阅读说明：本技术 一种仪器箱及操作方法 (Instrument box and operation method ) 是由 骆中庚 于 2018-09-26 设计创作，主要内容包括：本发明公开了一种仪器箱及操作方法,其结构包括手提、箱盖、箱体、锁扣,所述手提与箱盖锁定,所述箱盖与箱体通过轴杆连接,所述锁扣锁定在箱盖、箱体上,所述箱盖包括箱盖本体、储格运行开关、伸缩器、弹簧、擦拭杆,所述箱盖本体锁定有滑轴轨道,所述箱盖本体设有文件储仓,本发明通过将湿漉的仪器放入仪器箱内由擦拭杆将其擦拭,工具储位将水分吸收,圆轨结构将仪器摆动配合擦拭杆进行擦拭,同时圆轨结构带动进气结构的传动将气体经过擦拭杆灌入工具储位处实现吹干仪器、擦拭刷、工具储位,实现了将湿漉的仪器直接放入仪器箱内由箱内部的部件配合传动实现擦干、吹干仪器。(The invention discloses an instrument box and an operation method thereof, and the instrument box structurally comprises a portable handle, a box cover, a box body and a lock catch, wherein the portable handle and the box cover are locked, the box cover is connected with the box body through a shaft rod, the lock catch is locked on the box cover and the box body, the box cover comprises a box cover body, a storage grid operation switch, a telescopic device, a spring and a wiping rod, a sliding shaft track is locked on the box cover body, and a file storage bin is arranged on the box cover body And (5) drying the instrument.)

1. The utility model provides a clean mapping tool's instrument case, its structure includes portable (1), case lid (2), box (3), hasp (4), portable (1) and case lid (2) locking, case lid (2) are connected through the axostylus axostyle with box (3), hasp (4) locking is on case lid (2), box (3), its characterized in that:

the box body (3) consists of storage lattices (30) and a box body (31), the storage lattices (30) are embedded on the box body (31), and more than 3 storage lattices (30) are arranged;

case lid (2) are including case lid body (20), storage check operation switch (21), expansion bend (22), spring (23), wiping rod (24), case lid body (20) locking has slide shaft track (200), case lid body (20) are equipped with file storage storehouse (201), storage check operation switch (21) locking is on case lid body (20), case lid body (20) and expansion bend (22) are through slide shaft track (200) sliding connection, storage check operation switch (21) and expansion bend (22) laminating, expansion bend (22) and wiping rod (24) laminating, spring (23) and wiping rod (24) welding.

2. A kit for wiping a mapping tool, as defined in claim 1, wherein: the telescopic device (22) comprises a box cover sliding shaft (220), a telescopic rod (221) and a box body sliding shaft (222), wherein the telescopic rod (221) is welded with the box cover sliding shaft (220) and the box body sliding shaft (222).

3. A kit for wiping a mapping tool, as defined in claim 1, wherein: the wiping rod (24) comprises a wiping rod body (240) and a wiping brush (241), the wiping rod body (240) is connected with the wiping brush (241) through glue, and the wiping rod body (240) is provided with an air hole (2400).

4. A kit for wiping a mapping tool, as defined in claim 1, wherein: the box body (31) comprises a gas circulation bin (310), a box structure frame (311), a gas inlet structure (312), a circular rail structure (313), a humidity sensor (314), a sponge (315) and a tool storage position (316), wherein the box structure frame (311) is provided with the gas circulation bin (310), the gas inlet structure (312) is locked on the circular rail structure (313), the circular rail structure (313) is embedded on the box structure frame (311), the humidity sensor (314) is embedded on the circular rail structure (313), the sponge (315) is connected to the circular rail structure (313) in a gluing mode, and the circular rail structure (313) is provided with the tool storage position (316).

5. An instrument pod for wiping a mapping tool, according to claim 4, wherein: the air inlet structure (312) comprises an air inlet frame (3120), an air inlet plate (3121), an air inlet rod (3122) and an air inlet structure rail (3123), wherein the air inlet frame (3120) is connected with the air inlet plate (3121) in a sliding manner, the air inlet plate (3121) is connected with the air inlet rod (3122) in a sliding manner, the air inlet rod (3122) is of an L-shaped structure, and the air inlet rod (3122) is connected with the air inlet structure rail (3123) in a rail manner.

6. An instrument pod for wiping a mapping tool, according to claim 4, wherein: the circular rail structure (313) comprises a structure circular rail (3130), a rail frame (3131), a structure arc rail (3132) and an arc plate (3133), the structure circular rail (3130) is connected with the rail frame (3131) through a rail, the structure arc rail (3132) is connected with the arc plate (3133) through a rail, the structure circular rail (3130) is welded with the structure arc rail (3132), the rail frame (3131) is welded with the arc plate (3133), and the air inlet rod (3122) is connected with the arc plate (3133) through high temperature.

7. An instrument pod and method of operation as claimed in any one of claims 1-6, wherein:

when in use, the box cover (2) is opened, the instrument is put into the storage grid (31) in the box body (3), and the box cover (2) is covered; when the box cover (2) is opened, the length of the telescopic rod (221) is limited to drive the box cover sliding shaft (220) to slide downwards (slide to one end of the box cover (2) far away from the lock catch (4)) on the sliding shaft rail 200, the box cover sliding shaft (220) moves downwards and simultaneously drives the wiping rod (24) to move downwards (at the moment, the box cover (2) is in an upright state, the wiping rod (24) is positioned at the bottom of the box cover (2) to be convenient for a worker to take files in the file storage bin (201), the box cover sliding shaft (220) touches the storage grid running switch (21) during sliding, namely, the master gate is closed (the storage grid running switch (21) is manually pushed and pressed, so that the long-term closing or long-term opening of the storage grid running switch (21) can be realized, and the overall power supply of the;

then, the instrument is placed into a box body (3) of the instrument box, a box cover (2) is covered, the box cover (2) is covered, meanwhile, a wiping rod (24) pushes a telescopic device (22) to a lock catch (4) under the elastic assistance of a spring, the telescopic device (22) is in contact with a storage grid operation switch (21) when moving, the storage grid operation switch (21) is opened (the box is in a sealed state when a power supply is connected, and the safety is high);

when the instrument is placed in a box body (3), the instrument is placed at a tool storage position (316), the sponge (315) absorbs moisture, meanwhile, a humidity sensor (314) receives humidity sensing to start transmission operation of the wiping instrument to drive the storage grid (31) and the box cover body (20), the wiping rod (24) reciprocates on the box cover (2) through a linear motor, a wiping brush (241) of the wiping rod (24) wipes the instrument during movement, a rail frame (3131) slides on a structural circular rail (3130) in a reciprocating mode to drive the instrument to swing to achieve auxiliary wiping, an arc plate (3133) follows the reciprocating mode on a structural arc rail (3132) during movement of the rail frame (3131), the arc plate (3133) drives an air inlet rod (3122) to reciprocate an air inlet plate (3121) on the air inlet frame (3120) to push air in the air inlet frame (3120) out of the wiping rod (241) to dry the wiping rod (241), and the air inlet frame (3120) is filled with a file body (2400) and then filled with the file body (20) The instrument and sponge (315) are blown dry by blocking access to the tool magazine (316).

Technical Field

The invention relates to the field of instrument boxes, in particular to an instrument box and an operation method.

Background

The instrument box can prevent the instrument from being damaged due to external force, and can well protect the built-in instrument; building surveying and mapping are generally carried out outdoors, and when the measuring instrument is used in rainy days, the instrument can be wetted by rainwater.

In the prior art, after a measuring instrument is used in rainy days, a worker does not timely wipe the surface of the instrument, after the wet instrument is placed into an instrument box, the wet instrument is easily wetted and can be stuck to other measuring instruments, the safety of the next instrument use of the worker cannot be guaranteed, even if the worker wipes the instrument and then places the instrument into the instrument box, and the wetted instrument is directly placed into the instrument box, the service life of the instrument box can be influenced.

Disclosure of Invention

The invention mainly aims to overcome the defects of the prior art, and provides an instrument box and an operation method thereof, so as to solve the problems that a worker cannot timely wipe the surface of an instrument after the instrument is used in a rainy day, the wet instrument is easily wetted after being placed in the instrument box and can not be stuck on other measuring instruments, the safety of the next instrument used by the worker cannot be guaranteed, and the service life of the wet instrument can be influenced even if the worker wipes the instrument and places the instrument into the instrument box.

The invention is realized by adopting the following technical scheme: the instrument box structurally comprises a handle, a box cover, a box body and lock catches, wherein the handle and the box cover are locked and movably connected, the handle is located in the middle of the upper portion of the box cover, the box cover is connected with the box body through a shaft rod, the box cover and the box body form an upper structure and a lower structure, the lock catches are locked on the front side faces of the box cover and the box body, the box body comprises a box body and storage lattices, the storage lattices are embedded in an inner frame of the box body, and more than 3 storage lattices are arranged in order.

Further preferred, the case lid includes the case lid body, stores up check service switch, expansion bend, spring, wiping arm, the case lid body locking has the slide axle track, the slide axle track is located case lid body lower surface both ends, the case lid body is equipped with file storage bin, file storage bin is located the middle department of case lid body and wiping arm, store up check service switch locking on the case lid body, it is adjacent with the orbital middle part of slide axle to store up check service switch, the case lid body passes through slide axle track sliding connection with the expansion bend, store up check service switch and expansion bend laminating, expansion bend and wiping arm laminating, spring upper end and wiping arm lower surface welding.

Further preferably, the telescopic device comprises a box cover sliding shaft, a telescopic rod and a box body sliding shaft, the telescopic rod is welded with the box cover sliding shaft and the box body sliding shaft, the box cover sliding shaft is located above the wiping rod, the box cover sliding shaft is connected to a sliding shaft rail in a sliding mode, and the box body sliding shaft is fixedly connected to the box body.

Further preferably, the wiping rod comprises a wiping rod body and a wiping brush, the wiping rod body is connected with the wiping brush through glue, and the wiping rod body is provided with an air hole.

Further preferably, the box body includes that gas circulation storehouse, box structure frame, inlet structure, circular rail structure, humidity inductor, sponge, instrument store up the position, box structure frame is equipped with gas circulation storehouse, the structural locking of admitting air is structural at the circular rail, the circular rail structure inlays the dress on box structure frame and the two constitutes structure as an organic whole, the humidity inductor inlays the dress structurally on the circular rail, the humidity inductor is equipped with singly, the sponge rubber is connected at circular rail structure internal surface, circular rail structure center department is equipped with the instrument and stores up the position.

Further preferably, the air inlet structure comprises an air inlet frame, an air inlet plate, an air inlet rod and an air inlet structure rail, the air inlet frame is connected with the air inlet plate in a sliding mode, the air inlet plate is located in an inner cavity of the air inlet frame, the air inlet plate is connected with the air inlet rod in a sliding mode and perpendicular to the air inlet rod and the air inlet plate, the air inlet rod is of an L-shaped structure and is connected with the air inlet structure rail in a rail mode, and the air inlet structure rail is located at the bottom of the air inlet rod.

Further preferably, the circular rail structure comprises a structural circular rail, a rail frame, a structural arc rail and an arc plate, the structural circular rail is connected with the rail frame through a rail, the structural arc rail is connected with the arc plate through a rail, the structural circular rail is welded with the structural arc rail, the rail frame is welded with the arc plate, and the right end of the air inlet rod is connected with the side surface of the arc plate through high temperature.

Advantageous effects

When the instrument box is used, the box cover is opened, and the instrument is placed in the storage grid in the box body and is covered with the box cover; when the box cover is opened, the length of the telescopic rod is limited to drive the box cover sliding shaft to slide downwards on the sliding shaft rail (slide to one end of the box cover, which is far away from the lock catch), the box cover sliding shaft moves downwards and simultaneously drives the wiping rod to move downwards (at the moment, the box cover is in an upright state, the wiping rod is positioned at the bottom of the box cover, so that a worker can conveniently take files in a file storage bin), and the box cover sliding shaft touches the storage grid operation switch when sliding, so that the main brake is closed (the storage grid operation switch is manually pushed to realize the long-term closing or long-term opening of the storage grid operation switch, and the whole power supply of the; then, the instrument is placed in a box body of the instrument box, a box cover is covered, the box cover is covered, meanwhile, the telescopic device is pushed to the lock catch under the elastic assistance of a spring, the telescopic device is in contact with the storage grid operation switch when moving, and the storage grid operation switch is opened (the box is in a sealed state when a power supply is connected, so that the safety is high); when putting into the box, the instrument is put in instrument storage position department, the sponge absorbs moisture, humidity inductor receives humidity response and starts the transmission that has driven matter storage lattice and case lid body to the transmission operation of cleaning the instrument here while, the wiper bar is through linear electric motor reciprocating motion on the case lid, the brush of cleaning of wiper bar cleans the instrument during removal, the rail frame is realized supplementary the cleaning by the swing of reciprocating sliding drive instrument on the structure circular rail, the arc board follows the reciprocating motion at structure arc rail when the rail frame removes, the arc board drives the air inlet stem and realizes pushing out the gas of frame that will admit air through the wiper bar and weather the brush will be cleaned to the air inlet frame reciprocating motion on the frame of admitting air, the gas pocket of wiping bar body is gone into file storage storehouse again owing to the blockking of case lid body and is got into instrument storage position and sponge and is weathered.

Compared with the prior art, the invention has the beneficial effects that: the instrument storing position is used for absorbing moisture, the circular rail structure is used for wiping the instrument swing matching wiping rod, meanwhile, the circular rail structure drives the air inlet structure to transmit air to the instrument storing position through the wiping rod, so that the instrument is dried, the instrument is dried and blown by the transmission of the inside of the box in the instrument box directly placed into the instrument box.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

fig. 1 shows a schematic diagram of an instrument container and a method of operation according to the invention.

Fig. 2 is a schematic diagram showing a front half-open structure of an instrument case and an operation method of the instrument case.

Fig. 3 is a schematic diagram showing a fully opened front side of an instrument box and an operation method according to the present invention.

Fig. 4 shows a schematic view of the construction of the retractor of the invention.

Fig. 5 shows a front sectional structure of the box cover and the storage compartment of the present invention.

Fig. 6 shows a front cut-away structure schematic diagram when the box cover and the storage case are driven.

Fig. 7 shows a schematic structural diagram of an air inlet structure and a circular rail structure of the invention.

In the figure: the portable electronic device comprises a portable 1, a case cover 2, a case 3, a lock catch 4, a case body 30, a storage case 31, a case cover body 20, a storage case operation switch 21, an expansion piece 22, a spring 23, a wiping rod 24, a sliding shaft rail 200, a document storage bin 201, a case cover sliding shaft 220, a telescopic rod 221, a case sliding shaft 222, a wiping rod body 240, a wiping brush 241, an air hole 2400, an air circulation bin 310, a case structure frame 311, an air inlet structure 312, a circular rail structure 313, a humidity sensor 314, a sponge 315, a tool storage position 316, an air inlet frame 3120, an air inlet plate 3121, an air inlet rod 3122, an air inlet structure rail 3123, a structure circular rail 3130, a rail support 3131, a structure arc rail 3132 and an arc plate 3133.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-7, the present invention provides an instrument box and an operating method thereof, wherein the instrument box comprises: the structure of the box cover comprises a portable 1, a box cover 2, a box body 3 and a lock catch 4, wherein the portable 1 is locked with the box cover 2, the box cover 2 is connected with the box body 3 through a shaft rod, the lock catch 4 is locked on the box cover 2 and the box body 3, the box body 3 consists of a box body 30 and storage lattices 31, the storage lattices 31 are embedded on the box body 30, more than 3 storage lattices 31 are arranged, the box cover 2 comprises a box cover body 20, a storage lattice operation switch 21, an expansion piece 22, a spring 23 and a wiping rod 24, the box cover body 20 is locked with a sliding shaft rail 200, the box cover body 20 is provided with a file storage bin 201, the storage lattice operation switch 21 is locked on the box cover body 20, the box cover body 20 is in sliding connection with the expansion piece 22 through the sliding shaft rail 200, the storage lattice operation switch 21 is attached to the expansion piece 22, the expansion piece 22 is attached to the wiping rod 24, the spring 23, the storage operation switch 21 is a general brake switch of the whole instrument box, any transmission can not be operated when the general brake is closed, the instrument box is prevented from being damaged due to the influence of external factors when the instrument box is still operated after being opened, the expansion piece 22 comprises a box cover sliding shaft 220, an expansion rod 221 and a box body sliding shaft 222, the expansion rod 221 is welded with the box cover sliding shaft 220 and the box body sliding shaft 222, the expansion piece 22 drives the box cover sliding shaft 220 to slide on the box cover body 20 through the opening and closing of the box cover body 20 to press down or move up the wiping rod 24, the wiping rod 24 is prevented from not being positioned at the bottom of the box cover body 20 after the box cover body 20 is opened, a worker cannot conveniently take files at the file storage bin 201, the wiping rod 24 comprises a wiping rod body 240 and a wiping brush 241, the wiping rod body 240 is connected with the wiping brush 241 through glue, the wiping rod body 240 is provided with an air hole 2400, the wiping rod 24 slides up and down on the box cover, the measuring tool is wiped by the wiping brush 241, the wiping rod body 240 is connected and moved, meanwhile, the air holes 2400 of the wiping rod body 240 achieve air circulation, so that air can be conveyed to the box body 30 through the file storage bin 201 to blow the measuring tool conveniently, meanwhile, if files in the file storage bin 201 are damped, the box body 30 also achieves the effect of blowing the files conveniently, the box body 30 comprises an air circulation bin 310, a box body structure frame 311, an air inlet structure 312, a circular rail structure 313, a humidity sensor 314, a sponge 315 and a tool storage position 316, the box body structure frame 311 is provided with the air circulation bin 310, the air inlet structure 312 is locked on the circular rail structure 313, the circular rail structure 313 is embedded on the box body structure frame 311, the humidity sensor 314 is embedded on the circular rail structure 313, the sponge 315 is connected to the circular rail structure 313 in a gluing mode, the circular rail structure 313 is provided with the tool storage position 316, and the air inlet structure 312 comprises an air inlet frame 3120, An intake plate 3121, an intake rod 3122, an intake structural rail 3123, the intake frame 3120 slidably connected to the intake plate 3121, the intake plate 3121 slidably connected to the intake rod 3122, the intake rod 3122 having an L-shaped structure, the intake rod 3122 being orbitally connected to the intake structural rail 3123, the intake plate 3121 being vertically slidably connected to the intake rod 3122, the intake rod 3122 maintaining horizontal movement of the intake plate 3121 to push gas from the intake frame 3120 to the gas flow through bin 310 by circular rail structure 313 during arc movement, the circular rail structure 313 including a structural circular rail 3130, a structural arc rail 3131, a structural arc plate 3133, the structural circular rail 3130 being orbitally connected to a rail frame 3131, the structural arc rail 3132 being orbitally connected to an arc plate 3133, the structural circular rail 3130 being welded to a structural arc rail 3132, the rail frame 3131 being welded to an arc plate 3133, the intake rod 3122 being connected to an arc plate 3133 at a high temperature, circular track structure 313 drives reciprocal swing through the motor, and it is spacing through structure circular track 3130 during the swing, realizes measuring tool's small amplitude swing, plays the advantage of wiping measuring tool edge, arc plate 3133 plays the effect that drives air inlet rod 3122 and remove.

When in use, the box cover 2 is opened, and the instrument is put into the storage lattice 31 in the box body 3, and the box cover 2 is covered on the storage lattice 31; when the box cover 2 is opened, the length of the telescopic rod 221 is limited to drive the box cover sliding shaft 220 to slide downwards on the sliding shaft rail 200 (slide to one end of the box cover 2 far away from the lock catch 4), the box cover sliding shaft 220 moves downwards and simultaneously drives the wiping rod 24 to move downwards (at the moment, the box cover 2 is in an upright state, the wiping rod 24 is positioned at the bottom of the box cover 2, so that a worker can take files in the file storage bin 201), and the box cover sliding shaft 220 touches the storage grid operation switch 21 when sliding to close the master gate (the storage grid operation switch 21 is manually pushed to close or open the storage grid operation switch 21 for a long time, so that the overall power supply of the master gate box is closed to improve the safety); then, the instrument is placed in the box body 3 of the instrument box, the box cover 2 is covered, the telescopic device 22 is pushed to the lock catch 4 by the wiping rod 24 under the elastic assistance of the spring, and the telescopic device 22 is in contact with the storage grid operation switch 21 when moving, so that the storage grid operation switch 21 is opened (the box is in a sealed state when a power supply is connected, and the safety is high); when the instrument is placed in the box body 3, the instrument is placed at the tool storage position 316, the sponge 315 absorbs moisture, meanwhile, the humidity sensor 314 receives humidity sensing to start transmission operation of the wiping instrument to drive the storage cell 31 and the box cover body 20, the wiping rod 24 reciprocates on the box cover 2 through the linear motor, the wiping brush 241 of the wiping rod 24 wipes the instrument during movement, the rail frame 3131 slides on the structural circular rail 3130 in a reciprocating manner to drive the instrument to swing to achieve auxiliary wiping, the rail frame 3131 moves, the arc plate 3133 reciprocates on the structural arc rail 3132, the arc plate 3133 drives the air inlet rod 3122 to reciprocate on the air inlet frame 3120 to push out air in the air inlet frame 3120 to blow dry the wiping brush 241 through the wiping rod 24, then the liquid is filled into the document storage 201 through the air hole 2400 of the wiping rod body 240 and enters the tool storage 316 due to the blocking of the box cover body 20 to dry the instrument and the sponge 315.

Compared with the prior art, the invention has the technical progress that: the wet and percolated instrument is placed into the instrument box and wiped by the wiping rod 24, the tool storage position 316 absorbs water, the circular rail structure 313 wipes the instrument in a swinging mode in cooperation with the wiping rod 24, meanwhile, the circular rail structure 313 drives the air inlet structure 312 to transmit air to the tool storage position 316 through the wiping rod 24, and therefore the instrument, the wiping brush 241 and the tool storage position 316 are dried.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes in the embodiments and/or modifications of the invention can be made, and equivalents and modifications of some features of the invention can be made without departing from the spirit and scope of the invention.