Medical science image inspection equipment alarm device
Technical Field
The invention relates to an alarm device for medical image checking equipment, in particular to an alarm device for medical image checking equipment.
Background
The medical image refers to a technology and a processing process for acquiring an internal tissue image of a human body or a part of the human body in a non-invasive manner for medical treatment or medical research, and the device for checking by utilizing the medical image principle is medical image checking equipment, and various emergency situations can be inevitably generated in the process of the medical image checking equipment, so that an alarm device is arranged outside the medical image checking equipment, and further, a corresponding staff can conveniently trigger the alarm device to alarm when the emergency situation of radiation leakage occurs, so that the alarm device of the medical image checking equipment appears.
At present, when the alarm device of the medical image inspection equipment is used, the alarm device has some defects and shortcomings, and the specific parts needing improvement are as follows:
1. most of the medical image inspection equipment alarm devices at present do not have the function of interlocking with a protection structure, so that the device cannot carry out emergency protection on inspected personnel in the case of an emergency with radiation leakage, and the safety protection level of the inspected personnel is reduced to a certain extent;
2. most of the medical image inspection equipment alarm devices at present do not have the function of transferring the inspected personnel, so that the inspected personnel cannot be quickly transferred after the emergency of radiation leakage occurs, and the possibility that the inspected personnel is affected by radiation is increased to a certain extent;
3. Most of the current medical image inspection equipment alarm devices do not have the functions of conveniently storing power and transmitting power, so that the power cannot be transmitted to be used in emergency, and the energy consumption of the alarm device in the use process is increased to a certain extent;
4. most of the medical image inspection equipment alarming devices at present do not have the function of adjusting the height, and further the adaptation can not be adjusted according to the conditions of different medical image inspection instruments, so that the convenience of the inspected person for inspection by using different medical image inspection equipment is affected to a certain extent;
5. most medical image examination equipment alarm devices at present do not have the auxiliary adaptation structure of cooperation altitude mixture control, and then can not adjust other structures and carry out the adaptation and use when carrying out altitude mixture control, consequently has influenced the convenience of adjusting alarm device to a certain extent.
Disclosure of Invention
The invention aims to provide an alarm device of medical image inspection equipment, which solves the problems that most of the medical image inspection equipment alarm devices in the prior art do not have the function of interlocking with a protection structure, and further can not emergently protect inspected personnel when an emergency situation of radiation leakage occurs, so that the safety protection level of the inspected personnel is reduced to a certain extent.
In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a medical science image inspection equipment alarm device, includes the guide rack, guide rack rear end fixedly connected with transfer device, transfer device sets up in high device lower extreme center department, high device upper end fixedly connected with bears the device, it is provided with power device to bear device downside center department, both ends all swing joint have bear the device around the power device, power device is connected with adaptation device upper end, adaptation device lower extreme is connected with transfer device, adaptation device lower extreme left side is connected with high device simultaneously.
As a preferable technical scheme of the invention, the height device comprises a transfer plate, damping blocks are fixedly connected to the centers of the front side surface and the rear side surface of the transfer plate, a transfer groove is formed in the center of the transfer plate, a transfer device and an adaptation device are arranged in the transfer groove, limiting sliding grooves are formed in the left end and the right end of the transfer plate, adjusting screws are arranged on the front side and the rear side of each limiting sliding groove, the rear ends of optical axes of the two adjusting screws penetrate through the rear ends of the two limiting sliding grooves respectively and are fixedly connected with a sprocket I and a sprocket II, the sprocket I is in transmission connection with the sprocket II through a transmission chain, the front ends of the two adjusting screws are fixedly connected with the rear ends of the front ends of the two adjusting screws through two synchronous rods, and the optical axes of the front ends of the two adjusting screws penetrate through the front side walls of the two limiting sliding grooves respectively and are fixedly connected with rotating discs.
As a preferable technical scheme of the invention, the screw thread directions of the four adjusting screw rods are opposite, the four adjusting screw rods are respectively connected with the lower ends of the four limiting sliding blocks in a threaded mode, the four limiting sliding blocks are respectively connected with two limiting sliding grooves in a movable mode in a pair-by-pair mode, the upper ends of the four limiting sliding blocks are respectively and fixedly connected with a hinged support II, the front end of the hinged support II is hinged with one end of the adjusting rod II, the rear end of the hinged support II is hinged with one end of the adjusting rod I, the upper ends of the adjusting rod I and the two adjusting rods II are hinged with one end of the hinged support I, the upper ends of the hinged support I are respectively and fixedly connected with a bearing device, four corners of the lower side face of the transferring plate are respectively and fixedly connected with rolling wheels, the four rolling wheels are movably connected with a transferring device, and the adjusting rod I and the adjusting rod II are arranged in a staggered mode.
As an optimized technical scheme of the invention, the bearing device comprises a separation plate, the front end and the rear end of the upper side of the separation plate are fixedly connected with blocking plates, a flexible pad is arranged between the two blocking plates, the flexible pad is fixedly connected to the upper side of the separation plate, arc-shaped sliding grooves are formed in the outer side of the two blocking plates, arc-shaped limiting columns are arranged in the two arc-shaped sliding grooves, the two ends of the arc-shaped limiting columns are fixedly connected to the upper side of the separation plate, the centers of the upper ends of the two arc-shaped limiting columns are respectively arranged in two matching holes, the two matching holes are respectively formed in two auxiliary blocks, the two auxiliary blocks are respectively fixedly connected to the centers of the upper sides of the two arc-shaped sliding grooves, the upper sides of the two auxiliary blocks are respectively fixedly connected with a closing plate, the upper sides of the two closing plates are respectively fixedly connected with a body, the body is a radiation intensity detection alarm device, power device is movably connected to the two arc-shaped sliding grooves, the opposite back ends of the two blocking plates are respectively and the two supporting shafts are respectively connected with a power device.
As a preferable technical scheme of the invention, the power device comprises a double-shaft motor, wherein the double-shaft motor is fixedly connected to the lower side surface of a separation plate through a fixing seat, output shafts at two ends of the double-shaft motor are fixedly connected with one end of a winding shaft, two driving gears are fixedly connected to the outer side surface of the other end of the winding shaft, the two driving gears are respectively in transmission connection with two driven gears, the two driven gears are respectively and fixedly connected to the outer side surface of the back end of two support rotating shafts at the right end, the back side of the two support rotating shafts at the right end is fixedly connected with a matched gear II, the matched gear II is in transmission connection with the matched gear I, four groups of left and right rotating shafts are fixedly connected with rotating plates, four groups of interlocking nails are respectively and fixedly connected to the back end of the rotating plates, the four adapting grooves are respectively and movably connected with nails, the four groups of interlocking nails are respectively and fixedly connected to the front and back side surfaces of the two driving plates, the left side surfaces of the driving plates are fixedly connected with matched strips, and the matched strips are fixedly connected to the matched strips.
As a preferable technical scheme of the invention, two opposite sides of the driving plate are fixedly connected with arc-shaped sliding blocks, four arc-shaped sliding blocks are respectively and movably connected with two arc-shaped sliding grooves, four arc-shaped sliding blocks are internally and fixedly connected with reinforcing cylinders, four reinforcing cylinders are in sealed fit with two matching holes, four reinforcing cylinders are respectively and movably connected with two arc-shaped limiting columns, two isolating cloth ends are fixedly connected to the lower side of the driving plate, the other ends of the isolating cloth are fixedly connected to the outer side surfaces of two coil shafts through winding, the front side and the rear side of the coil shafts are respectively and movably connected with four positioning seats of two groups, the four positioning seats are respectively and fixedly connected to the lower side of the isolating plate, the front side and the rear side of the coil shafts are respectively and fixedly connected with reset discs, the opposite sides of the four reset discs are respectively and fixedly connected with one end of a reset torsion spring, and the opposite sides of the four reset discs are respectively and fixedly connected with one end of the four sets of the two opposite sides of the reset torsion springs, and the two sets of the two opposite sides of the reset discs are respectively and fixedly connected to the left side and the right side of the isolating plates and the opposite sides of the two sets of the lead radiation-proof material.
According to the technical scheme, a driving wheel four is fixedly connected to the outer side face of a synchronous rod on the left side, a driving wheel three is connected to the driving wheel four through a driving belt two in a driving mode, the driving wheel three is fixedly connected to the center of an adaptation shaft, two ends of the adaptation shaft are respectively and movably connected to the centers of two auxiliary plates, the two auxiliary plates are fixedly connected to the outer side faces of the front end and the rear end of the adaptation shaft, a driving wheel two is fixedly connected to the outer side face of the front end and the rear end of the adaptation shaft, the driving wheel two is in driving connection with a driving wheel one through a driving belt two, the driving wheels two are made of elastic materials, the driving wheels two are fixedly connected to the outer side face of a connecting rotating shaft, the connecting rotating shaft two are movably connected with connecting seats, the outer side faces of the front end and the rear end of the connecting shaft are fixedly connected to the outer side faces of the two winding shafts respectively, the two connecting seats are fixedly connected to the upper side faces of a limiting rack, the front end and the rear end of the limiting shaft are fixedly connected to the two limiting racks, the two limiting racks are fixedly connected to the two lower side faces of the limiting shafts are fixedly connected to the inner side faces of the telescopic cylinder, and the two telescopic cylinders are fixedly connected to the two telescopic cylinders.
As a preferable technical scheme of the invention, the transfer device comprises a transfer shaft, two ends of the transfer shaft are respectively and movably connected to the inner walls of the left side and the right side of the transfer groove, a transfer gear is fixedly connected to the outer side face of the center of the transfer shaft, a driven gear is fixedly connected to the outer side face of the right end of the transfer shaft, a limiting gear is fixedly connected to the outer side face of the left end of the transfer shaft, a limiting rack is movably connected to the limiting gear, two accelerating gear rings are connected to the driven gear in a driving manner, the two accelerating gear rings are fixedly connected to the outer side face of a force transmission belt pulley, the force transmission belt pulley II is connected with a force transmission belt pulley I in a driving manner, the force transmission belt pulley II is movably connected to a positioning shaft, and the right end of the positioning shaft is fixedly connected to the right side wall of the transfer groove.
As a preferable technical scheme of the invention, the second force transmission belt wheel is fixedly connected to the outer side surface of the right end of the first connecting shaft, the two ends of the first connecting shaft are respectively and movably connected to the left inner wall and the right inner wall of the transfer groove, the outer side surface of the right side of the first connecting shaft is fixedly connected with a force storage rotary table, the left end of the force storage rotary table is fixedly connected with one end of a force storage torsion spring, the other end of the force storage torsion spring is fixedly connected to the left inner wall of the transfer groove, the force storage torsion spring is sleeved on the outer side of the first connecting shaft, the transfer gear is in transmission connection with a guide rack, the rear end of the guide rack is fixedly connected with a connecting plate, the front ends of the left side and the right side of the connecting plate are respectively and movably connected with two guide rails, and the two guide rails are respectively and movably connected with a group of rolling wheels.
Compared with the prior art, the invention has the beneficial effects that:
1. the invention detects the radiation leakage phenomenon by arranging two bodies, then the double-shaft motor is enabled to rotate, the double-shaft motor is enabled to support and limit through the fixing seat in the rotating process, the running stability of the double-shaft motor is ensured, the rotation of the double-shaft motor is enabled to drive the rotation of the two winding shafts, the rotation of the two winding shafts is enabled to drive the rotation of the two driving gears, the rotation of the two corresponding driven gears is enabled to drive the rotation of the corresponding two supporting rotating shafts in the rotating process of the two driving gears, the rotation of the corresponding two supporting rotating shafts is enabled to drive the rotation of the two matching gears, the rotation of the two matching gears is enabled to drive the rotation of the first matching gears in the reverse direction, the rotation of the first matching gears is enabled to support and rotate through the other two connecting rotating shafts, in the process of reversely rotating the four rotating shafts in pairs, the four rotating plates in pairs are driven to reversely rotate, in the process of reversely rotating the four rotating plates in pairs, the adaptive grooves formed at the opposite ends of the four rotating plates in pairs drive the four interlocking nails in pairs to reversely rotate synchronously, in the process of synchronously reversely rotating the four interlocking nails in pairs, the four interlocking nails in pairs drive the two driving plates to synchronously move upwards, in the process of synchronously moving the two driving plates upwards, the four arc-shaped sliding blocks in pairs drive the four reinforcing cylinders to conduct auxiliary guiding and limiting on the two arc-shaped limiting columns, in the guiding process, the connection of the driving matching frame and the matching strip forms an upper end sealing ring, in the process, the two auxiliary blocks and the two closing plates are matched to be further sealed, the two spacer cloths are moved simultaneously in the process that the two driving plates are close to each other, the two spacer cloths are moved in the process that the two spacer cloths are moved, the two coil shafts are rotated to be separated from the corresponding two coil shafts, the two coil shafts are rotated in the process that the two coil shafts are rotated, the four coil shafts are supported and positioned by the four positioning seats in a group, the four coil shafts are driven to rotate in the synchronous mode by the four coil shafts in the group of positioning seats, the rotating stability is guaranteed by overcoming the four reset torsion springs in the process, the two spacer cloths are matched with the two barrier plates in the process that the two spacer cloths are close to each other along with the two driving plates, so that the upper ends of the flexible pads of the two spacer cloths form a closed space, then the two spacer cloths are protected from radiation, the two spacer cloths are protected by the two spacer cloths, the two spacer cloths are reversely rotated by the control a double-shaft motor after the protection is finished, the four coil shafts are synchronously reset by the four reset torsion springs, the two coil shafts are driven to synchronously rotate in the opposite directions under the four coil shafts support of the four coil shafts, the four coil shafts are synchronously reset by the positioning seats, the two spacer cloths are wound and the two spacer cloths are conveniently used for being separated from the next time, and the two spacer cloths are separated from the two spacer cloths, and the two spacer cloths are separated from each other by the two spacer cloths, and have the emergency-shaft protection devices, and have the safety protection functions.
2. The invention winds two pulling ropes by arranging two winding shafts to rotate, the two pulling ropes are wound to drive two adaptive reels to move upwards, the two adaptive reels drive a connecting rotating shaft to move upwards, the connecting rotating shaft moves upwards to drive two connecting seats and two driving wheels to move upwards, the two driving wheels move upwards to achieve the aim of connecting stability through the elasticity of the two driving belts, the two connecting seats move upwards to drive a limiting rack to move upwards, the limiting rack moves upwards to drive two moving plates to move upwards, the two moving plates move upwards to limit the limiting rack through two telescopic cylinders, the two telescopic cylinders are positioned through two limiting seats to ensure the stability of the limiting rack moving upwards, the limiting rack moves upwards to separate from a limiting gear to release the positioning of a transferring shaft, the transfer shaft is loosened, the force accumulation torsion spring drives the first connecting shaft to rotate quickly through the force accumulation rotary table, the first connecting shaft rotates quickly to drive the first force transmission belt pulley to rotate, the first force transmission belt pulley rotates to drive the second force transmission belt pulley to rotate synchronously through the force transmission belt, the second force transmission belt pulley rotates to drive the driven gear to rotate quickly through the two accelerating gear rings, the driven gear rotates quickly to drive the transfer shaft to rotate stably, and then the transfer gear rotates quickly and stably, the transfer gear rotates stably to form a moving force in cooperation with the guide gear, then the transfer plate moves to a proper position through cooperation of the transfer groove, the four rolling wheels and the guide rail, then a detected person can be driven to a proper position to conveniently leave for self protection, so that the problem that most of the current medical image detection equipment alarm devices do not have the function of transferring detected persons is solved, and furthermore, the detection personnel cannot be quickly transferred after the emergency of radiation leakage, so that the problem of possibility of the influence of the radiation on the detected personnel is increased to a certain extent.
3. According to the invention, the purpose of stable alarm protection is achieved along with synchronous movement by arranging the two bodies, the transfer gear and the guide rack are matched to drive the transfer shaft to rotate in the moving process, the driven gear and the limiting gear are driven to rotate in the rotating process of the transfer shaft, the limiting rack is pushed to move upwards in the rotating process of the limiting gear to ensure the stability of the rotation of the transfer shaft, the two limiting racks are matched with the two moving plates to achieve the purpose of moving stability in the moving process, the driven gear rotates to drive the force transmission belt pulley II to rotate through the accelerating gear, the force transmission belt pulley II rotates to support the stability of the self rotation through the positioning shaft, the force transmission belt pulley II rotates to drive the force transmission belt pulley I to rotate, the connecting shaft I rotates to drive the connecting shaft to rotate, the connecting shaft I rotates to drive the force storage rotary table to rotate, and the torsion spring for storing the force in the rotating process of the force storage rotary table is used under the condition of convenience of emergency, so that the alarm device of most medical image inspection equipment does not have the functions of convenient force storage and power transmission, and the problem of transmitting the emergency power is solved in a certain degree that the alarm device is not used in the process.
4. The invention drives the corresponding adjusting screw to rotate by setting any one of the two rotating discs, the corresponding adjusting screw rotates to drive the other corresponding rear adjusting screw to rotate by the corresponding synchronizing rod, the two corresponding adjusting screw rotates to drive the rear chain wheel II to rotate, the chain wheel II rotates to drive the chain wheel I to rotate by the transmission chain, the chain wheel I rotates to drive the corresponding other rear adjusting screw to rotate, the other rear adjusting screw rotates to drive the other front adjusting screw to rotate by the other synchronizing rod, then the two adjusting screws at the front side are matched with the two adjusting screws at the rear side to drive the four limiting slide blocks in pairs to have the trend of approaching or separating from each other, the four limiting slide blocks in pairs are limited by the two limiting slide grooves in the process, the limiting slide blocks of the four groups are mutually close to or far away from each other, then the four groups of the two hinged supports of the two groups can be driven to mutually close to or far away from each other, the four groups of the two hinged supports of the two groups are mutually close to or far away from each other, the two adjusting rods are mutually close to or far away from each other, the partition plate is driven to move upwards or downwards by being matched with the four groups of the two hinged supports of the two groups, the flexible cushion and the two blocking plates can be driven to synchronously move through the partition plate, so that a detected person can be pushed to different heights, and different medical image inspection can be carried out by adapting to different medical image inspection equipment, so that the problem that most of the current medical image inspection equipment alarm devices do not have the height adjusting function and can not be adjusted and adapted according to the conditions of different medical image inspection instruments is solved, therefore, the problem of the convenience of the checked person to use different medical image checking devices for checking is affected to a certain extent.
5. According to the invention, when the left side two limiting sliding blocks are arranged to be close to each other to upwardly adjust the height of the isolation plate, the left side synchronous rod rotates to drive the driving wheel four to rotate, the driving wheel four rotates to drive the driving wheel three to synchronously rotate through the driving belt two, the driving wheel three rotates in the process of rotating forward to drive the adaptive shaft to rotate stably, the two auxiliary plates support to ensure the forward rotation stability of the adaptive shaft in the process of rotating forward, the two corresponding driving wheels two rotate forward in the process of rotating forward to drive the adaptive shaft to drive the corresponding driving wheels two, the two driving wheels two rotate forward to drive the connecting rotating shaft to rotate forward, the connecting rotating shaft rotates forward to drive the two adaptive rotating reels two pulling ropes to adapt to the normal operation of the space between the transfer plate and the isolation plate which are adjusted to be high, and meanwhile, the normal operation of the structure is avoided, so that most medical examination equipment is not matched with the height adjusting device in the process of adjusting the height of the device, and the alarm device is not convenient to adjust the height of the device.
Drawings
FIG. 1 is a schematic front perspective view of the present invention;
FIG. 2 is a schematic front perspective view of the present invention;
FIG. 3 is a schematic view of A-A cross-sectional perspective structure of the present invention;
FIG. 4 is a schematic perspective view of a carrying device according to the present invention;
FIG. 5 is a schematic view showing a B-B cross-sectional perspective structure of the present invention;
FIG. 6 is a schematic perspective view of a height device according to the present invention;
FIG. 7 is a schematic view of a C-C cross-sectional perspective structure of the present invention;
FIG. 8 is a schematic perspective view of a power plant of the present invention;
FIG. 9 is an enlarged perspective view of the present invention at D;
FIG. 10 is an enlarged perspective view of the present invention at E;
FIG. 11 is a schematic view of a F-F cross-sectional perspective structure of the present invention;
FIG. 12 is a schematic perspective view of an adapting device according to the present invention;
FIG. 13 is a schematic front perspective view of a transfer device of the present invention;
fig. 14 is a schematic side perspective view of the transfer device of the present invention.
In the figure: 1 guide rack, 2 height device, 21 damper, 22 sprocket, 23 drive chain, 24 sprocket, 25 hinge seat, 26 hinge seat, 27 adjustment lever, 28 adjustment lever, 29 transfer slot, 210 transfer plate, 211 limit slide slot, 212 limit slider, 213 adjustment screw, 214 rotary disk, 215 synchronizing lever, 216 roller wheel, 3 power device, 31 reset disk, 32 reset torsion spring, 33 positioning seat, 34 rotary plate, 35 linkage nail, 36 adaptation slot, 37 match gear, 38 match bar, 39 drive plate, 310 arc slider, 311 reinforcement cylinder, 312 match gear, 313 driven gear, 314 drive gear, 315 winding shaft, 316 match frame, 317 double shaft motor, 318 fixing seat, 319 spacer, 320 disk reel, 4 bearing device, 41 spacer plate the flexible cushion 42, the arc chute 43, the arc limiting column 44, the supporting rotating shaft 45, the closing plate 46, the body 47, the blocking plate 48, the auxiliary block 49, the matching hole 410, the 5 adapting device, the 51 pulling rope 52 adapting reel 53 connecting rotating shaft 54 connecting seat 55 driving wheel I, 56 driving belt I, 57 moving plate 58 telescopic cylinder 58, 59 limiting seat 510 assisting plate, 511 driving wheel II, 512 driving wheel III, 513 driving belt II, 514 driving wheel IV, 515 adapting shaft 516 limiting rack, 6 transferring device 61 connecting plate, 62 guiding rail, 63 transferring gear, 64 accumulating torsion spring, 65 connecting shaft I, 66 transferring belt I, 67 transferring belt, 68 accelerating gear ring, 69 transferring belt II, 610 positioning shaft 611 driven speed gear, 612 transferring shaft 613 limiting gear, 614 accumulating turntable.
Detailed Description
The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.
Referring to fig. 1-14, the present invention provides a technical solution for an alarm device of a medical image examination apparatus:
the guide rack 1 rear end fixedly connected with transfer device 6, transfer device 6 set up in high device 2 lower extreme center department, high device 2 upper end fixedly connected with bears device 4, bears device 4 downside center department and is provided with power device 3, the equal swing joint in both ends bears device 4 around the power device 3, power device 3 is connected with adaptation device 5 upper end, adaptation device 5 lower extreme is connected with transfer device 6, adaptation device 5 lower extreme left side is connected with high device 2 simultaneously.
The height device 2 comprises a transfer plate 210, wherein the center of the front side and the rear side of the transfer plate 210 are fixedly connected with damping blocks 21, further damping is carried out after the transfer plate is moved to a proper position, further discomfort of a detected person caused by overlarge vibration is avoided, a transfer groove 29 is formed in the center of the transfer plate 210, a transfer device 6 and an adapting device 5 are arranged in the transfer groove 29, limiting sliding grooves 211 are formed in the left end and the right end of the transfer plate 210, adjusting screws 213 are arranged on the front side and the rear side of the two limiting sliding grooves 211, the rear ends of optical axes of the two adjusting screws 213 respectively penetrate through the rear ends of the two limiting sliding grooves 211 and are respectively fixedly connected with a sprocket I22 and a sprocket II 24, the sprocket I22 is in transmission connection with the sprocket II 24 through a transmission chain 23, the front ends of the two adjusting screws 213 are fixedly connected with the rear ends of the two adjusting screws 213 through two synchronizing rods 215, the front optical axes of the two adjusting screws 213 at the front end respectively penetrate through the front side walls of the two limiting sliding grooves 211 and are fixedly connected with a rotating disc 214, the screw thread directions of the four adjusting screws 213 of the two groups are opposite, the four adjusting screws 213 of the two groups are respectively connected with the lower ends of the four limiting sliding blocks 212 in a screw thread way, the four limiting sliding blocks 212 of the two groups are respectively and movably connected with the two limiting sliding grooves 211, the upper ends of the four limiting sliding blocks 212 are fixedly connected with a second hinged support 26, the two hinged supports 26 at the front end are hinged with one end of a second adjusting rod 28, the two hinged supports 26 at the rear end are hinged with one end of a first adjusting rod 27, the upper ends of the two adjusting rods 27 and the two adjusting rods 28 are hinged with a first hinged support 25, the upper ends of the first hinged support 25 are fixedly connected with a bearing device 4, four corners of the lower side surfaces of the transferring plate 210 are fixedly connected with rolling wheels 216, the four rolling wheels 216 are movably connected with a transferring device 6, the two first adjusting rods 27 and the two second adjusting rods 28 are arranged in a staggered manner, any one of the two rotating discs 214 drives the corresponding adjusting screw 213 to rotate, the corresponding adjusting screw 213 rotates to drive the other corresponding rear adjusting screw 213 to rotate through the corresponding synchronizing rod 215, the two corresponding adjusting screws 213 rotate to drive the rear chain wheel II 24 to rotate, the chain wheel II 24 rotates to drive the chain wheel I22 through the transmission chain 23, the chain wheel I22 rotates to drive the corresponding other rear adjusting screw 213 to rotate, the other rear adjusting screw 213 rotates to drive the other front adjusting screw 213 through the other synchronizing rod 215, then the two adjusting screws 213 matched with the rear through the two adjusting screws 213 on the front side reversely drive the four limiting sliding blocks 212 in pairs to have a trend of approaching or separating each other, the limiting slide blocks 212 of the four groups are limited by the limiting slide grooves 211 in the process, so that the limiting slide blocks 212 of the four groups are close to or far away from each other, then the hinge support two 26 of the four groups are driven to be close to or far away from each other, the lower ends of the two adjusting rods 27 and the two adjusting rods 28 are driven to be far away from each other or close to each other, the two adjusting rods 27 and the two adjusting rods 28 are driven to be close to each other or far away from each other, the hinge support one 25 matched with the four groups drives the isolation plate 41 to move upwards or downwards, and the flexible pad 42 and the two blocking plates 48 can be driven to move synchronously through the isolation plate 41, so that a detected person can be pushed to different heights, and different medical image inspection devices can be adapted to perform different medical image inspection.
The bearing device 4 comprises a separation plate 41, blocking plates 48 are fixedly connected to the front end and the rear end of the upper side of the separation plate 41, a flexible pad 42 is arranged between the two blocking plates 48, the flexible pad 42 is fixedly connected to the upper side of the separation plate 41, arc-shaped sliding grooves 43 are formed in the outer side faces of the two blocking plates 48, arc-shaped limiting columns 44 are arranged in the two arc-shaped sliding grooves 43, two ends of the two arc-shaped limiting columns 44 are fixedly connected to the upper side face of the separation plate 41, the centers of the upper ends of the two arc-shaped limiting columns 44 are respectively arranged in two matching holes 410, the two matching holes 410 are respectively formed in two auxiliary blocks 49, the two auxiliary blocks 49 are respectively fixedly connected to the centers of the upper side faces of the two arc-shaped sliding grooves 43, the upper side faces of the two auxiliary blocks 49 are fixedly connected with closing plates 46, a body 47 is fixedly connected to the upper side faces of the two closing plates 46, the body 47 is a radiation intensity detection alarm device, the power device 3 is movably connected to the inner sides of the two arc-shaped sliding grooves 43, the opposite ends of the two blocking plates 48 are respectively and the two supporting shafts 45 are movably connected to the four supporting shafts 45, and the power device 3 is connected to the rotating shafts.
The power device 3 comprises a double-shaft motor 317, the double-shaft motor 317 is fixedly connected to the lower side of a partition board 41 through a fixing seat 318, output shafts at two ends of the double-shaft motor 317 are fixedly connected with one end of a winding shaft 315, driving gears 314 are fixedly connected to the outer side surfaces of the other ends of the two winding shafts 315, the two driving gears 314 are respectively connected with two driven gears 313 in a transmission mode, the two driven gears 313 are respectively fixedly connected to the outer side surfaces of the back sides of two right support rotating shafts 45, matching gears 312 are fixedly connected to the two matching gears 312, the two matching gears 312 are in transmission connection with the two matching gears 37, rotating plates 34 are fixedly connected to the outer side surfaces of the back sides of two groups of support rotating shafts 45, adapting grooves 36 are respectively formed in the back sides of two groups of rotating plates 34, interlocking nails 35 are respectively and fixedly connected to the front side surfaces and the back sides of two driving plates 39, matching strips 38 are fixedly connected to the upper side surfaces of the left driving plates 39, and the upper sides of the right driving plates 39 are fixedly connected to the matching strips 316, and the matching strips of sealing frames are fixedly connected to the sealing frames 38.
The opposite surfaces of the front side and the rear side of the two driving plates 39 are fixedly connected with arc sliding blocks 310, the four front side and the rear side of the two groups of arc sliding blocks 310 are respectively and movably connected with two arc sliding grooves 43, the four arc sliding blocks 310 are internally and fixedly connected with reinforcing cylinders 311, the four front side and the rear side of the two groups of reinforcing cylinders 311 are in sealed fit with two matching holes 410, the four front side and the rear side of the two groups of reinforcing cylinders 311 are respectively and movably connected with two arc limiting columns 44, the lower side of the two driving plates 39 is fixedly connected with one end of a spacer 319, the other end of the two spacer 319 is fixedly connected with the outer side of the two coiling shafts 320 through winding, the front side and the rear side of the two coiling shafts 320 are respectively and movably connected with four positioning seats 33 of two groups, the four positioning seats 33 are fixedly connected with the lower side of the spacer 41, the front side and the rear side of the two coiling shafts 320 are respectively and fixedly connected with reset discs 31, the opposite surfaces of the four left side and the two groups of reset discs 31 are respectively and fixedly connected with one end of reset torsion springs 32, the opposite ends of the four left and right two-by-two reset torsion springs 32 are respectively and fixedly connected to the back surfaces of the four left and right two-by-two positioning seats 33, the isolating plate 41 and the isolating cloth 319 are both composed of lead and radiation-proof materials, the rotation of the double-shaft motor 317 will drive the rotation of the two winding shafts 315, the rotation of the two winding shafts 315 will drive the rotation of the two driving gears 314, the rotation of the two driving gears 314 will drive the two corresponding driven gears 313, the rotation of the two corresponding driven gears 313 will drive the rotation of the corresponding two supporting rotating shafts 45, the rotation of the corresponding two supporting rotating shafts 45 will drive the rotation of the two matching gears 312, the rotation of the two matching gears 37 will drive the reverse rotation of the two matching gears 37, the reverse rotation of the two matching gears 37 will support the rotation through the other two supporting rotating shafts 45, in the process of reversely rotating the supporting rotating shafts 45 of the four front and rear groups, the four rotating plates 34 of the four groups are driven to reversely rotate in the two arc sliding grooves 43, in the process of reversely rotating the rotating plates 34 of the four groups, the adaptive grooves 36 formed at the opposite ends of the rotating plates 34 of the four groups drive the four groups of the left and right linking nails 35 to reversely rotate synchronously, in the process of synchronously reversely rotating the linking nails 35 of the four groups of the left and right linking nails 39, the two driving plates 39 are driven to synchronously move upwards in the process of synchronously moving upwards, the two driving plates 39 are driven to synchronously move upwards, in the process of synchronously moving upwards, the four groups of arc sliding blocks 310 are guided to rotate in the two arc sliding grooves 43, in the process of guiding, the four reinforcing cylinders 311 and the two arc limiting columns 44 are also used for auxiliary guiding and limiting, then the connection of the driving matching frame 316 and the matching strips 38 is formed into an upper end sealing ring, in the process, in addition, in the process, the two auxiliary blocks 49 are matched with the two closing plates 46 are further sealed, in the process of mutually approaching two driving the two driving plates 39, in the process of mutually closing, the two blocking cloth 319 are also driven to drive the two isolating cloth 319 to synchronously move, in the process of mutually approaching the two linking plates, in the two groups of the two flexible sealing plates, and the two groups of the two flexible sealing plates are driven to simultaneously move along with the two bending plates, the two bending shafts are driven to form a pair of the two bending limiting plates, and the two bending blocks are driven to form a pair of bending limiting ring, and the bending blocks, and the bending plate are driven to stably rotate, and the bending plate are driven to stably rotate, and the bending ring, and the bending plate are driven to a coil, and the bending shaft are driven to rotate, and the bending ring, and the bending plate are driven to a coil. Then the detected person is protected from radiation.
The outer side surface of the left side synchronizing rod 215 is fixedly connected with a driving wheel IV 514, the driving wheel IV 514 is connected with a driving wheel III 512 through a driving belt II 513 in a driving way, the driving wheel III 512 is fixedly connected at the center of the adapting shaft 515, two ends of the adapting shaft 515 are respectively movably connected at the centers of the two auxiliary plates 510, the two auxiliary plates 510 are fixedly connected on the transfer plate 210, the outer side surfaces of the front end and the rear end of the adapting shaft 515 are fixedly connected with a driving wheel II 511, the driving wheel II 511 is connected with two driving wheels I55 through a driving belt II 56 in a driving way, the two driving wheels II 511 are made of elastic materials, the two driving wheels II 511 are fixedly connected on the outer side surfaces of the connecting rotating shafts 53, the two connecting rotating shafts 53 are movably connected with connecting seats 54, the outer side surfaces of the front end and the rear end of the connecting rotating shafts 53 are fixedly connected with adapting reels 52, one ends of the two adapting reels 52 are windingly fixedly connected with pulling ropes 51, the other ends of the two pulling ropes 51 are respectively and fixedly connected to the outer side surfaces of the two winding shafts 315, the two connecting seats 54 are respectively and fixedly connected to the upper side surfaces of the limiting racks 516, the front end and the rear end of the limiting racks 516 are respectively and fixedly connected with the movable plates 57, the lower side surfaces of the two movable plates 57 are respectively and fixedly connected with the telescopic cylinders 58, the lower ends of the two telescopic cylinders 58 are respectively and fixedly connected with the limiting seats 59, the two limiting seats 59 are respectively and fixedly connected to the left inner wall of the transfer groove 29, the limiting racks 516 are movably connected with the transfer device 6, the two telescopic cylinders 58 are respectively and fixedly connected to the left inner wall of the transfer groove 29, the movable nails are respectively in a structure arrangement that the movable nails are sleeved in the ladder cylinders, the rotation of the driving wheels IV 514 drives the driving wheels III 512 to synchronously rotate positively through the driving belts 513, the driving wheels III 512 can drive the adapting shaft 515 to stably rotate positively, the supporting of the adapting shaft 515 is ensured to stably rotate positively through the two auxiliary plates 510 in the process of the adapting shaft 515 to rotate positively, the two corresponding driving wheels II 511 are driven to rotate in the process of the positive rotation of the adaptive shaft 515, the two corresponding driving wheels II 511 rotate to drive the corresponding driving wheels I55 to rotate through the driving belts I56, the connecting rotating shaft 53 is driven to rotate in the positive rotation of the driving wheels I55, the connecting rotating shaft 53 is supported and limited through the two connecting seats 54 in the positive rotation process of the connecting rotating shaft 53 to ensure the stability of the positive rotation, the connecting rotating shaft 53 rotates in the positive rotation of the adaptive reel 52 to loosen the two pulling ropes 51 to adapt to the normal operation of the space between the heightened transfer plate 210 and the isolation plate 41, and meanwhile, the interference of the structure is avoided.
The transfer device 6 comprises a transfer shaft 612, two ends of the transfer shaft 612 are respectively and movably connected to the inner walls of the left side and the right side of the transfer groove 29, a transfer gear 63 is fixedly connected to the outer side face of the center of the transfer shaft 612, a driven gear 611 is fixedly connected to the outer side face of the right end of the transfer shaft 612, the transfer gear can be stably rotated to be detected and transferred to a proper position for protection under the condition that lower torque transmission power is provided by the driven gear 611 and an accelerating gear ring 68, a limiting gear 613 is fixedly connected to the outer side face of the left end of the transfer shaft 612, a limiting rack 516 is movably connected to the limiting gear 613, two accelerating gear rings 68 are in transmission connection with two accelerating gear rings 68, the two force transmission pulleys 69 are in transmission connection with a first force transmission pulley 66 through a force transmission belt 67, the two force transmission pulleys 69 are movably connected to a positioning shaft 610, and the right end of the positioning shaft 610 is fixedly connected to the right side wall of the transfer groove 29.
The second force transmission belt wheel 69 is fixedly connected to the outer side surface of the right end of the first connecting shaft 65, two ends of the first connecting shaft 65 are respectively and movably connected to the inner walls of the left side and the right side of the transfer groove 29, the outer side surface of the right side of the first connecting shaft 65 is fixedly connected with a force storage rotary table 614, the left end of the force storage rotary table 614 is fixedly connected with one end of a force storage torsion spring 64, the other end of the force storage torsion spring 64 is fixedly connected to the inner wall of the left side of the transfer groove 29, the force storage torsion spring 64 is sleeved on the outer side of the first connecting shaft 65, the transfer gear 63 is in transmission connection with a guide rack 1, the rear end of the guide rack 1 is fixedly connected with a connecting plate 61, the front ends of the left side and the right side of the connecting plate 61 are respectively and movably connected with a left group of rolling wheels 216 and a right group of rolling wheels 62, the two adapting reels 52 move upwards to drive the connecting rotary shafts 53 to move upwards, the supporting rotary shafts 45 move upwards to drive the two connecting seats 54 and the first driving wheels 55 to move upwards, the purpose of connection stability is achieved through the elasticity of the first driving wheel 55 in the upward movement process of the first driving wheel 56, the upward movement of the first connecting seat 54 drives the limiting rack 516 to move upwards, the upward movement of the limiting rack 516 drives the two moving plates 57 to move upwards, the upward movement of the two moving plates 57 is limited through the two telescopic cylinders 58, the two telescopic cylinders 58 are positioned through the two limiting seats 59, the upward movement stability of the limiting rack 516 is further ensured, the upward movement of the limiting rack 516 is separated from the limiting gear 613 to release the positioning of the transferring shaft 612, the first power accumulating torsion spring 64 drives the first connecting shaft 65 to rotate rapidly through the power accumulating rotary table 614 after the transferring shaft 612 is released, the first connecting shaft 65 drives the first power transmitting belt pulley 66 to rotate, the first power transmitting belt pulley 66 rotates synchronously with the second power transmitting belt pulley 69 through the power transmitting belt 67, the rotation of the second force transmission belt wheel 69 drives the driven gear 611 to rotate rapidly through the two acceleration gear rings 68, the rapid rotation of the driven gear 611 drives the transfer shaft 612 to rotate stably and rapidly, the transfer gear 63 is driven to rotate stably and rapidly, the transfer gear 63 rotates stably and rapidly to form a moving force by being matched with the guide gear, then the transfer plate 210 is moved to a proper position by being matched with the transfer groove 29, the four rolling wheels 216 and the guide rail 62, and then a detected person can be driven to a proper position to conveniently leave the detected person for self protection.
The specific operation mode of the invention is as follows:
when different medical image examination equipment is needed to carry out different medical image examination, the corresponding adjusting screw 213 can be driven to rotate through any one of the two rotating discs 214, the corresponding adjusting screw 213 rotates to drive the other corresponding rear adjusting screw 213 to rotate through the corresponding synchronizing rod 215, the two corresponding adjusting screws 213 rotate to drive the rear chain wheel II 24 to rotate, the chain wheel II 24 rotates to drive the chain wheel I22 to rotate through the transmission chain 23, the chain wheel I22 rotates to drive the corresponding other rear adjusting screw 213 to rotate, the other rear adjusting screw 213 rotates to drive the other front adjusting screw 213 to rotate through the other synchronizing rod 215, then the two adjusting screws 213 at the front side are matched with the screw direction of the two adjusting screws 213 at the rear side to drive the four limiting sliders 212 in pairs to have a trend of approaching or separating each other, the limiting slide blocks 212 of the four groups are limited by the limiting slide grooves 211 in the process, so that the limiting slide blocks 212 of the four groups are close to or far away from each other, then the hinge support two 26 of the four groups are driven to be close to or far away from each other, the lower ends of the two adjusting rods 27 and 28 are driven to be far away from each other or close to each other, the two adjusting rods 27 and 28 are driven to be close to or far away from each other, the hinge support one 25 matched with the four groups can drive the isolation plate 41 to move upwards or downwards, and then the flexible pad 42 and the two blocking plates 48 can be driven to move synchronously through the isolation plate 41, so that a detected person can be pushed to different heights, and further adapt to different medical image examination equipment to carry out different medical image examination;
When the left side synchronous rod 215 rotates positively to enable the left side two limiting slide blocks 212 to approach each other to adjust the height of the isolation plate 41 upwards, the left side synchronous rod 215 rotates to drive the driving wheel four 514 to rotate, the driving wheel four 514 rotates to drive the driving wheel three 512 to synchronously rotate positively through the driving belt two 513, the driving wheel three 512 rotates positively and stably to drive the adapting shaft 515 to rotate positively, the adapting shaft 515 rotates positively to support the adapting shaft 515 through the two auxiliary plates 510 to ensure the positive rotation stability, the adapting shaft 515 rotates positively to drive the two corresponding driving wheels two 511 to rotate correspondingly, the two corresponding positive driving wheels two 511 rotate to drive the corresponding two driving wheels one 55 to rotate positively through the two driving belts one 56, the connecting rotating shaft 53 rotates positively through the two connecting seats 54 to support and limit the stability of the positive rotation, the connecting shaft 53 rotates positively and rotatably to drive the two adapting shafts 52 to loosen the spacing between the transferring plates 210 which are adjusted by the two adapting shafts 515 to rotate positively and the isolation plate 41, the two corresponding driving wheels two driving wheels one 55 rotate positively and two driving wheels one 512 to rotate reversely, the connecting shafts 53 rotate reversely to rotate reversely, the corresponding driving shafts 512 rotate reversely to rotate synchronously, and the connecting shafts 512 rotate reversely to rotate reversely and rotate synchronously through the two driving shafts 512 in the corresponding two driving wheels one 512 to rotate reversely to rotate synchronously to rotate correspondingly, the rotation of the two corresponding counter driving wheels II 511 drives the corresponding two driving wheels I55 to reversely rotate through the two driving belts I56, the reverse rotation of the two driving wheels I55 drives the connecting rotating shaft 53 to reversely rotate, the supporting limit is carried out through the two connecting seats 54 in the process of reversely rotating the connecting rotating shaft 53 to ensure the stability of the reverse rotation, and the reverse rotation of the connecting rotating shaft 53 drives the two adaptation reels 52 to reversely rotate and wind the two pulling ropes 51 to adapt to the normal operation of the interval ensuring structure between the transfer plate 210 and the isolation plate 41 which are regulated down; if the radiation leakage phenomenon is detected by the two bodies 47 when the radiation leakage occurs in the equipment during the medical image inspection process, the double-shaft motor 317 is rotated, the rotation of the double-shaft motor 317 is supported and limited by the fixing seat 318 to ensure the running stability of the double-shaft motor 317, the rotation of the double-shaft motor 317 is used for regulating the rotation of the two winding shafts 315, the rotation of the two winding shafts 315 is used for driving the rotation of the two driving gears 314, the rotation of the two driving gears 314 is used for driving the rotation of the two corresponding driven gears 313, the rotation of the two corresponding driven gears 313 is used for driving the rotation of the corresponding two supporting rotating shafts 45, the rotation of the corresponding two supporting rotating shafts 45 is used for driving the rotation of the two matching gears two 312, the reverse rotation of the two matching gears one 37 is used for supporting and rotating the two matching gears one 37 in the reverse direction through the other two supporting rotating shafts 45, the four front and back two-by-two groups of support rotating shafts 45 are driven to rotate reversely in the process of rotating the four two-by-two groups of rotating plates 34 reversely, the four front and back two-by-two groups of rotating plates 34 are driven to rotate reversely synchronously through the adapting grooves 36 formed at the opposite ends of the four front and back two-by-two groups of connecting nails 35 in the process of rotating the four front and back two-by-two groups of connecting nails 35 in the synchronous reverse direction, the two driving plates 39 are driven to move upwards synchronously in the process of moving the four driving plates 39 upwards synchronously, the four left and right two-by-two groups of arc sliding blocks 310 are driven to rotate in the two arc sliding grooves 43 in a guiding manner, auxiliary guiding and limiting are further carried out through the four reinforcing cylinders 311 and the two arc limiting columns 44 in the guiding process, then the connecting driving matching frame 316 and the matching strip 38 are connected to form an upper end sealing ring, in the process, the two auxiliary blocks 49 are matched with the two closing plates 46 to be further closed, in the process of closing the two driving plates 39, the two isolating cloths 319 are driven to move simultaneously, in the process of moving the two isolating cloths 319, the two coiling shafts 320 are separated from the corresponding two coiling shafts 320 in a rotating way, in the process of rotating the two coiling shafts 320, the four two-by-two groups of positioning seats 33 are used for supporting and positioning, in addition, the four two-by-two groups of reset coiling discs 31 are driven to synchronously rotate, in order to overcome the four two-by-two groups of reset torsion springs in the process to ensure the rotation stability, the two isolating cloths 319 are matched with the two blocking plates 48 in the process of approaching the two driving plates 39 to form a closed space at the upper end of the flexible pad 42, then the upper end of the flexible pad 42 of the detected person is formed into a radiation-proof closed environment through the isolating plates 41, then the detected person is protected from radiation, after the protection is finished, the double-shaft motor 317 is controlled to reversely rotate, and then the four reset torsion springs 32 and the four reset discs 31 can be utilized for synchronously resetting, then the two coiling shafts 320 are driven to synchronously reversely rotate and reset under the support of the four positioning seats 33 in pairs, and then the two isolating cloths 319 can be coiled to facilitate the next use and the detected person to leave; the two pull ropes 51 are wound in the process of rotating the two winding shafts 315, the two pull ropes 51 are wound to drive the two adapting reels 52 to move upwards, the two adapting reels 52 move upwards to drive the connecting rotating shaft 53 to move upwards, the supporting rotating shaft 45 moves upwards to drive the two connecting seats 54 and the two first driving wheels 55 to move upwards, the elasticity of the two first driving wheels 55 is achieved through the elasticity of the two first driving belts 56 in the process of moving upwards, the two connecting seats 54 move upwards to drive the limiting racks 516 to move upwards, the limiting racks 516 move upwards to drive the two moving plates 57 to move upwards, the two moving plates 57 move upwards to be positioned through the two telescopic cylinders 58, the two telescopic cylinders 58 move upwards to ensure the stability of the upward movement of the limiting racks 516, the upward movement of the limiting racks 516 is separated from the positioning of the limiting gears 613, the first driving force-transferring belt pulley 66 is driven by the first power-accumulating rotary table 614 to rotate fast, the first driving force-transferring belt 66 is driven by the first driving wheels 65 to rotate fast, the first driving belt pulley 66 is driven by the first driving power-accumulating rotary table 614 to drive the fast-transferring belt 69 to rotate, the two driving pulleys 69 are driven by the two driving wheels 69 to rotate fast-stably, the two driving wheels 69 are driven by the two driving wheels 69 to rotate synchronously, and the two driving wheels 63 move fast-stably, and the driving wheels are driven by the driving wheels 69 rotate to rotate, and the driving wheels are driven to rotate fast-stably, and the driving wheels are driven to rotate. Then the detected person can be driven to a proper position to conveniently leave the detected person to protect the detected person; the flexible pad 42 will bear the weight of the person to be tested and move in the course of bearing the person to be tested, and in this course, two bodies 47 will reach the purpose of steady alarm protection along with synchronous movement, and will make the cooperation of transfer gear 63 and rack guide 1 drive transfer axle 612 rotation in the course of moving, transfer axle 612 in the course of rotating will drive from gear 611 and limiting gear 613 rotation, limiting gear 516 upward movement of in the course of limiting gear 613 rotation guarantees the stability of transfer axle 612 rotation, the purpose of moving stability will be reached through the cooperation of two telescopic cylinders 58 and two movable plates 57 in the course of two limiting racks 516 upward movement, the rotation of from gear 611 will drive the rotation of power transmission pulley two 69 through two acceleration gear rings 68, the rotation of power transmission pulley two 69 will support the stability of self rotation through positioning axle 610, the rotation of power transmission pulley two 69 will drive the rotation of power transmission pulley one 66 through power transmission belt 67, the rotation of power transmission pulley one 66 will drive the rotation of connecting axle 65, the in the course of connecting axle one 65 will support limiting situation through the rotation groove, the rotation of connecting axle one 65 will drive the rotation of power storage turntable 614, the emergency torsion spring 64 will twist down in the course of making the power storage turntable 614 convenient.
In the description of the present invention, it should be understood that the orientation or positional relationship indicated is based on the orientation or positional relationship shown in the drawings, and is merely for convenience in describing the present invention and simplifying the description, and does not indicate or imply that the apparatus or element referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention.
In the present invention, unless explicitly specified and defined otherwise, for example, it may be fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; either directly or indirectly through intermediaries, or in communication with each other or in interaction with each other, unless explicitly defined otherwise, the meaning of the terms described above in this application will be understood by those of ordinary skill in the art in view of the specific circumstances.
Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.