CN115089861A

CN115089861A - Anti-cross-infection quantitative uniform smearing instrument for dermatological ointment

Info

Publication number: CN115089861A
Application number: CN202210815097.6A
Authority: CN
Inventors: 李政敏
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-07-11
Filing date: 2022-07-11
Publication date: 2022-09-23

Abstract

The invention relates to the field of ointment smearing, in particular to a quantitative and uniform smearing instrument for anti-cross-infection dermatological ointment. The device aims to solve the problem that when the existing device is used for applying medicine to the skins of a plurality of patients, viruses and fungi remained on the surface of the rolling applicator can be infected to the skins of other patients, so that a cross infection phenomenon occurs. The technical scheme is as follows: a quantitative and uniform smearing instrument for anti-cross-infection dermatological ointment comprises a shell, a smearing component and the like; the inner side of the shell is connected with a smearing component. During the use, the sprayer sprays disinfection alcohol to the second drum, carries out disinfection treatment to the second drum surface to avoid appearing the cross infection phenomenon, spray disinfection alcohol through the dead angle of hollow rod to the second drum both sides simultaneously, evenly roll-coat the ointment to patient's skin through the second drum, control the ointment extrusion capacity through the scale mark line on the piston rod, thereby realize carrying out even ration to patient's skin and paint the ointment operation.

Description

Anti-cross-infection quantitative uniform smearing instrument for dermatological ointment

Technical Field

The invention relates to the field of ointment smearing, in particular to a quantitative and uniform smearing instrument for anti-cross-infection dermatological ointment.

Background

The existing Chinese patent: a convenient on-line medicine adding and smearing device (CN204815339U) is characterized in that a plaster is added into a medicine adding barrel, then a rolling applicator is arranged at the lower end of the medicine adding barrel, the plaster is extruded by a piston and a connecting rod in the medicine adding barrel and then is smeared on an affected part of a patient through the rolling applicator, the operation is convenient, and meanwhile, a medicine adding connecting port is arranged at the lower end of the medicine adding barrel, so that the medicine can be conveniently added in an on-line operation mode, and the operation is convenient; when the rolling applicator is used for applying the medicine to the skin of a patient, the rolling applicator needs to be directly contacted with the skin of the patient, so that the surface of the rolling applicator is infected with viruses and fungi on the surface of the skin of the patient, and when the device is used for applying the medicine to the skin of other patients, the viruses and fungi remained on the surface of the rolling applicator can be infected to the skin of other patients, so that the cross infection phenomenon occurs, and great potential safety hazard exists.

Disclosure of Invention

In order to overcome the defect that when the skin of a plurality of patients is applied with the existing equipment, viruses and fungi remained on the surface of the rolling applicator can be infected to the skin of other patients, thereby causing cross infection, the invention provides an anti-cross infection skin ointment quantitative and uniform applicator for dermatology.

In order to achieve the aim, the anti-cross-infection quantitative uniform smearing instrument for the ointment for the dermatological department comprises a first square cabin body, a first pipeline, a second square cabin body, a fixing ring, a shell, a second pipeline, a magnet, a limiting block, an injection assembly, a smearing assembly, an expansion assembly and a disinfection assembly, wherein the lower part of the right side of the first square cabin body is communicated with the first pipeline, the left part of the upper side of the first square cabin body is fixedly connected with the second square cabin body, the fixing ring is arranged at the right part of the first square cabin body in a penetrating manner, the shell is connected with the fixing ring in a plugging manner, the injection assembly for injecting the ointment and clear water is connected between the second square cabin body and the shell, the middle part of the injection assembly is connected with the second pipeline, the smearing assembly for quantitatively and uniformly smearing the ointment is connected to the inner side of the shell, the clear water is injected into the smearing assembly through the second pipeline, the smearing assembly is connected with the injection assembly, and the shell, the inboard right part in first square cabin body is connected with the extension subassembly, the extension subassembly outside is connected with four magnet, four magnet all is connected with paints the subassembly, the extension subassembly outside is connected with four stoppers, and four stoppers are located four magnet inboards, the side is the wedge on the stopper, four stoppers all are connected with paints the subassembly, the inboard right part in first square cabin body is connected with the disinfection subassembly, through magnet, stopper and extension subassembly cooperate and will paint the extension of subassembly lower part and open, paint the subassembly through the injection subassembly and clear up expanding the division, it disinfects to expanding the subassembly of paining to open through the disinfection subassembly.

More preferably, the injection subassembly is including electric putter, the linkage board, the third pipeline, the hose, the fourth pipeline and the collection of proclaiming oneself, the inboard upper portion rigid coupling of the square cabin body of second has two electric putter, the rigid coupling has a linkage board between two electric putter's the flexible end, linkage board and the square cabin body sliding connection of second, linkage board middle part and second pipeline rigid coupling, the square cabin body of second left side upper portion is run through and is provided with the third pipeline, the third pipeline is used for communicateing external inlet tube, the intercommunication has the hose between third pipeline and the second pipeline, the hose is used for adapting to the second pipeline side-to-side movement, shell left side upper portion is run through and is provided with the fourth pipeline, the fourth pipeline is connected with the plug of second pipeline, the fourth pipeline inboard is connected with the collection of proclaiming oneself.

More preferably, the self-sealing assembly comprises a first cylinder, a first connecting block, a first round rod, a first spring and a piston ball, the inner side of the fourth pipeline is fixedly connected with the first cylinder, a truncated cone cavity is formed in the first cylinder, the inner diameter of the left part of the cavity is relatively small, a sealing ring is arranged on the left side of the first cylinder and used for improving the sealing performance between the first cylinder and the second pipeline, the first cylinder is in contact with the second pipeline, the right side of the first cylinder is fixedly connected with the first connecting block, the middle part of the first connecting block is slidably connected with the first round rod, the left end of the first round rod is fixedly connected with the piston ball, the piston ball is in contact with the first cylinder, the first round rod is sleeved with the first spring, one end of the first spring is fixedly connected with the first connecting block, the other end of the first spring is fixedly connected with the piston ball, and the first spring is used for resetting the piston ball.

More preferably, the smearing component comprises connecting frames, round pipes, a first round ring, a piston rod, a handle, a piston block, a sprayer, a medicine feeding set and an anti-blocking set, the inner side of the shell is fixedly connected with the two connecting frames, the round pipes are fixedly connected between the two connecting frames and communicated with a fourth pipeline, the upper side of each round pipe is fixedly connected with the first round ring, the middle of each first round ring is slidably connected with the piston rod, a plurality of scale marks are arranged on the piston rod at equal intervals and used for reacting and extruding the amount of ointment, the upper portion of each piston rod is fixedly connected with the handle, the lower portion of each piston rod is fixedly connected with the piston block, the piston block is slidably connected with the round pipes, the lower ends of the round pipes are communicated with the sprayer, the sprayer is flat and used for extruding the ointment, the lower side of the shell is connected with the medicine feeding set, and the anti-blocking set is connected to the medicine feeding set.

More preferably, the medicine feeding set comprises a second connecting block, a second round bar, a first linkage block, a second spring, a first side plate, a third round bar and a second cylinder, four second connecting blocks are fixedly connected to the lower portion of the inner side of the shell, a second round bar is fixedly connected to the inner portion of each of the four second connecting blocks, a first linkage block is slidably connected to each of the four second round bars, a second spring is sleeved on each of the four second round bars, one end of each second spring is fixedly connected to the adjacent first linkage block, the other end of each second spring is fixedly connected to the lower portion of the adjacent second round bar, each second spring is used for resetting the first linkage block, a first side plate is fixedly connected between each front and rear adjacent first linkage blocks, a third round bar is fixedly connected between the two first side plates, a second cylinder is rotatably connected to the middle portion of the third round bar, and the second cylinder is used for uniformly applying ointment to the skin of a patient, an anti-blocking set is connected between the two first side plates.

More preferably, prevent stifled set including the fourth pole, the third spring, the second linkage piece, second curb plate and iron plate, the equal rigid coupling in front portion and the rear portion of two first curb plates has a fourth pole, equal sliding connection has a second linkage piece on four fourth poles, it is equipped with a third spring all to overlap on four fourth poles, the one end and the adjacent second linkage piece rigid coupling of third spring, the other end and the adjacent first curb plate rigid coupling of third spring, the third spring is used for resetting the second linkage piece, equal rigid coupling has a second curb plate between every two adjacent second linkage pieces of controlling, two second curb plates respectively with two first curb plate sliding connection, two equal rigid couplings of first curb plate lateral lower part have two iron plates, four magnet respectively with adjacent iron plate magnetic connection.

More preferably, paint the subassembly and still include second ring and third ring, and the equal rigid coupling in second drum left side middle part and right side middle part has a second ring, and the second ring is used for temporarily collecting remaining ointment, and two second rings all rotate with the third pole to be connected, and two equal rigid couplings in second ring outside looks back have a third ring, and the third ring is used for blockking spacingly remaining ointment.

More preferably, the expansion assembly comprises a first motor, a support frame, fifth round rods, first straight gears, T-shaped frames, racks, sixth round rods, a third connecting block and a driving set, wherein the middle part of the right side of the first square cabin body is provided with two first motors, the front part and the rear part of the inner side of the first square cabin body are fixedly connected with one support frame, the fifth round rods are rotatably connected inside the two support frames, the two fifth round rods are respectively and fixedly connected with the output shafts of the adjacent first motors, the left ends of the two fifth round rods are respectively and fixedly connected with the first straight gears, the first straight gears are used for driving the second cylinder to rotate, the opposite sides of the two support frames are respectively and slidably connected with one T-shaped frame, the lower parts of the back sides of the two T-shaped frames are respectively and fixedly connected with one rack, the two racks are respectively engaged with the adjacent first straight gears, the upper sides of the two T-shaped frames are respectively and fixedly connected with two sixth round rods, the upper ends of the four sixth round rods are respectively and fixedly connected with the adjacent magnets, the front part of the inner side and the rear part of the inner side of the first square cabin body are fixedly connected with two third connecting blocks, the four third connecting blocks are positioned on the outer sides of the two supporting frames, the four third connecting blocks are fixedly connected with adjacent limiting blocks respectively, and the right part of the front side of the first square cabin body is connected with a driving set.

More preferably, the disinfection subassembly is including backup pad, electronic slide rail, electronic slider, link span and bellows, and the inboard left part rigid coupling of the first square cabin body has two backup pads, and the equal rigid coupling of two backup pad upsides has an electronic slide rail, and equal sliding connection has an electronic slider on two electronic slide rails, and equal rigid coupling has a link span on two electronic sliders, and the rigid coupling has an bellows between two link span right sides, and bellows are used for drying moisture.

More preferably, the disinfection subassembly is still including sprayer and hollow rod, and the rigid coupling has a sprayer between two link joint frame middle parts, and a plurality of atomising head is installed to the sprayer upside, and the sprayer is used for disinfecting the second drum, and sprayer upside front portion and upside rear portion all communicate and have a hollow rod, and a plurality of atomising head is all installed on two hollow rod upper portions, and hollow rod is used for disinfecting second drum both sides.

Compared with the prior art, the invention has the following advantages: when the device is used, the sprayer sprays the disinfection alcohol to the second cylinder to disinfect the surface of the second cylinder, so that the cross infection phenomenon is avoided, and meanwhile, the disinfection alcohol is sprayed to a cavity formed by the second cylinder, the second ring and the third ring through the hollow rod, so that the incomplete disinfection phenomenon is avoided;

the ointment is uniformly coated on the skin of the patient in a rolling way through the second cylinder, and the extrusion amount of the ointment is controlled through the scale line on the piston rod, so that the operation of uniformly and quantitatively coating the ointment on the skin of the patient is realized;

the magnet is linked with the second cylinder to be downwards far away from the spray head, and then the ointment remained in the spray head is pushed out and removed through clear water, so that the residual ointment is prevented from being extruded and stuck on the surface of the second cylinder, the high cleaning difficulty of the hand is avoided, meanwhile, the gap between the second side plate and the second cylinder is enlarged through the limiting block, the ointment extruded in a block shape is prevented from being clamped in the gap between the second side plate and the second cylinder, and meanwhile, the ointment is prevented from flowing to parts on the first side plate through the second ring and the third ring, so that the ointment residual phenomenon is avoided;

the clear water can be used for cleaning the round tube, the spray head and the second cylinder, and the cleaning efficiency is greatly improved.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a cross-sectional view of the present invention;

FIG. 3 is a schematic view of the construction of the infusion and application assemblies of the present invention;

FIG. 4 is a front view of a portion of the structure of the inject assembly of the present invention;

FIG. 5 is a schematic view of a first partial construction of the applicator assembly of the present invention;

FIG. 6 is a schematic view of a second partial construction of the applicator assembly of the present invention;

FIG. 7 is a schematic view of a first partial structure of the expansion assembly of the present invention;

FIG. 8 is a second partial configuration of the expansion assembly of the present invention;

FIG. 9 is a schematic view of a third partial construction of the expansion assembly of the present invention;

FIG. 10 is a schematic view of a first construction of the sterilization assembly of the present invention;

figure 11 is a schematic view of a second construction of the sterilization assembly of the present invention.

Part names and serial numbers in the figure: 1-a first square cabin, 2-a first pipeline, 3-a second square cabin, 4-a fixed ring, 5-a housing, 201-an electric push rod, 202-a linkage plate, 203-a second pipeline, 204-a third pipeline, 205-a hose, 206-a fourth pipeline, 207-a first cylinder, 208-a first connecting block, 209-a first round rod, 2010-a first spring, 2011-a piston ball, 301-a connecting frame, 302-a round pipe, 303-a first round ring, 304-a piston rod, 305-a grip, 306-a piston block, 307-a spray head, 308-a second connecting block, 309-a second round rod, 3010-a first linkage block, 3011-a second spring, 3012-a first side plate, 3013-a third round rod, 3014-a second cylinder, 3015-a second ring, 3016-a third ring, 3017-a fourth round bar, 3018-a third spring, 3019-a second linkage block, 3020-a second side plate, 3021-an iron block, 401-a first motor, 402-a support frame, 403-a fifth round bar, 404-a first spur gear, 405-a T-shaped frame, 406-a rack, 407-a sixth round bar, 408-a magnet, 409-a third connection block, 4010-a limit block, 4011-a second motor, 4012-a second spur gear, 4013-a third spur gear, 501-a support plate, 502-an electric slide rail, 503-an electric slide block, 504-a linkage frame, 505-a bellows, 506-a liquid injector, and 507-a hollow bar.

Detailed Description

The principles and features of this invention are described below in conjunction with the following drawings, which are set forth by way of illustration only and are not intended to limit the scope of the invention.

Example 1

A quantitative and uniform smearing instrument for anti-cross-infection dermatological ointment is shown in figures 1-6 and comprises a first square cabin body 1, a first pipeline 2, a second square cabin body 3, a fixing ring 4, a shell 5, a second pipeline 203, a magnet 408, a limiting block 4010, an injection assembly, a smearing assembly, an expansion assembly and a disinfection assembly; the lower part of the right side of the first square cabin body 1 is communicated with a first pipeline 2; the left part of the upper side of the first square cabin body 1 is welded with a second square cabin body 3; the fixing ring 4 penetrates through the right part of the first square cabin body 1; the inner part of the fixed ring 4 is connected with a shell 5 in a plugging way; an injection assembly is connected between the second square cabin body 3 and the shell 5; the middle part of the injection assembly is connected with a second pipeline 203; the inner side of the shell 5 is connected with a smearing component; the smearing component is connected with the injection component; the smearing component is connected with the shell 5; the right part of the inner side of the first square cabin body 1 is connected with an expansion assembly; the outer side of the expansion component is connected with four magnets 408; the four magnets 408 are all connected to the daubing assembly; the outer side of the expansion component is connected with four limiting blocks 4010, and the four limiting blocks 4010 are positioned at the inner sides of the four magnets 408; the upper side surface of the limiting block 4010 is a wedge-shaped surface; the upper side surface of the limiting block 4010 is a wedge-shaped surface; the four limiting blocks 4010 are connected with the smearing component; the right part of the inner side of the first square cabin body 1 is connected with a disinfection component; the lower part of the smearing component is expanded and then cleaned through the matching of the magnet 408 and the limiting block 4010, and the phenomenon of ointment residue is avoided.

The injection assembly comprises an electric push rod 201, a linkage plate 202, a third pipeline 204, a hose 205, a fourth pipeline 206 and a self-sealing set; the upper part of the inner side of the second square cabin body 3 is connected with two electric push rods 201 through bolts; a linkage plate 202 is fixedly connected between the telescopic ends of the two electric push rods 201; the linkage plate 202 is connected with the second square cabin body 3 in a sliding manner; the middle part of the linkage plate 202 is fixedly connected with a second pipeline 203; a third pipeline 204 penetrates through the upper part of the left side of the second square cabin body 3; a hose 205 is communicated between the third pipeline 204 and the second pipeline 203; a fourth pipeline 206 penetrates through the upper part of the left side of the shell 5; the fourth pipeline 206 is connected with the second pipeline 203 in a plugging mode; a self-sealing manifold is connected to the inside of the fourth pipe 206.

The self-sealing set comprises a first cylinder 207, a first connecting block 208, a first round rod 209, a first spring 2010 and a piston ball 2011; a first cylinder 207 is welded on the inner side of the fourth pipeline 206, a truncated cone cavity is formed in the first cylinder 207, and the inner diameter of the left part of the cavity is relatively small; the left side of the first cylinder 207 is provided with a sealing ring; the first cylinder 207 is in contact with the second conduit 203; the right side of the first cylinder 207 is bolted with a first connecting block 208; a first round bar 209 is connected in the middle of the first connecting block 208 in a sliding manner; the left end of the first round rod 209 is fixedly connected with a piston ball 2011; the piston ball 2011 is in contact with the first cylinder 207; a first spring 2010 is sleeved on the first round rod 209; one end of the first spring 2010 is welded with the first connecting block 208, and the other end of the first spring 2010 is fixedly connected with the piston ball 2011; through the cooperation of first drum 207 and piston ball 2011, realized automatic jam and mediation fourth pipeline 206, improve the convenience greatly.

The smearing component comprises a connecting frame 301, a round pipe 302, a first round ring 303, a piston rod 304, a handle 305, a piston block 306, a spray head 307, a medicine feeding set and an anti-blocking set; two connecting frames 301 are fixedly connected with the inner side of the shell 5; a round pipe 302 is fixedly connected between the two connecting frames 301; the round tube 302 is in communication with the fourth conduit 206; a first circular ring 303 is fixedly connected to the upper side of the circular tube 302; the middle part of the first ring 303 is connected with a piston rod 304 in a sliding way, and a plurality of scale marks are arranged on the piston rod 304 at equal intervals; the effect of quantitatively extruding the ointment is achieved by the piston rod 304 to reflect the extrusion amount of the ointment; a handle 305 is welded on the upper part of the piston rod 304; a piston block 306 is fixedly connected to the lower part of the piston rod 304; the piston block 306 is slidably connected to the barrel 302; the lower end of the round pipe 302 is communicated with a spray head 307; the ointment is evenly extruded through a spray head 307; the lower side of the shell 5 is connected with a medicine feeding set; the medicine feeding set is connected with an anti-blocking set.

The medicine feeding set comprises a second connecting block 308, a second round bar 309, a first linkage block 3010, a second spring 3011, a first side plate 3012, a third round bar 3013 and a second cylinder 3014; the lower part of the inner side of the shell 5 is welded with four second connecting blocks 308; a second round bar 309 is fixedly connected inside each of the four second connecting blocks 308; the four second round rods 309 are slidably connected with a first linkage block 3010; a second spring 3011 is sleeved on each of the four second round rods 309, one end of each second spring 3011 is welded to the adjacent first linkage block 3010, and the other end of each second spring 3011 is welded to the lower portion of the adjacent second round rod 309; a first side plate 3012 is welded between every two adjacent front and back first linkage blocks 3010; a third round bar 3013 is fixedly connected between the two first side plates 3012; the middle part of the third round bar 3013 is rotatably connected with a second cylinder 3014; the ointment is evenly applied to the skin of the patient through the second cylinder 3014; an anti-blocking set is connected between the two first side plates 3012.

The anti-blocking set comprises a fourth round rod 3017, a third spring 3018, a second linkage block 3019, a second side plate 3020, and an iron block 3021; a fourth round bar 3017 is welded to the front and the rear of each of the two first side plates 3012; a second linkage block 3019 is connected to each of the four fourth round bars 3017 in a sliding manner; a third spring 3018 is sleeved on each of the four fourth round bars 3017, one end of each third spring 3018 is welded to the adjacent second linkage block 3019, and the other end of each third spring 3018 is welded to the adjacent first side plate 3012; a second side plate 3020 is welded between every two left and right adjacent second linkage blocks 3019; the two second side plates 3020 are slidably connected to the two first side plates 3012, respectively; two iron blocks 3021 are fixedly connected to the lower parts of the opposite sides of the two first side plates 3012; the four magnets 408 are respectively connected with the adjacent iron blocks 3021 in a magnetic force manner; the magnet 408 drives the iron block 3021 to move downward, so that the second cylinder 3014 is moved downward away from the spray head 307, thereby preventing the ointment remaining in the spray head 307 from extruding on the surface of the second cylinder 3014 and improving the cleaning efficiency.

The smearing component also comprises a second circular ring 3015 and a third circular ring 3016; a second circular ring 3015 is fixedly connected to the middle part of the left side and the middle part of the right side of the second cylinder 3014; the two second circular rings 3015 are rotatably connected to the third circular rod 3013; a third circular ring 3016 is welded on the back of each of the outer sides of the two second circular rings 3015; the second ring 3015 and the third ring 3016 are matched to stop and limit the residual ointment, so that the ointment is prevented from being clamped into a part on the first side plate 3012, and the phenomenon of ointment residue is avoided.

When the medical ointment injection device is ready to work, the external water inlet pipe is communicated to the third pipeline 204, the external sewage discharge pipe is communicated to the first pipeline 2, then the electric push rod 201 drives the linkage plate 202 to move leftwards, the linkage plate 202 drives the second pipeline 203 to move leftwards, the second pipeline 203 is far away from the fourth pipeline 206, then a doctor takes the shell 5 upwards, the shell 5 drives the parts on the shell to move upwards, then the doctor pulls the grip 305 to move upwards, the grip 305 drives the piston rod 304 to move upwards, the piston rod 304 drives the piston block 306 to move to the upper side of the fourth pipeline 206, then the doctor inserts the port of the injector filled with the ointment into the fourth pipeline 206 and tightly contacts with the sealing ring on the left side of the first cylinder 207, then the doctor pushes the ointment to move towards the first cylinder 207 through the injection molding machine, the piston ball 2011 is pushed to move rightwards through pressure, the piston ball 2011 drives the first round rod 209 to slide rightwards on the first connecting block 208, the first spring 2010 is compressed, so that the piston ball 2011 stops contacting the first cylinder 207, then the ointment flows into the circular tube 302 from a gap between the piston ball 2011 and the first cylinder 207, then the doctor takes out the injector, the first spring 2010 rebounds to drive the piston ball 2011 to move back to the original position, and the first cylinder 207 is plugged again, so that the medicine feeding and automatic sealing operations are realized; after the medicine is applied, a doctor holds the shell 5 close to the skin of a patient, the shell 5 is kept in a vertical state, the shell 5 drives parts on the shell to move, the second cylinder 3014 is made to contact the skin surface of the patient, then the doctor drives the shell 5 to move forwards or backwards, the second cylinder 3014 rolls on the skin surface of the patient, meanwhile the doctor pushes the grip 305 to move downwards, the grip 305 drives the piston rod 304 to move downwards, the piston rod 304 drives the piston block 306 to move downwards, the piston block 306 pushes the circular tube 302 to move internally, ointment is squeezed into the spray head 307 and then squeezed out from the spray head 307 to the surface of the second cylinder 3014, as the second cylinder 3014 is always in a rotating state, the ointment is uniformly distributed on the surface of the second cylinder 3014, the second cylinder 3014 uniformly rolls the ointment on the skin of the patient, the squeeze amount of the ointment is controlled by a scale mark on the piston rod 304, thereby realizing the operation of evenly and quantitatively applying the ointment on the skin of the patient.

Example 2

On the basis of embodiment 1, as shown in fig. 1 to 11, the expansion assembly includes a first motor 401, a support frame 402, a fifth round bar 403, a first straight gear 404, a T-shaped frame 405, a rack 406, a sixth round bar 407, a third connection block 409 and a drive set; two first motors 401 are arranged in the middle of the right side of the first square cabin body 1; the front part and the rear part of the inner side of the first rectangular cabin body 1 are both connected with a support frame 402 through bolts; a fifth round bar 403 is rotatably connected inside each of the two support frames 402; two fifth round rods 403 are respectively fixedly connected with the output shafts of the adjacent first motors 401; the left ends of the two fifth round rods 403 are fixedly connected with a first straight gear 404; the opposite sides of the two support frames 402 are both connected with a T-shaped frame 405 in a sliding way; a rack 406 is welded at the lower part of the opposite side of the two T-shaped frames 405; the two racks 406 are respectively meshed with the adjacent first straight gears 404; two sixth round bars 407 are welded on the upper sides of the two T-shaped frames 405; the upper ends of the four sixth round rods 407 are fixedly connected with the adjacent magnets 408 respectively; the front part and the rear part of the inner side of the first square cabin body 1 are both connected with two third connecting blocks 409 through bolts, and the four third connecting blocks 409 are positioned on the outer sides of the two supporting frames 402; the four third connecting blocks 409 are respectively connected with the adjacent limiting blocks 4010 through bolts; the right part of the front side of the first square cabin 1 is connected with a driving set.

The driving set comprises a second motor 4011, a second spur gear 4012 and a third spur gear 4013; a second motor 4011 is arranged on the right part of the front side of the first square cabin body 1; an output shaft of the second motor 4011 is fixedly connected with a second straight gear 4012; the front part of the third round rod 3013 is fixedly connected with a third straight gear 4013; the third spur gear 4013 is engaged with the second spur gear 4012.

The disinfection component comprises a supporting plate 501, an electric slide rail 502, an electric slide block 503, a linkage frame 504, a bellows 505, a liquid sprayer 506 and a hollow rod 507; the left part of the inner side of the first square cabin body 1 is connected with two supporting plates 501 through bolts; the upper sides of the two supporting plates 501 are fixedly connected with an electric slide rail 502; an electric sliding block 503 is connected to each of the two electric sliding rails 502 in a sliding manner; a linkage frame 504 is fixedly connected to each of the two electric sliding blocks 503; an air box 505 is fixedly connected between the right sides of the two linkage frames 504; the moisture on the second cylinder 3014 is dried by the air box 505, so that the subsequent disinfection effect is improved; a liquid sprayer 506 is fixedly connected between the middle parts of the two linkage frames 504, and a plurality of spray heads are arranged on the upper side of the liquid sprayer 506; the second cylinder 3014 is sterilized by the sprayer 506, so as to avoid cross infection; the front part of the upper side and the rear part of the upper side of the liquid sprayer 506 are both communicated with a hollow rod 507, and the upper parts of the two hollow rods 507 are both provided with a plurality of spray heads; the second cylinder 3014 is sterilized on both sides by the hollow bar 507 to avoid cross-contamination.

Firstly, an external liquid inlet pipe is communicated to an input end of a liquid sprayer 506, after smearing is finished, a part of ointment remains in a spray head 307, at the moment, a doctor inserts the shell 5 back into a fixing ring 4, the fixing ring 4 fixes the shell 5, the shell 5 drives parts on the shell to move back to the original position, then an electric push rod 201 drives a linkage plate 202 to move rightwards, the linkage plate 202 drives a second pipeline 203 to move rightwards, so that the second pipeline 203 is inserted into a fourth pipeline 206, then the doctor pulls a handle 305 to move upwards, so that a piston block 306 moves to the upper side of the fourth pipeline 206, then an external water inlet pipe conveys clean water to a third pipeline 204, the clean water sequentially flows into a hose 205 and the second pipeline 203, then water pressure pushes a piston ball 2011 to be far away from a first cylinder 207, then the clean water flows into a circular pipe 302 from a gap between the first cylinder 207 and the piston ball 2011, the external water inlet pipe stops conveying the clean water, a first spring 2010 drives the piston ball 2011 to move back to the original position to plug the first cylinder 207 again, at this time, the round tube 302 is filled with clear water, then the first motor 401 is started, the first motor 401 drives the fifth round bar 403 to rotate, the fifth round bar 403 drives the first straight gear 404 to rotate, the first straight gear 404 drives the rack 406 to move downwards, the rack 406 drives the T-shaped frame 405 to move downwards, the T-shaped frame 405 drives the sixth round bar 407 to move downwards, the sixth round bar 407 drives the magnet 408 to move downwards, the magnet 408 drives the iron block 3021 to move downwards, the iron block 3021 drives the first side plate 3012 to move downwards, the first side plate 3012 drives the first linkage block 3010 to slide downwards on the second round bar 309 and compress the second spring 3011, the first side plate 3012 drives the parts thereon to move downwards, so that the second cylinder 3014 moves downwards and is far away from the nozzle 307, then the doctor pushes the ointment grip 305 to move downwards, so that the piston block 306 pushes the clear water to move downwards, so that the clear water pushes the clear water to move downwards remained in the nozzle 307, at the moment, the upper side of the second cylinder 3014 is far away from the spray head 307, so that residual ointment is prevented from being squeezed and stuck on the surface of the second cylinder 3014, and therefore high cleaning difficulty is avoided, meanwhile, the first side plate 3012 drives the fourth round rod 3017 to move downwards, the fourth round rod 3017 drives the second linkage block 3019 to move downwards, the second linkage block 3019 drives the second side plate 3020 to move downwards, the limiting block 4010 blocks and limits the second side plate 3020, based on the wedge block principle, the second side plate 3020 drives the second linkage block 3019 to move away from the second cylinder 3014, the second linkage block 3019 compresses the third spring 3018, and even if the gap between the second side plate 3020 and the second cylinder 3014 is enlarged, the ointment squeezed out in a block shape is prevented from being stuck in the gap between the second side plate 3020 and the second cylinder 3014; if the ointment is driven by clear water to move forwards or backwards, the ointment falls into a cavity among the second cylinder 3014, the second ring 3015 and the third ring 3016 and then flows downwards to be collected in the first rectangular cabin 1, and the ointment is prevented from flowing onto parts on the first side plate 3012 through the second ring 3015 and the third ring 3016 in the process, so that the phenomenon of ointment residue is avoided; in the process of removing the ointment remained in the spray head 307 by using clear water, the clear water can also be used for cleaning the circular tube 302, the spray head 307 and the second cylinder 3014, so that the cleaning efficiency is greatly improved; in the process that the first side plate 3012 moves downwards, the first side plate 3012 drives the third circular rod 3013 to move downwards, the third circular rod 3013 drives the third spur gear 4013 to move downwards, so that the third spur gear 4013 is meshed with the second spur gear 4012, after ointment remained in the spray head 307 is removed, the electric slide block 503 slides rightwards on the electric slide rail 502, the electric slide block 503 drives the link frame 504 to move rightwards, the link frame 504 drives the bellows 505 to move rightwards to be below the second cylinder 3014, then the bellows 505 conveys hot air upwards, moisture on the second cylinder 3014 is dried, meanwhile, the second motor 4011 is started, the second motor 4011 drives the second spur gear 4012 to rotate, the second spur gear 4012 drives the third spur gear 4013 to rotate, the third spur gear 4013 drives the third circular rod 3013 to rotate, the third circular rod 3013 drives the second cylinder 3014 to rotate, so that the surface of the second cylinder 3014 is in uniform contact with the hot air, and drying efficiency is improved, after drying is completed, the air box 505 is closed, the linkage frame 504 drives the liquid sprayer 506 to move to the position below the second cylinder 3014, the liquid sprayer 506 drives the hollow rod 507 to move to the cavity formed by the second cylinder 3014, the second circular ring 3015 and the third circular ring 3016, then the liquid inlet pipe is externally arranged to convey medical alcohol to the liquid sprayer 506, the medical alcohol is sprayed to the second cylinder 3014 from the spray head on the liquid sprayer 506 and is disinfected on the second cylinder 3014, meanwhile, the liquid sprayer 506 conveys the medical alcohol to the hollow rod 507, then the medical alcohol is sprayed to the cavity formed by the second cylinder 3014, the second circular ring 3015 and the third circular ring 3016 from the spray head on the hollow rod 507, the incomplete disinfection phenomenon is avoided, after the disinfection is completed, the second motor 4011 is turned off, then the first motor 401 drives the fifth circular rod 403 to rotate, the fifth circular rod 403 drives the first straight gear 404 to rotate, and the first straight gear 404 drives the rack 406 to move back to the original position, when the first motor 401 is turned off, the rack 406 drives the parts on the rack to move back to the original position, so that the second spring 3011 rebounds to drive the first linkage block 3010 to move upwards to the original position, the first linkage block 3010 drives the first side plate 3012 to move upwards to the original position, the first side plate 3012 drives the parts on the first side plate to move back to the original position, the second side plate 3020 is far away from the limiting block 4010, and then the third spring 3018 rebounds to drive the second side plate 3020 to move back to the original position.

The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily think of the changes or substitutions within the technical scope of the present invention, and shall cover the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims

1. An anti-cross-infection quantitative uniform smearing instrument for dermatological ointment comprises a first square cabin body (1), a first pipeline (2), a second square cabin body (3), a fixing ring (4) and a shell (5); the lower part of the right side of the first square cabin body (1) is communicated with a first pipeline (2); the left part of the upper side of the first square cabin body (1) is fixedly connected with a second square cabin body (3); a fixing ring (4) penetrates through the right part of the first square cabin body (1); the inner part of the fixed ring (4) is connected with a shell (5) in a plugging way; the method is characterized in that: the device also comprises a second pipeline (203), a magnet (408), a limiting block (4010), an injection assembly, an application assembly, an expansion assembly and a disinfection assembly; an injection assembly for injecting ointment and clear water is connected between the second square cabin body (3) and the outer shell (5); the middle part of the injection assembly is connected with a second pipeline (203); the inner side of the shell (5) is connected with a smearing component for quantitatively and uniformly smearing ointment; injecting clear water into the smearing component through a second pipeline (203); the smearing component is connected with the injection component; the smearing component is connected with the shell (5); the right part of the inner side of the first square cabin body (1) is connected with an expansion assembly; the outer side of the expansion component is connected with four magnets (408); the four magnets (408) are all connected with the smearing component; the outer side of the extension component is connected with four limiting blocks (4010), and the four limiting blocks (4010) are positioned on the inner sides of the four magnets (408); the upper side surface of the limiting block (4010) is a wedge-shaped surface; the four limiting blocks (4010) are connected with the smearing component; the right part of the inner side of the first square cabin body (1) is connected with a disinfection component; the lower part of the smearing component is expanded through the matching of the magnet (408), the limiting block (4010) and the expansion component, the expanded smearing component is cleaned through the injection component, and the expanded smearing component is disinfected through the disinfection component.

2. The anti-cross-infection quantitative uniform applicator for dermatological ointment according to claim 1, characterized in that: the injection assembly comprises an electric push rod (201), a linkage plate (202), a third pipeline (204), a hose (205), a fourth pipeline (206) and a self-sealing set; two electric push rods (201) are fixedly connected to the upper part of the inner side of the second square cabin body (3); a linkage plate (202) is fixedly connected between the telescopic ends of the two electric push rods (201); the linkage plate (202) is connected with the second square cabin body (3) in a sliding manner; the middle part of the linkage plate (202) is fixedly connected with a second pipeline (203); a third pipeline (204) penetrates through the upper part of the left side of the second square cabin body (3), and the third pipeline (204) is used for being communicated with an external water inlet pipe; a hose (205) is communicated between the third pipeline (204) and the second pipeline (203), and the hose (205) is used for adapting to the left-right movement of the second pipeline (203); a fourth pipeline (206) penetrates through the upper part of the left side of the shell (5); the fourth pipeline (206) is connected with the second pipeline (203) in a plugging manner; the inner side of the fourth pipeline (206) is connected with a self-sealing set.

3. The anti-cross-infection quantitative uniform applicator for dermatological ointment according to claim 2, characterized in that: the self-sealing set comprises a first cylinder (207), a first connecting block (208), a first round rod (209), a first spring (2010) and a piston ball (2011); a first cylinder (207) is fixedly connected to the inner side of the fourth pipeline (206), a truncated cone cavity is formed in the first cylinder (207), and the inner diameter of the left part of the cavity is relatively small; a sealing ring is arranged on the left side of the first cylinder (207) and used for improving the sealing property between the first cylinder (207) and the second pipeline (203); the first cylinder (207) is in contact with the second conduit (203); a first connecting block (208) is fixedly connected to the right side of the first cylinder (207); the middle part of the first connecting block (208) is connected with a first round rod (209) in a sliding way; the left end of the first round rod (209) is fixedly connected with a piston ball (2011); the piston ball (2011) is in contact with the first cylinder (207); a first spring (2010) is sleeved on the first round rod (209); one end of a first spring (2010) is fixedly connected with the first connecting block (208), and the other end of the first spring (2010) is fixedly connected with the piston ball (2011); the first spring (2010) is used to reset the piston ball (2011).

4. The anti-cross-infection quantitative uniform applicator for dermatological ointment according to claim 2, characterized in that: the smearing component comprises a connecting frame (301), a round pipe (302), a first round ring (303), a piston rod (304), a handle (305), a piston block (306), a spray head (307), a medicine feeding set and an anti-blocking set; two connecting frames (301) are fixedly connected to the inner side of the shell (5); a round pipe (302) is fixedly connected between the two connecting frames (301); the round pipe (302) is communicated with the fourth pipeline (206); a first circular ring (303) is fixedly connected to the upper side of the circular tube (302); the middle part of the first ring (303) is connected with a piston rod (304) in a sliding way, a plurality of scale marks are arranged on the piston rod (304) at equal intervals, and the scale marks are used for reflecting the amount of the extruded ointment; a handle (305) is fixedly connected to the upper part of the piston rod (304); a piston block (306) is fixedly connected to the lower part of the piston rod (304); the piston block (306) is connected with the round tube (302) in a sliding way; the lower end of the round tube (302) is communicated with a spray head (307), and the spray head (307) is flat and used for extruding ointment; the lower side of the shell (5) is connected with a medicine feeding set; the medicine feeding set is connected with an anti-blocking set.

5. The anti-cross-infection quantitative uniform applicator for dermatological ointments according to claim 4, wherein: the medicine feeding set comprises a second connecting block (308), a second round bar (309), a first linkage block (3010), a second spring (3011), a first side plate (3012), a third round bar (3013) and a second cylinder (3014); the lower part of the inner side of the shell (5) is fixedly connected with four second connecting blocks (308); a second round rod (309) is fixedly connected inside each of the four second connecting blocks (308); the four second round rods (309) are connected with a first linkage block (3010) in a sliding manner; a second spring (3011) is sleeved on each of the four second round rods (309), one end of each second spring (3011) is fixedly connected with the adjacent first linkage block (3010), and the other end of each second spring (3011) is fixedly connected with the lower portion of the adjacent second round rod (309); the second spring (3011) is used for resetting the first linkage block (3010); a first side plate (3012) is fixedly connected between every two front and back adjacent first linkage blocks (3010); a third round rod (3013) is fixedly connected between the two first side plates (3012); the middle part of the third round rod (3013) is rotatably connected with a second cylinder (3014), and the second cylinder (3014) is used for uniformly applying ointment on the skin of a patient; an anti-blocking set is connected between the two first side plates (3012).

6. The anti-cross-infection quantitative uniform applicator for dermatological ointments according to claim 4, wherein: the anti-blocking set comprises a fourth round rod (3017), a third spring (3018), a second linkage block (3019), a second side plate (3020) and an iron block (3021); the front parts and the rear parts of the two first side plates (3012) are fixedly connected with a fourth round rod (3017); a second linkage block (3019) is connected to each of the four fourth round rods (3017) in a sliding manner; a third spring (3018) is sleeved on each of the four fourth round rods (3017), one end of each third spring (3018) is fixedly connected with the adjacent second linkage block (3019), and the other end of each third spring (3018) is fixedly connected with the adjacent first side plate (3012); the third spring (3018) is used for resetting the second linkage block (3019); a second side plate (3020) is fixedly connected between every two left and right adjacent second linkage blocks (3019); the two second side plates (3020) are respectively connected with the two first side plates (3012) in a sliding manner; two iron blocks (3021) are fixedly connected to the lower parts of the opposite sides of the two first side plates (3012); the four magnets (408) are respectively connected with the adjacent iron blocks (3021) in a magnetic force way.

7. The anti-cross-infection quantitative uniform applicator for dermatological ointments according to claim 4, wherein: the smearing component also comprises a second circular ring (3015) and a third circular ring (3016); a second ring (3015) is fixedly connected to the middle part of the left side and the middle part of the right side of the second cylinder (3014), and the second ring (3015) is used for temporarily collecting the residual ointment; the two second circular rings (3015) are rotationally connected with a third circular rod (3013); the back parts of the outer sides of the two second circular rings (3015) are fixedly connected with a third circular ring (3016), and the third circular ring (3016) is used for stopping and limiting the residual ointment.

8. The dermatological ointment quantitative and uniform application instrument for preventing cross infection according to claim 4, characterized in that: the expansion assembly comprises a first motor (401), a support frame (402), a fifth round bar (403), a first straight gear (404), a T-shaped frame (405), a rack (406), a sixth round bar (407), a third connecting block (409) and a driving set; two first motors (401) are arranged in the middle of the right side of the first square cabin body (1); the front part and the rear part of the inner side of the first square cabin body (1) are fixedly connected with a support frame (402); a fifth round bar (403) is rotatably connected inside each of the two support frames (402); two fifth round rods (403) are fixedly connected with the output shafts of the adjacent first motors (401) respectively; the left ends of the two fifth round rods (403) are fixedly connected with first straight gears (404), and the first straight gears (404) are used for driving the second cylinder (3014) to rotate; the opposite sides of the two support frames (402) are both connected with a T-shaped frame (405) in a sliding way; the lower parts of the opposite sides of the two T-shaped frames (405) are fixedly connected with a rack (406); the two racks (406) are respectively meshed with the adjacent first straight gears (404); two sixth round rods (407) are fixedly connected to the upper sides of the two T-shaped frames (405); the upper ends of the four sixth round rods (407) are fixedly connected with the adjacent magnets (408) respectively; two third connecting blocks (409) are fixedly connected to the front part and the rear part of the inner side of the first square cabin body (1), and the four third connecting blocks (409) are positioned on the outer sides of the two supporting frames (402); the four third connecting blocks (409) are fixedly connected with the adjacent limiting blocks (4010) respectively; the right part of the front side of the first square cabin body (1) is connected with a driving set.

9. The anti-cross-infection quantitative uniform applicator for dermatological ointment according to claim 8, characterized in that: the disinfection component comprises a supporting plate (501), an electric sliding rail (502), an electric sliding block (503), a linkage frame (504) and a bellows (505); two supporting plates (501) are fixedly connected to the left part of the inner side of the first square cabin body (1); the upper sides of the two supporting plates (501) are fixedly connected with an electric slide rail (502); two auxiliary model plates for memorizing English words are arranged, and an adjustable blackboard movable slide rail (502) suitable for an English classroom is both connected with an electric slide block (503) in a sliding way; a linkage frame (504) is fixedly connected to each of the two electric sliding blocks (503); an air box (505) is fixedly connected between the right sides of the two linkage frames (504), and the air box (505) is used for drying moisture.

10. The anti-cross-infection quantitative uniform applicator for dermatological ointment according to claim 9, characterized in that: the disinfection component also comprises a liquid sprayer (506) and a hollow rod (507); a liquid sprayer (506) is fixedly connected between the middle parts of the two linkage frames (504), and a plurality of spray heads are arranged on the upper side of the liquid sprayer (506); the liquid sprayer (506) is used for disinfecting the second cylinder (3014); the front part of the upper side and the rear part of the upper side of the liquid sprayer (506) are both communicated with a hollow rod (507), and the upper parts of the two hollow rods (507) are both provided with a plurality of spray heads; the hollow bar (507) is used to sterilize both sides of the second cylinder (3014).