CN220544110U - Portable power supply device of integrated gyroscope - Google Patents

Abstract

The utility model discloses a portable power supply device of an integrated gyroscope, which comprises a power supply component and a handle component, wherein a battery cell is arranged in a battery box, a conductive contact seat is arranged on the rear end surface of the battery box, the conductive contact seat is electrically connected with the battery cell, and an elastic lock catch component is arranged on the front end surface of the battery box; the utility model provides a gyroscope rotation part fixed connection, including handle component, elastic button component and elastic contact subassembly, be provided with draw-in groove and mounting groove on the handle casing, elastic button component installs in the inside outside of draw-in groove, and elastic contact subassembly installs in the mounting groove, in the handle casing was pushed from handle casing one side to the power component, elastic button component was corresponding with elastic latch component's position, and elastic latch component's bulge card was advanced draw-in groove inside inboard, and elastic button component was used for pressing elastic latch component and makes it deviate from the draw-in groove, and elastic contact subassembly is corresponding with the position of conductive contact seat, and elastic contact subassembly is connected with conductive contact seat electricity, handle casing and gyroscope rotation part fixed connection.

Description

Portable power supply device of integrated gyroscope

Technical Field

The utility model belongs to the technical field of engineering measurement and detection, and particularly relates to a portable power supply device of an integrated gyroscope.

Background

The gyroscope is an instrument with a gyroscope device for measuring the true north azimuth angle of a survey line, has the characteristics of simple operation, rapid north seeking and no time and place restriction, and has wide application in experimental teaching, ground engineering measurement and military aiming. Especially, the irreplaceable satellite signal is reflected when the satellite signal is not received in the mine and the tunnel. Because the use occasion is extensive, therefore put forward higher demands to its weight, volume, use convenience, and the reliability power supply of host computer is an important one among them.

The gyroscope power supply modes in the current market have the following modes in total: (1) 220V alternating current power supply; (2) externally hung power supply; (3) a backpack power supply; (4) a snap-in power supply; (5) a detachable power supply is built in. The 220V alternating current power supply is only suitable for experimental teaching places and is not suitable for field operation places; the externally hung power supply is generally provided with special cables and excessive accessories; the backpack power supply is mainly aimed at instruments (non-integration) with independent control boxes; the buckle type power supply and the built-in detachable power supply can be detached and can be replaced and charged independently, but the volume of the cavity inside the main machine rotating part is occupied too much, and the space of the electric control part is greatly compressed. Therefore, it is particularly necessary to develop a portable power supply system specifically for an integrated gyroscope.

Disclosure of Invention

The utility model aims to overcome the defects of the prior art and provides an integrated gyroscope portable power supply device.

In order to solve the technical problems, the technical scheme of the utility model is as follows: the portable power supply device of the integrated gyroscope comprises a power supply component and a handle component, wherein the power supply component comprises a battery box, a battery core, a conductive contact seat and an elastic lock catch assembly, the battery core is arranged in the battery box, the conductive contact seat is arranged on the rear end face of the battery box, the conductive contact seat is electrically connected with the battery core, and the elastic lock catch assembly is arranged on the front end face of the battery box; the utility model provides a gyroscope rotation part fixed connection, including handle component, elastic button component and elastic contact subassembly, be provided with draw-in groove and mounting groove on the handle casing, elastic button component installs in the inside outside of draw-in groove, and elastic contact subassembly installs in the mounting groove, in the handle casing was pushed from handle casing one side to the power component, elastic button component was corresponding with elastic latch component's position, and elastic latch component's bulge card was advanced draw-in groove inside inboard, and elastic button component was used for pressing elastic latch component and makes it deviate from the draw-in groove, elastic contact component is corresponding with the position of conductive contact seat, and elastic contact component is connected with conductive contact seat electricity, handle casing and gyroscope rotation part fixed connection.

Preferably, the battery case includes battery case left side lid, battery case right side lid and battery case body, the battery case body left end passes through screw connection with battery case left side lid, and battery case body right-hand member passes through screw connection with battery case right side lid, and the battery case left side covers and is provided with the safe box, is provided with switch and the socket that charges on the battery case right side, the terminal surface comprises slope section and vertical section before the battery case body, and slope section central point puts and is provided with the electric quantity display, and vertical section is provided with elastic latching assembly, safe box, switch, socket and electric quantity display are connected with the electricity of electricity core respectively, battery case body rear end face is provided with conductive contact seat.

Preferably, the battery cell is in a 7-string 2-parallel combination form, a vacancy is reserved on the battery cell close to the slope section, and the fuse box and the charging socket are positioned on the same straight line with the vacancy.

Preferably, the elastic lock catch assembly comprises a leaf spring, a large spring lock catch and a small spring lock catch, two ends of the leaf spring are respectively connected with the large spring lock catch and the small spring lock catch, through holes are respectively formed in two sides of the vertical section of the battery box body, the large spring lock catch and the small spring lock catch are respectively installed in the two through holes, and the large spring lock catch and the small spring lock catch are respectively protruded from the through holes.

Preferably, the handle shell is a trapezoid-like shell with an opening on the right side, a groove is formed in the position, close to the rear, of the top surface of the handle shell, and the groove is matched with the edge of the gyroscope upper cover and fixed through screws.

Preferably, the front of the handle shell is an inclined plane, the upper side of the inclined plane is provided with protective glass, the lower side of the inclined plane is provided with two clamping grooves which are respectively a large-size clamping groove and a small-size clamping groove, the protruding part of the large spring lock catch is limited in the large-size clamping groove, the protruding part of the small spring lock catch is limited in the small-size clamping groove, the number of the elastic button components is two, and the two elastic button components are respectively arranged on the outer side inside the large-size clamping groove and the small-size clamping groove.

Preferably, the handle shell rear side is provided with the mounting groove for install elastic contact assembly, handle shell left side wall inner wall is provided with the spring of bending, and handle shell left side wall inner wall corresponds the spring position of bending and is provided with the spring recess, bends the spring and spacing in the spring recess after bending the spring by power component compression.

Preferably, when the power supply component pushes the handle shell from the right side face of the handle shell, one side of the power supply component, provided with the large spring lock catch, is pushed in first, so that the left cover of the battery box is close to the left side wall of the handle shell, the slope section of the front end face of the battery box body is tightly attached to the slope in front of the handle shell, the protruding part of the large spring lock catch is limited in the large-size clamping groove, and the protruding part of the small spring lock catch is limited in the small-size clamping groove.

Preferably, a semicircular bulge is arranged at the joint of the front surface and the bottom surface of the handle shell and is used for carrying the gyroscope.

Compared with the prior art, the utility model has the advantages that:

(1) The utility model discloses a portable power supply device of an integrated gyroscope, which comprises a power supply component and a handle component, wherein the power supply component is pushed into a handle shell from one side of the handle shell of the handle component, the handle shell is fixedly connected with the gyroscope, and the power supply component is detachably arranged on the gyroscope without occupying the volume of a cavity in a revolving part of a main machine of the gyroscope;

(2) The portable power supply device for the integrated gyroscope mainly solves the problems of miniaturization, independence, portability in assembly and disassembly and integral matching coordination with a host of a power supply of the gyroscope, wherein the miniaturization means that the energy density is higher under the same volume of the power supply; independent means that the independent power supply can also be used as an independent matched product for marking or selecting; the mounting and dismounting portability is mainly characterized in that the mounting and dismounting of the power supply are convenient and easy, and no additional accessories are provided; the coordination with the whole host mainly means that the power supply is in an installation state or a disassembly state, and the whole appearance and shape of the host are not influenced;

(3) The shape of the power supply cell is reasonably arranged and installed on the premise of comprehensively considering the appearance of the gyroscope, the limited space in the battery box is fully utilized, and the energy density of the power supply is improved;

(4) The power supply component of the gyroscope is self-made into an independent product, and has no other accessories except a matched charger, and the gyroscope comprises a battery cell, a power switch, a charging socket, a fuse box, an output contact, an electric quantity display and an elastic lock catch assembly.

Drawings

FIG. 1 is a schematic diagram of a front view of a power supply unit of an integrated gyroscope portable power supply device according to the present utility model;

FIG. 2 is a schematic diagram of a left-hand structure of a power supply component of an integrated gyroscope portable power supply device according to the present utility model;

FIG. 3 is a schematic diagram of a right-hand view of a power supply component of an integrated gyroscope portable power supply device according to the present utility model;

FIG. 4 is a schematic cross-sectional view of a power supply unit of an integrated gyroscope portable power supply device according to the present utility model;

FIG. 5 is a schematic diagram of a front view of a portable power supply device for an integrated gyroscope according to the present utility model;

FIG. 6 is a schematic diagram of a right-hand view of an integrated gyroscope portable power supply device according to the present utility model;

fig. 7 is a schematic diagram of a left-view structure of a portable power supply device for an integrated gyroscope according to the present utility model

Fig. 8 is a use state diagram of an integrated gyroscope portable power supply device according to the present utility model.

Reference numerals illustrate:

1. the gyroscope comprises a power supply component, a handle component, a safety box, a power switch, a charging socket, a power display, a protective glass, a bending spring and a gyroscope, wherein the power supply component, the handle component, the safety box, the power switch, the power supply component, the charging socket, the power supply switch, the power supply display, the protective glass and the gyroscope are respectively arranged in the cavity of a revolving part of the gyroscope;

1-1 parts of battery box, 1-2 parts of battery cell, 1-3 parts of conductive contact seat, 1-4 parts of elastic lock catch assembly;

1-1-1, a left cover of a battery box, 1-1-2, a right cover of the battery box, 1-1-3 and a battery box body;

1-4-1 parts of leaf springs, 1-4-2 parts of large spring locks, 1-4-3 parts of small spring locks;

1-1-3-1, a slope section, 1-1-3-2 and a vertical section;

2-1 parts of handle shell, 2-2 parts of elastic button component, 2-3 parts of elastic contact component;

2-1-1 parts of clamping grooves, 2-1-2 parts of mounting grooves, 2-1-3 parts of grooves, 2-1-4 parts of spring grooves, 2-1-5 parts of semicircular protrusions.

Detailed Description

The following describes specific embodiments of the present utility model with reference to examples:

it should be noted that the structures, proportions, sizes and the like illustrated in the present specification are used for being understood and read by those skilled in the art in combination with the disclosure of the present utility model, and are not intended to limit the applicable limitations of the present utility model, and any structural modifications, proportional changes or size adjustments should still fall within the scope of the disclosure of the present utility model without affecting the efficacy and achievement of the present utility model.

Furthermore, the drawings are merely schematic illustrations of embodiments of the utility model and are not necessarily drawn to scale. The same reference numerals in the drawings denote the same or similar parts, and thus a repetitive description thereof will be omitted. Some of the block diagrams shown in the figures are functional entities and do not necessarily correspond to physically or logically separate entities.

Example 1

As shown in fig. 1-8, the utility model discloses a portable power supply device of an integrated gyroscope, which comprises a power supply component 1 and a handle component 2, wherein the power supply component 1 comprises a battery box 1-1, a battery core 1-2, a conductive contact seat 1-3 and an elastic lock catch assembly 1-4, the battery core 1-2 is arranged in the battery box 1-1, the conductive contact seat 1-3 is arranged on the rear end surface of the battery box 1-1, the conductive contact seat 1-3 is electrically connected with the battery core 1-2, and the elastic lock catch assembly 1-4 is arranged on the front end surface of the battery box 1-1; the handle component 2 comprises a handle shell 2-1, an elastic button component 2-2 and an elastic contact component 2-3, wherein a clamping groove 2-1-1 and an installation groove 2-1-2 are formed in the handle shell 2-1, the elastic button component 2-2 is installed on the outer side of the inner portion of the clamping groove 2-1-1, the elastic contact component 2-3 is installed in the installation groove 2-1-2, the power component 1 is pushed into the handle shell 2-1 from one side of the handle shell 2-1, the elastic button component 2-2 corresponds to the position of the elastic lock catch component 1-4, a protruding portion of the elastic lock catch component 1-4 is clamped into the inner side of the clamping groove 2-1-1, the elastic button component 2-2 is used for pressing the elastic lock catch component 1-4 to enable the elastic lock catch component to be separated from the clamping groove 2-1-1, the elastic contact component 2-3 corresponds to the position of the conductive contact seat 1-3, the elastic contact component 2-3 is electrically connected with the conductive contact seat 1-3, and the handle shell 2-1 is fixedly connected with a gyroscope rotating part.

Example 2

As shown in fig. 1-4, preferably, the battery case 1-1 includes a left battery case cover 1-1-1, a right battery case cover 1-1-2 and a battery case body 1-1-3, the left end of the battery case body 1-1-3 is connected with the left battery case cover 1-1-1 through a screw, the right end of the battery case body 1-1-3 is connected with the right battery case cover 1-1-2 through a screw, a safety box 3 is arranged on the left battery case cover 1-1-1, a power switch 4 and a charging socket 5 are arranged on the right battery case cover 1-1-2, the front end face of the battery case body 1-1-3 is composed of a slope section 1-1-3-1 and a vertical section 1-1-3-2, an electric quantity display 6 is arranged at the central position of the slope section 1-1-3-1, an elastic locking component 1-4 is arranged at the vertical section 1-1-3-2, the safety box 3, the power switch 4, the charging socket 5 and the electric quantity display 6 are respectively connected with the battery core 1-2, and the rear end face of the battery case 1-3 is provided with a conductive socket.

As shown in fig. 4, preferably, the battery cells 1-2 are 7 strings 2 and combined, and a space is reserved in the battery cells 1-2 near the slope section 1-1-3-1, and the fuse box 3 and the charging socket 5 are in the same straight line with the space.

The battery cell 1-2 is reserved with a vacancy near the slope section 1-1-3-1, and the vacancy just can pass through the charging socket 5 and the safe box 3, so that the reasonable utilization of the limited space in the battery box 1-1 is realized, the position is free from interference, and the energy density of the unit volume of the power supply is improved.

Example 3

As shown in fig. 1 and 4, preferably, the elastic latch assembly 1-4 includes a flat spring 1-4-1, a large latch 1-4-2 and a small latch 1-4-3, two ends of the flat spring 1-4-1 are respectively connected with the large latch 1-4-2 and the small latch 1-4-3, two sides of a vertical section 1-1-3 of the battery case 1-3 are respectively provided with a through hole, the large latch 1-4-2 and the small latch 1-4-3 are respectively installed in the two through holes, and the large latch 1-4-2 and the small latch 1-4-3 are respectively protruded from the through holes.

The tail space of the conductive contact seat 1-3, the large spring lock catch 1-4-2 and the small spring lock catch 1-4-3 is enough, the wire can be easily pressed and passed, and the position is not obstructed.

Example 4

As shown in fig. 5 to 7, preferably, the handle housing 2-1 is a trapezoid-like housing with an opening on the right side, a groove 2-1-3 is formed in the top surface of the handle housing 2-1 near the rear surface, and the groove 2-1-3 is matched with the edge of the top cover of the gyroscope and fixed by a screw.

As shown in fig. 5-7, preferably, the front of the handle housing 2-1 is an inclined plane, the upper side of the inclined plane is provided with a protective glass 7, the lower side of the inclined plane is provided with two clamping grooves 2-1-1, which are respectively a large-size clamping groove 2-1-1 and a small-size clamping groove 2-1-1, the protruding part of the large spring lock catch 1-4-2 is limited in the large-size clamping groove 2-1-1, the protruding part of the small spring lock catch 1-4-3 is limited in the small-size clamping groove 2-1-1, the number of the elastic button assemblies 2-2 is two, and the two elastic button assemblies 2-2 are respectively arranged at the inner side and the outer side of the large-size clamping groove 2-1-1 and the small-size clamping groove 2-1-1.

As shown in fig. 6, preferably, a mounting groove 2-1-2 is provided at the rear side of the handle housing 2-1 for mounting the elastic contact assembly 2-3, a bending spring 8 is provided at the inner wall of the left side wall of the handle housing 2-1, a spring groove 2-1-4 is provided at the inner wall of the left side wall of the handle housing 2-1 corresponding to the bending spring 8, and when the bending spring 8 is compressed by the power component 1, the bending spring 8 is limited in the spring groove 2-1-4.

Example 5

As shown in fig. 5 to 7, preferably, when the power supply member 1 is pushed into the handle housing 2-1 from the right side surface of the handle housing 2-1, the side of the power supply member 1, on which the large spring lock catch 1-4-2 is mounted, is pushed first, so that the left battery case cover 1-1-1 is close to the left side wall of the handle housing 2-1, the slope section 1-1-3-1 of the front end surface of the battery case body 1-1-3 is tightly adhered to the slope surface in front of the handle housing 2-1, the protruding portion of the large spring lock catch 1-4-2 is limited in the large-size clamping groove 2-1-1, and the protruding portion of the small spring lock catch 1-4-3 is limited in the small-size clamping groove 2-1-1.

As shown in fig. 6-7, preferably, a semicircular bulge 2-1-5 is arranged at the joint of the front surface and the bottom surface of the handle shell 2-1 for carrying the gyroscope.

When the power supply component 1 is pushed into the handle shell 2-1 from the right side surface of the handle shell 2-1, one side of the power supply component 1, on which the large spring lock catch 1-4-2 is mounted, is pushed in first, so as to prevent the large spring lock catch 1-4-2 from being clamped into the large-size clamping groove 2-1-1 in advance when the power supply component 1 is inserted, the large spring lock catch 1-4-2 firstly passes through the small-size clamping groove 2-1-1 and cannot be clamped into, the large spring lock catch 1-4-2 is pushed in continuously, and the large spring lock catch 1-4-2 passes through the large-size clamping groove 2-1-1 and is clamped into.

The working principle of the utility model is as follows:

as shown in fig. 1, 6 and 8, the utility model discloses a portable power supply device of an integrated gyroscope, which comprises a power supply component and a handle component, wherein the power supply component is pushed into a handle shell from one side of the handle shell of the handle component, the handle shell is fixedly connected with the gyroscope, the power supply component is detachably arranged on the gyroscope, the internal cavity volume of a revolving part of a main machine of the gyroscope is not occupied, the portable power supply device of the integrated gyroscope is novel and unique in design structure, a battery structure is skillfully combined with the appearance structure of the gyroscope, and the portable power supply device is evaluated through man-machine loop system engineering, so that the portable power supply device better meets the man-machine engineering design and meets the actual application requirements.

The power supply member 1 is assembled:

firstly, all assembly parts of the battery are prepared, the left end and the right end of the flat spring 1-4-1 are respectively assembled with the large spring lock catch 1-4-2 and the small spring lock catch 1-4-3, then the whole battery is installed in the battery box 1-1, and the battery is prepared by screws and nuts after aligning with hole sites. The electric quantity display 6 and the conductive contact seat 1-3 are welded with wires respectively, and after the heat shrinkage sleeve is used for protection, the whole battery box 1-1 is internally installed and is tightly prepared by screws and nuts. The power switch 4, the charging socket 5 and the safety box 3 (all welded in advance) are sequentially arranged at the corresponding hole positions of the left cover 1-1-1 and the right cover 1-1-2 of the battery box. And finally, the battery cell 1-2 is plugged into the battery box 1-1 from the side part, the cable is connected with other components, the positions are adjusted and fixed, the left battery box cover 1-1-1 and the right battery box cover 1-1-2 are respectively connected and installed, and the power supply component 1 is assembled.

The handle member 2 is assembled:

firstly, two groups of elastic button assemblies 2-2 and elastic contact assemblies 2-3 are respectively arranged in a clamping groove 2-1-1 and an installation groove 2-1-2 of a handle shell, and are respectively fixedly connected by screws after being smoothly pressed. Secondly, the bending spring 8 is fixed on the inner wall of the left side wall of the handle shell 2-1, and the bending spring 8 is arranged at a position corresponding to the spring groove 2-1-4. Finally, the electric quantity display protective glass 7 is firmly stuck to the corresponding position of the front face of the handle shell 2-1, and the handle component 2 is installed.

The application method of the utility model comprises the following steps:

the power supply component 1 is aligned with the corresponding hole position on the handle component 2 and then slowly pushed in until the power supply component 1 is completely pushed in, and the large spring lock catch 1-4-2 and the small spring lock catch 1-4-3 are clamped into the two clamping grooves 2-1-1, at the moment, the bending springs 8 are forced to bend, and the power supply component 1 is tightly abutted in the handle component 2; meanwhile, the conductive contact seat 1-3 is accurately contacted with the elastic contact assembly 2-3, the power switch 4 is turned on, the buzzer of the power component 1 sounds, the battery power display 6 can be observed to be lightened through the protective glass 7 and display the current voltage value and the residual power, and the elastic contact assembly 2-3 is electrified at the moment and is connected with the circuit board of the inner cavity 9 of the gyroscope turning part to supply power.

When the electric quantity of the power supply component 1 is lower than 20%, the buzzer gives an alarm, at the moment, the power supply switch 4 is required to be turned off, the large spring lock catch 1-4-2 and the small spring lock catch 1-4-3 are pressed simultaneously, the power supply component 1 can be ejected out for a small distance under the action of the elasticity of the bending spring 8, and then the power supply component 1 can be easily pulled out for charging and replacing.

Compared with the traditional power supply mode of the gyroscope, the power supply device is simpler and more reliable to use, is more convenient to assemble and disassemble, and has stronger matching coordination with the whole gyroscope host.

The power supply device has the advantages of small volume, large capacity, few accessories, small occupation of the internal cavity volume of the main machine rotation part and enough space for the electric control part.

The power supply component 1 can be used as an independent matching product for marking or selecting for users; when the battery is in an installation state or a disassembly state, the whole appearance and the shape of the host are not influenced.

The portable power supply device for the integrated gyroscope mainly solves the problems of miniaturization, independence, portability in assembly and disassembly and integral matching coordination with a host of a power supply of the gyroscope, wherein the miniaturization means that the energy density is higher under the same volume of the power supply; independent means that the independent power supply can also be used as an independent matched product for marking or selecting; the mounting and dismounting portability is mainly characterized in that the mounting and dismounting of the power supply are convenient and easy, and no additional accessories are provided; the coordination with the whole host mainly means that the power supply is in an installation state or a disassembly state, and the whole appearance and shape of the host are not influenced.

The utility model reasonably arranges and installs the shape of the power supply cell under the premise of comprehensively considering the appearance of the gyroscope, fully utilizes the limited space inside the battery box and improves the energy density of the power supply.

The power supply component of the gyroscope is self-made into an independent product, and has no other accessories except a matched charger, and the gyroscope comprises a battery cell, a power switch, a charging socket, a fuse box, an output contact, an electric quantity display and an elastic lock catch assembly.

While the preferred embodiments of the present utility model have been described in detail, the present utility model is not limited to the above embodiments, and various changes may be made without departing from the spirit of the present utility model within the knowledge of those skilled in the art.

Many other changes and modifications may be made without departing from the spirit and scope of the utility model. It is to be understood that the utility model is not to be limited to the specific embodiments, but only by the scope of the appended claims.

Claims (9)

1. The utility model provides an integrate portable power supply unit of gyroscope which characterized in that: the electric power source comprises a power source component (1) and a handle component (2), wherein the power source component (1) comprises a battery box (1-1), an electric core (1-2), a conductive contact seat (1-3) and an elastic lock catch assembly (1-4), the electric core (1-2) is arranged inside the battery box (1-1), the conductive contact seat (1-3) is arranged on the rear end face of the battery box (1-1), the conductive contact seat (1-3) is electrically connected with the electric core (1-2), and the elastic lock catch assembly (1-4) is arranged on the front end face of the battery box (1-1); the handle component (2) comprises a handle shell (2-1), an elastic button component (2-2) and an elastic contact component (2-3), wherein a clamping groove (2-1-1) and a mounting groove (2-1-2) are arranged on the handle shell (2-1), the elastic button component (2-2) is arranged on the inner outer side of the clamping groove (2-1-1), the elastic contact component (2-3) is arranged in the mounting groove (2-1-2), the power component (1) is pushed into the handle shell (2-1) from one side of the handle shell (2-1), the elastic button component (2-2) corresponds to the position of the elastic lock component (1-4), the protruding part of the elastic lock component (1-4) is clamped into the inner side of the clamping groove (2-1-1), the elastic button component (2-2) is used for pressing the elastic lock component (1-4) to be separated from the clamping groove (2-1-1), the elastic contact component (2-3) corresponds to the position of the conductive contact seat (1-3), the elastic contact component (2-3) is connected with the conductive contact seat (1-3), the handle shell (2-1) is fixedly connected with the gyroscope turning part.

2. The integrated gyroscope portable power supply device of claim 1, wherein: the battery box (1-1) comprises a left battery box cover (1-1-1), a right battery box cover (1-1-2) and a battery box body (1-1-3), the left end of the battery box body (1-1-3) is connected with the left battery box cover (1-1-1) through screws, the right end of the battery box body (1-1-3) is connected with the right battery box cover (1-1-2) through screws, a safety box (3) is arranged on the left battery box cover (1-1-1), a power switch (4) and a charging socket (5) are arranged on the right battery box cover (1-1-2), the front end face of the battery box body (1-1-3) is composed of a slope section (1-1-3-1) and a vertical section (1-1-3-2), an electric quantity display (6) is arranged at the central position of the slope section (1-1-3-1), an elastic component (1-4) is arranged on the vertical section (1-3-2), the safety box (1-3), the power switch (4), the electric quantity display (6) and the charging socket (5) are respectively connected with the electric quantity display (1-2), the rear end face of the battery box body (1-1-3) is provided with a conductive contact seat (1-3).

3. The integrated gyroscope portable power supply device of claim 2, wherein: the battery cell (1-2) is in a 7-string 2 parallel combination form, a vacancy is reserved on the battery cell (1-2) close to the slope section (1-1-3-1), and the fuse box (3) and the charging socket (5) are positioned on the same straight line with the vacancy.

4. The integrated gyroscope portable power supply device of claim 2, wherein: the elastic lock catch assembly (1-4) comprises a leaf spring (1-4-1), a large spring lock catch (1-4-2) and a small spring lock catch (1-4-3), two ends of the leaf spring (1-4-1) are respectively connected with the large spring lock catch (1-4-2) and the small spring lock catch (1-4-3), through holes are respectively formed in two sides of a vertical section (1-1-3-2) of the battery box body (1-1-3), the large spring lock catch (1-4-2) and the small spring lock catch (1-4-3) are respectively installed in the two through holes, and the large spring lock catch (1-4-2) and the small spring lock catch (1-4-3) protrude out of the through holes.

5. The integrated gyroscope portable power supply of claim 4, wherein: the handle shell (2-1) is a trapezoid-like shell with an opening on the right side, a groove (2-1-3) is formed in the position, close to the rear face, of the top surface of the handle shell (2-1), and the groove (2-1-3) is matched with the edge of the upper cover of the gyroscope and fixed through screws.

6. The integrated gyroscope portable power supply of claim 5, wherein: the handle shell (2-1) is characterized in that the front surface of the handle shell is an inclined surface, protective glass (7) is arranged on the upper side of the inclined surface, two clamping grooves (2-1-1) are formed in the lower side of the inclined surface, the two clamping grooves are respectively a large-size clamping groove (2-1-1) and a small-size clamping groove (2-1-1), the protruding portion of the large spring lock catch (1-4-2) is limited in the large-size clamping groove (2-1-1), the protruding portion of the small spring lock catch (1-4-3) is limited in the small-size clamping groove (2-1-1), the number of the two elastic button assemblies (2-2) is two, and the two elastic button assemblies (2-2) are respectively arranged on the inner side, close to the outer side, of the large-size clamping groove (2-1-1) and the small-size clamping groove (2-1-1).

7. The integrated gyroscope portable power supply of claim 5, wherein: the novel electric power supply is characterized in that an installation groove (2-1-2) is formed in the rear side of the handle shell (2-1) and used for installing the elastic contact assembly (2-3), a bending spring (8) is arranged on the inner wall of the left side wall of the handle shell (2-1), a spring groove (2-1-4) is formed in the position, corresponding to the bending spring (8), of the inner wall of the left side wall of the handle shell (2-1), and when the bending spring (8) is compressed by the power supply component (1), the bending spring (8) is limited in the spring groove (2-1-4).

8. The integrated gyroscope portable power supply of claim 5, wherein: when the power supply component (1) is pushed into the handle shell (2-1) from the right side surface of the handle shell (2-1), one side of the power supply component (1) provided with the large spring lock catch (1-4-2) is pushed in first, so that the left cover (1-1-1) of the battery box is close to the left side wall of the handle shell (2-1), the slope section (1-1-3-1) of the front end surface of the battery box body (1-1-3) is tightly attached to the slope surface in front of the handle shell (2-1), the protruding part of the large spring lock catch (1-4-2) is limited in the large-size clamping groove (2-1-1), and the protruding part of the small spring lock catch (1-4-3) is limited in the small-size clamping groove (2-1-1).

9. The integrated gyroscope portable power supply of claim 5, wherein: the front and bottom surfaces of the handle shell (2-1) are provided with semicircular bulges (2-1-5) at the joint for carrying the gyroscope.