CN111787675B - Installation-free movable electrostatic releaser - Google Patents
Installation-free movable electrostatic releaser Download PDFInfo
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- CN111787675B CN111787675B CN202010528231.5A CN202010528231A CN111787675B CN 111787675 B CN111787675 B CN 111787675B CN 202010528231 A CN202010528231 A CN 202010528231A CN 111787675 B CN111787675 B CN 111787675B
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- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05F—STATIC ELECTRICITY; NATURALLY-OCCURRING ELECTRICITY
- H05F3/00—Carrying-off electrostatic charges
- H05F3/02—Carrying-off electrostatic charges by means of earthing connections
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- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05K—PRINTED CIRCUITS; CASINGS OR CONSTRUCTIONAL DETAILS OF ELECTRIC APPARATUS; MANUFACTURE OF ASSEMBLAGES OF ELECTRICAL COMPONENTS
- H05K5/00—Casings, cabinets or drawers for electric apparatus
- H05K5/02—Details
- H05K5/0204—Mounting supporting structures on the outside of casings
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- Microelectronics & Electronic Packaging (AREA)
- Elimination Of Static Electricity (AREA)
Abstract
The invention discloses an installation-free movable electrostatic releaser, which comprises a support column, a touch ball, an alarm and a grounding wire, wherein the touch ball is arranged at the top end of the support column, the alarm is arranged at the top end of the support column, and the movable electrostatic releaser has the beneficial effects that the structure is simple, the operation is convenient, the arrangement is flexible, only a grounding sleeve needs to be embedded during the installation, the grounding push structure on the grounding sleeve is matched with a grounding wire assembly, so that the grounding wire can be ensured only in the use process, an auxiliary stabilizing assembly is matched, the support of the electrostatic releaser is more stable, the movable structure is matched with a split fixed structure, when the electrostatic releaser needs to be moved, a connecting part can be quickly detached, the electrostatic releaser is moved, the installation rate of the electrostatic releaser is improved through the structural matching, the electrostatic releaser can be further flexibly arranged and freely moved, the selection of the grounding point is more flexible, and the utilization rate of equipment is improved.
Description
Technical Field
The invention relates to the technical field of xx, in particular to an installation-free movable electrostatic releaser.
Background
The static eliminator for human body adopts a passive circuit, and utilizes the static on human body to make the circuit work so as to finally attain the action of eliminating static electricity. It is characterized in that: small volume and light weight. No power supply is required. The installation is convenient. No sense when eliminating static electricity, etc.
When clothes worn by a human body in daily life or the skin of the human body moves or acts, static electricity is generated due to friction and other reasons, and the human body accumulates the static electricity to harm health: some people have skin allergy, arrhythmia, headache, insomnia, dysphoria, and other symptoms, and some people have strong hair and mental stress. Fear of contact with metal objects. In addition, when static electricity is accumulated in a human body, the computer can be halted by touching the computer, electronic product components are broken down, inflammable matters are ignited and other hazards, and due to the hazards and reasons, the human body static electricity releasing device is arranged in many occasions needing flame resistance and explosion resistance, such as areas with high oil gas density, such as stations and gas stations.
However, although the conventional electrostatic eliminator is fastened on the ground surface through bolts, the electrostatic eliminator can be effectively fixed in this way, but in the process, operations such as punching and the like are required, so that not only is the assembly and disassembly of the electrostatic eliminator body laborious, but also a great deal of time is required for installing the grounding wire of the electrostatic eliminator, and meanwhile, the conventional electrostatic eliminator cannot move after being installed, and when the electrostatic eliminator needs to be transferred or disassembled, a great deal of time is required, which is very inconvenient.
Disclosure of Invention
The invention aims to solve the problems that the existing static eliminator is fastened on the ground surface through bolts mostly, the static eliminator can be effectively fixed in the way, but in the process, operations such as punching and the like are needed, the static eliminator body is difficult to assemble and disassemble, a large amount of time is needed to assemble a grounding wire of the static eliminator, the existing static eliminator cannot move after being assembled, and much time is needed to be consumed when the existing static eliminator needs to be transferred or disassembled, so that the static eliminator is inconvenient.
The technical scheme of the invention for realizing the aim is as follows: an installation-free movable electrostatic releaser comprises a support column, a touch ball, an alarm and a ground wire, wherein the touch ball is installed at the top end of the support column, the alarm is installed at the top end of the support column and is positioned on the touch ball, an observation port matched with the touch ball is formed in the touch ball, the ground wire is embedded in the support column, a moving mechanism is arranged outside the bottom end of the support column, a plurality of auxiliary stabilizing components with the same structure are arranged on the moving mechanism, and an automatic grounding mechanism is arranged in the bottom end of the support column;
the automatic grounding mechanism includes: a ground pushing structure and a ground wire assembly;
the moving mechanism includes: a moving structure and a split fixing structure;
the ground pushing structure is arranged at the inner bottom end of the support column, the ground wire assembly is connected with the ground pushing structure and is connected with a ground wire, the moving structure is arranged outside the bottom end of the support column, and the split fixing structure is connected between the bottom end of the support column and the moving structure;
the ground push structure includes: the mounting box, the micro power supply, the dismounting plate, the mounting plate, the micro motor, the nut, the threaded rod, the telescopic rod and the insulating block;
the utility model discloses a miniature power supply, including mounting box cartridge, mounting box lower wall face opening, ground wire subassembly cartridge is in mounting box lower wall face opening, miniature power supply installs on the interior top of mounting box, the wall is equipped with the dismouting board on the mounting box, just be located miniature power supply below in the mounting box and be equipped with the mounting panel, micro motor installs on the mounting panel, just be located the micro motor below and be equipped with the nut in the mounting box, threaded rod threaded connection is in the nut, the telescopic link is installed on micro motor drive end, the flexible end of telescopic link is connected with the threaded rod, insulating block movable mounting is in threaded rod tip and is connected with the ground wire subassembly.
The moving structure includes: the self-locking mechanism comprises a chassis, a plurality of travelling grooves with the same structure, a plurality of self-locking hinges with the same structure, a plurality of universal wheels with the same structure and a plurality of poking pieces with the same structure;
the chassis is arranged outside the lower end of the support column, a plurality of marching grooves with the same structure are formed in the outer ring of the chassis, the self-locking hinges are arranged in the marching grooves, the universal wheels are arranged on the self-locking hinges, and the poking pieces are arranged on the self-locking hinges and located on one sides of the universal wheels.
The split fixing structure comprises: the connecting piece comprises a plurality of connecting pieces with the same structure, a plurality of fastening bolts with the same structure, a plurality of shallow grooves with the same structure, a plurality of inserting pieces with the same structure, a plurality of pairs of slots with the same structure and an outer sheath;
the chassis center has been seted up logical groove, the support column bottom is located logical groove center, and is a plurality of the connection piece is installed and is arranged on leading to the inslot face and be annular array, the chassis leads to the groove on the annular array and has seted up the same shallow slot of a plurality of structure, and is a plurality of butt joint hole, a plurality of be equipped with a plurality of screw holes that match with the butt joint hole in the shallow slot, and is a plurality of fastening bolt passes a plurality of butt joint hole threaded connection is in a plurality of the screw hole is downthehole, a plurality of the same slot of a plurality of structures is seted up on the connection piece top, a plurality of inserted sheets, a plurality of are extended to support column bottom outside the inserted sheet cartridge is in a plurality of in the slot.
The supplemental stabilizing assembly comprises: a plurality of auxiliary grooves with the same structure, a rotating rod, a clamping piece, a foot seat and a pair of elastic clamping blocks with the same structure;
the chassis and the advancing grooves are provided with a plurality of auxiliary grooves with the same structure in a staggered mode, the rotary rod is installed in the auxiliary grooves, the foot seats are sleeved on the rotary rod, the clamping pieces extend out of one sides of the back portions of the foot seats, a pair of elastic clamping blocks with the same structure are installed on two sides of each auxiliary groove, and a pair of clamping grooves matched with two sides of each clamping piece are formed in the pair of elastic clamping blocks.
The ground wire assembly includes: the power connection device comprises a power connection post, a power connection bolt, a plurality of balls with the same structure, a plurality of springs with the same structure and a plurality of elastic sheets with the same structure;
the electric connecting column is arranged at the lower end of the insulating block, a mounting plane is arranged on the electric connecting column, an electric connecting hole is formed in the mounting plane, an electric connecting bolt is in threaded connection with the electric connecting hole, a plurality of grooves with the same structure are formed in the lower end of the electric connecting column, a plurality of balls are assembled in the grooves and cannot slide out of the grooves, a plurality of springs are embedded in the grooves and are matched with the balls, and a plurality of elastic pieces are arranged at the bottom end of the electric connecting column.
The power connection post is a circular truncated cone-shaped structure body made of metal, a buried steel pipe matched with the power connection post is buried underground at the installation position of the power connection post, and an annular groove matched with a plurality of balls is formed in the buried steel pipe.
And the connecting pieces are plates with Z-shaped structures, and steel plates are embedded in the inner cores of the insulating ceramic structures.
The mounting box is a cylindrical cavity structure body made of plastic materials and is in interference fit with the inner diameter of the support column.
The elastic pieces are all V-shaped structural bodies made of elastic metal materials and are arranged at the bottom ends of the conductive columns in an annular array mode.
The foot seat is of a slope structure, and anti-skidding lines are arranged on the grounding surface of the foot seat.
The movable electrostatic releaser manufactured by the technical scheme of the invention has the advantages of simple structure, convenient operation and flexible deployment, only a grounding sleeve needs to be embedded during installation, the grounding pushing structure on the grounding sleeve is matched with the ground wire assembly, so that a connected wire can be grounded only in the using process, the static releaser is supported more stably by matching with the auxiliary stabilizing assembly, and the movable structure is matched with the split fixed structure, so that when the electrostatic releaser needs to be moved, the connecting part can be quickly detached, the electrostatic releaser can be moved, the mounting speed of the electrostatic releaser is improved by matching the structures, and the electrostatic releaser can be further flexibly arranged and freely moved, the selection of the grounding point is more flexible, and the equipment utilization rate is improved.
Drawings
Fig. 1 is a schematic sectional front view of a removable electrostatic releaser of the invention.
Fig. 2 is a schematic sectional front view of a removable electrostatic releaser without installation according to the present invention.
Fig. 3 is a schematic partial top view of a removable electrostatic discharger without installation according to the present invention.
Fig. 4 is a schematic side view of the removable electrostatic releaser according to the present invention.
Fig. 5 is a schematic structural diagram of a ground wire assembly of the non-mounted movable electrostatic discharger according to the present invention.
Fig. 6 is a schematic bottom view of the split fixing structure of the non-mounted movable electrostatic discharge device according to the present invention.
Fig. 7 is a schematic top view of a split fixing structure of the non-mounted movable electrostatic releaser according to the present invention.
Fig. 8 is a partially enlarged structural schematic view of the non-mounted movable electrostatic releaser shown in fig. 1 of the present invention.
Fig. 9 is a partially enlarged structural view of the non-mounted movable electrostatic discharger shown in fig. 2 according to the present invention.
Fig. 10 is a partially enlarged structural schematic view of the non-mounted movable electrostatic releaser shown in fig. 3 of the present invention.
In the figure: 1. a support pillar; 2. a touch ball; 3. an alarm; 4. a ground line; 5. mounting a box; 6. a micro power supply; 7. disassembling the plate; 8. mounting a plate; 9. a micro-motor; 10. a nut; 11. a threaded rod; 12. a telescopic rod; 13. an insulating block; 14. a chassis; 15. inserting sheets; 16. a self-locking hinge; 17. a universal wheel; 18. a toggle sheet; 19. connecting sheets; 20. fastening a bolt; 21. an outer sheath; 22. rotating the rod; 23. a card; 24. a foot seat; 25. an elastic clamping block; 26. connecting a power post; 27. connecting a power bolt; 28. a ball bearing; 29. a spring; 30. a spring plate; 31. provided is a buried steel pipe.
Detailed Description
The invention is described in detail with reference to the accompanying drawings, and as shown in fig. 1-10, an installation-free movable electrostatic releaser comprises a support column 1, a touch ball 2, an alarm 3 and a grounding wire 4, wherein the touch ball 2 is installed at the top end of the support column 1, the alarm 3 is installed at the top end of the support column 1 and is positioned on the touch ball 2 and provided with an observation port matched with the touch ball, the grounding wire is embedded in the support column 1, a moving mechanism is arranged outside the bottom end of the support column 1, a plurality of auxiliary stabilizing components with the same structure are arranged on the moving mechanism, and an automatic grounding mechanism is arranged in the bottom end of the support column 1; the automatic grounding mechanism includes: a ground pushing structure and a ground wire assembly; the moving mechanism includes: a moving structure and a split fixing structure; the ground pushing structure is arranged at the inner bottom end of the support column 1, the ground wire assembly is connected with the ground pushing structure and is connected with a ground wire 4, the moving structure is arranged outside the bottom end of the support column 1, and the split fixing structure is connected between the bottom end of the support column 1 and the moving structure; the ground push structure includes: the device comprises a mounting box 5, a micro power supply 6, a dismounting plate 7, a mounting plate 8, a micro motor 9, a nut 10, a threaded rod 11, an expansion rod 12 and an insulating block 13; the mounting box 5 is inserted into the bottom end of the support column 1, the lower wall surface of the mounting box 5 is provided with an opening, the ground wire assembly is inserted into the lower wall surface of the mounting box 5, the micro power supply 6 is mounted at the top end of the mounting box 5, the upper wall surface of the mounting box 5 is provided with a dismounting plate 7, a mounting plate 8 is arranged in the mounting box 5 and below the micro power supply 6, the micro motor 9 is mounted on the mounting plate 8, a nut 10 is arranged in the mounting box 5 and below the micro motor 9, the threaded rod 11 is in threaded connection with the nut 10, the telescopic rod 12 is mounted on the driving end of the micro motor 9, the telescopic end of the telescopic rod 12 is connected with the threaded rod 11, and the insulating block 13 is movably mounted at the end of the threaded rod 11 and connected with the ground wire assembly; the moving structure includes: the device comprises a chassis 14, a plurality of traveling grooves with the same structure, a plurality of self-locking hinges 16 with the same structure, a plurality of universal wheels 17 with the same structure and a plurality of poking pieces 18 with the same structure; the chassis 14 is arranged outside the lower end of the support column 1, a plurality of marching grooves with the same structure are formed in the outer ring of the chassis 14, a plurality of self-locking hinges 16 are arranged in the marching grooves, a plurality of universal wheels 17 are arranged on the self-locking hinges 16, and a plurality of shifting pieces 18 are arranged on the self-locking hinges 16 and located on one side of the universal wheels 17; the split fixing structure comprises: a plurality of connecting sheets 19 with the same structure, a plurality of fastening bolts 20 with the same structure, a plurality of shallow grooves with the same structure, a plurality of inserting sheets 15 with the same structure, a plurality of pairs of slots with the same structure and an outer sheath 21; a through groove is formed in the center of the chassis 14, the bottom end of the support column 1 is located in the center of the through groove, the connecting sheets 19 are installed on the inner wall surface of the through groove and are arranged in an annular array, a plurality of shallow grooves with the same structure are formed in the annular array on the through groove of the chassis 14, a plurality of butt joint holes are formed in the bottom ends of the connecting sheets 19, a plurality of threaded holes matched with the butt joint holes are formed in the shallow grooves, a plurality of fastening bolts 20 penetrate through the butt joint holes and are connected in the threaded holes in a threaded mode, a plurality of inserting grooves with the same structure are formed in the top ends of the connecting sheets 19, a plurality of inserting pieces 15 extend out of the bottom end of the support column 1, and the inserting pieces 15 are inserted into the inserting grooves; the supplemental stabilizing assembly comprises: a plurality of auxiliary grooves with the same structure, a rotating rod 22, a clamping piece 23, a foot seat 24 and a pair of elastic clamping blocks 25 with the same structure; a plurality of auxiliary grooves with the same structure are formed in the chassis 14 in a staggered manner with the plurality of advancing grooves, the rotating rod 22 is installed in the auxiliary grooves, the foot seat 24 is sleeved on the rotating rod 22, a clamping piece 23 extends out of one side of the back of the foot seat 24, a pair of elastic clamping blocks 25 with the same structure are installed on two sides in the auxiliary grooves, and a pair of clamping grooves matched with two sides of the clamping piece 23 are formed in the pair of elastic clamping blocks 25; the ground wire assembly includes: the power connection device comprises a power connection post 26, a power connection bolt 27, a plurality of balls 28 with the same structure, a plurality of springs 29 with the same structure and a plurality of elastic sheets 30 with the same structure; the electric connecting column 26 is arranged at the lower end of the insulating block 13, an installation plane is arranged on the electric connecting column 26, an electric connecting hole is formed in the installation plane, the electric connecting bolt 27 is connected in the electric connecting hole in a threaded mode, a plurality of grooves with the same structure are formed in the lower end of the electric connecting column 26, the plurality of balls 28 are assembled in the plurality of grooves and cannot slide out of the grooves, the plurality of springs 29 are embedded in the plurality of grooves and matched with the plurality of balls 28, and the plurality of elastic sheets 30 are arranged at the bottom end of the electric connecting column 26; the power connection post 26 is a round table-shaped structure body made of metal materials, a buried steel pipe 31 matched with the power connection post is buried underground at the installation position of the power connection post, and annular grooves matched with the balls 28 are formed in the buried steel pipe 31; the connecting sheets 19 are all plates with Z-shaped structures and are insulating ceramic structures, and steel plates are embedded in inner cores of the insulating ceramic structures; the mounting box 5 is a cylindrical cavity structural body made of plastic materials and is in interference fit with the inner diameter of the support column 1; the elastic sheets 30 are all v-shaped structures made of elastic metal materials and are arranged at the bottom ends of the conductive columns in an annular array; the foot seat 24 is of a slope structure, and anti-skid grains are arranged on one surface of the foot seat which is grounded.
The touch ball is mounted at the top end of the support column, the alarm is mounted at the top end of the support column, an observation port matched with the touch ball is formed in the touch ball, the connecting wire is embedded in the support column, a moving mechanism is arranged outside the bottom end of the support column, a plurality of auxiliary stabilizing components with the same structure are arranged on the moving mechanism, and an automatic grounding mechanism is arranged in the bottom end of the support column; the automatic grounding mechanism includes: a ground pushing structure and a ground wire assembly; the moving mechanism includes: a moving structure and a split fixing structure; the ground pushing structure is arranged at the inner bottom end of the support column, the ground wire assembly is connected with the ground pushing structure and is connected with a ground wire, the moving structure is arranged outside the bottom end of the support column, and the split fixing structure is connected between the bottom end of the support column and the moving structure; ground connection propelling movement structure includes: the mounting box, the micro power supply, the dismounting plate, the mounting plate, the micro motor, the nut, the threaded rod, the telescopic rod and the insulating block; the mounting box is inserted into the bottom end of the support column, the lower wall surface of the mounting box is provided with an opening, the ground wire assembly is inserted into the lower wall surface of the mounting box, the micro power supply is mounted at the top end in the mounting box, the upper wall surface of the mounting box is provided with a dismounting plate, the mounting plate is arranged in the mounting box and below the micro power supply, the micro motor is mounted on the mounting plate, the nut is arranged in the mounting box and below the micro motor, the threaded rod is in threaded connection with the nut, the telescopic rod is mounted on the driving end of the micro motor, the telescopic end of the telescopic rod is connected with the threaded rod, and the insulating block is movably mounted at the end part of the threaded rod and connected with the ground wire assembly; this portable electrostatic discharge ware simple structure, high durability and convenient operation, it is nimble to dispose, only need bury ground connection sleeve pipe underground during the installation, through the cooperation of ground connection propelling movement structure and ground wire subassembly above that, make the electric wire only just can guarantee ground connection in the use, the supplementary firm subassembly of cooperation, it is more stable to make electrostatic discharge ware support, through moving structure and components of a whole that can function independently fixed knot structure cooperation, when the electrostatic discharge ware is moved to needs, can dismantle the connection position fast, move electrostatic discharge ware, when making the improvement of electrostatic discharge ware installation rate through above structure cooperation, further can make the electrostatic discharge ware arrange in a flexible way, remove at will, the selection of ground point is also more nimble, high plant utilization rate.
All the electrical parts in the present case are connected with the power supply adapted to the electrical parts through a wire, and an appropriate controller should be selected according to actual conditions to meet control requirements, and specific connection and control sequence should be referred to the following working principle, in which the electrical parts are electrically connected in sequence, and the detailed connection means is a known technology in the art, and the following main description of the working principle and process is omitted for describing electrical control.
The embodiment is as follows: according to the attached drawings 1-10 of the specification, the scheme is that the installation-free movable electrostatic releaser comprises a support column 1, a touch ball 2, an alarm 3 and a grounding wire 4, wherein the touch ball 2 is installed at the top end of the support column 1, the alarm 3 is installed at the top end of the support column 1, an observation port matched with the touch ball 2 is arranged on the touch ball 2, the grounding wire is embedded in the support column 1, a moving mechanism is arranged outside the bottom end of the support column 1, a plurality of auxiliary stabilizing components with the same structure are arranged on the moving mechanism, an automatic grounding mechanism is arranged in the bottom end of the support column 1, in the specific implementation process, the support column 1, the touch ball 2, the alarm 3 and the grounding wire 4 jointly form an electrostatic releaser similar to the existing structure, the working principle is the same as that of the existing electrostatic releaser, and the grounding wire 4 is arranged in the support column;
the automatic grounding mechanism includes: a ground push structure and a ground wire assembly;
the moving mechanism includes: a moving structure and a split fixing structure;
the grounding pushing structure is arranged at the inner bottom end of the support column 1, the ground wire assembly is connected with the grounding pushing structure and is connected with the ground wire 4, the moving structure is arranged outside the bottom end of the support column 1, the split fixing structure is connected between the bottom end of the support column 1 and the moving structure, in the specific implementation process, when the electrostatic releaser needs to be moved, the moving capability is provided through the moving structure, the moving structure is connected with the support column 1 through the split fixing structure, the support column 1 can move along with the moving structure, and the ground wire assembly is connected with a buried sleeve on the installation position through the grounding pushing structure, so that grounding is realized;
as can be seen from fig. 1 to 10 of the specification, the ground pushing structure includes: the mounting box 5, the micro power supply 6, the dismounting plate 7, the mounting plate 8, the micro motor 9, the nut 10, the threaded rod 11, the telescopic rod 12 and the insulating block 13 are connected and positioned as follows;
the mounting box 5 is inserted into the bottom end of the support column 1, the lower wall surface of the mounting box 5 is provided with an opening, the ground wire assembly is inserted into the lower wall surface opening of the mounting box 5, the micro power supply 6 is mounted at the top end in the mounting box 5, the upper wall surface of the mounting box 5 is provided with the dismounting plate 7, the mounting box 5 is arranged below the micro power supply 6, the micro motor 9 is mounted on the mounting plate 8, the nut 10 is arranged below the micro motor 9 in the mounting box 5, the threaded rod 11 is in threaded connection with the nut 10, the telescopic rod 12 is mounted on the driving end of the micro motor 9, the telescopic end of the telescopic rod 12 is connected with the threaded rod 11, and the insulating block 13 is movably mounted at the end part of the threaded rod 11 and connected with the ground wire assembly;
in the specific implementation process, the mounting box 5 is a cylindrical cavity structure body made of plastic and is in interference fit with the inner diameter of the support column 1, the mounting box 5 is inserted into an opening below the support column 1, the grounding wire 4 is connected into the mounting box 5, the support column 1 is aligned to the position of a buried sleeve, the micro motor 9 is started, the micro motor 9 drives the telescopic rod 12 to rotate, the telescopic rod 12 further drives the threaded rod 11 to rotate, the threaded rod 11 is rotatably engaged in the nut 10, the telescopic end of the telescopic rod 12 is linearly moved by the threaded rod 11, the telescopic end is extended along with the threaded rod, the grounding wire assembly is pushed out through the insulating block 13, the dismounting plate 7 on the upper wall of the mounting box 5 can be dismounted, and the micro power supply 6 is overhauled and replaced;
as can be seen from fig. 1-10 of the specification, the ground wire assembly comprises: the electric power connector comprises an electric power connection post 26, an electric power connection bolt 27, a plurality of balls 28 with the same structure, a plurality of springs 29 with the same structure and a plurality of elastic sheets 30 with the same structure, wherein the connection relation and the position relation are as follows;
the electric connecting column 26 is arranged at the lower end of the insulating block 13, an installation plane is arranged on the electric connecting column 26, an electric connecting hole is formed in the installation plane, an electric connecting bolt 27 is connected in the electric connecting hole in a threaded mode, a plurality of grooves with the same structure are formed in the lower end of the electric connecting column 26, a plurality of balls 28 are assembled in the grooves and cannot slide out of the grooves, a plurality of springs 29 are embedded in the grooves and matched with the balls 28, a plurality of elastic sheets 30 are arranged at the bottom end of the electric connecting column 26, and the elastic sheets 30 are all v-shaped structures made of elastic metal materials and are arranged at the bottom end of the electric conducting column in an annular array mode;
in the specific implementation process, the electric connecting column 26 is connected with the insulating block 13, after the electric connecting column 26 is pushed out by the insulating block 13, the end part of the grounding wire 4 is connected with the electric connecting column 26 by using an electric connecting bolt 27, the electric connecting column 26 is a circular truncated cone-shaped structural body made of a metal material, a buried steel pipe 31 matched with the electric connecting column is buried underground at the installation position of the electric connecting column 26, the buried steel pipe 31 is used as a grounding point of a buried sleeve pipe and is provided with annular grooves matched with a plurality of balls 28, after the electric connecting column 26 is inserted into the buried steel pipe 31, the end part is fixed by using an elastic sheet 30 and is communicated with the ground wire, and the annular grooves are clamped by using the balls 28 under the pushing of a spring 29, so that the electric connecting column 26 is fixed;
as can be seen from fig. 1 to 10 of the specification, the moving structure includes: the chassis 14, a plurality of marching grooves with the same structure, a plurality of self-locking hinges 16 with the same structure, a plurality of universal wheels 17 with the same structure and a plurality of poking pieces 18 with the same structure, and the connection relationship and the position relationship are as follows;
the chassis 14 is arranged outside the lower end of the support column 1, a plurality of marching grooves with the same structure are formed in the outer ring of the chassis 14, the plurality of self-locking hinges 16 are arranged in the plurality of marching grooves, the plurality of universal wheels 17 are arranged on the plurality of self-locking hinges 16, and the plurality of poking pieces 18 are arranged on the plurality of self-locking hinges 16 and are positioned on one sides of the plurality of universal wheels 17;
in the specific implementation process, the chassis 14 is connected with the support column 1 through a split fixing structure, the universal wheel 17 on the chassis 14 is in a horizontal direction in a natural state, the self-locking hinge 16 is rotated through the poking piece 18 to move the brick to 90 degrees through the self-locking hinge 16, the universal wheel 17 can be put down to be grounded, and the support column 1 can be carried on the chassis 14 to move;
as can be seen from fig. 1 to 10 of the specification, the split fixing structure includes: the connecting pieces 19 with the same structure, the fastening bolts 20 with the same structure, the shallow grooves with the same structure, the inserting pieces 15 with the same structure, the slots with the same structure and the outer sheath 21 are arranged in the following connecting relationship and position relationship;
a through groove is formed in the center of the chassis 14, the bottom end of the support column 1 is located in the center of the through groove, the connecting sheets 19 are installed on the inner wall surface of the through groove and are arranged in an annular array, a plurality of shallow grooves with the same structure are formed in the annular array on the through groove of the chassis 14, a plurality of butt joint holes are formed in the bottom ends of the connecting sheets 19, a plurality of threaded holes matched with the butt joint holes are formed in the shallow grooves, a plurality of fastening bolts 20 penetrate through the butt joint holes and are in threaded connection with the threaded holes, a plurality of inserting grooves with the same structure are formed in the top ends of the connecting sheets 19, a plurality of inserting pieces 15 extend out of the bottom end of the support column 1, and the inserting pieces 15 are inserted into the inserting grooves;
in the specific implementation process, the supporting column 1 is flush with the lower end of the chassis 14, the connecting sheet 19 is fixed on a through groove in the center of the chassis 14 through the fastening bolt 20, the inserting sheet 15 is inserted into an inserting groove in the connecting sheet 19, the supporting column 1 can be fixed between the connecting sheets 19, the outer sheath 21 is sleeved outside the connecting sheet 19, the outer sheath 21 adopts a slope structure to fasten the connecting sheet 19, the slope structure is utilized to guide dust and rainwater away to avoid polluting the connecting position, the connecting sheets 19 are plates of Z-shaped structures, steel plates are embedded in inner cores of insulating ceramic structures, the structural strength is improved while insulation is achieved, the supporting is more stable, and the mode not only meets the fixing requirement, but also has the characteristic of quick installation;
as can be seen from FIGS. 1-10 of the specification, the supplemental stabilizing assembly includes: a plurality of auxiliary grooves with the same structure, a rotating rod 22, a clamping piece 23, a foot seat 24 and a pair of elastic clamping blocks 25 with the same structure, wherein the connection relationship and the position relationship are as follows;
a plurality of auxiliary grooves with the same structure are formed in the chassis 14 in a staggered manner with the plurality of advancing grooves, the rotating rod 22 is installed in the auxiliary grooves, the foot seats 24 are sleeved on the rotating rod 22, the clamping pieces 23 extend out of one side of the back of the foot seats 24, a pair of elastic clamping blocks 25 with the same structure are installed on two sides in the auxiliary grooves, and a pair of clamping grooves matched with two sides of each clamping piece 23 are formed in each pair of elastic clamping blocks 25;
in the specific implementation process, after the grounding is completed, the clamping piece 23 on the outer side of the chassis 14 is rotated to drive the foot seat 24 to rotate on the rotating rod 22, so that the foot seat 24 becomes a parallel state, the foot seat 24 is grounded, the clamping piece 23 is clamped between the elastic clamping blocks 25, the foot seat 24 is of a slope structure, and the ground surface is provided with anti-skid grains, so that the stability during grounding is improved;
in conclusion, the movable electrostatic releaser is simple in structure, convenient to operate and flexible to deploy, a grounding sleeve only needs to be buried underground during installation, the grounding pushing structure on the grounding sleeve is matched with the ground wire assembly, a connected wire can be grounded only in the using process, the auxiliary stabilizing assembly is matched, the electrostatic releaser is supported more stably, the movable structure is matched with the split fixing structure, when the electrostatic releaser needs to be moved, the connecting part can be detached quickly, the electrostatic releaser is moved, the mounting speed of the electrostatic releaser is improved through the structural matching, the electrostatic releaser can be further flexibly arranged and freely moved, the grounding point is more flexible to select, and the equipment utilization rate is improved.
The technical solutions described above only represent the preferred technical solutions of the present invention, and some possible modifications to some parts of the technical solutions by those skilled in the art all represent the principles of the present invention, and fall within the protection scope of the present invention.
Claims (7)
1. The installation-free movable electrostatic releaser comprises a support column (1), a touch ball (2), an alarm (3) and a ground wire (4), and is characterized in that the touch ball (2) is installed at the top end of the support column (1), the alarm (3) is installed at the top end of the support column (1) and is positioned on the touch ball (2) and provided with a viewing port matched with the touch ball, the ground wire (4) is embedded in the support column (1), a moving mechanism is arranged outside the bottom end of the support column (1), a plurality of auxiliary stabilizing components with the same structure are arranged on the moving mechanism, and an automatic grounding mechanism is arranged in the bottom end of the support column (1);
the automatic grounding mechanism includes: a ground push structure and a ground wire assembly;
the moving mechanism includes: a moving structure and a split fixing structure;
the ground pushing structure is arranged at the inner bottom end of the supporting column (1), the ground wire assembly is connected with the ground pushing structure and is connected with the ground wire (4), the moving structure is arranged outside the bottom end of the supporting column (1), and the split fixing structure is connected between the bottom end of the supporting column (1) and the moving structure;
the ground push structure includes: the device comprises a mounting box (5), a micro power supply (6), a dismounting plate (7), a mounting plate (8), a micro motor (9), a nut (10), a threaded rod (11), an expansion link (12) and an insulating block (13);
the mounting box (5) is inserted into the bottom end of the support column (1), the mounting box (5) is provided with a lower wall surface opening, the ground wire assembly is inserted into the lower wall surface opening of the mounting box (5), the micro power supply (6) is mounted at the top end in the mounting box (5), a dismounting plate (7) is arranged on the upper wall surface of the mounting box (5), a mounting plate (8) is arranged in the mounting box (5) and below the micro power supply (6), the micro motor (9) is mounted on the mounting plate (8), a nut (10) is arranged in the mounting box (5) and below the micro motor (9), the threaded rod (11) is in threaded connection with the nut (10), the telescopic rod (12) is mounted on the driving end of the micro motor (9), the telescopic end of the telescopic rod (12) is connected with the threaded rod (11), and the insulating block (13) is movably mounted at the end part of the threaded rod (11) and connected with the ground wire assembly;
the ground wire assembly includes: the electric pole comprises an electric connecting post (26), an electric connecting bolt (27), a plurality of balls (28) with the same structure, a plurality of springs (29) with the same structure and a plurality of spring plates (30) with the same structure;
the electric connecting column (26) is arranged at the lower end of the insulating block (13), an installation plane is arranged on the electric connecting column (26), an electric connecting hole is formed in the installation plane, the electric connecting bolt (27) is connected in the electric connecting hole in a threaded mode, a plurality of grooves with the same structure are formed in the lower end of the electric connecting column (26), the balls (28) are assembled in the grooves and cannot slide out of the grooves, the springs (29) are embedded in the grooves and matched with the balls (28), and the elastic sheets (30) are arranged at the bottom end of the electric connecting column (26);
the moving structure includes: the device comprises a chassis (14), a plurality of traveling grooves with the same structure, a plurality of self-locking hinges (16) with the same structure, a plurality of universal wheels (17) with the same structure and a plurality of poking pieces (18) with the same structure;
the chassis (14) is arranged outside the lower end of the support column (1), a plurality of travelling grooves with the same structure are formed in the outer ring of the chassis (14), a plurality of self-locking hinges (16) are arranged in the travelling grooves, a plurality of universal wheels (17) are arranged on the self-locking hinges (16), and a plurality of poking sheets (18) are arranged on the self-locking hinges (16) and located on one sides of the universal wheels (17);
the split fixing structure comprises: a plurality of connecting sheets (19) with the same structure, a plurality of fastening bolts (20) with the same structure, a plurality of shallow grooves with the same structure, a plurality of inserting sheets (15) with the same structure, a plurality of pairs of slots with the same structure and an outer sheath (21);
logical groove has been seted up at chassis (14) center, support column (1) bottom is located logical groove center, and is a plurality of connection piece (19) are installed on leading to the inslot face and are annular array and arrange, annular array has seted up the same shallow slot of a plurality of structures on leading to groove in chassis (14), and is a plurality of butt joint hole, a plurality of are seted up to connection piece (19) bottom be equipped with a plurality of screw holes that match with the butt joint hole in the shallow slot, and is a plurality of fastening bolt (20) pass a plurality of butt joint hole threaded connection is in a plurality of in the screw hole, it is a plurality of the same slot of a plurality of structures is seted up on connection piece (19) top, a plurality of inserted sheet (15) cartridge is in a plurality of in the slot.
2. The mount-free movable electrostatic discharge as claimed in claim 1, wherein the auxiliary stabilizing assembly comprises: a plurality of auxiliary grooves with the same structure, a rotating rod (22), a clamping piece (23), a foot seat (24) and a pair of elastic clamping blocks (25) with the same structure;
the chassis (14) is provided with a plurality of auxiliary grooves with the same structure in a staggered manner with the plurality of advancing grooves, the rotary rod (22) is installed in the auxiliary grooves, the foot seats (24) are sleeved on the rotary rod (22), the clamping pieces (23) extend out of one side of the back of the foot seats (24), a pair of elastic clamping blocks (25) with the same structure are installed on two sides in the auxiliary grooves, and a pair of clamping grooves matched with two sides of the clamping pieces (23) are formed in the pair of elastic clamping blocks (25).
3. The installation-free movable electrostatic releaser of claim 1, characterized in that the electric connecting post (26) is a round table structure made of metal, and a buried steel pipe (31) matched with the electric connecting post is buried underground at the installation position, and the buried steel pipe (31) is provided with annular grooves matched with the plurality of balls (28).
4. The mounting-free movable electrostatic releaser as claimed in claim 2, characterized in that the connection pieces (19) are all plates of Z-shaped structure and are made of insulating ceramic structure with steel plates embedded in the inner core.
5. The mounting-free movable electrostatic releaser of claim 1 characterized in that the mounting box (5) is a cylindrical cavity structure made of plastic and is in interference fit with the inner diameter of the support column (1).
6. The mounting-free movable electrostatic releaser of claim 1, wherein the plurality of resilient tabs (30) are all v-shaped structures made of elastic metal and are arranged at the bottom end of the conductive post in an annular array.
7. The removable electrostatic discharge device as claimed in claim 2, wherein the foot base (24) is a slope structure and the ground side is provided with anti-slip patterns.
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CN202010528231.5A CN111787675B (en) | 2020-06-11 | 2020-06-11 | Installation-free movable electrostatic releaser |
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CN112494808B (en) * | 2020-11-26 | 2021-07-27 | 中国航空油料有限责任公司山东分公司 | Intrinsically safe multifunctional mobile electrostatic releaser |
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