CN221780692U - Lamp body and visual training lamp having the same - Google Patents

Abstract

The application discloses a lamp body and a vision training lamp with the same, comprising a lamp shade, wherein the bottom end of the lamp shade is provided with a lighting device, one side wall of the lamp shade is provided with a vision training device, the vision training device is provided with a vision training mode, and when the lamp body is in the vision training mode, the vision training device can provide graphic demonstration of vision training according to a preset scheme. According to the lamp body and the vision training lamp with the lamp body, the vision training device is arranged on the lamp body, and the vision training device can provide the graphic demonstration of vision training according to the preset scheme in the vision training mode, so that six extraocular muscles of eyes can shrink and relax along with the change of the graphics when a user looks at the graphic demonstration on the vision training device, and therefore the six extraocular muscles are effectively trained, visual fatigue of eyes is relieved, and visual health is protected.

Description

Lamp body and have its visual standard lamp

Technical Field

The utility model relates to the technical field of illumination, in particular to a lamp body and a vision training lamp with the same.

Background

Teenagers use the eyes for a long time and in a short distance, ciliary muscle spasm can be caused, and the risk of myopia of the teenagers is increased due to the ciliary muscle spasm; eye eyes concentrate on textbooks or blackboards for a long time, so that the sensitivity of visual perception paralysis is reduced, and the visual perception problem easily causes the weakening of the visual ability of teenagers; overfatigue of eye muscles is a major cause of myopia in teenagers, accommodation of the eye is achieved by connecting lens modifying projections and depressions by ciliary muscles through zonules, and the gathering of the eye is achieved by cohesion and abduction of six extraocular muscles. The distance of the eye gaze varies and the adjustment force used varies. According to the formula d=1/F, wherein D is the adjusting force in hundred degrees, i.e. 1 d=100 degrees; f is distance in meters. That is, the object is 1 meter from the eye, requiring one hundred degrees of accommodation force; 0.1 meter from the eye, requiring a thousand degrees of accommodation force. One hundred degrees and one thousand degrees act on the lens and manifest as a change in lens thickness, which is large for the lens itself. In turn, the ciliary muscle is only greatly contracted and relaxed to effect a change in lens thickness. Also, looking at distances of 0.1 meter and 1 meter, the six extraocular muscles also contract and relax to complete the collection. To sum up, to make the near point of the eye closest and the far point farthest, only the muscle forces of the ciliary body muscles and the six extraocular muscles are enhanced. In view of the above, the eye gazes at a moving object from near to far or from far to near, and the lens needs to be continuously flattened from convex or from plano to convex, so that ciliary muscles connected with the lens are also continuously contracted and relaxed. Likewise, six extraocular muscles are continually contracted and relaxed as the set is altered. Thus, both ciliary body muscles and extraocular muscles are trained, the muscle strength is enhanced, and the eye muscles are actively exercised, so that myopia is not easy to occur, and vision is improved.

Currently available lighting devices generally provide only one or a limited number of selectable lighting parameters, such as a fixed level or levels of illuminance, light intensity, color temperature, etc. The user usually does not actively and frequently perform dimming operation on the lighting device in the use process, and the dimming operation is often performed under a single lighting parameter in actual use.

Thus, current facing devices have the following problems in use: under single illumination parameters, the eye structure of the human eye, including ciliary body muscles, six extraocular muscles and the lens, is in a state for a long time, cannot provide exercise for the eye muscles, and is easy to cause eye visual fatigue, thereby affecting visual health.

Disclosure of Invention

In view of the above-mentioned drawbacks or shortcomings in the prior art, it is desirable to provide a lamp body and a vision training lamp with the same, in which a vision training device on the lamp body provides a graphic demonstration of vision training according to a preset scheme in a vision training mode, so that a user looks at the graphic demonstration on the vision training device to exercise six extraocular muscles, thereby relieving visual fatigue of human eyes and protecting visual health.

The technical scheme of the utility model is realized as follows:

In a first aspect, the application provides a lamp body, comprising a lamp shade, wherein a lighting device is arranged at the bottom end of the lamp shade, a visual training device is arranged on one side wall of the lamp shade, the visual training device has a visual training mode, and when the lamp body is in the visual training mode, the visual training device can provide graphic demonstration of visual training according to a preset scheme.

Further, look and train the device and include first circuit board and set up in the first charactron of first circuit board, when looking and train the device and be in looking and train the mode, first charactron provides the figure demonstration of visual training according to predetermineeing the scheme, and the charactron comes not only can provide clear figure demonstration, has better dynamic change effect moreover, promotes to look the figure demonstration effect of train the device.

Further, the first circuit board is also provided with a second nixie tube, the second nixie tube is provided with a timing module, and a user can observe time through the second nixie tube, so that the functions of the lamp body are richer and more convenient.

Further, the second nixie tube is further provided with a countdown module, one side of the first circuit board is connected with a first adjusting device for activating the countdown module, and a user can start the countdown module of the second nixie tube by operating the first adjusting device, so that the functions of the lamp body are further enriched, and convenience is improved.

Further, the first circuit board is further provided with a third nixie tube, the third nixie tube is provided with a touch module, the third nixie tube comprises a first touch control part, the first touch control part is used for adjusting the visual training device to open or close the visual training mode, and a user can switch the visual training mode only by touching the first touch control part, so that the mode switching operation of the visual training device is more convenient.

Further, the first circuit board is also provided with a third nixie tube, the third nixie tube comprises a second touch control part, the second touch control part is used for adjusting the power on and off of the lamp body, and a user can start or close the power of the lamp body only by touching the second touch control part, so that the switching operation of the lamp body is more convenient.

Further, look and train device still includes the printing opacity spare, and printing opacity spare lid is located first circuit board and is made first circuit board hide in the printing opacity spare for the user only can see the bright light that the charactron sent when using the lamp body, can not see to look and train the inside structure of device, makes the lamp body more pleasing to the eye.

Further, the lighting device comprises a second circuit board, a plurality of luminous parts are arranged on the second circuit board, when the vision training device is in a vision training mode, the brightness of the luminous parts is dynamically changed according to a preset scheme, and ciliary muscle of a user eye can be contracted and relaxed under the change of illumination brightness, so that the ciliary muscle is effectively trained, and visual health is further protected.

Further, one side of the second circuit board is connected with a second adjusting device for adjusting the brightness of a plurality of luminous parts, so that a user can adjust the brightness of the luminous parts according to own requirements, the controllability of the lamp body is improved, and more various requirements of the user are met.

In a second aspect, the application provides a vision training lamp, which comprises a bracket and a lamp body, wherein a connecting piece is arranged at the top end of a lamp shade, and the bracket is connected with the lamp body through the connecting piece.

The principle and beneficial effects of the utility model adopting the technical scheme are as follows:

According to the lamp body and the vision training lamp with the lamp body, the vision training device is arranged on the lamp body, and the vision training device can provide the graphic demonstration of vision training according to the preset scheme in the vision training mode, so that six extraocular muscles of eyes can shrink and relax along with the change of the graphics when a user looks at the graphic demonstration on the vision training device, and therefore the six extraocular muscles are effectively trained, visual fatigue of eyes is relieved, and visual health is protected.

Drawings

Other features, objects and advantages of the present application will become more apparent upon reading of the detailed description of non-limiting embodiments, made with reference to the accompanying drawings in which:

Fig. 1 is a schematic perspective view of a vision training lamp according to an embodiment of the present application;

fig. 2 is a schematic perspective view of a lamp body according to an embodiment of the present application;

FIG. 3 is a schematic diagram of an internal structure of a vision training device according to an embodiment of the present application;

fig. 4 is a schematic bottom view of a lamp body according to an embodiment of the present application;

fig. 5 is a schematic front view of a second circuit board according to an embodiment of the present application.

The reference numerals are as follows: the light transmission device comprises a 1-lamp body, a 2-support, a 3-vision training lamp, a 100-lamp shade, a 110-installation part, a 120-first adjusting device, a 130-second adjusting device, a 140-connecting piece, a 200-lighting device, a 210-second circuit board, a 211-light emitting piece, a 220-light homogenizing board, a 300-vision training device, a 310-first circuit board, a 311-first nixie tube, a 312-second nixie tube, a 313-third nixie tube, a 314-first touch control part, a 315-second touch control part and a 320-light transmission piece.

Detailed Description

The utility model is described in further detail below with reference to the drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the utility model and are not limiting of the utility model. It should be noted that, for convenience of description, only the portions related to the utility model are shown in the drawings.

Referring to fig. 1-5, an embodiment of the present application provides a lamp body 1, which includes a lamp shade 100, wherein a lighting device 200 is disposed at a bottom end of the lamp shade 100, a visual training device 300 is disposed on one side wall of the lamp shade 100, the visual training device 300 has a visual training mode, and when the lamp body is in the visual training mode, the visual training device 300 can provide graphic demonstration of visual training according to a preset scheme.

In this embodiment, through setting up on lamp body 1 and look and train device 300, look and train the device and have and look and train the mode, look and train the mode under, look and train device 300 and can provide the figure demonstration of visual training according to the scheme of predetermineeing, when the user gazes the figure of dynamic change, six extraocular muscles of eye can shrink, relax along with the pattern change to effectively temper six extraocular muscles, and then alleviate human eye visual fatigue, protect visual health.

In some embodiments of the present application, the vision training device 300 includes a first circuit board 310 and a first nixie tube 311 disposed on the first circuit board 310, when the vision training device 300 is in a vision training mode, the first nixie tube 311 provides graphic demonstration of vision training according to a preset scheme, the nixie tube is selected to present the graphic demonstration, and the nixie tube adjusts the shape of the graphic through turning on and off a plurality of light emitting diodes on the surface, so that not only can clear graphic demonstration be provided, but also the nixie tube has a better dynamic change effect, and the graphic demonstration effect of the vision training device 300 is improved.

When the vision training device 300 is in the office mode, the first nixie tube 311 displays a static pattern to prompt the user of the current state of the vision training device 300. In this embodiment, preferably, when the vision training device 300 is in the office mode, the first nixie tube 311 displays a "smiling face" graphic to prompt the user that the vision training device 300 is in the office mode. Of course, in other embodiments of the present application, when the vision training device 300 is in the office mode, the graphics displayed by the first nixie tube 311 may also be "eyes", "pencils", and so on.

Preferably, when the vision training device 300 is in the vision training mode, the graphic displayed by the first nixie tube 311 is switched back and forth between the "left-looking expression" and the "right-looking expression" to intuitively prompt the user to move the eyes along with the expression on the graphic. Of course, in other embodiments of the present application, the graphic displayed by the first nixie tube 311 may also be switched back and forth between the left arrow and the right arrow in the vision training mode.

The first nixie tube 311 is further provided with a standby module, so that after the vision training device 300 operates in an office mode for a preset time, the first nixie tube 311 activates the standby module and displays a pattern prompting a user to rest, thereby prompting the user to rest at a proper time, relieving eye fatigue and ensuring vision health. Preferably, when the first nixie tube 311 activates the standby module, the first nixie tube 311 displays a figure of "blinking" to intuitively prompt the user to pay attention to eye fatigue, and relax eyes to ensure visual health. Of course, in other embodiments of the present application, when the first nixie tube 311 activates the standby module, the graphics displayed by the first nixie tube 311 may also be "sleep", "eye-closing", and so on.

In some embodiments of the present application, the first circuit board 310 is further provided with a second nixie tube 312, and the second nixie tube 312 has a timing module, so that a user can observe time through the second nixie tube 312, and the functions of the lamp body 1 are more abundant and convenient.

In some embodiments of the present application, the second digital tube 312 further has a countdown module, and the first adjusting device 120 for activating the countdown module is connected to one side of the first circuit board 310, so that a user can start the countdown module of the second digital tube 312 by operating the first adjusting device, which further enriches the functions of the lamp body 1 and improves the convenience.

Preferably, the first adjusting device 120 is a knob, and is disposed at the left end of the vision training device 300 along the length direction, and the countdown module of the second digital tube 312 is started by twisting the knob; wherein, rotating the first adjusting device 120 clockwise for 1 minute of decreasing the time, rotating the first adjusting device 120 counterclockwise for 1 minute of increasing the time; when the count-down time is adjusted, and the count-up time of the second digital tube 312 is displayed as "00:00", if the first adjusting device 120 is rotated clockwise, the count-up time of the second digital tube 312 blinks, so as to remind the user that the count-up time can not be reduced any more; when the countdown decreases to zero, if the first adjustment device 120 is rotated clockwise again, the second nixie tube 312 exits the countdown module.

When the second nixie tube 312 enters the countdown module, the first nixie tube 311 also switches the pattern, presents the pattern for reminding the user of starting the countdown module, and when the second nixie tube 312 exits the countdown module, the first nixie tube 311 switches back to the original pattern. Therefore, the starting and closing of the functions of the lamp body 1 are more visual, and the man-machine interaction is improved. Preferably, when the second nixie tube 312 enters the countdown module, the first nixie tube 311 displays a graphic of "look-left expression" to intuitively indicate to the user that the first adjusting device 120 on the left is in use, and the countdown module is already started. Of course, in other embodiments of the present application, when the second nixie tube 312 enters the countdown module, the graphic displayed by the first nixie tube 311 may also be "arrow to left", "alarm clock", and so on.

In some embodiments of the present application, the first circuit board 310 is further provided with a third nixie tube 313, and the third nixie tube 313 has a touch module, so that a user can control a part of functions of the lamp body 1 through the touch module, thereby facilitating the use of the lamp body 1.

The third nixie tube 313 includes a first touch control portion 314, and the first touch control portion 314 is used for adjusting the visual training device 300 to turn on or off the visual training mode, so that a user can switch between the working mode and the visual training mode only by touching the first touch control portion 314, and the mode switching operation of the visual training device 300 is more convenient.

Preferably, on the third nixie tube 313, the first touch control part 314 displays a "barbell" graph to intuitively prompt the user that the part is a switch in a vision training mode. Of course, in other embodiments of the present application, the graphic displayed by the first touch portion may also be "eyes", "games", and so on.

In some embodiments of the present application, the third nixie tube 313 further includes a second touch control portion 315, and the second touch control portion 315 is used for adjusting the power on and off of the lamp body 1, so that a user can turn on or off the power of the lamp body 1 only by touching the second touch control portion 315, thereby facilitating the switching operation of the lamp body 1. Preferably, on the third nixie tube 313, the second touch control part 315 displays a graphic of "power" to intuitively prompt the user that the part is a switch of the power.

Preferably, when the second touch portion 315 is touched to start the power supply, the first nixie tube 311 sequentially displays dynamic graphics of "sleeping", "looking right", "looking left", "blinking", "smiling face", which not only prompts the user to start the power supply, but also promotes the interactivity and interestingness of the training device 300.

In some embodiments of the present application, the vision training device 300 further includes a light-transmitting member 320, where the light-transmitting member 320 is covered on the first circuit board 310, so that the first circuit board 310 is hidden in the light-transmitting member 320, so that when the user uses the lamp body 1, only the light emitted by the nixie tube is visible, and the internal structure of the vision training device 300 is not visible, so that the lamp body 1 is more attractive; in addition, the color of the light-transmitting member 320 is identical to that of the lamp shade 100, so that the lamp body 1 looks more overall and beautiful.

In some embodiments of the present application, the lighting device 200 includes a second circuit board 210, and a plurality of light emitting elements 211 are disposed on the second circuit board 210, when the vision training device 300 is in the vision training mode, the brightness of the plurality of light emitting elements 211 dynamically changes according to a preset scheme, so that ciliary muscle of a user's eye can be contracted and relaxed accordingly under the change of illumination brightness, thereby effectively exercising ciliary muscle, further relieving eye fatigue, and protecting vision health.

The bottom end of the lampshade 100 is concavely provided with the mounting part 110, and the lighting device 200 is arranged in the mounting part 110, so that light emitted to the periphery by the lighting device 200 can be shielded by the lampshade 100, and the light of the lighting device 200 is prevented from being directly irradiated to eyes of a user to influence visual health; in addition, the lighting device 200 further includes a light homogenizing plate 220 disposed below the second circuit board 210, where the light homogenizing plate 220 can uniformly scatter the light emitted by the light emitting element 211, so as to achieve a uniform lighting effect.

Preferably, in this embodiment, the light emitting member 211 is an LED lamp, which has a good light emitting effect, and is low in cost, small in structure and convenient to install. The light emitting pieces 211 are arranged on the second circuit board 210 in a lattice-shaped manner, and are positioned on two rows of light emitting pieces 211 in the middle of the second circuit board 210, wherein one row of light emitting pieces 211 emits red light, the other row of light emitting pieces 211 emits ultraviolet light, and the light emitting pieces 211 on the other two sides emit blue light, so that the light emitted by the light emitting pieces 211 is complemented by the red light on short-wave light and complemented by the ultraviolet light on long-wave light, the light emitted by the light emitting pieces 211 is more similar to natural light, eyes of a user are more comfortable in the use process, fatigue is not easy to generate, and visual health is protected.

In some embodiments of the present application, a second adjusting device 130 for adjusting the brightness of the plurality of light emitting elements 211 is connected to one side of the second circuit board 210, so that a user can adjust the brightness of the light emitting elements 211 according to the user's own needs, thereby improving the controllability of the lamp body 1 and meeting the user's diverse needs.

Preferably, the second adjusting device 130 is a knob with the same shape as the first adjusting device 120, and is disposed at one end of the vision training device 300 opposite to the first adjusting device 120, so that the overall appearance of the lamp body 1 is more symmetrical and attractive; wherein, the brightness of the light emitting element 211 increases by 5% every time the second adjusting device 130 is screwed clockwise, and the brightness of the light emitting element 211 decreases by 5% every time the second adjusting device 130 is screwed anticlockwise; when the second adjusting device 130 is rotated, the first nixie tube 311 also switches the pattern, presents the pattern for reminding the user of the brightness change, and when the second adjusting device 130 is stopped rotating, the first nixie tube 311 switches back to the original pattern, so that the brightness adjusting operation of the light emitting piece 211 is more visual, and the human-computer interaction is improved.

Preferably, when the second adjusting device 130 is rotated, the first nixie tube 311 displays a graphic of "look right expression" to intuitively indicate to the user that the second adjusting device 130 on the right side is being used, and the brightness of the light emitting member 211 is being adjusted. Of course, in other embodiments of the present application, when the second adjusting device 130 is rotated, the graphic displayed by the first nixie tube 311 may also be "arrow to right", "bulb", and so on.

The embodiment of the application also provides a vision training lamp 3, which comprises a bracket 2 and a lamp body 1, wherein the top end of the lampshade 100 is provided with a connecting piece 140, and the bracket 2 is connected with the lamp body 1 through the connecting piece 140.

It is to be understood that the above references to the terms "center", "longitudinal", "transverse", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc., are for convenience in describing the present utility model and simplifying the description only, and do not indicate or imply that the apparatus or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus are not to be construed as limiting the present utility model. Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature. In the description of the present utility model, unless otherwise indicated, the meaning of "plurality" is three or more.

The above description is only illustrative of the preferred embodiments of the present utility model and of the principles of the technology employed. It will be appreciated by persons skilled in the art that the scope of the utility model referred to in the present utility model is not limited to the specific combinations of the technical features described above, but also covers other technical features formed by any combination of the technical features described above or their equivalents without departing from the inventive concept. Such as the above-mentioned features and the technical features disclosed in the present utility model (but not limited to) having similar functions are replaced with each other.

Claims (10)

1. A lamp body, characterized in that it includes a lampshade, a lighting device is provided at the bottom end of the lampshade, a visual training device is provided on one of the side walls of the lampshade, and the visual training device has a visual training mode. When in the visual training mode, the visual training device can provide a graphic demonstration of visual training according to a preset scheme. 2. The lamp body according to claim 1 is characterized in that the visual training device includes a first circuit board and a first digital tube arranged on the first circuit board, and when the visual training device is in a visual training mode, the first digital tube provides a graphic demonstration of visual training according to a preset scheme. 3 . The lamp body according to claim 2 , wherein the first circuit board is further provided with a second digital tube, and the second digital tube has a timing module. 4. The lamp body according to claim 3, characterized in that the second digital tube further has a countdown module, and a first adjustment device for activating the countdown module is connected to one side of the first circuit board. 5. The lamp body according to claim 2, characterized in that the first circuit board is also provided with a third digital tube, the third digital tube has a first touch portion, and the first touch portion is used to adjust the visual training device to turn on or off the visual training mode. 6 . The lamp body according to claim 2 , wherein the first circuit board is further provided with a third digital tube, the third digital tube has a second touch portion, and the second touch portion is used to adjust the power on and off of the lamp body. 7. The lamp body according to claim 2, characterized in that the visual training device further comprises a light-transmitting member, and the light-transmitting member covers the first circuit board so that the first circuit board is hidden in the light-transmitting member. 8. The lamp body according to claim 1 is characterized in that the lighting device includes a second circuit board, and a plurality of light-emitting components are arranged on the second circuit board. When the visual training device is in the visual training mode, the brightness of the plurality of light-emitting components changes dynamically according to a preset scheme. 9. The lamp body according to claim 8, characterized in that a second adjusting device for adjusting the brightness of the plurality of light-emitting elements is connected to one side of the second circuit board. 10. A visual training lamp, characterized in that it comprises a bracket and a lamp body as described in any one of claims 1 to 9, a connecting piece is provided at the top of the lampshade, and the bracket is connected to the lamp body through the connecting piece.