A kind of hospital bed automatically adjusting oxygen concentration
Sickbed technical field capable of automatically adjusting oxygen concentration
[0001] The invention relates to the field of sickbeds, in particular to a sickbed capable of automatically adjusting oxygen concentration.
Background
[0002] The sickbed is a supporting device for patients to rest and care for illness. Because the illness state of some patients is different, some serious patients need to be treated in a hospital for a long time, so a sickbed is an indispensable article, some patients need to take oxygen every day due to the disease, but the illness state of the patients is different, so the times of taking oxygen every day or the concentration of each time of taking oxygen are different, if the traditional oxygen taking mode directly uses water to generate oxygen, the concentration of each time of generating oxygen is certain, if the traditional oxygen bottle is used, the adjustment can be carried out, but the common adjustment is carried out manually, in this way, if the oxygen taking mode is carried out with different concentrations for a long time, people are required to continuously adjust an air outlet valve on the oxygen bottle for a long time, the operation is troublesome, and only one air outlet of the traditional oxygen bottle is arranged, the oxygen supply sickbed can be only used by one patient, and if the situation is critical, the number of used personnel is small, and the use is inconvenient, so that in order to solve the problems, the oxygen supply sickbed which is convenient for automatically adjusting the concentration and is used by two persons is necessary.
Summary of The Invention
Technical problem
[0003] The invention aims to solve the problems and designs a sickbed capable of automatically adjusting oxygen concentration.
[0004] The technical scheme of the invention is that the sickbed capable of automatically adjusting the oxygen concentration comprises a strip-shaped patient bearing plate, wherein four corners of the lower surface of the strip-shaped patient bearing plate are fixedly connected with a support base, the lower surface of each support base is fixedly connected with a support upright, the lower end surface of each support upright is sleeved with an anti-skidding cushion block, the lower surface of the strip-shaped patient bearing plate is provided with an automatic oxygen adjusting mechanism, and the automatic oxygen adjusting mechanism comprises a group of support plates which are fixedly connected at two ends of the lower surface of the strip-shaped patient bearing plate and are matched with the strip-shaped patient bearing plate, a plurality of strip-shaped notches which are processed at one end of the lower surface of each support plate, folded fixing frames which are arranged in each strip-shaped notch and are overlapped with the edge of the upper surface of the strip-shaped patient bearing plate, a screw which is arranged on the, A second screw which is arranged on the lower surface of each folded fixing frame and between the corresponding strip-shaped openings, an inverted T-shaped supporting block which is fixedly connected with the lower surface of each supporting plate and is far away from the corresponding strip-shaped openings, a group of sliding frames which are sleeved on each inverted T-shaped supporting block, a folded supporting frame which is fixedly connected with the lower surface of each sliding frame, a strip-shaped hollow bearing box body which is arranged below the strip-shaped patient bearing plate and is connected with the two groups of corresponding folded supporting frames, two groups of supporting frames which are fixedly connected with the lower surface of the strip-shaped hollow bearing box body, a universal wheel which is arranged on the lower surface of each supporting frame and is matched with an anti-slip cushion block, a strip-shaped opening which is processed on the two opposite side surfaces of the strip-shaped hollow bearing box body, a strip, Air guide tubes arranged on two opposite side surfaces of the strip-shaped mixing box body and passing through the strip-shaped hollow bearing box body, an oxygen mask sleeved on the section of each air guide tube, a folded bearing frame which is arranged in the strip-shaped hollow bearing box body and is positioned on two sides of the strip-shaped mixing box body and matched with the corresponding strip-shaped opening, a plurality of oxygen bearing bottle bases fixedly connected on the upper surface of each folded bearing frame, an oxygen bearing bottle arranged on the upper surface of each oxygen bearing bottle base, an air inlet pipe which is arranged at the air outlet of each oxygen bearing bottle and is communicated with the interior of the strip-shaped mixing box body, an electromagnetic valve arranged on each air inlet pipe, and a pulling handle hinged on the outer side surface of each folded bearing frame, wherein a controller is embedded on the side surface of the strip-shaped hollow bearing box body, a mains supply interface is embedded on, the controller is electrically connected with an electromagnetic valve in the automatic oxygen adjusting mechanism, and the controller is electrically connected with the commercial power interface.
[0005] A set of book shape splicing frame of strip patient loading board upper surface both ends department hinged joint, one of them book two sets of swing L shape framves of the equal fixed connection of shape splicing frame upper surface one end, another book two sets of bar through-holes of shape splicing frame upper surface one end processing and two sets of swing L shape frame assorted.
[0006] The number of the strip-shaped openings is 4-6, and the strip-shaped openings are equidistantly positioned on the same horizontal line.
[0007] The number of the oxygen bearing bottle bases is 2-4, and the oxygen bearing bottle bases are uniformly distributed.
[0008] Each air duct is made of elastic transparent rubber.
[0009] And the outer side surface of each folded bearing frame is sleeved with an anti-slip ring matched with the corresponding first strip-shaped opening.
[0010] The end face of the strip-shaped patient bearing plate is fixedly connected with a vertical stretching support frame.
[0011] The vertical stretching support frame is sleeved with a soft layer.
[0012] And a group of lifting handles are fixedly connected to the lower surface of the strip-shaped patient bearing plate and far away from the vertical stretching support frame.
[0013] The upper end of the side surface of the strip-shaped hollow bearing box body is fixedly connected with a bearing basket corresponding to each oxygen mask.
Solution to problems the advantageous effects of the invention
Advantageous effects
[0014] The sickbed capable of automatically adjusting the oxygen concentration manufactured by the technical scheme of the invention is a device which is convenient to use, is convenient to move for oxygen supply, is convenient to automatically adjust the oxygen supply concentration by controlling, is convenient for two persons to supply oxygen simultaneously and is convenient to replace an oxygen bottle.
Brief description of the drawings
Drawings
[0015] Fig. 1 is a schematic structural diagram of a hospital bed capable of automatically adjusting oxygen concentration according to the present invention.
[0016] Fig. 2 is a side sectional view of a hospital bed capable of automatically adjusting oxygen concentration according to the present invention.
[0017] Fig. 3 is a partial top sectional view of a hospital bed capable of automatically adjusting oxygen concentration according to the present invention.
[0018] Fig. 4 is a bottom view of a hospital bed capable of automatically adjusting oxygen concentration according to the present invention.
[0019] Fig. 5 is a top view of a hospital bed capable of automatically adjusting oxygen concentration according to the present invention.
[0020] In the figure, 1, a strip-shaped patient carrying plate; 2. A support base; 3. Supporting the upright post; 4. An anti-skid cushion block; 5. A support plate; 6. A fold-shaped fixing frame; 7. A first screw; 8. A second screw; 9. An inverted T-shaped support block; 10. A carriage; 11. A fold-shaped support frame; 12. A strip-shaped hollow bearing box body; 13. A support frame; 14. A universal wheel; 15. A strip-shaped mixing box body; 16. An air duct; 17. An oxygen mask; 18. A fold-shaped carrier; 19. An oxygen carrier bottle base; 20. An oxygen carrier bottle; 21. An air inlet pipe; 22. An electromagnetic valve; 23. Pulling the handle; 24. A controller; 25. A mains supply interface; 26. A folded splicing frame; 27. Swinging the L-shaped frame; 28. An anti-slip ring; 29. Vertically stretching the support frame; 30. A soft layer; 31. Lifting the handle; 32. A carrying basket.
Best mode for carrying out the invention
Best mode for carrying out the invention
[0021]The following description of the present invention will be made with reference to the accompanying drawings, and as shown in fig. 1-5, a hospital bed capable of automatically adjusting oxygen concentration comprises a strip-shaped patient supporting plate 1, wherein four corners of the lower surface of the strip-shaped patient supporting plate 1 are fixedly connected with supporting bases 2, the lower surface of each supporting base 2 is fixedly connected with supporting columns 3, the lower end surface of each supporting column 3 is sleeved with an anti-skid pad 4, the lower surface of the strip-shaped patient supporting plate 1 is provided with an automatic oxygen adjusting mechanism, and the automatic oxygen adjusting mechanism comprises a group of supporting plates 5 which are fixedly connected with two ends of the lower surface of the strip-shaped patient supporting plate 1 and matched with the strip-shaped patient supporting plate 1, a plurality of strip-shaped notches which are processed at one end of the lower surface of each supporting plate 5, a folded fixing frame 6 which is arranged in each strip, Is arranged at eachA first screw 7 arranged on the upper surface of each folded fixing frame 6 and between the upper surface of the strip-shaped patient bearing plate 1, a second screw 8 arranged on the lower surface of each folded fixing frame 6 and between the corresponding strip-shaped openings, an inverted T-shaped supporting block 9 fixedly connected with the lower surface of each supporting plate 5 and far away from the corresponding strip-shaped openings, a group of sliding frames 10 sleeved on each inverted T-shaped supporting block 9, a folded supporting frame 11 fixedly connected with the lower surface of each sliding frame 10, a strip-shaped hollow bearing box body 12 arranged below the strip-shaped patient bearing plate 1 and connected with the corresponding two groups of folded supporting frames 11, two groups of supporting frames 13 fixedly connected with the lower surface of the strip-shaped hollow bearing box body 12, universal wheels 14 arranged on the lower surface of each supporting frame 13 and matched with the anti-skid cushion blocks 4, a first screw 7 arranged, A first strip-shaped opening processed on the two opposite side surfaces of the strip-shaped hollow bearing box body 12, a strip-shaped mixing box body 15 arranged at the center of the inner lower surface of the strip-shaped hollow bearing box body 12, air ducts 16 arranged on the two opposite side surfaces of the strip-shaped mixing box body 15 and passing through the strip-shaped hollow bearing box body 12, an oxygen mask 17 sleeved on the section of each air duct 16, a folded bearing frame 18 arranged in the strip-shaped hollow bearing box body 12 and positioned at the two sides of the strip-shaped mixing box body 15 and matched with the corresponding first strip-shaped opening, a plurality of oxygen bearing bottle bases 19 fixedly connected with the upper surface of each folded bearing frame 18, an oxygen bearing bottle 20 arranged on the upper surface of each oxygen bearing bottle base 19, an air inlet pipe 21 arranged at the air outlet of each oxygen bearing bottle 20 and communicated with the inside of, The device comprises an electromagnetic valve 22 arranged on each air inlet pipe 21 and a pulling handle 23 hinged on the outer side surface of each folded bearing frame 18, wherein a controller 24 is embedded on the side surface of the strip-shaped hollow bearing box body 12, a mains supply interface 25 is embedded on the side surface of the strip-shaped hollow bearing box body 12 and positioned on the right side of the controller 24, the controller 24 is electrically connected with the electromagnetic valve 22 in the automatic oxygen regulating mechanism, the controller 24 is electrically connected with the mains supply interface 25, a group of folded splicing frames 26 are hinged at two ends of the upper surface of the strip-shaped patient bearing plate 1, and one end of the upper surface of one folded splicing frame 26 is fixedly connected with two groups of swinging L-shaped splicing framesTwo groups of strip-shaped through holes matched with the two groups of swing L-shaped frames 27 are machined at one end of the upper surface of the other folded splicing frame 26 of the frame 27, the number of the strip-shaped openings is 4-6, the strip-shaped openings are equidistantly positioned on the same horizontal line, the number of the oxygen bearing bottle bases 19 is 2-4, the oxygen bearing bottle bases are uniformly distributed, the material of each air duct 16 is elastic transparent rubber, and each folded bearing frame is made of elastic transparent rubber18The outer side surfaces of the strip-shaped patient bearing plates 1 are all sleeved with anti-skidding rings 28 matched with the corresponding first strip-shaped openings, the end surfaces of the strip-shaped patient bearing plates 1 are fixedly connected with vertical stretching support frames 29, soft layers 30 are sleeved on the vertical stretching support frames 29, a group of lifting handles 31 are fixedly connected to the positions, far away from the vertical stretching support frames 29, of the lower surfaces of the strip-shaped patient bearing plates 1, and the upper ends of the side surfaces of the strip-shaped hollow bearing box bodies 12 are fixedly connected with bearing baskets 32 corresponding to the oxygen masks 17.
[0022]The characteristics of the embodiment are that when the device is used, a patient can lie on the upper surface of the strip-shaped patient bearing plate 1, wherein the four corners of the lower surface of the strip-shaped patient bearing plate 1 are effectively supported by the supporting columns 3, each supporting column 3 is connected with the lower surface of the strip-shaped patient bearing plate 1 by the supporting base 2, the anti-skid cushion blocks 4 positioned on the lower surface of each supporting column 3 are convenient to effectively support with the ground and also are convenient to prevent skidding, when the patient is in emergency treatment, because the illness states of some patients are different and different oxygen concentrations are needed, the face of the patient is brought with one of the oxygen masks, each electromagnetic valve 22 is opened by controlling, and the oxygen in the corresponding oxygen bearing bottle 20 enters the strip-shaped mixing box body 15, is convenient for the manual work to inhale oxygen through the air duct 16 on the oxygen mask 17 corresponding to, and another oxygen mask 17 without a belt can be manually sealed, so that different oxygen is enabled, and the quantity of the electromagnetic valves 22 can be selectively opened under different conditions, wherein each electromagnetic valve 22 is connected with the corresponding oxygen bearing bottle 20 through the air inlet pipe 21, each oxygen bearing bottle 20 is connected with the corresponding folded bearing frame 18 through the oxygen bearing bottle base 19, and each oxygen bearing frame 18 is connected with the oxygen bearing bottle base 19The gas bearing bottle 20 is convenient to be taken down from the corresponding oxygen bearing bottle base 19 for replacement, wherein each folded bearing frame 18 can be pulled out from the two ends of the corresponding strip-shaped hollow bearing box body 12 for replacement, wherein the strip-shaped hollow bearing box body 12 is connected with the lower surfaces of two groups of sliding frames 10 through two groups of folded supporting frames 11, wherein each group of sliding frames 10 is connected with the lower surface of the supporting plate 5 positioned on the lower surface of the strip-shaped patient bearing plate 1 through an inverted T-shaped supporting block 9, wherein each sliding frame 10 can be manually pushed to move on the corresponding inverted T-shaped supporting block 9 for adjusting the oxygen supply position, wherein each supporting plate 5 is lapped with the upper surface of the strip-shaped patient bearing plate 1 through a plurality of folded fixing frames 6, is convenient for lap joint fixation, wherein the first screw 7 positioned on the upper surface of each fold-shaped fixing frame 6 is convenient for better fixation with the upper surface of the strip-shaped patient bearing plate 1, and the second screw positioned on the lower surface of each fold-shaped fixing frame 68Is convenient for corresponding to the supporting plate5The lower surfaces are connected, wherein when the strip-shaped hollow bearing box body 12 moves, the universal wheels 14 positioned below the strip-shaped hollow bearing box body 12 move along, and simultaneously, the strip-shaped hollow bearing box body 12 is convenient to support, wherein each universal wheel 14 is effectively supported with the lower surface of the strip-shaped hollow bearing box body 12 through the supporting frame 13, the pulling handle 23 positioned on the side surface of each folded bearing frame 18 is convenient to pull out, the controller 24 positioned on the side surface of the strip-shaped hollow bearing box body 12 is convenient to control the operation of the electric elements in the device, the commercial power interface 25 positioned on the side surface of the strip-shaped hollow bearing box body 12 is convenient to switch on the power supply for the device, the use is more convenient, the moving oxygen supply is convenient, the device is convenient for automatically adjusting the concentration of oxygen supply by controlling, and is convenient for two persons to supply oxygen simultaneously and replace the oxygen bottle.
[0023] Detailed description of the invention
[0024] In this embodiment, first, a start switch is installed at an idle position of the device, the controller 24 is a single chip microcomputer, the model is PIC16LF627A, two output terminals of the model controller 24 are respectively connected with the electromagnetic valve 22 and the input end of the start switch through wires, and the output end of the commercial power interface 25 is connected with the electrical connection end of the controller 24 through a wire. After the controller 24 is simply programmed, the person skilled in the art can completely control the working sequence of each electrical component, and the specific working principle is as follows: when the device is used, a patient can lie on the upper surface of the strip-shaped patient bearing plate 1, wherein the four corners of the lower surface of the strip-shaped patient bearing plate 1 are effectively supported by the supporting upright posts 3, each supporting upright post 3 is connected with the lower surface of the strip-shaped patient bearing plate 1 by the supporting base 2, the anti-skid cushion block 4 positioned on the lower surface of each supporting upright post 3 is convenient to effectively support with the ground and is also convenient to prevent skidding, when the patient is in first aid, because the illness states of some patients are different, different oxygen concentrations are needed, the face of the patient is brought with one of the oxygen masks, each electromagnetic valve 22 is opened by control, and the oxygen in the corresponding oxygen bearing bottle 20 enters the strip-shaped mixing box body 15, convenient for manual oxygen inhalation through the air duct 16 on the corresponding oxygen mask 17, the other oxygen mask 17 without belt can be manually sealed, so that different oxygen is available, more different situations can select the number of the electromagnetic valves 22 to be opened, wherein each electromagnetic valve 22 is connected with the corresponding oxygen bearing bottle 20 through the air inlet pipe 21, wherein each oxygen bearing bottle 20 is connected with the corresponding folded bearing frame 18 through the oxygen bearing bottle base 19, wherein each oxygen bearing bottle 20 is convenient to take down on the corresponding oxygen bearing bottle base 19 and is convenient to replace, wherein each folded bearing frame 18 can be pulled out at two ends of the corresponding strip-shaped hollow bearing box body 12, so that the replacement is convenient, wherein the strip-shaped hollow bearing box body 12 is convenient to replace through the lower surfaces of the two groups of folded supporting frames 11 and the two groups of sliding frames 10 Connection, wherein each group of sliding frames 10 is connected with the lower surface of the supporting plate 5 positioned on the lower surface of the strip-shaped patient bearing plate 1 through the inverted T-shaped supporting block 9, each sliding frame 10 can be pushed to move on the corresponding inverted T-shaped supporting block 9 by manpower, so as to be convenient for adjusting the oxygen supply position, each supporting plate 5 is lapped with the upper surface of the strip-shaped patient bearing plate 1 through a plurality of folded fixing frames 6 so as to be convenient for lapping and fixing, wherein a screw 7 positioned on the upper surface of each folded fixing frame 6 is convenient for being better fixed with the upper surface of the strip-shaped patient bearing plate 1, a screw 8 positioned on the lower surface of each folded fixing frame 6 is convenient for being connected with the lower surface of the corresponding supporting plate 5, when the strip-shaped hollow bearing box body 12 is moved, so that the universal wheel 14 under the bar-shaped hollow bearing box 12 can move along with the bar-shaped hollow bearing box 12 and the bar-shaped hollow bearing box 12 can be supported conveniently, wherein each universal wheel 14 is effectively supported by the supporting frame 13 and the lower surface of the bar-shaped hollow bearing box 12, wherein the pulling handle 23 on the side surface of each folding bearing frame 18 can be pulled out conveniently, wherein the controller 24 on the side surface of the bar-shaped hollow bearing box 12 can control the operation of the electric elements in the device conveniently, wherein the commercial power interface 25 on the side surface of the bar-shaped hollow bearing box 12 can be powered on conveniently, wherein a group of folding splicing frames 26 on the upper surface of the bar-shaped patient bearing plate 1 can be lapped with each other conveniently to form a small table, and wherein two groups of swinging L-shaped frames 27 on the upper surface of one folding splicing frame 26 can be swung and supported conveniently The strip-shaped through holes on the upper surface of the other fold-shaped splicing frame 26 are matched for convenient fixation, wherein the anti-slip rings 28 on the side surface of each fold-shaped bearing frame 18 are convenient for preventing slipping, wherein the vertical stretching support frame 29 at one end of the strip-shaped patient bearing plate 1 is convenient for carrying out proper stretching height through different conditions, and is convenient for carrying out effective interception on the head or the feet of a patient, wherein the soft layer 30 on the vertical stretching frame 29 is convenient for being comfortable to rely on, wherein a group of lifting handles 31 which are positioned on the lower surface of the strip-shaped patient bearing plate 1 and are far away from the vertical stretching support frame 29 are convenient for effectively lifting the device, and wherein a group of bearing baskets 32 on the side surface of the strip-shaped hollow bearing box body 12 are convenient for placing the oxygen mask 17 when.
Industrial applicability
[0025] The present invention has been successfully developed and used. It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned. Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.