Instrument operation platform for rheumatism and immunity department
Technical Field
The invention relates to the technical field of instruments for the rheumatism and immunization department, in particular to an instrument operation platform for the rheumatism and immunization department.
Background
Rheumatism can carry out the adjunctie therapy with the cup, and the unable automation that exists when adopting artifical cupping jar physiotherapy work of pulling out carries out the automation to the cupping jar and snatchs propelling movement, the manual work easily drops when taking the cupping jar, and the manual work pulls out the cupping jar and forms the skin surface bubble easily, forms negative effects to patient's treatment, and when adopting artifical vacuum cupping jar in addition, the balanced vacuum pumping dynamics between the cupping jar is difficult to the accuracy and is controlled, and artifical cupping jar of pulling out is inefficient. Although similar products exist in the market, the functions and the purposes are single, and the limited space of a physical therapy room cannot be saved in the same physical therapy room, so that an operating platform with convenient operation, high working efficiency and multiple purposes is needed.
Disclosure of Invention
Aiming at the problems, the invention provides an instrument operation platform for a rheumatism immunity department, which consists of a vacuumizing automatic cupping device, a movable lifting platform, a movable cabinet and an operation panel. The automatic cupping device and the movable lifting platform are separated and combined, the movable lifting platform can be used as other platforms when not used for cupping, and the instrument operation platform is used by medical personnel to input instruction programs through the operation panel, so that the movable trolley, the movable trolley II and the vacuumizing device can successively and continuously work. The invention has accurate work and high efficiency.
The technical scheme adopted by the invention is as follows: the utility model provides a rheumatism immunity branch of academic or vocational study is with apparatus operation platform which characterized in that: comprises an automatic vacuum-pumping cupping device, a movable lifting platform, a movable cabinet and an operation panel.
The automatic cupping device comprises a base, a vertical column, a cross beam, a first bottom plate, a first gland flange, a first shaft sleeve, a first gear, a second bottom plate, a second gland flange, a first roller, a second roller, an anti-falling frame, a first speed reduction motor, a first vertical plate, a second vertical plate, a walking body, a sliding shoe, a third roller, a fourth roller, a first guide rail, a first encoder belt, a second speed reduction motor, a third gland flange, a rib plate, a second moving trolley, a tank, a cupping clamp holder, a joint, a vacuumizing device, a third bottom plate, a third speed reduction motor, a trolley body, a fourth gland flange, a second encoder belt, a second guide rail, a first support column, a second support column, a third support column and a fourth support column, wherein the first guide rail and the cross beam are fixedly installed, the moving trolley and the first guide rail are slidably installed, the first bottom plate and the moving trolley are fixedly installed, the first gland flange, the first shaft sleeve and the first gear are rotatably mounted, the first gear and the second bottom plate are rotatably mounted, the second bottom plate and the second gland flange are fixedly mounted, the first roller, the second roller and the anti-falling frame are rotatably mounted, the anti-falling frame and the moving trolley are fixedly mounted, the first vertical plate and the moving trolley are fixedly mounted, the second vertical plate and the moving trolley are fixedly mounted, the first guide rail and the cross beam are fixedly mounted, the first encoder belt and the cross beam are fixedly mounted, the second gear motor and the second moving trolley are fixedly mounted, the third gland flange and the second moving trolley are fixedly mounted, and the rib plate and the first vertical plate are fixedly mounted to form a frame of; the second movable trolley and the movable trolley are installed in a sliding mode, the jar is installed in the cupping jar holder, and the cupping jar holder is fixedly installed through a connector and a vacuumizing device; the second movable trolley and the second guide rail are installed in a sliding mode; the vacuum pumping device is fixedly installed with the second movable trolley, the third bottom plate is fixedly installed with the second movable trolley, and the second guide rail is fixedly installed with the frame of the second movable trolley.
The movable lifting platform comprises a panel, a guide rod, a stand column, a telescopic rail, a cross column, a connecting flange, a brakeable wheel, a rib plate I, a telescopic rail base, a rib plate II, a stand column II, a guide groove, a movable beam, a gas strut base, a gas strut, a lifting rod and a movable beam II, wherein the panel and the movable beam II are fixedly installed, and the movable beam II and the lifting rod are fixedly installed and are simultaneously installed with the stand column and the stand column II in a sliding manner; stand, stand two and spreader bar fixed mounting, lifter and body mount slidable mounting, gas stay one side and body mount slidable mounting, gas stay opposite side is through gas stay base and walking beam fixed mounting, stand two and guide slot fixed mounting, stand two and spreader bar fixed mounting, gusset one and gusset two fixed mounting, gusset two and flexible track base fixed mounting, the brakeable wheel passes through flange and spreader bar fixed mounting, flexible track and flexible track base fixed mounting, stand and spreader bar fixed mounting, guide arm and walking beam, two slidable mounting of walking beam.
Furthermore, the operation panel and the automatic vacuum-pumping cupping device are fixedly arranged and used for receiving program instructions of medical staff and transmitting the instructions to the second movable trolley, the second movable trolley and the vacuum-pumping device.
Furthermore, the base is placed on the ground, the upright post and the base are fixedly installed, and the cross beam and the upright post are fixedly installed.
Furthermore, the first gear motor and the first gear wheel are rotatably arranged, and the first gear motor and the second bottom plate are fixedly arranged.
Furthermore, the walking body and the movable trolley are fixedly installed, the sliding shoe and the walking body are fixedly installed, the roller III, the roller IV and the bottom plate I are rotatably installed, and the sliding shoe and the guide rail I are slidably installed.
Furthermore, a third speed reducing motor and a third bottom plate are fixedly installed, a trolley body and a fourth gland flange are fixedly installed, and a second encoder belt and a frame of the movable trolley are fixedly installed.
Furthermore, the first support column, the second support column, the third support column, the fourth support column and the trolley body are fixedly arranged.
Furthermore, the movable cabinet comprises a top plate, a first frame, a side plate, a second frame, a first drawer, a second drawer, a third drawer, a support plate, a first door, a second support plate, a second door, a third support plate, a fourth support plate and a third door, wherein the top plate and the first frame are fixedly arranged, the side plate and the second frame are fixedly arranged, the first drawer and the second frame are slidably arranged, the second drawer and the second frame are slidably arranged, and the third drawer and the support plate are slidably arranged.
Furthermore, the first door and the first frame are rotatably installed, the second support plate is fixedly installed with the first frame and the second frame, the second door and the second support plate are rotatably installed, the third support plate is fixedly installed with the second support plate, and the third door and the first frame are rotatably installed.
The invention has the beneficial effects that: (1) the movable lifting platform adopts a split and combined structure, and can be temporarily moved to other places according to different purposes; (2) the invention adopts a split and combined structure and gives consideration to the use principle overall. The purchase of other similar medical platforms is reduced in the same medical room, so that the purchase cost is reduced; (3) the invention has convenient use, high automation degree and simple program instruction, and does not need special technical training; (4) the invention has flexible adjustment, uses the vacuum pumping operation to avoid the surface of the skin of the patient from foaming, and the vacuum pumping force among the pots is consistent, and the pots can also be arranged at a certain acupuncture point with independent vacuum pumping force; (5) the invention saves time and labor, improves the working efficiency and shortens the waiting time of the lower patient.
Drawings
Fig. 1 is a schematic view of the overall structure of the present invention.
Fig. 2 is a schematic view of the overall structure of the present invention.
FIG. 3 is a schematic structural view of the automatic cupping device for vacuum pumping of the present invention.
FIG. 4 is a schematic view of a partial structure of the automatic cupping device for vacuum pumping of the present invention.
FIG. 5 is a schematic view of a partial structure of the automatic cupping device for vacuum pumping according to the present invention.
FIG. 6 is a schematic structural view of the automatic cupping device for vacuum pumping of the present invention.
FIG. 7 is a schematic view of a partial structure of the automatic cupping device for vacuum pumping according to the present invention.
FIG. 8 is a schematic view of a fire pot holder of the automatic cupping device for vacuum pumping according to the present invention.
Fig. 9 is a schematic structural view of the movable liftable platform of the present invention.
Fig. 10 is a schematic structural view of a movable cabinet of the present invention.
Fig. 11 is a schematic view of an operation panel according to the present invention.
Reference numerals: 1-automatic cupping device with vacuum pumping; 2-moving the liftable platform; 3-a movable cabinet; 4-an operation panel; 101-a base; 102-a column; 103-a cross beam; 104-moving the trolley; 105-a first backplane; 106-gland flange one; 107-shaft sleeve I; 108-gear one; 109-a second soleplate; 110-gland flange two; 111-roller one; 112-roller two; 113-an anti-drop frame; 114-a first reduction motor; 115-a first vertical plate; 116-a second vertical plate; 117-walker; 118-a slipper; 119-roller three; 120-roller four; 121-guide rail one; 122-encoder belt one; 123-a second speed reducing motor; 124-gland flange III; 125-rib plate; 126-moving the second trolley; 127-pot; 128-a cupping jar holder; 129-linker; 130-a vacuum-pumping device; 131-bottom plate three; 132-gear motor three; 133-trolley body; 134-gland flange four; 135-encoder belt two; 136-guide rail two; 137-supporting column I; 138-support column two; 139-support column three; 140-support column four; 201-a panel; 202-a guide rod; 203-upright post; 204-telescopic rail; 205-transverse column; 206-a connecting flange; 207-brakable wheels; 208-rib plate I; 209-telescopic rail base; 210-rib plate II; 211-column two; 212-a guide slot; 213-a walking beam; 214-gas strut mount; 215-gas strut; 216 a lifter bar; 217-a traveling beam II; 301-a top plate; 302-frame one; 303-side plates; 304-frame two; 305-drawer one; 306-drawer two; 307-drawer three; 308-a support plate; 309-door one; 310-support plate two; 311-gate two; 312-support plate three; 313-support plate four; 314-door three.
Detailed Description
The present invention will be further described with reference to specific examples, which are illustrative of the invention and are not to be construed as limiting the invention.
Example (b): as shown in fig. 1 to 11, the present embodiment provides an instrument operation platform for use in the rheumatoid arthritis department, including: the automatic vacuum cupping device 1, the cupping jar 127 and the cupping jar holder 128 are installed together, the cupping jar holder 128 is fixedly installed with the vacuum device 130 through a joint 129, the vacuum device 130 is fixedly installed with the second movable trolley 126, the second movable trolley 126 is installed with the second guide rail 136 in a sliding mode, and the second movable trolley 126 is installed with the second movable trolley 104 in a sliding mode. Under the control of the program of the operation panel 4, the second movable trolley 126, the second movable trolley 104 and the vacuum pumping device 130 realize corresponding actions.
The movable lifting platform 2 is fixedly installed with a panel 201 and a second movable beam 217, the second movable beam 217 is slidably installed with a vertical column 203 and a second vertical column 211, the vertical column 203, the second vertical column 211 and a transverse column 205 are fixedly installed, and the transverse column 205 is fixedly installed through a connecting flange 206 and a brakable wheel 207. The movable lifting platform 2 can be lifted under the action of the gas stay 215, and the movable lifting platform 2 is used for bearing patients and accommodating the movable cabinet 3 and can be used independently.
The movable cabinet 3 is installed in a sliding way through the telescopic track 204 and the movable lifting platform 2. The pot and other medical supplies are convenient to take and use.
The operation panel 4, the operation panel 4 and the automatic vacuum-pumping cupping device 1 are fixedly arranged. The medical staff program instruction is received and transmitted to the second moving trolley 126, the second moving trolley 104 and the vacuum device 130.
In an alternative embodiment, as shown in fig. 3, 4, 5, 6, 7, 8, the automatic cupping device 1 includes a base 101, a vertical column 102, a cross beam 103, a mobile cart 104, a first bottom plate 105, a first capping flange 106, a first shaft sleeve 107, a first gear 108, a second bottom plate 109, a second capping flange 110, a first roller 111, a second roller 112, an anti-drop frame 113, a first decelerating motor 114, a first standing plate 115, a second standing plate 116, a traveling body 117, a sliding shoe 118, a third roller 119, a fourth roller 120, a first guide rail 121, a first encoder belt 122, a second decelerating motor 123, a third capping flange 124, a rib plate 125, a second mobile cart 126, a can 127, a cupping holder 128, a joint 129, a vacuumizing device 130, a third bottom plate 131, a third decelerating motor 132, a cart body 133, a fourth capping flange 134, a second belt encoder 135, a second guide rail 136, a first support column 137, a second support column 138, a, Support column III 139 and support column IV 140, wherein the base 101 is placed on the ground, the upright column 102 and the base 101 are fixedly installed, the cross beam 103 and the upright column 102 are fixedly installed, the guide rail I121 and the cross beam 103 are fixedly installed, the movable trolley 104 and the guide rail I121 are slidably installed, the base plate I105 and the movable trolley 104 are fixedly installed, the gland flange I106 and the base plate I105 are fixedly installed, the gland flange I106 and the shaft sleeve I107 are fixedly installed, the shaft sleeve I107 and the gear I108 are rotatably installed, the gear I108 and the base plate II 109 are rotatably installed, the base plate II 109 and the gland flange II 110 are fixedly installed, the roller I111, the roller II 112 and the anti-falling frame 113 are rotatably installed, the anti-falling frame 113 and the movable trolley 104 are fixedly installed, the upright plate I115 and the movable trolley 104 are fixedly installed, the upright plate II 116 and the movable trolley 104 are fixedly installed, the gear I114 and, the traveling body 117 and the movable trolley 104 are fixedly installed, the sliding shoe 118 and the traveling body 117 are fixedly installed, the roller three 119, the roller four 120 and the bottom plate one 105 are rotatably installed, the sliding shoe 118 and the guide rail one 121 are slidably installed, the guide rail one 121 and the cross beam 103 are fixedly installed, the encoder belt one 122 and the cross beam 103 are fixedly installed, the speed reduction motor two 123 and the movable trolley two 126 are fixedly installed, the gland flange three 124 and the movable trolley two 126 are fixedly installed, and the rib plate 125 and the vertical plate one 115 are fixedly installed to form a frame of the movable trolley 104. The second movable trolley 126 and the second movable trolley 104 are installed in a sliding mode, the tank 127 and the cupping jar holder 128 are installed together, the cupping jar holder 128 is fixedly installed with the vacuumizing device 130 through the joint 129, the vacuumizing device 130 is fixedly installed with the second movable trolley 126, the third bottom plate 131 is fixedly installed with the second movable trolley 126, the third speed reducing motor 132 is fixedly installed with the third bottom plate 131, the trolley body 133 is fixedly installed with the fourth gland flange 134, the second encoder belt 135 is fixedly installed with the frame of the movable trolley 104, the second guide rail 136 is fixedly installed with the frame of the movable trolley 104, and the first support column 137, the second support column 138, the third support column 139, the fourth support column 140 and the trolley body 133 are fixedly installed. The movable trolley 104 is transversely moved left and right, the second movable trolley 126 is moved back and forth, the movable trolley 104 and the second movable trolley 126 are coordinated to realize accurate positioning of the cans, the can holders 128 finish the operation of holding and placing the cans, and the vacuumizing device 130 and the can holders 128 are coordinated to realize the whole set of work flow of cupping.
In an alternative of this embodiment, as shown in fig. 9, the movable liftable platform 2 includes a panel 201, a guide rod 202, a vertical column 203, a telescopic rail 204, a horizontal column 205, a connecting flange 206, a brakeable wheel 207, a rib plate one 208, a telescopic rail base 209, a rib plate two 210, a vertical column two 211, a guide groove 212, a movable beam 213, an air supporting rod base 214, an air supporting rod 215, a lifting rod 216, and a movable beam two 217. The panel 201 is fixedly installed with the second movable beam 217, the second movable beam 217 is fixedly installed with the lifting rod 216, the lifting rod 216 is slidably installed with the vehicle body fixing frame, one side of the gas strut 215 is slidably installed with the vehicle body fixing frame, the other side of the gas strut 215 is fixedly installed with the movable beam 213 through the gas strut base 214, the second upright post 211 is fixedly installed with the guide groove 212, the second upright post 211 is fixedly installed with the transverse post 205, the first rib plate 208 is fixedly installed with the second rib plate 210, the second rib plate 210 is fixedly installed with the telescopic rail base 209, and the brakable wheel 207 is fixedly installed through the connecting flange 206 and the telescopic rail base 209
The transverse column 205 is fixedly arranged, the telescopic rail 204 and the telescopic rail base 209 are fixedly arranged, the upright column 203 and the transverse column 205 are fixedly arranged, and the guide rod 202, the movable beam 213 and the movable beam 217 are slidably arranged. The movable lifting platform 2 is matched with the automatic vacuum-pumping cupping device 1 to be accurately positioned, bear the movable cabinet 3 and support the body of a patient.
In an alternative embodiment, as shown in fig. 10, the movable cabinet 3 includes a top plate 301, a first frame 302, a side plate 303, a second frame 304, a first drawer 305, a second drawer 306, a third drawer 307, a support plate 308, a first door 309, a second support plate 310, a second door 311, a third support plate 312, a fourth support plate 313 and a third door 314. The top plate 301 and the first frame 302 are fixedly installed, the side plate 303 and the second frame 304 are fixedly installed, the first drawer 305 and the second frame 304 are slidably installed, the second drawer 306 and the second frame 304 are slidably installed, the third drawer 307 and the support plate 308 are slidably installed, the first door 309 and the first frame 302 are rotatably installed, the second support plate 310 and the first frame 302 and the second frame 304 are fixedly installed, the second door 311 and the second support plate 310 are rotatably installed, the third support plate 312 and the second support plate 310 are fixedly installed, and the third door 314 and the first frame 302 are rotatably installed. The movable cabinet 3 is shown to house cans and necessary medical instruments, while the drawer stores patient treatment files and the like.
In an alternative embodiment, as shown in fig. 10, the operation panel 4 and the automatic vacuum cupping device 1 are fixedly installed. The necessary tools for implementing man-machine conversation. The invention is controlled.