys 6 with different colors, and the keys 6 with different colors are used for controlling different working modes of the illuminating lamp 4.

The two sides of the adjusting plate 2 are fixed with the cooling fans 1, the cooling fans 1 are fixed at the upper end of the adjusting plate 2 through the clamping grooves 8, heat generated by a doctor during an operation in a high-tension state is relieved through the cooling fans 1, and sweat on the head is reduced.

The illuminating lamp 4 is provided with two light sources, namely a main light source and an auxiliary light source, the auxiliary light source is fixed on a rotating plate outside the main light source, and the main light source is embedded in the middle of the rotating plate and is fixedly connected with a sliding groove in the upper end of the lamp holder through an adjusting rod 5.

The controller is provided with a color temperature illumination module, a wireless data transmission module, a microprocessor and a vibration module, wherein the color temperature illumination module is linearly connected with a color temperature illumination sensor, the color temperature illumination sensor is embedded on a lamp holder and is an SPIC-300 type color temperature illuminometer, the microprocessor is STM32F103R6 in model, and the wireless data transmission module is an HC-05 type Bluetooth serial port communication interface and the vibration module.

The invention also aims to provide a control method of the medical illuminating lamp, which comprises the following steps: the medical lighting device to which the lighting adjusting method is applied comprises the following steps:

the method comprises the following steps: the vibration module receives the initial command and transmits data to the microprocessor, and the microprocessor identifies the vibration intensity of the vibration module;

step two: the microprocessor sends an initial command including a light starting command, a target illumination, a target color temperature and a treatment time command according to the vibration intensity of the vibration module;

step three: the microprocessor generates an initial PWM signal according to the light starting command and transmits the initial PWM signal to the main light source;

step four: the main light source receives the PEM signal, and the mode can be switched by realizing the control of the main light source and the nodding.

Microprocessor is provided with vibrations screening module, and vibrations screening module is used for detecting vibrations intensity, produces the maloperation when avoiding the activity head, and the concrete operating procedure of vibrations screening module is:

(1): starting an illuminating lamp, and receiving vibration intensity data of a vibration sensor;

(2): classifying different categories according to the vibration intensity in different directions and performing counting processing to obtain a first accumulated parameter corresponding to the vibration intensity instruction;

(3): counting the received vibration data according to the three-dimensional coordinates to obtain a second accumulative parameter corresponding to the touch instruction;

(4): when the first accumulative parameter is greater than or equal to a first preset threshold, generating a target inhibition mode corresponding to the target application according to the second accumulative parameter and a second preset threshold;

(5): and carrying out false touch prevention processing on the target application according to the target suppression mode.

The fan automatically adjusts the intensity by collecting the environmental information and the human body sensation coefficient of the current position, and comprises the following specific steps:

1): determining a rotation working range according to the sweat amount information of the human head;

2): and determining the target wind speed for blowing air out to the personnel according to the environmental information and the human body sensation coefficient.

The step of determining the target wind speed for the air outlet of the personnel further comprises the following steps:

detecting human body sensation coefficients and human body radiation intensity of personnel, and determining a difference value between the existing human body sensation coefficients and the comprehensive human body sensation coefficients through a controller, specifically determining according to sex, age, fat and thin degree of the personnel and a distance between the personnel and a fan through the human body sensation coefficients;

and controlling the fan to output air at the target air speed determined in the maximum air speed range.

When the medical illuminating lamp 4 is used, the magic tape 3 is firstly opened, then the fixing ring and the adjusting plate 2 are adjusted to proper positions, and then the medical illuminating lamp is taken to the head of a doctor.

According to the operation of difference press different control button 6 and make light 4 be in the illumination mode under the different states, later fix radiator fan 1 in regulating plate 2 upper end, can carry out the operation, when the operation is gone on and needs to change different illumination intensity, the doctor control illumination intensity of nodding, owing to be equipped with the amplitude that the inductor can respond to vibrations in real time.

The embodiment of the invention provides a medical illuminating lamp which is applied to adjusting the illumination intensity of the illuminating lamp when a doctor performs an operation.

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing and simplifying the description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, should not be construed as limiting the invention. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

The above description is only for the purpose of illustrating the present invention and the appended claims are not to be construed as limiting the scope of the invention, which is intended to cover all modifications, equivalents and improvements that are within the spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. The medical illuminating lamp is characterized in that the medical illuminating lamp is provided with:

a stationary ring;

an adjusting plate is fixed in the middle of the fixing ring, and a magic tape is fixed at the rear end of the adjusting plate;

the lamp is characterized in that the front section of the fixing ring is connected with a lamp through a hinge, the front section of the lamp is fixed with an adjusting device, and a vibration adjusting device is fixed inside the lamp.

2. The medical illuminating lamp according to claim 1, wherein a sweat absorbing pad is adhered to the inner side of the fixing ring, a slide way is arranged inside the fixing ring, an adjusting plate is connected with the fixing ring through a sliding block, a magic tape is sewn at the rear end of the adjusting plate, and an anti-slip pad is fixed outside the lamp holder.

3. The medical lighting lamp according to claim 1, wherein said lighting lamp has a lamp base, said lamp base has a sensor fixed therein, said sensor is embedded in the bottom of said lamp base, said sensor is linearly connected to the controller, said sensor is a vibration sensor.

4. The medical illuminating lamp according to claim 3, wherein a control key is fixed on one side of the upper end of the lamp holder, the control key is linearly connected with the controller, the control key is provided with keys with different colors, and different working modes of the illuminating lamp are controlled by the keys with different colors.

5. The medical illuminating lamp according to claim 1, wherein heat dissipating fans are fixed to both sides of the adjusting plate, and the heat dissipating fans are fixed to the upper end of the adjusting plate through slots.

6. The medical illuminating lamp according to claim 1, wherein the illuminating lamp is provided with two light sources, namely a main light source and an auxiliary light source, the auxiliary light source is fixed on a rotating plate outside the main light source, the main light source is embedded in the middle of the rotating plate, and the rotating plate is fixedly connected with a sliding groove in the upper end of the lamp holder through an adjusting rod.

7. The medical illuminating lamp according to claim 3, wherein the controller is provided with a color temperature illumination module, a wireless data transmission module, a microprocessor and a vibration module, the color temperature illumination module is linearly connected with a color temperature illumination sensor, and the color temperature illumination sensor is embedded on a lamp holder.

8. The medical illuminating lamp according to claim 7, wherein the color temperature and illuminance sensor is an SPIC-300 type color temperature illuminometer, the microprocessor is of the STM32F103R6 type, the wireless data transmission module is an HC-05 type Bluetooth serial port communication interface, and the vibration module is arranged on the housing.

9. A method of controlling a medical illumination lamp for implementing the medical illumination lamp according to any one of claims 1 to 8, the method comprising:

the method comprises the following steps: the vibration module receives the initial command and transmits data to the microprocessor, and the microprocessor identifies the vibration intensity of the vibration module;

step two: the microprocessor sends an initial command including a light starting command, a target illumination, a target color temperature and a treatment time command according to the vibration intensity of the vibration module;

step three: the microprocessor generates an initial PWM signal according to the light starting command and transmits the initial PWM signal to a main light source;

step four: the main light source receives the PEM signal, and the mode can be switched by controlling the main light source to realize nodding.

10. The medical illuminating lamp control method according to claim 9, wherein the microprocessor is provided with a vibration screening module, the vibration screening module is used for detecting vibration intensity and avoiding misoperation when the head is moved, and the specific operation steps of the vibration screening module are as follows:

(1): starting an illuminating lamp, and receiving vibration intensity data of a vibration sensor;

(2): classifying different categories according to the vibration intensity in different directions and performing counting processing to obtain a first accumulated parameter corresponding to the vibration intensity instruction;

(3): counting the received vibration data according to the three-dimensional coordinates to obtain a second accumulated parameter corresponding to the touch instruction;

(4): when the first accumulative parameter is greater than or equal to a first preset threshold, generating a target inhibition mode corresponding to the target application according to the second accumulative parameter and a second preset threshold;

(5): carrying out false touch prevention processing on the target application according to the target suppression mode;

the fan automatically adjusts the intensity by collecting the environmental information and the human body sensation coefficient of the current position, and the method comprises the following specific steps:

1): determining a rotation working range according to the sweat quantity information of the human head;

2): determining a target wind speed for blowing air out for the personnel according to the environmental information and the human body sensation coefficient;

the step of determining the target wind speed for the air outlet of the personnel further comprises the following steps:

detecting human body sensation coefficients and human body radiation intensity of personnel, determining a difference value between the existing human body sensation coefficients and the comprehensive human body sensation coefficients through a controller, and specifically determining according to sex, age, fat and thin degree of the personnel and a distance between the personnel and a fan through the human body sensation coefficients;

and controlling the fan to discharge air at the target air speed determined in the maximum air speed range.

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