CN109798428B - Multifunctional support frame device of image processing equipment - Google Patents
Multifunctional support frame device of image processing equipment Download PDFInfo
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- CN109798428B CN109798428B CN201910156882.3A CN201910156882A CN109798428B CN 109798428 B CN109798428 B CN 109798428B CN 201910156882 A CN201910156882 A CN 201910156882A CN 109798428 B CN109798428 B CN 109798428B
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Abstract
The invention relates to a support frame device, in particular to a multifunctional support frame device for image processing equipment, which comprises a movable damping wheel mechanism, a lifting machine body mechanism, a cutting protection mechanism, a clamping mechanism and a clamping driving tensioning mechanism, wherein the device can be stably moved, can be parked, can be changed in height, can cut off a power line, can protect the safety of equipment and the personal safety when the equipment is in short circuit, can tension a belt, can clamp the equipment, can dissipate heat of the equipment, is welded below the lifting machine body mechanism, is welded above the lifting machine body mechanism, is welded with the lifting machine body mechanism, is engaged with the clamping driving tensioning mechanism, and is partially welded, And parts are connected through bolts.
Description
Technical Field
The invention relates to a support frame device, in particular to a multifunctional support frame device of image processing equipment.
Background
The support frame of the image processing equipment is of great importance for the use of the image processing equipment, the use efficiency of the equipment can be improved by a good support frame, the convenience is improved, the traditional support frames are common supports, the functions of regulation and the like are not available, and the use is very inconvenient, so that the multifunctional support frame device of the image processing equipment is designed.
Disclosure of Invention
The invention mainly solves the technical problem of providing a multifunctional support frame device for image processing equipment, wherein the device can be stably moved, can be parked, can be changed in height, can cut off a power line, can protect the safety of equipment and personal safety when the equipment is in short circuit, can tension a belt, can clamp the equipment, and can radiate the heat of the equipment.
In order to solve the technical problems, the invention relates to a support frame device, in particular to a multifunctional support frame device for image processing equipment.
The movable damping wheel mechanism comprises a movable wheel, a movable wheel seat, a wheel shaft, a parking mechanism, a sliding seat, a sliding chute, a sliding block, a damping spring, a sliding block support, an upper spring seat and a welding seat, wherein the movable wheel is connected with the wheel shaft in a welding mode, the wheel shaft is connected with the movable wheel seat in a bearing mode, the movable wheel seat is welded below the sliding seat, the parking mechanism is welded below the sliding seat, the sliding chute is formed in the sliding seat, the sliding block is in clearance fit with the sliding chute in a matching mode, the sliding block is connected with the sliding block support in a welding mode, the sliding block support is connected with the welding seat in a welding mode, the welding seat is welded with the upper spring seat, and the damping spring is welded between the sliding seat and the upper spring seat;
the parking mechanism comprises a supporting plate, a parking plate, a screw rod disc, a parking sliding block and a T-shaped groove, wherein the parking plate is in spiral connection with the screw rod disc, the parking sliding block is in welding connection with the parking plate, the parking sliding block is in clearance fit with the T-shaped groove, and the T-shaped groove is formed in the supporting plate;
the lifting machine body mechanism comprises a chassis, a vertical tooth column mechanism, a lifting driving mechanism, a groove A, a sliding rod matching seat, a machine body, an opening and a fan, wherein the chassis is connected with the vertical tooth column mechanism in a welding mode;
the vertical tooth column mechanism comprises a tooth column body, a sliding rod and a limiting seat, and the sliding rod is welded between the tooth column body and the limiting seat;
the lifting driving mechanism comprises a base A, a pulling spring, a balance weight, a lifting gear belt pulley, a fixed shaft, a belt, a steel wire rope, a driving mechanism, a steel wire rope welding seat, a ratchet driving arm mechanism, a ratchet belt pulley and a ratchet shaft, wherein the pulling spring is welded between the base A and the balance weight, the lifting gear and the lifting gear belt pulley are welded in a connecting mode, the lifting gear belt pulley and the fixed shaft are in key connection in a connecting mode, the belt and the lifting gear belt pulley are in flexible connection, the steel wire rope is welded between the balance weight and the steel wire rope welding seat, the driving mechanism and the ratchet driving arm mechanism are in contact fit, the steel wire rope welding seat and the ratchet driving arm mechanism are welded in a connecting mode, the ratchet driving arm mechanism and the ratchet wheel are in contact fit, and, the connection mode of the ratchet wheel belt pulley and the belt is flexible connection, and the connection mode of the ratchet wheel shaft and the ratchet wheel belt pulley is welding;
the driving mechanism comprises a driving motor and a cam, and the driving motor is connected with the cam;
the ratchet driving arm mechanism comprises a driving arm body, a driving arm shaft, a pushing arm, hinged seats, a spring A and a clamping arm, wherein the driving arm body is connected with the driving arm shaft in an expansion sleeve mode, the pushing arm is hinged with the driving arm body, one hinged seat is hinged with the pushing arm, the other hinged seat is hinged with the clamping arm, the spring A is welded between the two hinged seats, and the clamping arm is hinged with the driving arm body;
the cutting protection mechanism comprises a spring cavity, a cutting spring, a pushing seat mechanism, a blocking rod support, a blocking rod mechanism, a pushing seat limiting groove, a cable through hole, a fixed cutter holder and a support plate A, wherein the cutting spring is arranged in the spring cavity;
the pushing seat mechanism comprises a cutting knife, a cutting knife support and a convex block, the cutting knife is connected with the cutting knife support in a bolt connection mode, and the cutting knife support is connected with the convex block in a welding mode;
the stop lever mechanism comprises a handle, a stop block and a stop lever, and the stop block is welded between the handle and the stop lever;
the clamping mechanism comprises a slideway rail mechanism and an equipment clamping mechanism, and the equipment clamping mechanism is welded above the slideway rail mechanism;
the slideway track mechanism comprises a track support, a safety spring seat, a track groove, a convex block A and a rack block, wherein the safety spring is connected with the safety spring seat in a welding mode, the safety spring seat is in clearance fit with the track groove, the track groove is formed in the track support, the convex block A is in sliding connection with the track groove, and the convex block A is connected with the rack block in a welding mode;
the equipment clamping mechanism comprises a T-shaped seat, a clamping block groove, a clamping limiting slide block support, a clamping spring, a clamping seat A, a welding seat A and a limiting slide rod, wherein the T-shaped seat is positioned below the clamping block;
the clamping driving tensioning mechanism comprises a stay wire motor, a stay wire wheel, a driving steel wire rope, a reversing wheel, a tensioning wheel seat mechanism, a tensioning wheel, a driving belt, a clamping gear belt pulley, a clamping gear shaft, a moving motor belt pulley and a moving motor, wherein the stay wire motor is connected with the stay wire wheel in an expansion sleeve manner, the stay wire wheel is connected with the driving steel wire rope in a welding manner, the reversing wheel is connected with the driving steel wire rope in a flexible manner, the tensioning wheel seat mechanism is connected with the reversing wheel in a welding manner, the tensioning wheel is positioned above the tensioning wheel seat mechanism, the tensioning wheel is connected with the driving belt in a flexible manner, the driving belt is connected with the clamping gear belt pulley in a flexible manner, the clamping gear is connected with the clamping gear belt pulley in a welding manner, the clamping gear shaft is connected with the clamping gear in a key connection manner, and the driving belt, the connection mode of the mobile motor and the mobile motor belt pulley is expansion sleeve connection;
the tensioning wheel seat mechanism comprises a tensioning seat, a tensioning spring, a tensioning groove, a limiting sliding groove, a limiting convex block A, a tensioning wheel support and a steel wire rope welding machine block, wherein the tensioning groove is formed in the tensioning seat, the tensioning spring is connected with the tensioning groove in a welding mode, the limiting sliding groove is formed in the tensioning seat, the limiting convex block A is matched with the limiting sliding groove in a clearance fit mode, the limiting convex block A is connected with the tensioning wheel support in a welding mode, and the steel wire rope welding machine block is connected with the tensioning wheel support in a welding mode;
the movable damping wheel mechanism is welded below the elevator body mechanism, the cut-off protection mechanism is welded above the elevator body mechanism, the clamping mechanism and the elevator body mechanism are connected in a welding mode, the clamping driving tensioning mechanism and the clamping mechanism are connected in a meshing mode, and the clamping driving tensioning mechanism and the elevator body mechanism are connected in a partially welding and partially bolt connection mode.
As a further optimization of the technical solution, the number of the movable damping wheel mechanisms of the multifunctional support frame device for image processing equipment of the present invention is four.
As a further optimization of the technical solution, the material of the lifting gear of the multifunctional supporting frame device of the image processing apparatus of the present invention is 40 Cr.
As further optimization of the technical scheme, the handle of the multifunctional support frame device for the image processing equipment is sleeved with the insulating sleeve.
The multifunctional support frame device of the image processing equipment has the beneficial effects that:
according to the multifunctional support frame device for the image processing equipment, the device can be stably moved and parked, the height of the device can be changed, the device can cut off a power line, the safety of the equipment is protected while the safety of a person is protected when the equipment is in a short circuit, a belt can be tensioned, the device can clamp the equipment, and the device can dissipate heat for the equipment.
Drawings
The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.
Fig. 1 is a schematic structural diagram of a multifunctional supporting frame device of an image processing apparatus according to the present invention.
Fig. 2 is a schematic structural diagram of a mobile damping wheel mechanism 1 of the multifunctional supporting frame device of the image processing apparatus of the present invention.
Fig. 3 is a schematic side view of the mobile damping wheel mechanism 1 of the multifunctional supporting frame device of the image processing apparatus of the present invention.
Fig. 4 is a schematic structural diagram of a parking mechanism 1-4 of the multifunctional supporting frame device of the image processing apparatus of the present invention.
Fig. 5 is a schematic side view of a parking mechanism 1-4 of the multifunctional supporting frame device of the image processing apparatus.
Fig. 6 is a schematic structural diagram of the elevator body mechanism 2 of the multifunctional supporting frame device of the image processing apparatus of the present invention.
Fig. 7 is a schematic structural diagram of a vertical tooth post mechanism 2-2 of the multifunctional supporting frame device of the image processing device.
Fig. 8 is a schematic structural diagram of a lifting driving mechanism 2-3 of a multifunctional supporting frame device of an image processing apparatus according to the present invention.
Fig. 9 is a schematic structural diagram of a driving mechanism 2-3-9 of a multifunctional supporting frame device of an image processing apparatus according to the present invention.
FIG. 10 is a schematic structural diagram of a ratchet driving arm mechanism 2-3-11 of a multifunctional supporting frame device of an image processing apparatus according to the present invention.
Fig. 11 is a schematic structural diagram of the cut-off protection mechanism 3 of the multifunctional supporting frame device of the image processing apparatus according to the present invention.
Fig. 12 is a schematic structural diagram of a pushing seat mechanism 3-3 of a multifunctional supporting frame device of an image processing apparatus according to the present invention.
Fig. 13 is a schematic structural diagram of a stop lever mechanism 3-5 of a multifunctional supporting frame device of an image processing apparatus according to the present invention.
Fig. 14 is a schematic structural diagram of a clamping mechanism 4 of a multifunctional supporting frame device of an image processing apparatus according to the present invention.
Fig. 15 is a schematic structural diagram of a slide rail mechanism 4-1 of the multifunctional supporting frame device of the image processing apparatus of the present invention.
Fig. 16 is a schematic top view of the slide rail mechanism 4-1 of the multifunctional supporting frame device of the image processing apparatus of the present invention.
Fig. 17 is a schematic structural diagram of an apparatus clamping mechanism 4-2 of the multifunctional supporting frame device of the image processing apparatus according to the present invention.
Fig. 18 is a schematic structural diagram of a clamping driving tensioning mechanism 5 of the multifunctional supporting frame device of the image processing device.
Fig. 19 is a schematic structural view of a tension pulley seat mechanism 5-5 of the multifunctional supporting frame device of the image processing apparatus according to the present invention.
In the figure: moving the damping wheel mechanism 1; a moving wheel 1-1; 1-2 of a movable wheel seat; 1-3 of a wheel shaft; 1-4 of a parking mechanism; a support plate 1-4-1; 1-4-2 of a parking plate; 1-4-3 of a screw disc; 1-4-4 of a parking slide block; 1-4-5 of a T-shaped groove; 1-5 of a sliding seat; 1-6 of a chute; 1-7 of a slide block; 1-8 parts of a damping spring; 1-9 of a slide block support; 1-10 parts of an upper spring seat; 1-11 parts of a welding seat; a lifter body mechanism 2; 2-1 of a chassis; a vertical tooth column mechanism 2-2; 2-2-1 of a tooth column body; 2-2-2 of a slide bar; 2-2-3 of a limiting seat; a lifting driving mechanism 2-3; base A2-3-1; pulling the spring 2-3-2; 2-3-3 of balance weight; 2-3-4 parts of a lifting gear; 2-3-5 of a lifting gear belt pulley; 2-3-6 parts of a fixed shaft; 2-3-7 parts of a belt; 2-3-8 parts of a steel wire rope; 2-3-9 of a driving mechanism; driving a motor 2-3-9-1; 2-3-9-2 of the cam; 2-3-10 parts of a steel wire rope welding seat; a ratchet drive arm mechanism 2-3-11; a driving arm body 2-3-11-1; a driving arm shaft 2-3-11-2; 2-3-11-3 of a push arm; the hinged seat 2-3-11-4; spring A2-3-11-5; 2-3-11-6 parts of a clamping arm; 2-3-12 parts of ratchet wheel; 2-3-13 parts of ratchet wheel belt pulley; 2-3-14 parts of ratchet shaft; slot A2-4; the slide bar is matched with the seat 2-5; a body 2-6; 2-7 of an opening; 2-8 of a fan; a cut-off protection mechanism 3; a spring cavity 3-1; cutting off the spring 3-2; a push seat mechanism 3-3; 3-3-1 parts of a cutting knife; 3-3-2 parts of cutting knife support; 3-3-3 of a bump; the gear lever supports 3-4; a gear lever mechanism 3-5; 3-5-1 of a handle; 3-5-2 of a stop block; 3-5-3 parts of a stop lever; 3-6 parts of a limit groove of the pushing seat; the cable passes through the holes 3-7; 3-8 parts of a fixed knife; 3-9 parts of a fixed cutter holder; support panel a 3-10; a clamping mechanism 4; a slideway track mechanism 4-1; the track supports 4-1-1; a safety spring 4-1-2; a safety spring seat 4-1-3; 4-1-4 of a track groove; bump A4-1-5; 4-1-6 of rack blocks; a device clamping mechanism 4-2; a T-shaped seat 4-2-1; 4-2-2 of a clamping block; 4-2-3 of a clamping block groove; clamping a limiting slide block 4-2-4; 4-2-5 of clamping limit slide block support; 4-2-6 parts of a clamping spring; the clamping seat A4-2-7; a welding seat A4-2-8; 4-2-9 of a limiting slide bar; a clamping drive tensioning mechanism 5; a pull wire motor 5-1; 5-2 of a stay wire wheel; 5-3 of a driving steel wire rope; 5-4 of a reversing wheel; a tensioning wheel seat mechanism 5-5; 5-5-1 of a tensioning seat; a tension spring 5-5-2; 5-5-3 of tensioning groove; 5-5-4 of a limiting sliding groove; a limit bump A5-5-5; 5-5-6 of a tension wheel support; 5-5-7 of a steel wire rope welding machine block; 5-6 of tension wheel; 5-7 of a driving belt; 5-8 parts of a clamping gear; clamping the gear pulley 5-9; 5-10 parts of a clamping gear shaft; moving a motor belt pulley 5-11; moving the motors 5-12.
Detailed Description
The first embodiment is as follows:
the present embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, and fig. 19, and the present invention relates to a support frame device, and more specifically to a multifunctional support frame device for an image processing apparatus, which includes a movement damper mechanism 1, an elevator body mechanism 2, a cut-off protection mechanism 3, a clamping mechanism 4, and a clamping drive tensioning mechanism 5, and is capable of moving smoothly, parking, changing the height, cutting off the power line, protecting the safety of the apparatus while protecting the safety of a person in the event of an apparatus short circuit, tensioning a belt, clamping the apparatus, and dissipating heat from the apparatus.
The movable damping wheel mechanism 1 comprises a movable wheel 1-1, a movable wheel seat 1-2, a wheel shaft 1-3, a parking mechanism 1-4, a sliding seat 1-5, a sliding groove 1-6, a sliding block 1-7, a damping spring 1-8, a sliding block support 1-9, a spring upper seat 1-10 and a welding seat 1-11, wherein the movable wheel 1-1 and the wheel shaft 1-3 are connected in a welding mode, the wheel shaft 1-3 and the movable wheel seat 1-2 are connected in a bearing mode, the movable wheel seat 1-2 is welded below the sliding seat 1-5, the parking mechanism 1-4 is welded below the sliding seat 1-5, the sliding groove 1-6 is arranged on the sliding seat 1-5, and the sliding block 1-7 and the sliding groove 1-6 are in a clearance fit mode, the connection mode of the sliding block 1-7 and the sliding block support 1-9 is welding, the connection mode of the sliding block support 1-9 and the welding seat 1-11 is welding, the connection mode of the welding seat 1-11 and the spring upper seat 1-10 is welding, the damping spring 1-8 is welded between the sliding seat 1-5 and the spring upper seat 1-10, the moving wheel 1-1 is arranged below the device and can rotate relative to the ground to realize the moving function, the damping spring 1-8 is arranged between the sliding seat 1-5 and the spring upper seat 1-10, the damping spring 1-8 can absorb vibration during moving, and the device can stably advance;
the parking mechanism 1-4 comprises a supporting plate 1-4-1, a parking plate 1-4-2, a screw rod disc 1-4-3, a parking slide block 1-4-4 and a T-shaped groove 1-4-5, the parking plate 1-4-2 is in spiral connection with the screw rod disc 1-4-3, the parking slide block 1-4-4 is in welding connection with the parking plate 1-4-2, the parking slide block 1-4-4 is in clearance fit with the T-shaped groove 1-4-5, the T-shaped groove 1-4-5 is arranged on the supporting plate 1-4-1, when a working place needs to be fixed, the screw rod disc 1-4-3 can be turned to drive the parking plates 1-4-2 to approach each other, the parking plates 1-4-2 are close to each other to clamp the moving wheel 1-1 in the middle, so that the rotation of the moving wheel 1-1 is limited, and the parking function is realized;
the lifting machine body mechanism 2 comprises a chassis 2-1, a vertical tooth column mechanism 2-2, a lifting driving mechanism 2-3, a groove A2-4, a sliding rod matching seat 2-5, a machine body 2-6, an opening 2-7 and a fan 2-8, wherein the chassis 2-1 is connected with the vertical tooth column mechanism 2-2 in a welding mode, the lifting driving mechanism 2-3 is arranged inside the machine body 2-6, the groove A2-4 is formed in a side plate of the machine body 2-6, the sliding rod matching seat 2-5 is welded on two sides of the machine body 2-6, the opening 2-7 is formed in a top plate of the machine body 2-6, and the fan 2-8 is arranged inside the machine body 2-6;
the vertical tooth column mechanism 2-2 comprises a tooth column body 2-2-1, a sliding rod 2-2-2 and a limiting seat 2-2-3, wherein the sliding rod 2-2-2 is welded between the tooth column body 2-2-1 and the limiting seat 2-2-3;
the lifting driving mechanism 2-3 comprises a base A2-3-1, a pulling spring 2-3-2, a counterweight 2-3-3, a lifting gear 2-3-4, a lifting gear belt pulley 2-3-5, a fixed shaft 2-3-6, a belt 2-3-7, a steel wire rope 2-3-8, a driving mechanism 2-3-9, a steel wire rope welding seat 2-3-10, a ratchet wheel driving arm mechanism 2-3-11, a ratchet wheel 2-3-12, a ratchet wheel belt pulley 2-3-13 and a ratchet wheel shaft 2-3-14, the pulling spring 2-3-2 is welded between the base A2-3-1 and the counterweight 2-3-3, the connecting mode of the lifting gear 2-3-4 and the lifting gear belt pulley 2-3-5 is welding, the connection mode of the lifting gear belt pulley 2-3-5 and the fixed shaft 2-3-6 is key connection, the connection mode of the belt 2-3-7 and the lifting gear belt pulley 2-3-5 is flexible connection, the steel wire rope 2-3-8 is welded between the balance weight 2-3-3 and the steel wire rope welding seat 2-3-10, the matching mode of the driving mechanism 2-3-9 and the ratchet wheel driving arm mechanism 2-3-11 is contact matching, the connection mode of the steel wire rope welding seat 2-3-10 and the ratchet wheel driving arm mechanism 2-3-11 is welding, the matching mode of the ratchet wheel driving arm mechanism 2-3-11 and the ratchet wheel 2-3-12 is contact matching, the connection mode of the ratchet wheel 2-3-12 and the ratchet wheel belt pulley 2-3-13 is welding, the connection mode of the ratchet wheel belt pulley 2-3-13 and the belt 2-3-7 is flexible connection, the connection mode of the ratchet wheel shaft 2-3-14 and the ratchet wheel belt pulley 2-3-13 is welding, the cam 2-3-9-2 is driven to rotate by the operation of the driving motor 2-3-9-1, the cam 2-3-9-2 drives the driving arm body 2-3-11-1 to move by rotating, the driving arm body 2-3-11-1 rebounds under the pulling action of the pulling spring 2-3-2, so that the driving arm body 2-3-11-1 swings back and forth, the driving arm body 2-3-11-1 swings to drive the ratchet wheel 2-3-12 to rotate unidirectionally and intermittently, the ratchet wheel 2-3-12 rotates in a unidirectional intermittent manner to drive the ratchet wheel belt pulley 2-3-13 to rotate intermittently, the ratchet wheel belt pulley 2-3-13 rotates in an intermittent manner to drive the lifting gear belt pulley 2-3-5 to rotate intermittently, the lifting gear belt pulley 2-3-5 rotates in an intermittent manner to drive the lifting gear 2-3-4 to rotate intermittently, and the lifting gear 2-3-4 rotates to move relative to the tooth column body 2-2-1, so that the machine body 2-6 is lifted upwards, and the height of the device is changed;
the driving mechanism 2-3-9 comprises a driving motor 2-3-9-1 and a cam 2-3-9-1, and the driving motor 2-3-9-1 is connected with the cam 2-3-9-1;
the ratchet wheel driving arm mechanism 2-3-11 comprises a driving arm body 2-3-11-1, a driving arm shaft 2-3-11-2, a pushing arm 2-3-11-3, a hinged seat 2-3-11-4, a spring A2-3-11-5 and a clamping arm 2-3-11-6, wherein the driving arm body 2-3-11-1 is connected with the driving arm shaft 2-3-11-2 in an expansion sleeve mode, the pushing arm 2-3-11-3 is connected with the driving arm body 2-3-11-1 in a hinged mode, one hinged seat 2-3-11-4 is connected with the pushing arm 2-3-11-3 in a hinged mode, the other hinged seat 2-3-11-4 is hinged with the clamping arm 2-3-11-6, the spring A2-3-11-5 is welded between the two hinged seats 2-3-11-4, and the clamping arm 2-3-11-6 is hinged with the driving arm body 2-3-11-1;
the cutting protection mechanism 3 comprises a spring cavity 3-1, a cutting spring 3-2, a pushing seat mechanism 3-3, a stop lever support 3-4, a stop lever mechanism 3-5, a pushing seat limiting groove 3-6, a cable through hole 3-7, a fixed knife 3-8, a fixed knife holder 3-9 and a support plate A3-10, wherein the cutting spring 3-2 is arranged inside the spring cavity 3-1, the pushing seat mechanism 3-3 is welded below the cutting spring 3-2, the pushing seat mechanism 3-3 is in clearance fit with the spring cavity 3-1, the stop lever support 3-4 is welded outside the spring cavity 3-1, the stop lever mechanism 3-5 is inserted into the stop lever support 3-4, and the pushing seat limiting grooves 3-6 are arranged on the front side and the rear side of the spring cavity 3-1, the cable is opened on a supporting plate A3-10 through a hole 3-7, the supporting plate A3-10 is welded below the spring cavity 3-1, the fixed knife 3-8 is connected with the fixed knife holder 3-9, when the power supply needs to be cut off urgently in case of short circuit, the gear lever mechanism 3-5 can be pulled by hand, the gear lever mechanism 3-5 is not used for supporting the pushing seat mechanism 3-3 after being pulled out from the gear lever support 3-4, thus, under the rebound action of the cut-off spring 3-2, the seat mechanism 3-3 is pushed to rapidly move downwards, thus, the cable is cut off in the downward movement process of the cutting knife 3-3-1, the protection device, because the handle 3-5-1 is sleeved with the insulating sleeve, people can be protected from being injured by electricity, and the safety of equipment is protected while the safety of people is protected when the equipment is in short circuit;
the pushing seat mechanism 3-3 comprises a cutting knife 3-3-1, a cutting knife support 3-3-2 and a bump 3-3-3, the cutting knife 3-3-1 is connected with the cutting knife support 3-3-2 through a bolt, and the cutting knife support 3-3-2 is connected with the bump 3-3-3 through welding;
the gear lever mechanism 3-5 comprises a handle 3-5-1, a stop block 3-5-2 and a gear lever 3-5-3, wherein the stop block 3-5-2 is welded between the handle 3-5-1 and the gear lever 3-5-3;
the clamping mechanism 4 comprises a slideway track mechanism 4-1 and an equipment clamping mechanism 4-2, and the equipment clamping mechanism 4-2 is welded above the slideway track mechanism 4-1;
the slideway track mechanism 4-1 comprises a track support 4-1-1, a safety spring 4-1-2, a safety spring seat 4-1-3, a track groove 4-1-4, a convex block A4-1-5 and a rack block 4-1-6, the safety spring 4-1-2 and the safety spring seat 4-1-3 are connected in a welding mode, the safety spring seat 4-1-3 and the track groove 4-1-4 are matched in a clearance mode, the track groove 4-1-4 is formed in the track support 4-1-1, the bump A4-1-5 and the track groove 4-1-4 are connected in a sliding mode, and the bump A4-1-5 and the rack block 4-1-6 are connected in a welding mode;
the equipment clamping mechanism 4-2 comprises a T-shaped seat 4-2-1, a clamping block 4-2-2, a clamping block groove 4-2-3, a clamping limit slide block 4-2-4, a clamping limit slide block support 4-2-5, a clamping spring 4-2-6, a clamping seat A4-2-7, a welding seat A4-2-8 and a limit slide rod 4-2-9, wherein the T-shaped seat 4-2-1 is positioned below the clamping block 4-2-2, the clamping block groove 4-2-3 is arranged on the clamping block 4-2-2, the clamping limit slide block 4-2-4 and the clamping block groove 4-2-3 are in clearance fit, the clamping limit slide block support 4-2-5 and the clamping limit slide block 4-2-4 are connected in a welding mode, the connection mode of the clamping limiting slide block support 4-2-5 and the clamping seat A4-2-7 is welding, the clamping spring 4-2-6 is welded between the clamping block 4-2-2 and the clamping seat A4-2-7, the welding seat A4-2-8 is welded above the clamping block 4-2-2, the connection mode of the limiting slide bar 4-2-9 and the welding seat A4-2-8 is welding, the moving motor belt pulley 5-11 is driven to rotate by the operation of the moving motor 5-12, the moving motor belt pulley 5-11 drives the driving belt 5-7 to move, the driving belt 5-7 drives the clamping gear belt pulley 5-9 to rotate, the clamping gear belt pulley 5-9 drives the clamping gear 5-8 to rotate by the rotation, the clamping gear 5-8 rotates to drive the rack block 4-1-6 to move, the rack block 4-1-6 moves to drive the equipment clamping mechanism 4-2 to move, the equipment clamping mechanisms 4-2 approach to each other to clamp the equipment, and a clamping spring 4-2-6 is arranged between the clamping block 4-2-2 and the clamping seat A4-2-7, so that impact on the image processing equipment cannot be caused during clamping;
the clamping driving tensioning mechanism 5 comprises a wire pulling motor 5-1, a wire pulling wheel 5-2, a driving steel wire rope 5-3, a reversing wheel 5-4, a tensioning wheel seat mechanism 5-5, a tensioning wheel 5-6, a driving belt 5-7, a clamping gear 5-8, a clamping gear belt pulley 5-9, a clamping gear shaft 5-10, a moving motor belt pulley 5-11 and a moving motor 5-12, wherein the wire pulling motor 5-1 is connected with the wire pulling wheel 5-2 in an expanding sleeve mode, the wire pulling wheel 5-2 is connected with the driving steel wire rope 5-3 in a welding mode, the reversing wheel 5-4 is connected with the driving steel wire rope 5-3 in a flexible mode, the tensioning wheel seat mechanism 5-5 is connected with the reversing wheel 5-4 in a welding mode, and the tensioning wheel 5-6 is positioned above the tensioning wheel seat mechanism 5-5, the connection mode of the tension pulley 5-6 and the driving belt 5-7 is flexible connection, the connection mode of the driving belt 5-7 and the clamping gear belt pulley 5-9 is flexible connection, the connection mode of the clamping gear 5-8 and the clamping gear belt pulley 5-9 is welding, the connection mode of the clamping gear shaft 5-10 and the clamping gear 5-8 is key connection, the connection mode of the driving belt 5-7 and the mobile motor belt pulley 5-11 is flexible connection, the connection mode of the mobile motor 5-12 and the mobile motor belt pulley 5-11 is expansion sleeve connection, the wire pulling motor 5-1 is operated to drive the wire pulling wheel 5-2 to rotate, the wire pulling wheel 5-2 rotates to drive the steel wire rope 5-3 to move, the steel wire rope 5-3 drives the tension pulley seat mechanism 5-5 to move downwards, the tensioning wheel seat mechanism 5-5 moves downwards to drive the tensioning wheel 5-6 to move downwards, and the tensioning wheel 5-6 moves downwards to tension the belt;
the tensioning wheel seat mechanism 5-5 comprises a tensioning seat 5-5-1, a tensioning spring 5-5-2, a tensioning slot 5-5-3, a limiting sliding groove 5-5-4, a limiting bump A5-5-5, a tensioning wheel support 5-5-6 and a steel wire rope welding machine block 5-5-7, wherein the tensioning slot 5-5-3 is formed on the tensioning seat 5-5-1, the connecting mode of the tensioning spring 5-5-2 and the tensioning slot 5-5-3 is welding, the limiting sliding groove 5-5-4 is formed on the tensioning seat 5-5-1, the matching mode of the limiting bump A5-5-5-5 and the limiting sliding groove 5-5-4 is clearance fit, the connecting mode of the limiting bump A5-5-5 and the tensioning wheel support 5-5-6 is welding, the connection mode of the steel wire rope welding machine block 5-5-7 and the tension wheel support 5-5-6 is welding;
the movable damping wheel mechanism 1 is welded below the elevator body mechanism 2, the cut-off protection mechanism 3 is welded above the elevator body mechanism 2, the clamping mechanism 4 and the elevator body mechanism 2 are connected in a welding mode, the clamping driving tensioning mechanism 5 and the clamping mechanism 4 are connected in a meshing mode, and the clamping driving tensioning mechanism 5 and the elevator body mechanism 2 are connected in a partial welding mode and a partial bolt connection mode.
The second embodiment is as follows:
next, the present embodiment will be described with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, and fig. 19, and the first embodiment will be further described with reference to the present embodiment in which the grip, the latissimus dorsi grip, and the arm grip are provided with the anti-slip cover.
The third concrete implementation mode:
next, the present embodiment will be described with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, and 19, and the first embodiment will be further described with reference to the number of the load seat mechanisms.
The fourth concrete implementation mode:
the present embodiment will be described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, and 19, and the first embodiment will be further described with reference to the present embodiment, in which the material of the base frame is stainless steel.
The device can move stably, the moving wheels 1-1 are arranged below the device and can rotate relative to the ground to realize the moving function, the damping springs 1-8 are arranged between the sliding seats 1-5 and the upper spring seats 1-10, and the damping springs 1-8 can absorb shock during moving to ensure that the device can move forward stably; the device can park, when a working place needs to be fixed, the screw disc 1-4-3 can be turned, the screw disc 1-4-3 rotates to drive the parking plates 1-4-2 to approach each other, the parking plates 1-4-2 approach each other to clamp the moving wheel 1-1 in the middle, so that the rotation of the moving wheel 1-1 is limited, and the parking function is realized; the device can change the height, the cam 2-3-9-2 is driven to rotate by the operation of the driving motor 2-3-9-1, the cam 2-3-9-2 rotates to drive the driving arm body 2-3-11-1 to move, the driving arm body 2-3-11-1 rebounds under the pulling action of the pulling spring 2-3-2, so that the driving arm body 2-3-11-1 swings back and forth, the driving arm body 2-3-11-1 swings to drive the ratchet wheel 2-3-12 to rotate in a unidirectional intermittent manner, the ratchet wheel 2-3-12 rotates in a unidirectional intermittent manner to drive the ratchet wheel belt pulley 2-3-13 to rotate in an intermittent manner, and the ratchet wheel belt pulley 2-3-13 rotates in an intermittent manner to drive the lifting gear belt pulley 2-3-5-2 The lifting gear belt pulley 2-3-5 rotates intermittently to drive the lifting gear 2-3-4 to rotate intermittently, and the lifting gear 2-3-4 rotates to move relative to the tooth post body 2-2-1, so that the machine body 2-6 is lifted upwards, and the height of the device is changed; the device can cut off a power line, when a short circuit needs to be cut off emergently, the gear lever mechanism 3-5 can be pulled by hand, the gear lever mechanism 3-5 is not used for supporting the pushing seat mechanism 3-3 after being pulled out from the gear lever support 3-4, so that the pushing seat mechanism 3-3 moves downwards rapidly under the resilience action of the cutting spring 3-2, a cable can be cut off in the downward movement process of the cutting knife 3-3-1, and the protection device can protect people from being injured by electricity because the handle 3-5-1 is sleeved with the insulating sleeve, and can protect the safety of equipment and personal safety when the equipment is in short circuit; the device can tension a belt, a wire pulling motor 5-1 is operated to drive a wire pulling wheel 5-2 to rotate, the wire pulling wheel 5-2 rotates to drive a driving steel wire rope 5-3 to move, the driving steel wire rope 5-3 moves to drive a tensioning wheel seat mechanism 5-5 to move downwards, the tensioning wheel seat mechanism 5-5 moves downwards to drive a tensioning wheel 5-6 to move downwards, and the tensioning wheel 5-6 moves downwards to tension the belt; the device can clamp equipment, a movable motor belt pulley 5-11 is driven to rotate by the operation of a movable motor 5-12, the movable motor belt pulley 5-11 rotates to drive a driving belt 5-7 to move, the driving belt 5-7 moves to drive a clamping gear belt pulley 5-9 to rotate, the clamping gear belt pulley 5-9 rotates to drive a clamping gear 5-8 to rotate, the clamping gear 5-8 rotates to drive a rack block 4-1-6 to move, the rack block 4-1-6 moves to drive an equipment clamping mechanism 4-2 to move, the equipment clamping mechanisms 4-2 approach each other to clamp the equipment, and a clamping spring 4-2-6 is arranged between the clamping block 4-2-2 and a clamping seat A4-2-7, when clamping is carried out, impact on the image processing equipment is avoided; the device can radiate heat of equipment, the fan 2-8 is arranged on the device, and the fan 2-8 can be operated to form positive wind power to radiate heat of the image processing equipment.
It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.
Claims (4)
1. The utility model provides a multi-functional support frame device of image processing equipment, includes removal damper wheel mechanism (1), elevator body mechanism (2), cuts off protection mechanism (3), clamping mechanism (4), presss from both sides tight drive straining device (5), its characterized in that: the movable damping wheel mechanism (1) comprises a movable wheel (1-1), a movable wheel seat (1-2), a wheel shaft (1-3), a parking mechanism (1-4), a sliding seat (1-5), a sliding chute (1-6), a sliding block (1-7), a damping spring (1-8), a sliding block support (1-9), a spring upper seat (1-10) and a welding seat (1-11), wherein the movable wheel (1-1) and the wheel shaft (1-3) are connected in a welding mode, the wheel shaft (1-3) and the movable wheel seat (1-2) are connected in a bearing mode, the movable wheel seat (1-2) is welded below the sliding seat (1-5), the parking mechanism (1-4) is welded below the sliding seat (1-5), the sliding chute (1-6) is arranged on the sliding seat (1-5), the sliding block (1-7) is in clearance fit with the sliding groove (1-6), the sliding block (1-7) is connected with the sliding block support (1-9) in a welding mode, the sliding block support (1-9) is connected with the welding seat (1-11) in a welding mode, the welding seat (1-11) is connected with the upper spring seat (1-10) in a welding mode, and the damping spring (1-8) is welded between the sliding seat (1-5) and the upper spring seat (1-10);
the parking mechanism (1-4) comprises a supporting plate (1-4-1), a parking plate (1-4-2), a screw disc (1-4-3), a parking slider (1-4-4) and a T-shaped groove (1-4-5), the parking plate (1-4-2) is in spiral connection with the screw disc (1-4-3), the parking slider (1-4-4) is in welding connection with the parking plate (1-4-2), the parking slider (1-4-4) is in clearance fit with the T-shaped groove (1-4-5), and the T-shaped groove (1-4-5) is formed in the supporting plate (1-4-1);
the elevator body mechanism (2) comprises a chassis (2-1), a vertical tooth column mechanism (2-2), an elevator driving mechanism (2-3), a slot A (2-4), a slide bar matching seat (2-5), an elevator body (2-6), an opening (2-7) and a fan (2-8), the chassis (2-1) and the vertical tooth column mechanism (2-2) are connected in a welding mode, the lifting driving mechanism (2-3) is arranged inside the machine body (2-6), the groove A (2-4) is formed in a side plate of the machine body (2-6), the sliding rod matching seat (2-5) is welded on two sides of the machine body (2-6), the opening (2-7) is formed in a top plate of the machine body (2-6), and the fan (2-8) is arranged inside the machine body (2-6);
the vertical tooth column mechanism (2-2) comprises a tooth column body (2-2-1), a sliding rod (2-2-2) and a limiting seat (2-2-3), and the sliding rod (2-2-2) is welded between the tooth column body (2-2-1) and the limiting seat (2-2-3);
the lifting driving mechanism (2-3) comprises a base A (2-3-1), a pulling spring (2-3-2), a counterweight (2-3-3), a lifting gear (2-3-4), a lifting gear belt pulley (2-3-5), a fixed shaft (2-3-6), a belt (2-3-7), a steel wire rope (2-3-8), a driving mechanism (2-3-9), a steel wire rope welding seat (2-3-10), a ratchet driving arm mechanism (2-3-11), a ratchet wheel (2-3-12), a ratchet wheel belt pulley (2-3-13) and a ratchet wheel shaft (2-3-14), wherein the pulling spring (2-3-2) is welded between the base A (2-3-1) and the counterweight (2-3-3), the connection mode of the lifting gear (2-3-4) and the lifting gear belt pulley (2-3-5) is welding, the connection mode of the lifting gear belt pulley (2-3-5) and the fixed shaft (2-3-6) is key connection, the connection mode of the belt (2-3-7) and the lifting gear belt pulley (2-3-5) is flexible connection, the steel wire rope (2-3-8) is welded between the counterweight (2-3-3) and the steel wire rope welding seat (2-3-10), the matching mode of the driving mechanism (2-3-9) and the ratchet driving arm mechanism (2-3-11) is contact matching, the connection mode of the steel wire rope welding seat (2-3-10) and the ratchet driving arm mechanism (2-3-11) is welding, the ratchet wheel driving arm mechanism (2-3-11) is in contact fit with the ratchet wheel (2-3-12), the ratchet wheel (2-3-12) is in welding connection with the ratchet wheel belt pulley (2-3-13), the ratchet wheel belt pulley (2-3-13) is in flexible connection with the belt (2-3-7), and the ratchet wheel shaft (2-3-14) is in welding connection with the ratchet wheel belt pulley (2-3-13);
the driving mechanism (2-3-9) comprises a driving motor (2-3-9-1) and a cam (2-3-9-2), and the driving motor (2-3-9-1) is connected with the cam (2-3-9-2);
the ratchet wheel driving arm mechanism (2-3-11) comprises a driving arm body (2-3-11-1), a driving arm shaft (2-3-11-2), a pushing arm (2-3-11-3), a hinged seat (2-3-11-4), a spring A (2-3-11-5) and a clamping arm (2-3-11-6), wherein the driving arm body (2-3-11-1) and the driving arm shaft (2-3-11-2) are connected in an expanding sleeve mode, the pushing arm (2-3-11-3) and the driving arm body (2-3-11-1) are connected in a hinged mode, and the hinged seat (2-3-11-4) and the pushing arm (2-3-11-3) are connected in a hinged mode, the other hinged seat (2-3-11-4) is hinged with the clamping arm (2-3-11-6), the spring A (2-3-11-5) is welded between the two hinged seats (2-3-11-4), and the clamping arm (2-3-11-6) is hinged with the driving arm body (2-3-11-1);
the cutting protection mechanism (3) comprises a spring cavity (3-1), a cutting spring (3-2), a pushing seat mechanism (3-3), a stop lever support (3-4), a stop lever mechanism (3-5), a pushing seat limiting groove (3-6), a cable through hole (3-7), a fixed cutter (3-8), a fixed cutter seat (3-9) and a support plate A (3-10), wherein the cutting spring (3-2) is arranged inside the spring cavity (3-1), the pushing seat mechanism (3-3) is welded below the cutting spring (3-2), the pushing seat mechanism (3-3) and the spring cavity (3-1) are in clearance fit, the stop lever support (3-4) is welded on the outer side of the spring cavity (3-1), and the stop lever mechanism (3-5) is inserted into the stop lever support (3-4), the pushing seat limiting grooves (3-6) are formed in the front side and the rear side of the spring cavity (3-1), the cable passing holes (3-7) are formed in the supporting plate A (3-10), the supporting plate A (3-10) is welded below the spring cavity (3-1), and the fixed cutter (3-8) is connected with the fixed cutter holder (3-9);
the pushing seat mechanism (3-3) comprises a cutting knife (3-3-1), a cutting knife support (3-3-2) and a bump (3-3-3), the cutting knife (3-3-1) is connected with the cutting knife support (3-3-2) through a bolt, and the cutting knife support (3-3-2) is connected with the bump (3-3-3) through welding;
the gear lever mechanism (3-5) comprises a handle (3-5-1), a stop block (3-5-2) and a gear lever (3-5-3), wherein the stop block (3-5-2) is welded between the handle (3-5-1) and the gear lever (3-5-3);
the clamping mechanism (4) comprises a slideway track mechanism (4-1) and an equipment clamping mechanism (4-2), and the equipment clamping mechanism (4-2) is welded above the slideway track mechanism (4-1);
the slideway track mechanism (4-1) comprises a track support (4-1-1), a safety spring (4-1-2), a safety spring seat (4-1-3), a track groove (4-1-4), a convex block A (4-1-5) and a rack block (4-1-6), wherein the safety spring (4-1-2) and the safety spring seat (4-1-3) are connected in a welding mode, the safety spring seat (4-1-3) and the track groove (4-1-4) are matched in a clearance fit mode, the track groove (4-1-4) is arranged on the track support (4-1-1), the convex block A (4-1-5) and the track groove (4-1-4) are connected in a sliding mode, the connection mode of the convex block A (4-1-5) and the rack block (4-1-6) is welding;
the equipment clamping mechanism (4-2) comprises a T-shaped seat (4-2-1), a clamping block (4-2-2), a clamping block groove (4-2-3), a clamping limit slider (4-2-4), a clamping limit slider support (4-2-5), a clamping spring (4-2-6), a clamping seat A (4-2-7), a welding seat A (4-2-8) and a limit slider (4-2-9), wherein the T-shaped seat (4-2-1) is positioned below the clamping block (4-2-2), the clamping block groove (4-2-3) is opened on the clamping block (4-2-2), the clamping limit slider (4-2-4) and the clamping block groove (4-2-3) are in clearance fit, the connection mode of the clamping limiting slide block support (4-2-5) and the clamping limiting slide block (4-2-4) is welding, the connection mode of the clamping limiting slide block support (4-2-5) and the clamping seat A (4-2-7) is welding, the clamping spring (4-2-6) is welded between the clamping block (4-2-2) and the clamping seat A (4-2-7), the welding seat A (4-2-8) is welded above the clamping block (4-2-2), and the connection mode of the limiting slide bar (4-2-9) and the welding seat A (4-2-8) is welding;
the clamping driving tensioning mechanism (5) comprises a stay wire motor (5-1), a stay wire wheel (5-2), a driving steel wire rope (5-3), a reversing wheel (5-4), a tensioning wheel seat mechanism (5-5), a tensioning wheel (5-6), a driving belt (5-7), a clamping gear (5-8), a clamping gear belt pulley (5-9), a clamping gear shaft (5-10), a moving motor belt pulley (5-11) and a moving motor (5-12), the connection mode of the stay wire motor (5-1) and the stay wire wheel (5-2) is expansion sleeve connection, the connection mode of the stay wire wheel (5-2) and the driving steel wire rope (5-3) is welding, the connection mode of the reversing wheel (5-4) and the driving steel wire rope (5-3) is flexible connection, the connecting mode of the tensioning wheel seat mechanism (5-5) and the reversing wheel (5-4) is welding, the tensioning wheel (5-6) is positioned above the tensioning wheel seat mechanism (5-5), the connecting mode of the tensioning wheel (5-6) and the driving belt (5-7) is flexible connection, the connecting mode of the driving belt (5-7) and the clamping gear belt wheel (5-9) is flexible connection, the connecting mode of the clamping gear (5-8) and the clamping gear belt wheel (5-9) is welding, the connecting mode of the clamping gear shaft (5-10) and the clamping gear (5-8) is key connection, the connecting mode of the driving belt (5-7) and the moving motor belt wheel (5-11) is flexible connection, and the connecting mode of the moving motor (5-12) and the moving motor belt wheel (5-11) is expansion sleeve connection;
the tensioning wheel seat mechanism (5-5) comprises a tensioning seat (5-5-1), a tensioning spring (5-5-2), a tensioning slot (5-5-3), a limiting sliding groove (5-5-4), a limiting lug A (5-5-5), a tensioning wheel support (5-5-6) and a steel wire rope welding machine block (5-5-7), wherein the tensioning slot (5-5-3) is formed in the tensioning seat (5-5-1), the tensioning spring (5-5-2) and the tensioning slot (5-5-3) are connected in a welding mode, the limiting sliding groove (5-5-4) is formed in the tensioning seat (5-5-1), and the limiting lug A (5-5-5) and the limiting sliding groove (5-5-4) are in clearance fit, the connection mode of the limiting convex block A (5-5-5) and the tensioning wheel support (5-5-6) is welding, and the connection mode of the steel wire rope welding machine block (5-5-7) and the tensioning wheel support (5-5-6) is welding;
the movable damping wheel mechanism (1) is welded below the elevator body mechanism (2), the cut-off protection mechanism (3) is welded above the elevator body mechanism (2), the clamping mechanism (4) and the elevator body mechanism (2) are connected in a welding mode, the clamping driving tensioning mechanism (5) and the clamping mechanism (4) are connected in a meshing mode, and the clamping driving tensioning mechanism (5) and the elevator body mechanism (2) are connected in a partially welding mode and a partially bolted mode.
2. The multifunctional supporting frame device for the image processing equipment as claimed in claim 1, wherein: the number of the movable damping wheel mechanisms (1) is four.
3. The multifunctional supporting frame device for the image processing equipment as claimed in claim 1, wherein: the material of the lifting gear (2-3-4) is 40 Cr.
4. The multifunctional supporting frame device for the image processing equipment as claimed in claim 1, wherein: the handle (3-5-1) is sleeved with an insulating sleeve.
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DE29702398U1 (en) * | 1997-02-12 | 1997-03-27 | Wiehen, Markus, 59494 Soest | Clamping device, especially of test objects |
KR100906238B1 (en) * | 2007-07-30 | 2009-07-07 | 주식회사 하이룩스라이팅 | Lift dropping prevention equipment of lighting tower |
CN102425127B (en) * | 2011-12-16 | 2014-03-26 | 白风宇 | Intelligent lift speed reducing belt |
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CN206575562U (en) * | 2017-01-20 | 2017-10-20 | 上海蓝海人力资源股份有限公司 | A kind of multimedia conferencing earphone place apparatus |
CN207731808U (en) * | 2017-11-30 | 2018-08-14 | 安徽开博电容科技有限公司 | A kind of high-voltage alternating self healing capacitor self-healing failure protective device |
CN108044270A (en) * | 2017-12-29 | 2018-05-18 | 科大天工智能装备技术(天津)有限公司 | One kind is used for the convenient and efficient 3D printing welding equipment of metallic plate |
CN207719925U (en) * | 2018-01-11 | 2018-08-10 | 王帅军 | A kind of electric machine convenient for adjusting |
CN108839278A (en) * | 2018-07-27 | 2018-11-20 | 宋文斌 | A kind of glass processing workbench |
CN108993856A (en) * | 2018-07-30 | 2018-12-14 | 杨启荣 | A kind of environmental protection multifunctional light substance recycling and processing device |
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Effective date of registration: 20200515 Address after: 314500 East floor, 143 lianhuabang, Wufeng village, Chongfu Town, Tongxiang City, Jiaxing City, Zhejiang Province Applicant after: Jiaxing Deji Machinery Design Co., Ltd Address before: Longtan District Jilin city Jilin province 132021 Hill Street No. 1 Applicant before: BEIHUA University |
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