CN111211669A - Power supply system of intermittent low-standby power consumption equipment - Google Patents

Abstract

The invention discloses a power supply system of intermittent low standby power consumption equipment, which structurally comprises a protective shell, a rear buckle plate and an internal grid, wherein the rear buckle plate is connected with the protective shell, the internal grid is arranged in the protective shell, in the operation process of the protective shell, a pocket shell at the rear end can be opened to prop against a wall support rod to collide against the interior of the protective shell, the pocket shell is changed according to the fluctuation of the surface of the collision of an outer layer, a ball therein fixes the bearing force, the rear end is supported and buffered by a reverse hook angle, the vibration and the static state can be closely followed by the interior in a collision way in the operation and standby processes of a power supply system, the connection wire can be driven to carry out large-area extrusion and attachment on a leaning bag of the connection wire by the connection wire in the direction attachment, the connection wire can move along with the connection wire, the other side carries out collision and buckling on an outer limit ring of the connection wire by a reverse buckling core, the connection wire can be automatically pulled and returned, and when the, can be pulled and returned at a certain distance and then pulled and torn away from the device.

Description

Power supply system of intermittent low-standby power consumption equipment

Technical Field

The invention belongs to the field of power supply systems, and particularly relates to a power supply system of intermittent low-standby power consumption equipment.

Background

The power supply system is arranged at a designated position in the equipment and is mutually communicated with internal parts, the overall running and standby time of the equipment is controlled by the power supply system, a certain vibration force is generated due to the rotating force in the running process of the equipment, and the vibration is stopped in the standby process.

Based on the above findings, the present inventors found that the existing power supply system with low standby power consumption mainly has the following disadvantages, for example:

1. the parts in the equipment are all fixed at appointed positions, when the power supply system is arranged in the middle of the equipment, the other parts are arranged on two sides of the equipment, and when the power supply system runs for a long time and is switched in a standby mode, the vibration can enable the fixed positions of the power supply system and the inside of the equipment to be loosened to some extent and press the parts on the sides.

2. When the power system loosens with the equipment to some extent, the guide wire connected with the power system is pulled apart under the condition that the length is just connected, so that the connection part of the power system and the equipment is in a suspension and swing state, and poor contact of the equipment is easily caused.

It is therefore desirable to provide a power supply system for an intermittent low standby power consuming device.

Disclosure of Invention

In order to solve the problem that the internal parts of the technical equipment are fixed at the appointed positions, when a power supply system is arranged in the middle of the equipment, other parts are arranged on two sides of the equipment, when the power supply system runs for a long time and is in standby switching, the vibration can cause the fixed positions of the power supply system and the internal part of the equipment to be loosened and press the parts on the sides of the equipment, when the power supply system is loosened with the equipment, a guide control wire connected with the power supply system is pulled apart under the condition that the length of the guide control wire is just connected, the connection parts of the power supply system and the equipment are in a suspension and shaking state, and poor contact of the equipment is easily caused.

The invention relates to a power supply system of intermittent low standby power consumption equipment, which is achieved by the following specific technical means:

the structure of the protective shell comprises a protective shell, a rear buckle plate, a built-in grid and an external end.

The rear buckle plate is connected with the protective shell, a built-in grid is arranged inside the protective shell, and the external end is welded on the outer surface of the protective shell.

The rear buckle plate comprises a wall supporting rod, a pocket shell and a supporting block, the supporting block is embedded into the pocket shell, and the wall supporting rod is connected with the pocket shell.

As a further improvement of the invention, the wall supporting rod comprises a squeezing bag, a pressing ball, two reverse hook angles, an outer limit shell, a total power ball and a stabilizing head, wherein the squeezing bag is propped against the outer surface of the pressing ball, the reverse hook angles are connected with the total power ball, the total power ball is arranged between the stabilizing head and the outer limit shell, the pressing ball is of a ball body structure, and the total power ball is of a ball body structure.

As a further improvement of the invention, the press ball comprises a sticky arc opening, a jacking ball, eight spacing angles and an outer abutting edge, the sticky arc opening is embedded in the outer abutting edge, the jacking ball is connected with the spacing angles through the outer abutting edge, the number of the spacing angles is eight, the jacking ball is of a ball structure and is seven, and the sticky arc opening is of an arc structure.

As a further improvement of the invention, the arc-sticking port comprises an empty port, a rubber spacer, a supporting bag, a middle gas and a reverse arc, the reverse arc is connected with the middle gas, the middle gas is embedded in the supporting bag, the rubber spacer is attached to the outer surface of the supporting bag, the rubber spacer is installed in the empty port, the middle gas is in an oval structure and is provided with three, and the reverse arc is provided with six and two arcs as a group.

As a further improvement of the invention, the jacking ball comprises an outer rubber ring, a core supporting strip and a middle ball, wherein the core supporting strip is embedded in the outer rubber ring, the core supporting strip is connected with the core supporting strip, one end of the core supporting strip, which is far away from the core supporting strip, is connected with the middle ball, the core supporting strip is circularly and uniformly distributed, seven core supporting strips are arranged, the middle ball is of a spherical structure, and the outer rubber ring is of a circular structure.

As a further improvement of the invention, the external end comprises a support arc, a force-delay gradual support core, a pulling core, a force-stabilizing angle, a counterforce ball and an outer hard layer, wherein the support arc is attached to the outer surface of the force-delay gradual support core, the pulling core is connected with the force-stabilizing angle, the counterforce ball is embedded into the outer hard layer, six force-delay gradual support cores are arranged into a group, the pulling core is in a trapezoidal structure, and the force-stabilizing angle is in a triangular structure.

As a further improvement of the invention, the force-delay gradual-support core comprises an end ball, an adhesive tape, an outer limit ring, a reverse buckling core and an outer protection layer, wherein the end ball is connected with the outer protection layer, the adhesive tape is arranged in the outer protection layer, the reverse buckling core is embedded in the outer limit ring, the end ball is of a spherical structure, and the adhesive tape is made of rubber materials and has certain pulling performance.

As a further improvement of the invention, the supporting arc comprises an extending surface shell, a leaning bag, an outer opening and a facing paste, the facing paste is pasted on the outer surface of the leaning bag, the leaning bag is connected with the extending surface shell, the leaning bag is installed inside the outer opening, the facing paste is of an arc-shaped structure, the outer layer of the leaning bag is made of rubber materials, and a certain bending force is provided.

Compared with the prior art, the invention has the following beneficial effects:

1. at the protecting crust at the in-process of operation, the pocket shell of rear end will strut and support the wall pole and contradict to the inside of its protecting crust, carry out the adhesion to the inner wall of its protecting crust by the arc mouth that glues on the pressure ball, play the effect of buffering to it, in order to assist outer degree of compliance, the surface fluctuation according to outer conflict changes, let wherein the ball fix the power of bearing, the rear end supports the buffering by anti-angle of colluding, can be at the in-process of electrical power generating system operation and standby, vibrations and static all are followed by inside closely conflicting.

2. It will drive to paste and link up the line and carry out the extrusion of large tracts of land to its tendency bag and be attached, follows the activity of linking up the line, and the opposite side is contradicted the buckle to its outer limit ring by the back-off core, drags the position of one side and is dragged together with linking position, drags the playback automatically, can have when breaking away from with linking the line at electrical power generating system, follows the activity to its conflict position that holds in the place of linking the line surface, can pull it playback under certain distance, then pull with it and tear.

Drawings

Fig. 1 is a schematic structural diagram of a power supply system of an intermittent low standby power consumption device according to the present invention.

FIG. 2 is a schematic diagram of the right-view internal structure of a rear gusset plate of the present invention.

Fig. 3 is a schematic front view of an inner structure of a wall-supporting rod according to the present invention.

Fig. 4 is a schematic front view of the internal structure of the ball press of the present invention.

Fig. 5 is a schematic front view of the inner structure of the adhesive arc opening of the present invention.

Fig. 6 is a schematic front view of an internal structure of a jacking ball according to the present invention.

Fig. 7 is a schematic diagram of a right-view internal structure of an external terminal according to the present invention.

Fig. 8 is a schematic view of an elevation view of an internal structure of a force-delay tapered core according to the present invention.

Fig. 9 is a schematic front view of an internal structure of a support arc according to the present invention.

In the figure: the protective shell-tt 01, the rear buckle plate-tt 02, the built-in lattice-tt 03, the external end-tt 04, the wall-resisting rod-a 1a, the pocket shell-a 2a, the holding block-a 3a, the extruding pocket-qw 1, the ball-pressing-qw 2, the reverse hook angle-qw 3, the outer limit shell-qw 4, the total force ball-qw 5, the extending stabilizing head-qw 6, the sticky arc-g 11, the jacking force ball-g 22, the separation angle-g 33, the outer abutting edge-g 44, the empty opening-w 01, the rubber spacing strip-w 01, the supporting pocket-w 01, the middle gas-w 01, the reverse arc-w 01, the outer rubber ring-h 01, the core stabilizing strip-h 01, the extending ball-h 01, the middle ball-h 01, the arc-zz 01, the core-z-72, the outer core-z hard core, the outer tensile core-z-g 01, the inclined angle-01, the outer limit shell-z 01, the outer surface-z-01, the outer surface-z-01, the outer surface-c, the adhesive strip 01, the outer surface-.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

example 1:

as shown in figures 1 to 6:

the invention provides a power supply system of intermittent low-standby power consumption equipment, which structurally comprises a protective shell tt01, a rear buckle tt02, a built-in lattice tt03 and an external terminal tt 04.

The rear buckle plate tt02 is connected with a protective shell tt01, an internal grid tt03 is installed inside the protective shell tt01, and an external connection end tt04 is welded on the outer surface of the protective shell tt 01.

The rear buckle tt02 comprises a wall supporting rod a1a, a pocket shell a2a and a holding block a3a, wherein the holding block a3a is embedded in the pocket shell a2a, and the wall supporting rod a1a is connected with the pocket shell a2 a.

The wall-abutting rod a1a comprises an extrusion bag qw1, a pressing ball qw2, a reverse hooking angle qw3, an outer limit shell qw4, a total force ball qw5 and an extension stabilizing head qw6, the extrusion bag qw1 abuts against the outer surface of the pressing ball qw2, the reverse hooking angle qw3 is connected with the total force ball qw5, the total force ball qw5 is installed between the extension stabilizing head qw6 and the outer limit shell qw4, the pressing ball qw2 is of a ball structure, the reverse hooking angles qw3 are two, the total force ball qw5 is of a ball structure, the pressing ball qw2 abuts against the surface of an external object in a large area, the extrusion bag qw1 changes according to the stress change of the outer layer, the total force ball qw5 is firmly connected to two sides, and the reverse hooking angle 3 enables a certain reverse force to be connected to the contact part, and the total force ball 5 is fixed in the extension stabilizing area.

The pressing ball qw2 comprises a sticky arc opening g11, a jacking force ball g22, a separation angle g33 and an outer abutting edge g44, the sticky arc opening g11 is embedded into the outer abutting edge g44, the jacking force ball g22 is connected with the separation angle g33 through the outer abutting edge g44, the separation angle g33 is eight, the jacking force ball g22 is of a ball structure and seven, the sticky arc opening g11 is of an arc structure, the sticky arc opening g11 adsorbs an external surface in a large area, the jacking force ball g22 is changed according to the fluctuation of the surface of the outer layer abutting in order to assist the fitting degree of the outer layer, and the separation angle g33 is uniformly spaced from the inner part.

The sticky arc port g11 comprises a hollow port w01, a rubber partition strip w02, a support bag w03, medium gas w04 and a reverse arc w05, the reverse arc w05 is connected with the medium gas w04, the medium gas w04 is embedded in the support bag w03, the rubber partition strip w02 is attached to the outer surface of the support bag w03, the rubber partition strip w02 is installed inside the hollow port w01, the medium gas w04 is of an oval structure and is three, six reverse arcs w05 are provided, two of the reverse arcs w05 form a group, the medium gas w04 supports the approximate form of the outer layer, when the glue is stressed, the internal gas can run together to assist, the support bag w03 changes according to the internal change, large-area external force is carried out, and the rubber partition strip w02 plays a role in pulling back when the joint part moves.

The jacking ball g22 comprises an outer rubber ring h10, a core supporting strip h20, an extension fixing ball h30 and a middle ball h40, wherein the extension fixing ball h30 is embedded into the outer rubber ring h10, the extension fixing ball h30 is connected with the core supporting strip h20, one end, away from the extension fixing ball h30, of the core supporting strip h20 is connected with the middle ball h40, the extension fixing ball h30 is circularly and uniformly distributed, seven core supporting strips h20 are arranged, the middle ball h40 is of a ball structure, the outer rubber ring h10 is of a circular ring structure, the middle ball h40 limits the integral central point, the core supporting strips h20 are twisted and changed according to the interference rotation change of an external force, and the extension fixing ball h30 extends to bear the fixing force.

The specific use mode and function of the embodiment are as follows:

in the invention, when the protective shell tt01 is arranged on the rear buckle tt02, the rear buckle tt02 is arranged at the middle end in the equipment, other parts are arranged on two sides, in the process of operating the protective shell tt01, the pocket shell a2a at the rear end can prop up the wall propping rod a1a to collide with the inner part of the protective shell tt01, the total force ball qw5 hooks the positions of the outer limit shell qw4 and the extrusion capsule qw1 at the reverse hook angle qw3, the stability head qw6 extends the overall collision tendency, the inner wall of the protective shell tt01 is adhered by the adhesive arc port g11 on the extrusion ball qw2, the extrusion of the w01 support capsule w03 is performed, the gas w04 is dragged according to the change of the shape, the change of the support capsule w03 is dragged by the rubber spacer bar 02 on the side to buffer the inner part of the extrusion capsule w 8672, and the extrusion of the inner part of the extrusion ball 20 is dragged by the extrusion strip 20 and the inner part of the extrusion ball 8672 h, the ball h40 is fixed to bear force, the pressing ball qw2 which is abutted against the inner wall of the protective shell tt01 can closely follow the movement according to the movement of the outer shell, and the rear end of the pressing ball is supported and buffered by a reverse hook angle qw 3.

Example 2:

as shown in fig. 7 to 9:

the external terminal tt04 comprises a support arc zz11, a force-extending gradually-supporting core zz22, a pulling core zz33, a force-stabilizing angle zz44, a counterforce ball zz55 and an outer hard layer zz66, the support arc zz11 is attached to the outer surface of the force-extending gradually-supporting core zz22, the pulling core zz33 is connected with the force-stabilizing angle zz44, the counterforce ball zz55 is embedded in the outer hard layer zz66, six force-extending gradually-supporting cores zz22 are arranged in a group, the pulling core zz33 is of a trapezoid structure, the force-stabilizing angle zz44 is of a triangle structure, the force-stabilizing angle zz44 can fix the force of a joint part, the ball zz55 allows the outer side to have a certain fixed force, the force-extending gradually-supporting core zz22 performs rigid pulling change according to external force, the pulling core zz33 is in a stretching state, and the external force changes according to the stretching state.

The force-delaying gradually-supporting core zz22 comprises an end ball c11, an adhesive tape c22, an outer limit ring c33, a reversely buckled core c44 and an outer protection layer c55, wherein the end ball c11 is connected with the outer protection layer c55, the adhesive tape c22 is installed inside the outer protection layer c55, the reversely buckled core c44 is embedded inside the outer limit ring c33, the end ball c11 is of a spherical structure, the adhesive tape c22 is made of rubber materials and has certain pulling performance, the end ball c11 fixes a main stressed end, the adhesive tape c22 enables the outer layer to have a certain buffering effect, the outer protection layer c55 plays a protection role for the inside, and the part on one side of the reversely buckled core c44 is pulled together with the joint part.

The support abutting arc zz11 comprises an extension surface shell m01, an inclination bag m02, an outer opening m03 and an abutting surface m04, the abutting surface m04 abuts against the outer surface of the inclination bag m02, the inclination bag m02 is connected with the extension surface shell m01, the inclination bag m02 is installed inside the outer opening m03, the abutting surface m04 is of an arc-shaped structure, the outer layer of the inclination bag m02 is made of rubber materials and has a certain shape returning force, foreign objects can be better abutted against the abutting surface m04, the inclination bag m02 generates change according to the force abutted against the outside, and the inner gas generates change and the extension surface shell m01 enables the whole body and the engaging part to be better and firm.

The specific use mode and function of the embodiment are as follows:

according to the invention, when the connecting wire is connected into the protective shell tt01 through the external end tt04, the connecting wire is pressed against the outer end of the connecting wire through the support arc zz11, the support arc zz 04 drives the connecting wire to extrude and attach the inclined capsule m02 in a large area and move along with the connecting wire, when the protective shell tt01 or the connecting wire shakes, the support arc zz11 pressed against the surface of the connecting wire can drag the force gradually supporting core zz22 to swing along with the separated force, the end ball c11 fixes the stressed point at one end, the adhesive tape c22 pulls the outer protective layer c55, the other side is pressed against and buckled with the outer limit ring c33 through the back buckling core c44, the force gradually supporting core zz22 can smoothly pull the stable angle zz44, the other side of the pulling core zz33 is fixed by the stable force zz44, and the stable angle can be automatically returned to the whole pulling range.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention to achieve the above technical effects.

Claims (8)

1. The utility model provides a power supply system of intermittent type low standby power consumption equipment, its structure includes protecting crust (tt01), back buckle (tt02), built-in check (tt03), external terminal (tt04), its characterized in that:

the rear buckle plate (tt02) is connected with a protective shell (tt01), a built-in grid (tt03) is installed inside the protective shell (tt01), and the external connection end (tt04) is welded on the outer surface of the protective shell (tt 01);

the rear buckle plate (tt02) comprises a wall supporting rod (a1a), a shell (a2a) and a holding block (a3a), wherein the holding block (a3a) is embedded in the shell (a2a), and the wall supporting rod (a1a) is connected with the shell (a2 a).

2. The power supply system of an intermittent low standby power consuming device of claim 1, wherein: the wall-resisting rod (a1a) comprises a squeezing bag (qw1), a pressing ball (qw2), a reverse hook angle (qw3), an outer limit shell (qw4), a total force ball (qw5) and a stability-prolonging head (qw6), wherein the squeezing bag (qw1) is propped against the outer surface of the pressing ball (qw2), the reverse hook angle (qw3) is connected with the total force ball (qw5), and the total force ball (qw5) is installed between the stability-prolonging head (qw6) and the outer limit shell (qw 4).

3. The power supply system of an intermittent low standby power consuming device of claim 2, wherein: the pressure ball (qw2) comprises an adhesive arc opening (g11), a jacking force ball (g22), a separation angle (g33) and an outer abutting edge (g44), the adhesive arc opening (g11) is embedded into the outer abutting edge (g44), and the jacking force ball (g22) is connected with the separation angle (g33) through the outer abutting edge (g 44).

4. A power supply system for an intermittent low standby power consuming device as recited in claim 3, wherein: glue arc mouth (g11) including empty mouthful (w01), gluey parting bead (w02), support bag (w03), well gaseous (w04), anti-arc (w05), anti-arc (w05) is connected with well gaseous (w04), well gaseous (w04) imbed inside holding in the palm bag (w03), it has gluey parting bead (w02) to hold in the palm the laminating of bag (w03) surface, install inside empty mouthful (w01) gluey parting bead (w 02).

5. A power supply system for an intermittent low standby power consuming device as recited in claim 3, wherein: the jacking force ball (g22) comprises an outer rubber ring (h10), a core supporting strip (h20), a retaining ball (h30) and a middle ball (h40), wherein the retaining ball (h30) is embedded into the outer rubber ring (h10), the retaining ball (h30) is connected with the core supporting strip (h20), and one end, far away from the retaining ball (h30), of the core supporting strip (h20) is connected with the middle ball (h 40).

6. The power supply system of an intermittent low standby power consuming device of claim 1, wherein: the external connection end (tt04) comprises a support arc (zz11), an extension force gradual support core (zz22), a pulling core (zz33), a force stabilizing angle (zz44), a counterforce ball (zz55) and an outer hard layer (zz66), the support arc (zz11) is attached to the outer surface of the extension force gradual support core (zz22), the pulling core (zz33) is connected with the force stabilizing angle (zz44), and the counterforce ball (zz55) is embedded into the outer hard layer (zz 66).

7. The power supply system of an intermittent low standby power consuming device of claim 6, wherein: the force-delaying gradually-supporting core (zz22) comprises an end ball (c11), an adhesive tape (c22), an outer limit ring (c33), a reversely-buckled core (c44) and an outer protective layer (c55), wherein the end ball (c11) is connected with the outer protective layer (c55), the adhesive tape (c22) is installed inside the outer protective layer (c55), and the reversely-buckled core (c44) is embedded inside the outer limit ring (c 33).

8. The power supply system of an intermittent low standby power consuming device of claim 6, wherein: the support arc (zz11) comprises an extension surface shell (m01), a leaning bag (m02), an outer opening (m03) and a facing patch (m04), wherein the facing patch (m04) is attached to the outer surface of the leaning bag (m02), the leaning bag (m02) is connected with the extension surface shell (m01), and the leaning bag (m02) is installed inside the outer opening (m 03).

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