RU2755142C1 - Illumination device for globes. globe (options) - Google Patents

Abstract

FIELD: electrical engineering.

SUBSTANCE: invention relates to the field of electrical engineering, in particular to globe illumination devices. The expected result is achieved by the fact that the device contains a cylindrical housing in which the battery and wire compartments are arranged, at least one lighting element, two control boards, a switch, a mini-USB connector and a groove for installation on the axis of the globe. The wires connect the batteries and the mini-USB connector to the lighting element through the switch and control boards.

EFFECT: possibility of using two power options for the lighting element of the globe illumination device and the safer use of illuminated globes.

21 cl, 8 dwg

Description

The group of inventions relates to teaching and playing devices of three-dimensional models of a spherical shape, namely, globes and can be used for games and learning, in particular in geography, astronomy, history, economics, etc. Also, the group of inventions can be used as decorative elements of the interior, can be used as bedside lamps, including in children's rooms.

LEVEL OF TECHNOLOGY

One of the types of educational and game three-dimensional models of spherical planets are Earth globes.

Various types and types of globes are known in the patent literature, many of which are illuminated.

So known (EP0412586, date of publication 08/07/1988) a model of the planet Earth, which has a base, with attachments at the North and South Poles, and the polar axis of the globe is tilted. The model is a polar shaft with the shaft end going up through the North Pole bearing and the shaft end going down through the South Pole bearing. The lighting means is obliquely mounted on the Polar shaft for oblique movement and for rotation with the shaft for illuminating the interior of the globe. The model has a manual adjuster associated with the North Pole bearing for manually adjusting the tilt of the lighting device in response to a handle switch. The timer drive is detachably connected to the end of the South Pole shaft to rotate the polar shaft relative to the earth. The timer is removably mounted on the base. To adjust the amount of illumination inside the globe, a dimmer circuit is provided.

In the known invention (WO2018 / 128137, publication date 01/04/2017), the goal was to create a globe that includes a rotation mechanism and interior lighting that can display the night landscapes of the earth, for which the angle of inclination of the columnar shaft can be adjusted, in which the projector can be built into a spherical body and which can project the starry sky and moving images onto the wall. A globe is presented, containing: a spherical body that is hollow, to the outer surface of which a map is attached, including areas in which illuminated areas of the night landscape are covered with a luminous material, which includes an opening portion at the bottom of the spherical body and which allows light to pass; driving means for rotational motion of the spherical body and LEDs attached to the periphery of the columnar shaft that supports the spherical body; an earth axis support arm that rotationally supports the spherical body; and a columnar shaft that has a length and a first end of which is connected and secured to the earth axis support bracket, and the second end of which is passed through an opening of the spherical body portion. The globe is also equipped with a mechanism that allows a projector, which can project the starry sky onto a wall, to be attached to the distal end of the column shaft, and which changes the angle of the column shaft.

Also known is a utility model (CN207765050 U, publication date 05/05/2017), which discloses an auto-gyration globe including a tellurion body, the tellurion body includes a global shell, a base, a switch, a connecting support, a base with a plug-in support by a fixed connection, it is connected to a global shell to connect the support. The global shell is made of a transparent material, equipped with a rotary actuator, a light source, and a light screen in the global shell. The light source is set at the global position of the center of the shell ball. The light shield is a hemispherical structure, the light shield is concentric with the light source, the rotating drive element is connected to the light shield, it revolves around the light source, which the rotating drive element drives the light shield. The light source is on-off controlled.

The invention known from the patent document CN108074476A, publication date 12/26/2017, discloses a multifunctional globe and relates to the field of teaching devices. The multifunctional globe consists of a base, support, display screen and sphere. The base houses a mobile power supply. The support includes two vertical auxiliary organs, semi-arched supports support the body. The upper parts of the vertical support bodies are provided with a hook. The positioning rods are pivotally attached to the lower parts of the vertical support housings. There are two hanging rings at the top of the display screen. There are two positioning grooves at the bottom of the display screen. A magnifying lens is located in the middle of the half-arc support. There is an LED lamp in the sphere. The mobile power device consists of a rechargeable battery, a power switch, a USB charging port, a USB discharge port, and an electric quantity indicator light. The battery is electrically connected to a USB charging port, a USB discharge port, an electric quantity indicator light, a display screen, and an LED light through a power switch.

It is also known (US2019371208A1, publication date 12/05/2019) an educational globe loudspeaker device, comprising: an educational globe displaying the geography of the world; wherein said globe is pivotally attached to the base along the axis, has a speaker inside the inner surface of the globe with an output source of sound waves, and shows an illuminated light display of various educational patterns; wherein said light display is turned on by a power-on mechanism; and in which the specified base contains a device that allows you to receive and play the transmitted media; and in which the specified base contains an input power source. In a globe, said power-on mechanism is a sensor capable of detecting darkness in order to command the lamps installed inside the globe to light up automatically, without having to manually turn on the light display.

Well as analogues should be pointed patent documents CN207663662 U, publication date 10.27.2017, and CN210324854 U, publication date 29.01.2019, which disclose globes with surround rotation of 360 ^° C

Another analogue is the well-known (RU 173001 U1, publication date 05/29/2017) device for illuminating globes, designed to be embedded in globes mounted on a stand. The device is a cylindrical body, one of the ends of which includes a switch, a groove for installation on the axis of the globe and an edge along the edges of the end, a lamp is fixed on the other end of the body, in the side parts of the body there is a compartment for batteries and a compartment for wires connecting batteries and switch. The technical result of the proposed utility model is to simplify the mounting of the illumination device on the axis of the globe.

The closest analogue is the well-known technical solution (CN208889191A, publication date 05/22/2018), in which the electric lamp contains an upper shell, a battery, a printed circuit board, a lower shell and an electric lamp panel, a fixing column is located in the center of the upper part of the upper shell, the lower shell is installed below the upper shell, a locating groove is formed between the lower shell and the upper shell, the battery and the PCB are installed in the locating groove, and the switch and the charging interface are located on the PCB. The electric lamp panel is located below the lower shell; the lamp beads are located on the panel of the electric lamp; and the PCB is further provided with a power control IC, the power control IC is electrically connected to the battery, the power control IC is electrically connected to the charging interface, the power control IC is electrically connected to the switch, and the switch is electrically connected to the lamp ball. The light emitting device capable of illuminating the globe has the beneficial effect that the light emitting device is simple and elegant in appearance and easy to carry, the independent power supply can be realized through the built-in battery, and no external power supply is required to use the globe lighting.

The disadvantages of the well-known backlit globes is that they all have only one possible way to power the lamps of the globe illumination system. In addition, the known backlights are designed in such a way that one part of the illumination structure is located in the sphere of the globe, and the other part of the illumination in the globe stand, which implies drawing wires between these dependent parts of the illumination system, or the output of the switch to the surface of the sphere of the globe , which implies a direct connection of the illumination system with the sphere of the globe. Those. Known illumination systems are installed on globes specially prepared for them and exclude the installation of such illumination systems on globes of various diameters without changing the design of the illumination system itself and / or the design of the globe and / or the globe support.

The foregoing shows that there is a need to create such a device in which the described disadvantages would be eliminated, as well as which could be compatible with globes regardless of the configuration of their structural elements, in particular supports (bases) and arcs.

DISCLOSURE OF THE INVENTION

The technical problem to be solved by the proposed group of inventions consists in the possibility of supplying the lighting element of the globe illumination device with two different sources: from batteries and external power supply, as well as the ability to use various stands for globes, regardless of the configuration, produced in production. With the help of the proposed device, a globe without illumination can be changed to a globe with illumination only by installing such an illumination device on an arc in the sphere of the globe. The proposed illumination device is placed in a globe of any manufactured diameter, which allows such an illumination device to be placed without changing the integrity and configuration of the globe sphere, globe support, globe arcs. Also, globes with a lighting device installed on them can be equipped with applications with augmented and virtual reality, thereby becoming interactive, without changing the design of the globes and while retaining the advantages of globe lighting.

Thus, the technical result of the proposed invention is:

- providing the possibility of two options for powering the lighting element of the globe illumination device;

- unification of production of globes;

- Reducing production costs and reducing the time for manufacturing illuminated globes by simplifying its installation;

- providing the possibility of interactivity of the globe with illumination without changing its design;

- improving the safety of using illuminated globes.

The technical result is achieved due to the fact that a globe illumination device is proposed, characterized in that the illumination device contains a cylindrical body, on one of the ends of which an edge is made along the edges of the end and a switch, a mini-USB connector for connecting an external power supply and a groove for installing the device are located illumination on the axis of the globe, at least one lighting element is fixed on the other end of the cylindrical body, two compartments are made in the cylindrical body, one of which is a battery compartment and is intended for batteries, and the second compartment is a wired compartment and is intended for wires, the compartments are closed covers, made flush with the walls of the cylindrical body, while the globe illumination device contains two control boards, the first control board is located in the cylindrical body under the end with the edge on the side of the compartment for wires, and the second control board is located in the compartment for wires at the end with a fixed lighting element, wires connect the batteries and the mini-USB connector to the lighting element via a switch and control boards.

Lamps, in particular LED lamps, can be selected as the lighting element.

AA batteries can be used as batteries.

Connection to external power supply can be done via USB cable.

Also, the technical result is achieved due to the fact that a globe is proposed, containing a body and a stand, equipped with a connecting element, characterized in that the body is hollow and made in the form of a sphere having a connection line of hemispheres, a drawing of the planet's surface is applied to the body, while the axis of the globe is passes through the poles of the planet and is perpendicular to the line of connection of the hemispheres, the connecting element is made in the form of an arc, the ends of the arc connect the support and the body of the globe, providing rotation of the sphere around the axis by 360 degrees, at the lower end of the arc, a backlight device is installed in the cavity of the body of the globe, which contains a cylindrical body , on one of the ends of which an edge is made along the edges of the end and a switch is placed, a mini-USB connector for connecting an external power supply and a groove for installing a backlight device on the axis of the globe, on the other end of the cylindrical body at least one lighting element is fixed, in a cylindrical body fulfilled two compartments ka, one of which is a battery compartment and is intended for batteries, and the second compartment is a wired compartment and is intended for wires, the compartments are closed with covers made flush with the walls of the cylindrical case, while the globe illumination device contains two control boards, the first control board is located in cylindrical body under the end with the edge on the side of the compartment for the wires, and the second control board is located in the compartment for the wires at the end with the fixed lighting element, the wires connect the batteries and the mini-USB connector with the lighting element through the switch and control boards.

The sphere of the globe consists of two inner hemispheres and two outer hemispheres, inseparably connected to each other.

Lamps, in particular LED lamps, can be selected as the lighting element used for the globe illumination device.

AA batteries can be used as the batteries used for the globe illuminator.

External power connection can be made via the mini-USB connector of the globe light and USB cable.

Images of the surface of any known planets can be selected as a drawing of the planet's surface. In particular, an image of the surface of the Earth, Moon, Mars, etc. can be applied to the body of the globe.

Another option is a globe containing a body and a stand equipped with two connecting elements, characterized in that the body is hollow and made in the form of a sphere having a line of connection of hemispheres, a drawing of the planet's surface is applied to the body, while the axis of the globe passes through the poles of the planet and perpendicular to the line of connection of hemispheres, one of the connecting elements is made in the form of an arc and is fixed in the middle of the arc with a support, and the ends of the arc are connected to the second connecting element, which is made in the form of a circle around a sphere, each connecting element provides rotation of the sphere around the axis by 360 degrees, allowing the sphere to rotate in two directions, at the lower pole on the axis of the globe, a backlight device is installed in the cavity of the globe body, which contains a cylindrical body, on one of the ends of which an edge is made along the edges of the end and a switch, a mini-USB connector for connecting an external power supply and a groove are placed to install the device two illumination on the axis of the globe, at the other end of the cylindrical body is fixed at least one lighting element, two compartments are made in the cylindrical body, one of which is a battery compartment and is intended for batteries, and the second compartment is a wired compartment and is intended for wires, compartments closed with covers made flush with the walls of the cylindrical body, while the globe illumination device contains two control boards, the first control board is located in the cylindrical body under the end with the edge on the side of the compartment for wires, and the second control board is located in the compartment for wires at the end with the fixed lighting element, wires connect the batteries and the mini-USB connector to the lighting element via a switch and control boards.

The sphere of the globe consists of two inner hemispheres and two outer hemispheres, inseparably connected to each other.

Lamps, in particular LED lamps, can be selected as the lighting element used for the globe illumination device.

AA batteries can be used as the batteries used for the globe illuminator.

External power connection can be made via the mini-USB connector of the globe light and USB cable.

Images of the surface of any known planets can be selected as a drawing of the planet's surface. In particular, an image of the surface of the Earth, Moon, Mars, etc. can be applied to the body of the globe.

BRIEF DESCRIPTION OF DRAWINGS

FIG. 1 is a side view of the backlight from the side of the battery compartment (compartment open) and compartment cover.

FIG. 2 shows a side view of the lighting device from the side of the wire compartment (compartment open) with one lighting element and compartment cover. Also, callout A is shown, illustrating the connection of the device elements and the connection of the device with a USB cable.

FIG. 3 shows a side view of the lighting device from the side of the wire compartment (compartment open) with three lighting elements and a compartment cover.

FIG. 4 shows a view of the illumination device from the side for installing the lamp.

FIG. 5 shows a side view of the backlight with a switch, a mini-USB connector and a groove installed.

FIG. 6 shows a general view of a globe with one connecting element with an illumination system installed on its axis.

FIG. 7 shows a general view of a globe with two connecting elements with an illumination system installed on its axis.

FIG. 8 shows an actual embodiment of a globe with an illumination device.

SUMMARY OF THE INVENTION

A group of inventions is proposed, consisting of a globe illumination device and two versions of the globe.

The illumination device (Fig. 1-5) contains a cylindrical body (1) having two ends (12) and (13).

One end (13) has an edge (14) along the edges of the end (13). The edge (14) (see Fig. 4) forms a seat for the sphere of the globe and prevents the illumination device from sinking completely into the sphere. Also, at the end (13) (Fig. 5) there is a switch (3), a mini-USB connector (10) for connecting an external power supply and a groove (2) for installing a backlight device on the axis of the globe (18).

At the other end (12) of the cylindrical body (1), at least one lighting element (4) is fixed (Figs. 1, 2, 4). Various types of lamps can be selected as the lighting element, in particular LED lamps. FIG. 3 illustrates an embodiment of the invention with three lighting elements (4).

The cylindrical body (1) has two compartments with covers (6) (Fig. 1-3), made flush with the walls of the cylindrical body (1).

One of the compartments - the battery compartment (7) (Fig. 1) is intended for batteries (15), and the second compartment - the wire compartment (5) is intended for wires (9) (Fig. 2, 3). The battery compartment (7) is equipped with holders (8) for batteries (15) (Fig. 1).

The backlight device is designed to operate on batteries and from the mains, for which it is equipped with batteries (15) and a mini-USB connector (10), into which a USB cable (21) is connected (Fig. 2, callout A). AA batteries can be used as batteries (15). Any standard USB cable with one of the tips for a mini-USB connector or a USB cable with an adapter for a mini-USB connector can be used as a USB cable (21).

Under the end (13) in the cylindrical body (1) from the side of the wire compartment (5) there is a control board (11) (Fig. 2, callout A, Fig. 3). The second control board (11) is located in the wiring compartment (5) at the end (12) with the fixed lighting element (4) (Fig. 3).

The wires (9) connect the batteries (15) and the mini-USB connector (10) to the lighting element (4) through the switch (3) and the control boards (11).

The second invention of the group of inventions offers a globe (Fig. 6) containing a body (16), a stand (17) and one connecting element (19).

The body (16) is hollow and is made in the form of a sphere having a line of connection of hemispheres (Fig. 6). The sphere of the globe consists of two inner hemispheres and two outer hemispheres, inseparably connected to each other. The inner hemispheres can be glued together. The outer hemispheres can be connected to form a connection line of the hemispheres in various ways, for example, by high frequency welding (high frequency current welding) using adhesive tape.

On the body (16), a drawing of the planet's surface is applied (Fig. 8). Images of the surface of any known planets can be selected as a drawing of the planet's surface. In particular, an image of the surface of the Earth, Moon, Mars, etc. can be applied to the body of the globe. In this case, general geographic and thematic images can be selected as an image, in particular, topographic maps, physical maps, political maps, navigation maps, etc. The pattern can be applied to the outer and / or inner side of the outer hemispheres of the body (16).

The axis of the globe (18) passes through the poles of the planet and is perpendicular to the line of connection of the hemispheres.

The connecting element (19) is made in the form of an arc, the ends of the arc connect the support (17) and the body (16) of the globe, providing rotation of the sphere around the axis by 360 degrees. At the lower end of the arc, a globe illumination device is installed in the cavity of the body (16) of the globe.

The design of the illumination device is described above, namely.

The illumination device contains a cylindrical body (1) with two ends (12) and (13). One end (13) has an edge (14) along the edges of the end (13). The edge (14) forms a seat for the sphere of the globe and prevents the illumination device from sinking completely into the sphere. Also, at the end (13) there is a switch (3), a mini-USB connector (10) for connecting an external power supply and a groove (2) for installing a backlight device on the globe axis (18). At the other end (12) of the cylindrical body (1), at least one lighting element (4) is fixed. Various types of lamps can be selected as the lighting element, in particular LED lamps. The cylindrical body (1) has two compartments with covers (6) made flush with the walls of the cylindrical body (1). One of the compartments - the battery compartment (7) is for batteries (15), and the second compartment - the wiring compartment (5) is for wires (9). The battery compartment (7) is equipped with holders (8) for batteries (15). The backlight device is designed to operate on batteries and from a network, for which it is equipped with batteries (15) and a mini-USB connector (10), into which a USB cable (21) is connected (Fig. 5). AA batteries can be used as batteries (15). Any standard USB cable with one of the tips for a mini-USB connector or a USB cable with an adapter for a mini-USB connector can be used as a USB cable (21). The control board (11) is located under the end face (13) in the cylindrical body (1) from the side of the wiring compartment (5). The second control board (11) is located in the wiring compartment (5) at the end (12) with the fixed lighting element (4). The wires (9) connect the batteries (15) and the mini-USB connector (10) to the lighting element (4) through the switch (3) and the control boards (11).

The third invention of the group of inventions proposes a globe (Fig. 7) containing a body (16), a support (17) and two connecting elements (19) and (20).

The body (16) is hollow and is made in the form of a sphere having a line of connection of hemispheres (Fig. 7). The sphere of the globe consists of two inner hemispheres and two outer hemispheres, inseparably connected to each other. The inner hemispheres can be glued together. The outer hemispheres can be connected to form a connection line of the hemispheres in various ways, for example, by high frequency welding (high frequency current welding) using adhesive tape.

On the body (16), a drawing of the planet's surface is applied (Fig. 8). Images of the surface of any known planets can be selected as a drawing of the planet's surface. In particular, an image of the surface of the Earth, Moon, Mars, etc. can be applied to the body of the globe. In this case, general geographic and thematic images can be selected as an image, in particular, topographic maps, physical maps, political maps, navigation maps, etc. The pattern can be applied to the outer and / or inner side of the outer hemispheres of the body (16).

The axis of the globe (18) passes through the poles of the planet and is perpendicular to the line of connection of the hemispheres.

One of the connecting elements (19) is made in the form of an arc and is fixed in the middle of the arc with a support (17), and the ends of the arc are connected to the second connecting element (20). The second connecting element (20) is made in the form of a circle around a sphere.

Each connecting element (19) and (20) rotates the sphere about an axis of 360 degrees, allowing the sphere to rotate in two directions, i.e. rotation is 720 degrees. At the lower pole of the planet, on the axis of the globe (18), a device for illuminating the globe is installed in the cavity of the body (16) of the globe.

The design of the illumination device is described above, namely.

The illumination device contains a cylindrical body (1) with two ends (12) and (13). One end (13) has an edge (14) along the edges of the end (13). The edge (14) forms a seat for the sphere of the globe and prevents the illumination device from sinking completely into the sphere. Also, at the end (13) there is a switch (3), a mini-USB connector (10) for connecting an external power supply and a groove (2) for installing a backlight device on the globe axis (18). At the other end (12) of the cylindrical body (1), at least one lighting element (4) is fixed. Various types of lamps can be selected as the lighting element, in particular LED lamps. The cylindrical body (1) has two compartments with covers (6) made flush with the walls of the cylindrical body (1). One of the compartments - the battery compartment (7) is for batteries (15), and the second compartment - the wiring compartment (5) is for wires (9). The battery compartment (7) is equipped with holders (8) for batteries (15). The backlight device is designed to operate on batteries and from a network, for which it is equipped with batteries (15) and a mini-USB connector (10), into which a USB cable (21) is connected (Fig. 5). AA batteries can be used as batteries (15). Any standard USB cable with one of the tips for a mini-USB connector or a USB cable with an adapter for a mini-USB connector can be used as a USB cable (21). The control board (11) is located under the end face (13) in the cylindrical body (1) from the side of the wiring compartment (5). The second control board (11) is located in the wiring compartment (5) at the end (12) with the fixed lighting element (4). The wires (9) connect the batteries (15) and the mini-USB connector (10) to the lighting element (4) through the switch (3) and the control boards (11).

CARRYING OUT THE INVENTION

The proposed group of inventions can be implemented as follows.

Batteries (15) are inserted into the globe illumination device and the cover (6) of the battery compartment (7) is closed. The device is now ready for use.

The body (16) of the globe is removed from the stand (17), on which it is fixed by means of a connecting element (19) made in the form of an arc. The freed end of the axis of the connecting element (19) is inserted into the groove (2) of the globe illumination device located on the end (13).

The body (16) of the globe is installed on the cylindrical body (1) of the globe illumination device, while the end (13) remains outside the sphere of the globe. In this case, the connecting element (19) grips the body (16) of the globe from both sides, the edge (14), when clamping the connecting element (19), does not allow it to enter the body (16) completely, i.e. prevents the illumination device from sinking completely into the sphere.

Outside the case (16) of the globe, a switch (3) located at the end (13) also remains, providing the ability to turn on / off the lighting element (4), and a mini-USB connector (10), providing, if necessary, the ability to operate the device from external power by connecting the USB cable (21).

The assembly of the globe with two connecting elements (19) and (20) is carried out in a similar way.

The device is now ready for use.

For example, in FIG. 8, one of the actual versions of the globe is shown with a globe illumination device installed in it; the drawing shows a globe with a body diameter of more than 150 mm. FIG. 8 only illustrates, but does not limit the possible embodiments of the inventions of the group of the claimed inventions.

The proposed illumination device was installed in the globes according to the invention, as well as in the globes of various manufacturers, produced without illumination. As a result of the experiments, it was found that the proposed device is placed in a globe of any produced diameter without changing the integrity and configuration of the globe sphere, globe support, globe arcs.

Also, the connection of the globes with illumination was carried out according to the proposed group of inventions providing for the technologies of augmented virtual reality. As a result of the experiments, the possibility of ensuring the interactivity of devices without changing their design was established.

In addition, the design of the globe illumination device provides the possibility of two power options for the illumination element for the illumination of the globes, and makes it possible to increase the safety of the use of the illuminated globes. Also, the design of the globe illumination device provides ease of installation in the globe, allowing the production of globes to be unified and reducing production and time costs in the manufacture of illuminated globes.

Claims (21)

1. Globe illumination device, characterized by the fact that it contains a cylindrical body, on one of the ends of which an edge is made along the edges of the end and a switch is located, a mini-USB connector for connecting an external power supply and a groove for installing the illumination device on the globe axis, on the other end of the cylindrical of the case, at least one lighting element is fixed, two compartments are made in the cylindrical body, one of which is a battery compartment and is intended for batteries, and the second compartment is a wired compartment and is intended for wires, the compartments are closed with covers made flush with the walls of the cylindrical body, when In this case, the globe illumination device contains two control boards: the first control board is located in a cylindrical body under the end with an edge on the side of the compartment for wires, and the second control board is located in the compartment for wires at the end with a fixed lighting element, wires connect the batteries and the mini-USB connector with light up flush element through the switch and control boards. 2. Globe illumination device according to claim 1, characterized in that lamps can be selected as the lighting element. 3. Globe illumination device according to claim 1, characterized in that LED lamps can be selected as the lighting element. 4. Globe illumination device according to claim 1, characterized in that AA batteries can be used as batteries. 5. Globe lighting device according to claim 1, characterized in that the connection to an external power supply can be carried out via a USB cable. 6. Globe, characterized by the fact that it contains a body and a stand equipped with a connecting element, the body is hollow and is made in the form of a sphere having a line of connection of hemispheres, a drawing of the planet's surface is applied to the body, while the axis of the globe passes through the poles of the planet and is perpendicular to the connection line hemispheres, the connecting element is made in the form of an arc, the ends of the arc connect the stand and the body of the globe, ensuring the rotation of the sphere around the axis by 360 degrees, at the lower end of the arc, in the cavity of the body of the globe, an illumination device is installed, which contains a cylindrical body, at one of the ends of which an edge is made along the edges of the end there are a switch, a mini-USB connector for connecting an external power supply and a groove for installing a backlight device on the axis of the globe, at the other end of the cylindrical body at least one lighting element is fixed, two compartments are made in the cylindrical body, one of which is a battery compartment and is designed for b batteries, and the second compartment is a wiring compartment and is intended for wires, the compartments are closed with covers made flush with the walls of the cylindrical body, while the globe illumination device contains two control boards: the first control board is located in the cylindrical body under the end with an edge on the side of the compartment for wires , and the second control board is located in the compartment for wires at the end with a fixed lighting element, the wires connect the batteries and the mini-USB connector with the lighting element through the switch and control boards. 7. A globe according to claim 6, characterized in that the sphere of the globe consists of two inner hemispheres and two outer hemispheres, permanently connected to each other. 8. A globe according to claim 6, characterized in that lamps can be selected as the lighting element used for the globe illumination device. 9. A globe according to claim 6, characterized in that LED lamps can be selected as the lighting element used for the globe illumination device. 10. Globe according to claim 6, characterized in that AA batteries can be used as batteries used for the globe illumination device. 11. Globe according to claim 6, characterized in that the connection to an external power supply can be carried out through the mini-USB connector of the globe illumination device and a USB cable. 12. Globe according to claim 6, characterized in that images of the surface of any known planets can be selected as the pattern of the planet's surface. 13. Globe according to claim 6, characterized in that an image of the Earth's surface can be applied as a pattern of the planet's surface. 14. Globe, characterized in that it contains a body and a support, equipped with two connecting elements, the body is hollow and made in the form of a sphere having a line of connection of hemispheres, a drawing of the planet's surface is applied to the body, while the axis of the globe passes through the poles of the planet and is perpendicular to the line connections of hemispheres, one of the connecting elements is made in the form of an arc and is fixed in the middle of the arc with a stand, and the ends of the arc are connected to the second connecting element, which is made in the form of a circle around a sphere, each connecting element provides rotation of the sphere around the axis by 360 degrees, allowing the sphere rotate in two directions, at the lower pole on the axis of the globe, a backlight device is installed in the cavity of the globe body, which contains a cylindrical body, at one of the ends of which there is an edge along the edges of the end and a switch, a mini-USB connector for connecting an external power supply and a groove for installation globe axis illumination devices , at the other end of the cylindrical body, at least one lighting element is fixed, two compartments are made in the cylindrical body, one of which is a battery compartment and is intended for batteries, and the second compartment is a wire compartment and is intended for wires, the compartments are closed with flush-mounted covers with the walls of a cylindrical body, while the globe illumination device contains two control boards, the first control board is located in the cylindrical body under the end with an edge from the side of the compartment for wires, and the second control board is located in the compartment for wires at the end with a fixed lighting element, the wires are connected batteries and mini-USB connector with lighting element via switch and control boards. 15. Globe according to claim 14, characterized in that the sphere of the globe consists of two inner hemispheres and two outer hemispheres, permanently connected to each other. 16. A globe according to claim 14, wherein lamps can be selected as the lighting element used for the globe illumination device. 17. A globe according to claim 14, characterized in that LED lamps can be selected as the lighting element used for the globe illumination device. 18. A globe according to claim 14, characterized in that AA batteries can be used as batteries used for the globe illumination device. 19. Globe according to claim 14, characterized in that the connection to an external power supply can be carried out through a mini-USB connector of the globe lighting device and a USB cable. 20. Globe according to claim 14, characterized in that images of the surface of any known planets can be selected as the pattern of the planet's surface. 21. A globe according to claim 14, characterized in that an image of the Earth's surface can be applied as a pattern of the planet's surface.

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