CN117175772B - UPS emergency power supply - Google Patents

Abstract

The invention discloses a UPS emergency power supply, which belongs to the technical field of UPS power supplies and comprises a shell, wherein a power supply body is fixedly arranged in the shell, a calling component and an unfolding component are arranged on the shell, the calling component comprises a plurality of groups of conductive components, the calling component can control the positions of plugboards in the plurality of conductive components, further, required sockets can be called according to requirements, the long-term exposure to the outside is avoided, unused sockets are disconnected with the power supply body, the positions of the bar-shaped handles can be automatically adjusted through the control of the positions of the bar-shaped handles, so that the occupied space of the bar-shaped handles can be reduced when a wireless charging board is not used or an emergency power supply is not moved, charging equipment can be protected when the wireless charging board is used, and the unfolding component can rapidly realize the unfolding of the calling board and the shutter board, so that the inside of the emergency power supply is convenient to maintain and overhaul.

Description

UPS emergency power supply

Technical Field

The invention relates to the technical field of UPS power supplies, in particular to a UPS emergency power supply.

Background

The UPS emergency power supply has the advantages of high reliability, monitorability, simple system, convenient operation and the like, can temporarily provide power when power failure, outdoor, natural disasters and the like occur, and is used for conveying power to equipment needing power supply, the safety of the conventional UPS emergency power supply is low, the wiring terminals are exposed to the outside for a long time when not in use, dust is easily accumulated or damaged, water inflow and the like can easily occur even, and the dangerous situation of electric shock occurs to users during subsequent use is caused.

The Chinese patent application with the bulletin number of CN218275700U discloses an emergency UPS power supply, and the UPS power supply can realize the uninterrupted power supply effect on power electronic equipment, but the terminals are exposed to the conditions of higher external damage rate, water inflow and the like for a long time when not in use, so that the danger of electric shock of users during subsequent use is caused, and the maintenance and the overhaul of internal parts are inconvenient, so the UPS emergency power supply is provided.

Disclosure of Invention

Aiming at the defects in the prior art, the invention provides the UPS emergency power supply, which solves the problems that the terminal is exposed to the outside for a long time when not in use, the damage rate is higher, water inflow and the like are possibly easy to occur, the danger of electric shock occurs to users during subsequent use, and the maintenance and the overhaul of internal parts are inconvenient.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a UPS emergency power source, which comprises a housin, fixed mounting has the power source body in the casing, set up the subassembly of calling on the casing, the subassembly of calling includes multiunit conductive component, conductive component all includes a plurality of insulating cylinder pieces and a plurality of supplementary conductive block, rotate on the casing and install the call swash plate, insulating cylinder piece all rotates and installs on the call swash plate, equal fixed mounting has socket and arc conductive block on the insulating cylinder piece, be provided with wire intercommunication between socket and the corresponding arc conductive block, fixed mounting has the call bottom plate in the casing, supplementary conductive block all fixed mounting is on the call bottom plate, be provided with wire intercommunication between supplementary conductive block and the power source body, be provided with on the supplementary conductive block with arc conductive block complex recess, still be provided with the expansion subassembly on the casing, expansion subassembly includes 2 symmetrical slidable mounting at the C type slide in the casing, the both ends of C type slide are all fixedly provided with the expansion swash plate, rotate on the casing and install the tripe swash plate, fixed mounting has the radiator on the tripe swash plate, it is used for promoting and the call swash plate and tripe swivel plate rotates, fixed mounting has the expansion backup pad in the casing, rotate with the expansion bar, be provided with the extension slide on the extension support plate in the casing, be provided with the bar and be connected with the bar-shaped slide on the bar-shaped slide respectively with the bar-shaped slide on the bar-shaped slide bar.

Further, the conductive assembly further comprises a transmission shaft, an L-shaped sliding seat and a plurality of transmission friction wheels, the transmission friction wheels are rotatably arranged on the calling bottom plate, the transmission friction wheels are respectively in contact with the corresponding insulation cylindrical blocks, friction force exists between the insulation cylindrical blocks and the calling rotating plate, friction force exists between the transmission friction wheels and the corresponding insulation cylindrical blocks when the transmission friction wheels are in contact with the corresponding insulation cylindrical blocks, and friction force between the transmission friction wheels and the insulation cylindrical blocks is larger than that between the insulation cylindrical blocks and the calling rotating plate.

Further, the L-shaped sliding seat is slidably mounted on the calling bottom plate, the transmission shaft is rotatably mounted on the corresponding L-shaped sliding seat, a plurality of auxiliary spline shafts are fixedly arranged on the transmission shaft, spline sliding fit is formed when the auxiliary spline shafts are connected with corresponding transmission friction wheels, distances between different auxiliary spline shafts on the same transmission shaft and the corresponding transmission friction wheels are different, and transmission cylindrical blocks are fixedly arranged at the end parts of the transmission shaft.

Further, a positioning screw rod is rotatably arranged on the calling bottom plate, a calling sliding plate is slidably arranged on the calling bottom plate, the calling sliding plate and the positioning screw rod form a screw pair, a shifting electric cylinder is fixedly arranged on the calling sliding plate, a shifting bottom plate is fixedly arranged at the end of a piston rod of the shifting electric cylinder, a T-shaped sliding plate and a calling motor are fixedly arranged on the shifting bottom plate, T-shaped sliding grooves matched with the T-shaped sliding plate are formed in L-shaped sliding seats, a linear sliding plate is fixedly arranged on an output shaft of the calling motor, and linear sliding grooves matched with the linear sliding plate are formed in transmission cylindrical blocks.

Further, fixedly mounted has wireless charging plate on the casing, is provided with auxiliary wire intercommunication between wireless charging plate and the power supply body, and the both sides of casing all are provided with and deposit the thing cavity, and symmetrical slidable mounting has the sliding door board on the casing, and the sliding door board is used for covering and deposits the thing cavity, and symmetrical fixed mounting has bar magnet on the transfer swivel plate, and bar magnet is used for adsorbing fixed sliding door board, has placed the remote controller in 1 of them depositing the thing cavity in 2 depositing the thing cavity.

Further, a torsion spring is arranged between the strip-shaped rotating plate and the unfolding support plate, a torsion spring is arranged between the calling rotating plate and the shutter rotating plate and the shell, 2 limiting sliding sleeves are fixedly arranged on the calling rotating plate and the shutter rotating plate in a symmetrical mode, limiting sliding rods are fixedly arranged on the C-shaped sliding plates in a symmetrical mode, and the limiting sliding sleeves and the limiting sliding rods are used for limiting the rotation of the calling rotating plate and the shutter rotating plate.

Further, the expansion support plate is provided with an expansion sliding frame in a sliding manner, the upper end of the expansion sliding frame is fixedly provided with a bar-shaped handle, the expansion sliding frame is provided with a cover plate in a sliding manner, the cover plate is used for covering and protecting the wireless charging plate, friction force exists between the cover plate and the expansion sliding frame, a spring is arranged between the bar-shaped handle and the cover plate, and the spring force between the bar-shaped handle and the cover plate is always larger than the friction force between the cover plate and the expansion sliding frame.

Further, an unfolding bottom plate is fixedly arranged in the shell, an unfolding screw rod and a transmission spline shaft are rotatably arranged on the unfolding bottom plate, belt wheels are fixedly arranged at the lower ends of the unfolding screw rod and the transmission spline shaft, a transmission belt is arranged between the belt wheels on the unfolding screw rod and the transmission spline shaft, and the unfolding screw rod and the unfolding carriage form a screw pair.

Further, a transmission rotating rod is rotatably arranged on the unfolding sliding frame, the transmission rotating rod and the transmission spline shaft form spline sliding fit, through holes with the same diameter as the transmission rotating rod are formed in the strip-shaped rotating plate, friction force exists between the through holes in the strip-shaped rotating plate and the transmission rotating rod when the through holes in the strip-shaped rotating plate are connected with the transmission rotating rod, and the friction force between the through holes in the strip-shaped rotating plate and the transmission rotating rod is always larger than that of a torsion spring between the strip-shaped rotating plate and the unfolding supporting plate.

Compared with the prior art, the invention has the beneficial effects that: (1) According to the invention, the calling component is arranged, so that the positions of the plugboards in the plurality of conductive components can be controlled, the required socket can be called according to the requirements, the unused socket is positioned at the inner side of the equipment, the long-term exposure to the outside is avoided, and the unused socket is disconnected from the power supply body. (2) The position of the bar-shaped handle can be automatically adjusted by controlling the position of the bar-shaped handle, so that the occupied space of the bar-shaped handle can be reduced when a wireless charging plate is not used or an emergency power supply is not moved, and charging equipment can be protected when the wireless charging plate is used. (3) According to the invention, the unfolding assembly is arranged, so that the unfolding of the dispatching rotating plate and the shutter rotating plate can be realized rapidly, and the interior of the emergency power supply is convenient to maintain and overhaul. (4) The invention has the characteristics of small power supply volume, light weight and high safety.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention.

Fig. 2 is a schematic structural view of the storage chamber of the present invention.

Fig. 3 is an enlarged partial schematic view at a in fig. 2.

Fig. 4 is a schematic view of the structure of the inside of the housing of the present invention.

Fig. 5 is a cross-sectional view of the structure at the storage chamber of the present invention.

Fig. 6 is a schematic view of the structure of the bar-shaped rotating plate of the present invention.

Fig. 7 is a schematic view of the structure of the unfolding bottom plate of the invention.

Fig. 8 is a partially enlarged schematic view at B in fig. 7.

Fig. 9 is a front view showing the internal structure of the housing of the present invention.

Fig. 10 is a partially enlarged schematic view of fig. 9C.

Fig. 11 is a front view showing the structure of the present invention at the deployment swash plate.

Fig. 12 is a front view of the structure of the invention at the call flap.

Fig. 13 is a cross-sectional view of the structure at the insulating cylinder block of the present invention.

Fig. 14 is a schematic view of the structure of the transmission friction wheel of the present invention.

Fig. 15 is a partially enlarged schematic view of fig. 14 at D.

Fig. 16 is a schematic view of the structure of the auxiliary conductive block of the present invention.

Fig. 17 is a partially enlarged schematic view of fig. 16 at E.

Fig. 18 is a cross-sectional view of the structure at the propeller shaft of the present invention.

FIG. 19 is a cross-sectional view of a calling assembly of the present invention.

Reference numerals: 101-a housing; 102-calling a rotating board; 103-sliding door plate; 104-insulating cylindrical blocks; 105-bar handle; 106-a cover plate; 107-shutter rotating plates; 108-a deposit chamber; 109-a heat sink; 110-a power supply body; 111-a wireless charging pad; 112-auxiliary wires; 113-calling a backplane; 114-unrolling the carriage; 115-bar magnets; 116-remote control; 117-limiting sliding sleeve; 118-limit slide bar; 119-expanding the supporting plate; 120-C type skateboards; 121-a bar-shaped rotating plate; 122-unfolding the bottom plate; 123-unfolding inclined plates; 124-unfolding a screw rod; 125-a drive belt; 126-driving a spline shaft; 127-drive turning rod; 128-a deployment motor; 129-socket; 130-arc conductive blocks; 131-a transmission friction wheel; 132-positioning screw rods; 133-a drive shaft; 134-L-shaped slide carriage; 135-driving cylindrical blocks; 136-auxiliary conductive blocks; 137-a positioning motor; 138-shifting the electric cylinder; 139-T-shaped skateboards; 140-shifting the bottom plate; 141-calling a motor; 142-a linear slide plate; 143-auxiliary spline shafts; 144-call sled.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

Examples: referring to fig. 1-19, a UPS emergency power source includes a housing 101, a power source body 110 is fixedly installed in the housing 101, a wireless charging board 111 is fixedly installed on the housing 101, an auxiliary wire 112 is provided between the wireless charging board 111 and the power source body 110 for communication, storage chambers 108 are provided on two sides of the housing 101, the storage chambers 108 are used for storing wires, sliding door plates 103 are symmetrically and slidably installed on the housing 101, the sliding door plates 103 are used for covering the storage chambers 108, a bar magnet 115 is symmetrically and fixedly installed on the transfer plate 102, and a remote controller 116 is placed in 1 storage chamber 108 of the storage chambers 103,2 of the sliding door plates for adsorption and fixation.

The calling component is arranged on the shell 101 and comprises a plurality of groups of conductive components, each conductive component comprises a plurality of insulating cylindrical blocks 104 and a plurality of auxiliary conductive blocks 136, each insulating cylindrical block 104 is an insulator, the calling rotating plate 102 is rotatably arranged on the shell 101, a torsion spring is arranged between the shell 101 and the calling rotating plate 102, one end of the torsion spring is fixedly connected to the shell 101, the other end of the torsion spring is fixedly connected to the calling rotating plate 102, each insulating cylindrical block 104 is rotatably arranged on the corresponding calling rotating plate 102, friction force exists between each calling rotating plate 102 and each insulating cylindrical block 104, a socket 129 and an arc-shaped conductive block 130 are fixedly arranged on each insulating cylindrical block 104, and a wire is arranged between each socket 129 and the corresponding arc-shaped conductive block 130.

The shell 101 is internally and fixedly provided with a calling bottom plate 113, an auxiliary conductive block 136 is fixedly arranged on the calling bottom plate 113, a wire is communicated between the auxiliary conductive block 136 and the power supply body 110, a groove matched with the arc conductive block 130 is formed in the auxiliary conductive block 136, the conductive assembly further comprises a transmission shaft 133, an L-shaped sliding seat 134 and a plurality of transmission friction wheels 131, the transmission friction wheels 131 are rotatably arranged on the calling bottom plate 113, friction force exists between the transmission friction wheels 131 and corresponding insulating cylindrical blocks 104 when the transmission friction wheels 131 are contacted with the corresponding insulating cylindrical blocks 104, friction force between the transmission friction wheels 131 and the insulating cylindrical blocks 104 is larger than friction force between the insulating cylindrical blocks 104 and the calling rotary plates 102, torsion springs between the shell 101 and the calling rotary plates 102 are not compressed at the initial position, the calling rotary plates 102 are in a vertically downward state, and the plurality of transmission friction wheels 131 are respectively contacted with the corresponding insulating cylindrical blocks 104 at the moment.

The L-shaped sliding seats 134 are all slidably mounted on the calling bottom plate 113, the transmission shafts 133 are rotatably mounted on the corresponding L-shaped sliding seats 134, a plurality of auxiliary spline shafts 143 are fixedly arranged on the transmission shafts 133, spline sliding fit is formed when the auxiliary spline shafts 143 are engaged with the corresponding transmission friction wheels 131, distances between different auxiliary spline shafts 143 on the same transmission shaft 133 and the corresponding transmission friction wheels 131 are different, and transmission cylindrical blocks 135 are fixedly arranged at the end parts of the transmission shafts 133.

The transfer base plate 113 is rotatably provided with a transfer screw rod 132, the transfer base plate 113 is fixedly provided with a transfer motor 137, an output shaft of the transfer motor 137 is fixedly connected with the transfer screw rod 132, the transfer base plate 113 is slidably provided with a transfer slide plate 144, the transfer slide plate 144 and the transfer screw rod 132 form a screw pair, the transfer slide plate 144 is fixedly provided with a shift electric cylinder 138, a piston rod end of the shift electric cylinder 138 is fixedly provided with a shift base plate 140, the shift base plate 140 is fixedly provided with a T-shaped slide plate 139 and a transfer motor 141, the L-shaped slide seat 134 is provided with T-shaped slide grooves matched with the T-shaped slide plate 139, the output shaft of the transfer motor 141 is fixedly provided with a linear slide plate 142, and the transmission cylindrical block 135 is provided with linear slide grooves matched with the linear slide plate 142.

In the initial position, neither the socket 129 nor the arc-shaped conductive block 130 is located at the outer side of the transferring plate 102, at this time, the socket 129 is located right above the corresponding insulating cylindrical block 104, the arc-shaped conductive block 130 is located right below the corresponding insulating cylindrical block 104, and the sliding grooves on the linear sliding plate 142 and the driving cylindrical block 135 are all in a vertical state.

Starting the positioning motor 137 to drive the positioning screw 132 to rotate, and further enabling the positioning motor 137 to slide on the positioning base 113, namely, enabling the positions of the linear slide plate 142 and the T-shaped slide plate 139 to be adjusted, enabling the T-shaped slide plate 139 and the linear slide plate 142 to move below the transmission shaft 133 to be driven, then starting the shifting electric cylinder 138 to drive the shifting base 140 to move, namely, enabling the T-shaped slide plate 139 and the linear slide plate 142 to synchronously rotate, namely, enabling the T-shaped slide plate 139 and the linear slide plate 142 to move to the position right below a linear slide groove on the transmission cylindrical block 135 to be driven and a T-shaped slide groove on the L-shaped slide plate 134 to be driven, continuously driving the positioning motor 137 to adjust the position of the positioning slide plate 144, enabling the linear slide plate 142 and the linear slide groove on the transmission cylindrical block 135 to be driven to be engaged, enabling the T-shaped slide plate 139 and the T-shaped slide groove on the L-shaped slide plate 134 to be engaged, and enabling the L-shaped slide plate 139 and the L-shaped slide plate 142 to be shifted to be synchronously, enabling the L-shaped slide plate 139 and the L-shaped slide plate 142 to move to be engaged with the transmission shaft to be in contact with the auxiliary shaft 133, and enabling the auxiliary shaft 143 to be in contact with the transmission shaft 133 to be in the transmission with the auxiliary shaft 133 to be moved.

Then, the invoking motor 141 is started to drive the linear sliding plate 142 to rotate, the driving cylindrical block 135 is further driven to rotate, the driving shaft 133 synchronously rotates, under the action of the auxiliary spline shaft 143, the driving friction wheel 131 corresponding to the socket 129 to be used rotates, under the action of friction force between the driving friction wheel 131 and the insulating cylindrical block 104, the insulating cylindrical block 104 rotates, the diameter of the insulating cylindrical block 104 is larger than that of the driving shaft 133, when the driving shaft 133 rotates 180 degrees, the insulating cylindrical block 104 rotates 90 degrees, namely, the invoking motor 141 drives the linear sliding plate 142 to rotate 180 degrees, the insulating cylindrical block 104 corresponding to the socket 129 to be used rotates 90 degrees, namely, the socket 129 moves to the outer side of the invoking rotating plate 102, and the arc-shaped conductive block 130 corresponding to the socket 129 is jointed with the corresponding auxiliary conductive block 136.

Repeating the above steps can realize the driving of different insulating cylindrical blocks 104 to rotate, i.e. the calling of different sockets 129.

The casing 101 is provided with the expansion subassembly, the expansion subassembly includes 2 symmetrical slidable mounting C type slide 120 in casing 101, C type slide 120's both ends all are fixed and are provided with expansion swash plate 123, install tripe commentaries on classics board 107 on the casing 101 rotates, be provided with the torsional spring between tripe commentaries on classics board 107 and the casing 101, the one end fixed connection of torsional spring is on casing 101, the other end fixed connection of torsional spring is on tripe commentaries on classics board 107, fixed mounting has radiator 109 on the tripe commentaries on classics board 107, expansion swash plate 123 is used for promoting to call commentaries on classics board 102 and tripe commentaries on classics board 107 rotation, the fixed 2 spacing sliding sleeves 117 that are provided with on the C type slide 120 of equal symmetry, spacing sliding sleeve 117 and spacing sliding rod 118 are used for restricting the rotation of call commentaries on classics board 102 and tripe commentaries on classics board 107.

The casing 101 internally and fixedly provided with the expansion backup pad 119, the expansion backup pad 119 is gone up to rotate and is installed bar and change board 121, is provided with the torsional spring between bar change board 121 and the expansion backup pad 119, and the one end fixed connection of torsional spring is on expanding backup pad 119, and another fixed connection of torsional spring is on bar change board 121, and the both ends of bar change board 121 are fixed to be provided with the quarter butt, all are provided with the bar spout on the C type slide 120, the quarter butt at bar change board 121 both ends respectively with the bar spout swing joint on the C type slide 120 that corresponds.

In the initial position, the torsion springs between the unfolding support plates 119 and the strip-shaped rotating plates 121 are not compressed, under the action of the short rods at the two ends of the strip-shaped rotating plates 121 and the strip-shaped sliding grooves on the C-shaped sliding plates 120, the C-shaped sliding plates 120 are located at the positions closest to the unfolding support plates 119, the unfolding inclined plates 123 on the 2C-shaped sliding plates 120 are not contacted with the calling rotating plates 102 and the shutter rotating plates 107, the limit sliding rods 118 on the C-shaped sliding plates 120 farthest from the shutter rotating plates 107 and the limit sliding sleeves 117 on the shutter rotating plates 107 are in an engaged state, and the limit sliding rods 118 on the C-shaped sliding plates 120 farthest from the calling rotating plates 102 and the limit sliding sleeves 117 on the calling rotating plates 102 are in an engaged state, so that the calling rotating plates 102 and the shutter rotating plates 107 cannot rotate freely under the action of the limit sliding sleeves 117 and the limit sliding rods 118, and the locking of the positions of the calling rotating plates 102 and the shutter rotating plates 107 is realized.

The unfolding support plate 119 is provided with the unfolding carriage 114 in a sliding manner, the upper end of the unfolding carriage 114 is fixedly provided with the strip-shaped handle 105, the unfolding carriage 114 is provided with the covering plate 106 in a sliding manner, the covering plate 106 is used for covering and protecting the wireless charging plate 111, friction force exists between the covering plate 106 and the unfolding carriage 114, a spring is arranged between the strip-shaped handle 105 and the covering plate 106, and the spring force between the strip-shaped handle 105 and the covering plate 106 is always larger than the friction force between the covering plate 106 and the unfolding carriage 114.

The casing 101 is internally and fixedly provided with a unfolding bottom plate 122, the unfolding bottom plate 122 is rotatably provided with a unfolding screw rod 124 and a transmission spline shaft 126, the lower ends of the unfolding screw rod 124 and the transmission spline shaft 126 are fixedly provided with belt wheels, a transmission belt 125 is arranged between the belt wheels on the unfolding screw rod 124 and the belt wheels on the transmission spline shaft 126, the unfolding screw rod 124 and the unfolding carriage 114 form a screw pair, the lower surface of the unfolding bottom plate 122 is fixedly provided with a unfolding motor 128, and an output shaft of the unfolding motor 128 is fixedly connected with the unfolding screw rod 124.

The unfolding sliding frame 114 is rotatably provided with a transmission rotating rod 127, the transmission rotating rod 127 and the transmission spline shaft 126 form spline sliding fit, the bar-shaped rotating plate 121 is provided with a through hole with the same diameter as the transmission rotating rod 127, friction exists between the through hole on the bar-shaped rotating plate 121 and the transmission rotating rod 127 when the through hole on the bar-shaped rotating plate 121 and the transmission rotating rod 127 are jointed, and the friction between the through hole on the bar-shaped rotating plate 121 and the transmission rotating rod 127 is always larger than a torsion spring between the bar-shaped rotating plate 121 and the unfolding supporting plate 119.

In the initial position, the cover 106 contacts the upper surface of the housing 101, the upper surface of the housing 101 and the upper surface of the wireless charging plate 111 are on the same plane, the spring between the bar handle 105 and the cover 106 is not compressed, and the transmission rotating rod 127 is not in contact with the through hole of the bar rotating plate 121.

The unfolding motor 128 is started to drive the unfolding screw rod 124 to rotate, under the action of the transmission belt 125, the transmission spline shaft 126 rotates synchronously, namely, the transmission rotating rod 127 rotates synchronously, the unfolding screw rod 124 rotates to enable the unfolding sliding frame 114 to move downwards, the transmission rotating rod 127 moves synchronously downwards, the transmission rotating rod 127 slides relative to the transmission spline shaft 126, the unfolding sliding frame 114 moves relative to the shielding plate 106 due to the fact that the shielding plate 106 is contacted with the upper surface of the shell 101, the strip-shaped handle 105 moves downwards, a spring between the strip-shaped handle 105 and the shielding plate 106 is compressed, the lower surface of the strip-shaped handle 105 is finally contacted with the upper surface of the shielding plate 106, folding of the strip-shaped handle 105 is achieved, an annular cavity is formed at the joint of the strip-shaped handle 105 and the insulating cylindrical block 104, and the spring between the strip-shaped handle 105 is located in the annular cavity at the joint of the insulating cylindrical block 104 and the strip-shaped handle 105 when the lower surface of the strip-shaped handle 105 contacts with the upper surface of the shielding plate 106.

When the bar handle 105 is unfolded, the steps are reversely performed, the unfolding carriage 114 moves upwards, under the action of the spring between the bar handle 105 and the shielding plate 106, the bar handle 105 moves relative to the shielding plate 106, finally, the spring between the bar handle 105 and the shielding plate 106 is completely released, namely, the unfolding of the bar handle 105 is realized, the shell 101 is convenient to move through the bar handle 105, when the wireless charging plate 111 is needed to be used, the unfolding carriage 114 is continuously driven to move upwards, under the action of friction force between the shielding plate 106 and the unfolding carriage 114, the shielding plate 106 and the unfolding carriage 114 synchronously move, namely, the shielding plate 106 moves towards a direction far away from the wireless charging plate 111, finally, the unfolding carriage 114 moves to enable the upper end face of the transmission rotating rod 127 to contact the lower edge of the through hole of the bar rotating plate 121, at the moment, the wireless charging plate 111 is separated from the shielding of the shielding plate 106, and equipment with the wireless charging function can be placed on the wireless charging plate 111 for charging.

When the unfolding carriage 114 moves to the lower edge of the through hole of the strip-shaped rotating plate 121, the unfolding carriage 114 is driven to move upwards continuously, the transmission rotating plate 127 is connected with the through hole on the strip-shaped rotating plate 121, the transmission rotating plate 127 and the unfolding screw rod 124 rotate synchronously, further, the strip-shaped rotating plate 121 rotates under the action of friction force between the through hole on the strip-shaped rotating plate 121 and the transmission rotating plate 127, under the action of short rods at two ends of the strip-shaped rotating plate 121 and strip-shaped sliding grooves on the C-shaped sliding plate 120, the 2C-shaped sliding plates 120 move in the direction far away from the unfolding supporting plate 119, the limit sliding rods 118 and the corresponding limit sliding sleeves 117 are disengaged, namely, the locking of the modulation rotating plate 102 and the louver rotating plate 107 is released, the strip-shaped rotating plate 121 continuously rotates, the end portions of the unfolding sloping plate 123 continuously move in the direction far away from the unfolding supporting plate 119, the modulation rotating plate 102 and the louver rotating plate 107 rotate under the action of the unfolding plate 123, the torsion spring 102 and the louver rotating plate 107 rotate under the action of the sloping plate 123, and the transmission rotating plate 107 are driven to move horizontally relative to the transmission rotating plate 107, namely, the transmission rotating plate 102 and the expansion sliding plate 107 are driven to move horizontally, and the transmission rotating plate 107 is driven to move up and the transmission rotating plate 102 correspondingly, namely, the transmission rotating plate 127 is driven to move horizontally, and the transmission rotating plate 127 is driven to move up and the transmission rotating plate 127.

Working principle: according to the wire plug of the device to be connected, the positioning motor 137, the shifting electric cylinder 138 and the invoking motor 141 are started, under the action of the L-shaped sliding seat 134, the transmission cylindrical block 135, the T-shaped sliding plate 139 and the linear sliding plate 142, the transmission friction wheel 131 corresponding to the socket 129 matched with the wire plug of the device to be connected rotates, the insulating cylindrical block 104 corresponding to the socket 129 rotates, the socket 129 moves to the outer side of the invoking rotary plate 102, the arc-shaped conductive block 130 on the insulating cylindrical block 104 is connected with the corresponding auxiliary conductive block 136, namely, the socket 129 is connected with the power supply body 110, and then the wire plug of the device to be connected is connected with the corresponding socket 129, namely, the communication between the device to be connected and the power supply body 110 is realized.

The above steps are repeated, and different sockets 129 can be called according to the wire plugs of the devices to be connected, and heat dissipation is performed inside the casing 101 through the heat sink 109.

When the bar handle 105 needs to be retracted, the unfolding motor 128 is started to drive the unfolding carriage 114 to move downwards, so that the bar handle 105 moves downwards to be contacted with the upper surface of the shielding plate 106, namely, folding of the bar handle 105 is achieved, and when the wireless charging plate 111 needs to be used, the unfolding motor 128 is started to drive the unfolding carriage 114 to move upwards, so that the shielding plate 106 moves in a direction away from the wireless charging plate 111, namely, the wireless charging plate 111 is separated from the shielding of the shielding plate 106.

When the emergency power supply is required to be maintained and overhauled, the unfolding motor 128 is started to drive the unfolding sliding frame 114 to move upwards, so that the transmission rotating rod 127 is connected with the through hole on the strip rotating plate 121, the strip rotating plate 121 rotates under the action of the transmission rotating rod 127, the 2C-shaped sliding plates 120 are driven to move, and under the action of the C-shaped sliding plates 120 and the unfolding inclined plate 123, the calling rotating plate 102 and the shutter rotating plate 107 are in a horizontal state, namely the unfolding of the calling rotating plate 102 and the shutter rotating plate 107 is realized, so that the emergency power supply is convenient to maintain and overhaul the emergency power supply.

The control of the above steps can be achieved by the remote control 116.

The present invention is not limited to the above-described embodiments, and various modifications are possible within the scope of the present invention without inventive labor, as those skilled in the art will recognize from the above-described concepts.

Claims (9)

1. The utility model provides a UPS emergency power source, includes casing (101), and fixed mounting has power source body (110), its characterized in that in casing (101):

The shell (101) is provided with a calling component, the calling component comprises a plurality of groups of conductive components, each conductive component comprises a plurality of insulating cylindrical blocks (104) and a plurality of auxiliary conductive blocks (136), a calling rotating plate (102) is rotatably arranged on the shell (101), each insulating cylindrical block (104) is rotatably arranged on the corresponding calling rotating plate (102), a socket (129) and an arc-shaped conductive block (130) are fixedly arranged on each insulating cylindrical block (104), a wire is communicated between each socket (129) and the corresponding arc-shaped conductive block (130), a calling bottom plate (113) is fixedly arranged in the shell (101), each auxiliary conductive block (136) is fixedly arranged on the corresponding calling bottom plate (113), a wire is communicated between each auxiliary conductive block (136) and the power body (110), and a groove matched with the corresponding arc-shaped conductive block (130) is formed in each auxiliary conductive block (136);

the novel multifunctional portable intelligent cabinet temperature control device is characterized in that an unfolding assembly is further arranged on the shell (101), the unfolding assembly comprises 2 symmetrical C-shaped sliding plates (120) which are installed in the shell (101) in a sliding mode, unfolding inclined plates (123) are fixedly arranged at two ends of each C-shaped sliding plate (120), a shutter rotating plate (107) is rotatably installed on the shell (101), a radiator (109) is fixedly installed on each shutter rotating plate (107), the unfolding inclined plates (123) are used for pushing the calling rotating plate (102) and the shutter rotating plates (107) to rotate, unfolding supporting plates (119) are fixedly installed in the shell (101), strip-shaped rotating plates (121) are rotatably installed on the unfolding supporting plates (119), short rods are fixedly arranged at two ends of each strip-shaped rotating plate (121), and strip-shaped sliding grooves are respectively and movably connected with the corresponding strip-shaped sliding grooves on the corresponding C-shaped sliding plates (120);

Unused sockets (129) are located on the inner side of the equipment and are prevented from being exposed to the outside for a long time, the unused sockets (129) are disconnected from the power supply body (110), different insulating cylindrical blocks (104) are driven to rotate, so that the insulating cylindrical blocks (104) corresponding to the sockets (129) to be used rotate by 90 degrees, namely, the sockets (129) move to the outer side of the calling rotating plate (102), and the arc-shaped conductive blocks (130) corresponding to the sockets (129) are connected with the corresponding auxiliary conductive blocks (136), namely, the different sockets (129) are called.

2. A UPS emergency power source according to claim 1, wherein: the conductive assembly further comprises a transmission shaft (133), an L-shaped sliding seat (134) and a plurality of transmission friction wheels (131), wherein the transmission friction wheels (131) are rotatably installed on the calling bottom plate (113), the transmission friction wheels (131) are respectively in contact with corresponding insulation cylindrical blocks (104), friction force exists between the insulation cylindrical blocks (104) and the calling rotating plate (102), friction force exists between the transmission friction wheels (131) and the corresponding insulation cylindrical blocks (104) when the transmission friction wheels (131) are in contact with the corresponding insulation cylindrical blocks (104), and friction force between the transmission friction wheels (131) and the insulation cylindrical blocks (104) is larger than friction force between the insulation cylindrical blocks (104) and the calling rotating plate (102).

3. A UPS emergency power source according to claim 2, wherein: the L-shaped sliding seat (134) is slidably mounted on the calling bottom plate (113), the transmission shaft (133) is rotatably mounted on the corresponding L-shaped sliding seat (134), a plurality of auxiliary spline shafts (143) are fixedly arranged on the transmission shaft (133), spline sliding fit is formed when the auxiliary spline shafts (143) are connected with corresponding transmission friction wheels (131), distances between different auxiliary spline shafts (143) on the same transmission shaft (133) and the corresponding transmission friction wheels (131) are different, and transmission cylindrical blocks (135) are fixedly arranged at the end parts of the transmission shaft (133).

4. A UPS emergency power supply according to claim 3, wherein: the utility model discloses a call bottom plate (113), install positioning lead screw (132) on the call bottom plate (113), slidable mounting has call slide (144) on call bottom plate (113), call slide (144) and positioning lead screw (132) constitute the screw pair, fixed mounting has on call slide (144) and shifts electric jar (138), the piston rod end fixed mounting of shifting electric jar (138) has shift bottom plate (140), fixed mounting has T type slide (139) and call motor (141) on shift bottom plate (140), all be provided with on L type slide (134) with T type slide (139) complex T type spout, fixed mounting has a style of calligraphy slide (142) on the output shaft of call motor (141), all be provided with on the transmission cylinder piece (135) with a style of calligraphy slide (142) complex style of calligraphy spout.

5. The UPS emergency power source of claim 4 wherein: the utility model discloses a portable electronic device, including casing (101), portable electronic device, battery, power source, battery, etc. fixed mounting has wireless charging board (111) on casing (101), is provided with auxiliary conductor (112) intercommunication between wireless charging board (111) and power source body (110), both sides of casing (101) all are provided with and deposit thing cavity (108), slidable mounting of symmetry has sliding door board (103) on casing (101), sliding door board (103) are used for covering and deposit thing cavity (108), invoke fixed mounting of symmetry on revolving board (102) have bar magnet (115), bar magnet (115) are used for adsorbing fixed sliding door board (103), wherein 1 in 2 deposit thing cavity (108) has placed remote controller (116).

6. The UPS emergency power source of claim 5 wherein: the novel lifting device is characterized in that torsion springs are arranged between the strip-shaped rotating plate (121) and the unfolding support plate (119), torsion springs are arranged between the calling rotating plate (102) and the shutter rotating plate (107) and the shell (101), 2 limiting sliding sleeves (117) are fixedly arranged on the calling rotating plate (102) and the shutter rotating plate (107) symmetrically, limiting sliding rods (118) are fixedly arranged on the C-shaped sliding plate (120) symmetrically, and the limiting sliding sleeves (117) and the limiting sliding rods (118) are used for limiting the rotation of the calling rotating plate (102) and the shutter rotating plate (107).

7. The UPS emergency power source of claim 6 wherein: the unfolding support plate (119) is provided with the unfolding sliding frame (114) in a sliding manner, the upper end of the unfolding sliding frame (114) is fixedly provided with the strip-shaped handle (105), the unfolding sliding frame (114) is provided with the shielding plate (106) in a sliding manner, the shielding plate (106) is used for shielding and protecting the wireless charging plate (111), friction force exists between the shielding plate (106) and the unfolding sliding frame (114), a spring is arranged between the strip-shaped handle (105) and the shielding plate (106), and the spring force between the strip-shaped handle (105) and the shielding plate (106) is always larger than the friction force between the shielding plate (106) and the unfolding sliding frame (114).

8. The UPS emergency power source of claim 7 wherein: the shell body (101) is internally and fixedly provided with a unfolding bottom plate (122), the unfolding bottom plate (122) is rotatably provided with a unfolding screw rod (124) and a transmission spline shaft (126), the lower ends of the unfolding screw rod (124) and the transmission spline shaft (126) are fixedly provided with belt wheels, a transmission belt (125) is arranged between the belt wheels on the unfolding screw rod (124) and the belt wheels on the transmission spline shaft (126), and the unfolding screw rod (124) and the unfolding carriage (114) form a screw pair.

9. The UPS emergency power source of claim 8 wherein: the unfolding sliding frame (114) is rotatably provided with a transmission rotating rod (127), the transmission rotating rod (127) and a transmission spline shaft (126) form spline sliding fit, a through hole with the same diameter as that of the transmission rotating rod (127) is arranged on the strip-shaped rotating plate (121), friction force exists between the through hole on the strip-shaped rotating plate (121) and the transmission rotating rod (127) when the through hole on the strip-shaped rotating plate (121) is jointed with the transmission rotating rod (127), and the friction force between the through hole on the strip-shaped rotating plate (121) and the transmission rotating rod (127) is always larger than a torsion spring between the strip-shaped rotating plate (121) and the unfolding supporting plate (119).