Portable infection-preventing medicine feeding device for neurology department
Technical Field
The invention relates to a medicine feeding device, in particular to a portable infection-preventing medicine feeding device for neurology.
Background
Neurology is a second level of science about neurology, mainly diagnoses and treats cerebrovascular diseases, such as cerebral infarction, cerebral hemorrhage, migraine, brain inflammatory diseases, such as encephalitis, meningitis, myelitis, epilepsy, dementia, metabolic diseases and genetic diseases, trigeminal neuralgia, sciatic neuropathy, peripheral neuropathy, myasthenia gravis, and the like, mainly treats nervous system and systemic sensation of the head and body movement sensation of limbs, and psychoemotional diseases, and belongs to the treatment category of neurology, a patient can take medicines with various forms to administer medicines when being wounded, when the wound area is large, the medicines are often applied to the wound, the existing medicine applying device for internal medicine nursing is simple in structure and single in function, the medicine liquid is not applied to the wound position, the medicine liquid is not uniformly applied, and the medicine liquid is slowly and uniformly applied by a cotton stick, the pain of the patient is increased, the recovery effect of the wound is also influenced, and the medicine applying efficiency is low.
Therefore, the portable neurology infection-preventing medicine applying device is convenient to apply, automatically clamp and automatically store medicine liquid.
Disclosure of Invention
In order to overcome the patient when receiving the wound, can take the medicine of multiple form to administer, when the wound area is great, often paint the medicine to the wound, the structure of current internal medicine nursing is comparatively simple with the device of adding medicine to, the function singleness, the liquid medicine is not paintd to the wound position that has, it is inhomogeneous to paint the liquid medicine, it is even to slowly paint the liquid medicine with the cotton swab, patient's pain has been increased, the recovery effect of wound has also been influenced, the shortcoming of the inefficiency of adding medicine to, the technical problem who solves: provides a portable neurological infection-preventing medicine feeding device which is convenient to smear, automatically clamps and automatically stores liquid medicine.
The technical scheme is as follows: a portable infection-preventing medicine feeding device for neurology comprises:
the connecting block is arranged on the shell;
the sponge block is arranged on the outer wall of the connecting block;
the two sides of the outer wall of the shell are both provided with rubber blocks;
the inner wall of the shell is provided with a first bracket;
the upper part of the first support is provided with a fixed pipe;
the clamping mechanism is arranged on the fixed pipe;
and the pulling mechanism is connected between the clamping mechanism and the shell.
Preferably, the first fixed blocks are arranged on the two sides of the shell;
the inner sides of the two first fixed blocks are rotatably provided with first telescopic rods;
the chucking piece, two first telescopic link inboards all are equipped with the chucking piece, and two chucking pieces all are connected with shell slidingtype.
Preferably, the pulling mechanism comprises:
the two sides of the outer wall of the shell are provided with the second supports;
the third supports are arranged on two sides of the inner wall of the shell;
the two second brackets are both provided with a first pull rod in a sliding manner;
the inner wall of the shell is provided with a nozzle in a sliding mode, the two first pull rods are connected with the nozzle, and the two clamping blocks are matched with the nozzle;
the two third brackets are both provided with a second pull rod in a sliding manner, and the second pull rod on the same side is connected with the first pull rod on the same side;
the sliding pipe is arranged on the fixed pipe in a sliding mode.
Preferably, the storage device further comprises a storage mechanism, wherein the storage mechanism comprises:
the inner wall of the connecting block is provided with a storage box;
the bottle cap is arranged on the storage box in a rotating mode;
the storage box is provided with a storage box, and the storage box is provided with a storage box;
the inner wall of the connecting block is provided with a second connecting pipe, and one side of the second connecting pipe is positioned in the shell;
the second connecting pipe is provided with a hose and is connected with the sliding pipe;
and a first connecting pipe is connected between the first connecting pipe and the second connecting pipe and the storage box.
Preferably, the device further comprises a closing mechanism, wherein the closing mechanism comprises:
the lower part of the inner wall of the shell is provided with a fixing frame which is positioned on the outer side of the hose;
the upper side and the lower side of the inner wall of the fixed frame are both provided with the closing blocks in a sliding manner;
the two closing blocks are provided with two closing rods, and the two closing blocks are matched with the two second pull rods;
and the two sides of the inner side of the closing block of the second telescopic rod are symmetrically provided with the second telescopic rods.
Preferably, still including feed mechanism, feed mechanism includes:
the upper part of the outer wall of the shell is provided with a rotary storage box;
the push rod is arranged on the storage box in a sliding manner;
and the compression spring is connected between the push rod and the storage box.
Preferably, still including stock stop, stock stop includes:
the inner wall of the storage box is provided with a second fixed block;
the inner wall of the storage box is rotatably provided with a second rotating plate;
the middle part of the second fixed block is rotatably provided with a push block;
the connecting rod is connected between the push block and the second rotating plate;
the striker plate is arranged on the nozzle and is rotatably connected with the push block.
Preferably, the compression spring is made of an alloy.
The invention has the beneficial effects that: 1. the novel cloth clamping device is provided with the clamping mechanism, and the clamping mechanism is matched with the pulling mechanism, so that a new cloth can be clamped, and meanwhile, a used cloth can be loosened;
2. the storage mechanism is matched with the closing mechanism, so that the liquid medicine can be stored, and meanwhile, the liquid medicine can be supplemented to a new cloth at intervals;
3. through the cooperation of the feeding mechanism and the stock stop mechanism, the work of replacing new cloth can be realized at intervals.
Drawings
Fig. 1 is a schematic perspective view of the present invention.
Fig. 2 is a partial perspective view of the present invention.
Fig. 3 is a schematic perspective view of the clamping mechanism of the present invention.
Fig. 4 is a schematic perspective view of the pulling mechanism of the present invention.
Fig. 5 is a perspective view of a first portion of the storage mechanism of the present invention.
Fig. 6 is a perspective view of a second portion of the storage mechanism of the present invention.
Fig. 7 is a perspective view of a first portion of the closure mechanism of the present invention.
Fig. 8 is a perspective view of a second portion of the closure mechanism of the present invention.
Fig. 9 is a schematic perspective view of the feeding mechanism of the present invention.
Fig. 10 is a schematic perspective view of the striker mechanism of the present invention.
Reference numerals: 1_ housing, 2_ connection block, 3_ sponge block, 4_ rubber block, 5_ first support, 6_ fixed tube, 7_ clamping mechanism, 71_ first fixed block, 72_ clamping block, 73_ first telescopic rod, 8_ pulling mechanism, 81_ second support, 82_ third support, 83_ first pull rod, 84_ spout, 85_ second pull rod, 86_ sliding tube, 9_ storage mechanism, 91_ storage box, 92_ bottle cap, 93_ closing rod, 94_ first connection tube, 95_ second connection tube, 96_ hose, 10_ closing mechanism, 101_ fixed frame, 102_ clamping rod, 103_ closing block, 104_ second telescopic rod, 11_ feeding mechanism, 111_ storage box, 112_ push rod, 113_ compression spring, 12_ compression spring, 121_ second fixed block, 122_ second rotation plate, 123_ connection rod, 124_ push block, 125_ striker plate.
Detailed Description
The invention is further described below with reference to the figures and examples.
Example 1
The utility model provides a portable infection-preventing medicine feeding device of department of neurology, as shown in fig. 1-4, including shell 1, connecting block 2, sponge piece 3, rubber block 4, first support 5, fixed pipe 6, clamping mechanism 7 and pulling mechanism 8, 1 rear portion of shell is equipped with connecting block 2, install sponge piece 3 on 2 outer walls of connecting block, two all are equipped with rubber block 4 about 1 outer wall rear side of shell, 1 inner wall front side of shell is equipped with first support 5, 5 upper portions of first support are equipped with fixed pipe 6, fixed pipe 6 front portion is equipped with clamping mechanism 7, be connected with pulling mechanism 8 between clamping mechanism 7 and the shell 1.
When a wound of a patient needs to be loaded with medicine, the device can be used, firstly, the loaded cloth is clamped through the clamping mechanism 7, at the moment, a user holds the rubber block 4 and holds the sponge block 3 and lifts to a certain position, when the user uses the sponge block 3 and the rubber block 4 together, the hand can play a role in skid resistance, then the user lifts the rubber block 4 and the sponge block 3 to move forwards, so that the connecting block 2, the shell 1, the first bracket 5, the fixing pipe 6, the clamping mechanism 7, the loaded cloth and the pulling mechanism 8 move forwards, when the loaded cloth moves forwards to be in contact with the wound of the patient, the user slightly rotates the clamping mechanism 7, the clamping mechanism 7 drives the loaded cloth to rotate, the loaded cloth slightly rotates to uniformly coat the medicine on the wound, if the user uses the hand to load medicine, the unhygienic nature of hand may be that the wound receives further infection, and when used cloth need be changed, the user makes pulling mechanism 8 function, and pulling mechanism 8 drives clamping mechanism 7 and operates, and clamping mechanism 7 will not press from both sides tight cloth, can realize the portable work of preventing infecting the medicine to be loaded to the medicine of department of neurology when the user repeats above step once more.
Clamping mechanism 7 is including first fixed block 71, chucking piece 72 and first telescopic link 73, and the anterior left and right sides of shell 1 all is equipped with first fixed block 71, and two equal rotary types in first fixed block 71 inboard are equipped with first telescopic link 73, and two first telescopic link 73 inboards all are equipped with chucking piece 72, and two chucking pieces 72 all are connected with shell 1 sliding type.
When the tight cloth of needs clamp, the user at first makes the outside compression of first telescopic link 73, thereby drive chucking piece 72 outwards movement, the user puts two blocks of chucking pieces 72 between the new cloth, the user loosens first telescopic link 73 and can automatic re-setting this moment, first telescopic link 73 drives chucking piece 72 inwards movement and resets, chucking piece 72 can press from both sides tight new cloth, when the used cloth of needs take out, 8 functions of pulling mechanism drive first telescopic link 73 outwards compression, thereby drive chucking piece 72 outwards movement, chucking piece 72 outwards movement will not press from both sides tight cloth, the realization presss from both sides tight new cloth and loosens used cloth effect.
Pulling mechanism 8 is including second support 81, third support 82, first pull rod 83, spout 84, second pull rod 85 and slip pipe 86, shell 1 outer wall front portion left and right sides all is equipped with second support 81, shell 1 inner wall front portion left and right sides all is equipped with third support 82, all slidingtype is equipped with first pull rod 83 on two second supports 81, shell 1 inner wall front portion sideslip type is equipped with spout 84, two first pull rod 83 all are connected with spout 84, two chucking piece 72 all cooperate with spout 84, all slidingtype is equipped with second pull rod 85 on two third supports 82, the second pull rod 85 of homonymy is connected with the first pull rod 83 of homonymy, the slip type is equipped with slip pipe 86 on the fixed pipe 6.
When the used cloth does not need to be clamped, a user pulls the first pull rod 83 backwards, so that the nozzle 84 and the second pull rod 85 are driven to move backwards, the nozzle 84 moves backwards to enable the clamping block 72 to move outwards, the clamping block 72 enables the first telescopic rod 73 to be compressed outwards, the clamping block 72 moves outwards to prevent the cloth from being clamped, the used cloth loosening work is achieved, meanwhile, the new cloth on the back is convenient to use, after the used cloth loosening, the user pushes the first pull rod 83 forwards, the first pull rod 83 drives the nozzle 84 and the second pull rod 85 to move forwards to reset, the nozzle 84 resets to be not in contact with the clamping block 72, and the first telescopic rod 73 resets to drive the clamping block 72 to reset.
Example 2
On the basis of embodiment 1, as shown in fig. 5 to 10, the portable electronic device further includes a storage mechanism 9, the storage mechanism 9 includes a storage box 91, a bottle cap 92, a closing rod 93, a first connecting pipe 94, a second connecting pipe 95 and a hose 96, the storage box 91 is disposed at the rear portion of the inner wall of the connecting block 2, the bottle cap 92 is rotatably disposed at the rear portion of the storage box 91, the closing rod 93 is slidably disposed on the storage box 91, the closing rod 93 is slidably connected with the bottle cap 92, the second connecting pipe 95 is disposed at the inner wall of the connecting block 2, one side of the second connecting pipe 95 is located in the housing 1, the hose 96 is disposed at the front portion of the second connecting pipe 95, the second connecting pipe 95 is connected with the sliding pipe 86, and the first connecting pipe 94 is connected between the rear portion of the second connecting pipe 95 and the front portion of the storage box 91.
The user rotates bottle lid 92 backward at first to not contact with storage box 91, then irritate the liquid medicine into storage box 91, rotate bottle lid 92 forward, the liquid medicine in storage box 91 will not leak, when new cloth needs to go up the liquid medicine, the user pulls closed pole 93 backward, storage box 91 will not be blockked up to closed pole 93, the user lifts sponge piece 3 afterwards, thereby drive storage box 91, bottle lid 92, closed pole 93, first connecting pipe 94, second connecting pipe 95 and hose 96 are upwards lifted, the liquid medicine in storage box 91 flows to first connecting pipe 94 in proper order, second connecting pipe 95, on hose 96 and sliding tube 86, the liquid medicine on the sliding tube 86 drips to the cloth through spout 84, when new cloth does not need to go up the liquid medicine, the user slides closed pole 93 down to blocking up storage box 91, the liquid medicine in storage box 91 will not flow out.
Still including closing mechanism 10, closing mechanism 10 is including fixed frame 101, clamping rod 102, closing block 103 and second telescopic link 104, 1 inner wall lower part of shell is equipped with fixed frame 101, fixed frame 101 is located the outside of hose 96, both sides are all slided about the fixed frame 101 inner wall and are equipped with closing block 103, all be equipped with clamping rod 102 on two closing block 103, two clamping rod 102 and two second pull rod 85 cooperations, both sides are all bilateral symmetry around closing block 103 inboard are equipped with second telescopic link 104.
When the used cloth needs to be replaced, in order to avoid that the liquid medicine in the storage tank 91 drips onto the cloth in the process of replacing the used cloth, a user pulls the first pull rod 83 backwards, the first pull rod 83 enables the clamping block 72 to move outwards, and further the first telescopic rod 73 is compressed outwards, the clamping block 72 moves outwards and cannot clamp the used cloth, meanwhile, the first pull rod 83 enables the second pull rod 85 to move backwards, the second pull rod 85 moves backwards and enables the clamping rod 102 to move inwards, so that the closing block 103 is driven to move inwards, the closing block 103 moves inwards and enables the second telescopic rod 104 to compress inwards, the closing block 103 moves inwards to block the hose 96, the liquid medicine in the hose 96 cannot flow onto the nozzle 84, when the cloth is replaced, the liquid medicine cannot drip onto the cloth or cause pollution, then the user replaces a new cloth, after the cloth is replaced, the user pushes the first pull rod 83 to move forwards until the first pull rod 83 does not contact with the clamping block 72, first telescopic link 73 resets and drives chucking piece 72 inward movement, chucking piece 72 inward movement can press from both sides tight new cloth, first pull rod 83 drives second pull rod 85 forward motion to not contacting with clamp rod 102 simultaneously, second telescopic link 104 resets and drives closing piece 103 and clamp rod 102 upward movement and resets, clamp rod 102 upward movement resets and will not block up hose 96, the liquid medicine in hose 96 will drip to new cloth through spout 84, the user will be gone up the cloth that the medicine is good and scribble can on patient's wound afterwards.
Still including feed mechanism 11, feed mechanism 11 is equipped with the rotary type including material storage box 111, push rod 112 and compression spring 113 on the outer wall of shell 1, and material storage box 111 is equipped with to the upper portion of material storage box 111 upper sliding type is equipped with push rod 112, is connected with compression spring 113 between the left side of push rod 112 and the left side of material storage box 111.
When a user rotates the storage box 111 upwards, the user puts multipoint cloth into the storage box 111, the new cloth in the storage box 111 pushes the push rod 112 to move backwards, when the new cloth needs to be loaded, the user pushes the push rod 112 forwards, the compression spring 113 resets a point adaptively, a new cloth falls onto the clamping block 72, and when the new cloth needs to be replaced later, the user repeats the steps.
Still including stock stop 12, stock stop 12 is including second fixed block 121, second rotor plate 122, connecting rod 123, ejector pad 124 and stock stop 125, material storage box 111 inner wall front side is equipped with second fixed block 121, material storage box 111 inner wall front side left part rotary type is equipped with second rotor plate 122, second fixed block 121 middle part rotary type is equipped with ejector pad 124, be connected with connecting rod 123 between ejector pad 124 and the second rotor plate 122, spout 84 rear portion is equipped with stock stop 125, stock stop 125 is connected with ejector pad 124 rotary type.
The spout 84 moves backwards to drive the striker plate 125 to move backwards, the striker plate 125 moves backwards to drive the pushing block 124 to swing, the pushing block 124 swings to drive the connecting rod 123 to move forwards, thereby driving the second rotating plate 122 to rotate, the second rotating plate 122 rotates to block new cloth, the new cloth can fall on the second rotating plate 122, the new cloth on the second rotating plate 122 can push the cloth on the striker plate 125 to fall on the clamping block 72, the spout 84 moves forwards to drive the pushing block 124 to swing reversely, thereby driving the connecting rod 123 to move forwards to reset, thereby driving the second rotating plate 122 to rotate reversely, the new cloth on the second rotating plate 122 can be clamped by the reverse rotation of the second rotating plate 122, and the feeding work of a new cloth is realized.
Although the present invention has been described in detail with reference to the above embodiments, it will be apparent to those skilled in the art from this disclosure that various changes or modifications can be made herein without departing from the principles and spirit of the invention as defined by the appended claims. Therefore, the detailed description of the embodiments of the present disclosure is to be construed as merely illustrative, and not limitative of the remainder of the disclosure, but rather to limit the scope of the disclosure to the full extent set forth in the appended claims.