CN204890587U - Lotion proportioning device - Google Patents

Abstract

The utility model provides a lotion proportioning device, including a lotion container and casing, the casing sets up at lotion outside the container, pressing on the part acts on the lotion container on the casing, the lotion container includes storage part, press section and transport portion, the deformation that is equipped with easy deformation on the storage part is regional, the press section is linked together with storage portion, and the extrusion that is equipped with export and elastically deformable on it is regional, transport portion top is equipped with the delivery outlet, and the bottom is equipped with the input port, and the input port is linked together with the press section export, the regional elastic restitution ability of press section extrusion is greater than the regional elastic restitution ability of storage part deformation, and transport portion delivery outlet inner edge girth and/or the horizontal cutting plane inner edge girth of transport portion that closes on the press section be lighter than the biggest girth of the horizontal cutting plane inner edge of the press section that closes on transport portion, and the device overall structure is simple to the function that the viscous fluid ration extruded has been realized.

Description

A kind of paste quantifying device

Technical field

This utility model relates to a kind of paste quantifying device, is specifically related to a kind of device of viscous fluid squeezing out quantitative, belongs to technical field of medical instruments.

Background technology

The manner of packing of tradition viscous fluid mainly adopts bottle or flexible pipe to pack, lid need be opened during use, to extrude with hands or specific purpose tool is taken, the viscous fluid large area in packing not only can be caused to contact with air, cause viscous fluid to be oxidized or go bad, also due to staff, to extrude dynamics uncontrollable, causes viscous fluid extrusion capacity effectively not control, cannot realize the accurate squeezing out quantitative of viscous fluid.In addition, when squeezing tube makes viscous fluid extrude directly to be applied in diseased region, due to flexible pipe contacts with diseased region to smear parts comparatively hard, easily cause diseased region discomfort even to injure.

In order to viscous fluid squeezing out quantitative can be realized, China Patent No. 201210522906.0 proposes a kind of novel packaging box, comprise packing box main body and tubing, tubing inside is provided with outside check valve and inner side check valve, by pressing tubing, outside one-way valve opens, inner side check valve closes, and fluid flows out.Unclamp the pressing to tubing, outside check valve closes, inner side one-way valve opens, and it is inner that fluid flows into tubing, completes and once extrudes feeding operation.The arrangement achieves fluid quantitative to extrude, have the technique effect of anti-fluid microbial contamination, but this device needs in tubing, arrange two check valves ability squeezing out quantitative fluids, make the complex structure of device own, processing technique is loaded down with trivial details, and manufacturing cost is higher.

China Patent No. 201010545502.4 proposes a kind of implantable intraocular quantitative medicine injection pump, comprise medicine-introducing pipe, add medicine bag and medicine storing bag, add on medicine bag and check valve I and check valve II is set, wherein check valve I comprises valve gap and spring, medicine bag is added by pressing, check valve I valve gap is open, spring-compressed, medical liquid squeezing.Unclamp the pressing to adding medicine bag, check valve I closes, and check valve II opens, and the inner medicinal liquid of medicine storing bag is supplemented to and adds in medicine bag.This device is provided with dosing mouth liquid being supplemented to medicine storing bag, achieves the technique effect that liquid quantitative is extruded, but this device needs to arrange two check valves ability squeezing out quantitative liquid equally, and the complex structure of device own, processing technique is loaded down with trivial details, and manufacturing cost is higher.

China Patent No. 200480011415.3 proposes a kind of fixed-amount discharge container, comprises container body and pressing component, and container body exit is provided with resistance to outflow portion, and this resistance to outflow portion is made up of fine mesh members.This device produces distortion by squeeze receptacle main body, makes liquid extruding, and resistance to outflow portion regulates the extrusion capacity of inner material.The resistance that this device needs manual adjustments resistance to outflow portion to produce, then regulates extrusion capacity by resistance to outflow portion, causes staff repeatedly may touch liquid, uses comparatively inconvenience on the one hand, pollutes on the other hand to liquid.

China Patent No. 201180007584.X proposes a kind of oral care fluid delivery system, comprise hands handle, cervical region, head and reservoir, bladder is provided with in reservoir, handle is provided with pump, the first check-valves is provided with between bladder and pump, the second check-valves is provided with between head and pump, need reservoir to screw before using to be attached on handle, manually actuate pump to fill, in the process of filling, air in pump cannot be discharged by manual actuation pump completely, cause fluid and air contact stain in pump, in addition the fluid used last time can be remained in manual actuation pump, when again connecting reservoir, fluid is easily caused to intersect.This device arranges multiple check valve, complicated integral structure, and use procedure is also more loaded down with trivial details.

In order to solve the defect of above-mentioned existing viscous fluid dosed expelling device, needing a kind of overall structure of design badly simple, and viscous fluid can be avoided to be polluted by outside air, paste quantifying extrusion device easy to use.

Summary of the invention

This utility model provides a kind of paste quantifying device, the mastic container of this device inside is single use consumptive material, overall structure is simple, easily manufactured, achieve the function of viscous fluid squeezing out quantitative, the residual quantity of the viscous fluid in effective reduction container, and viscous fluid can be avoided to be polluted by outside air; Described paste quantifying device is arranged on mastic external container, auxiliary mastic container squeezing out quantitative viscous fluid, and can adjust mastic container viscous fluid extrusion capacity.

To achieve these goals, a kind of mastic container, for storing and squeezing out quantitative viscous fluid, comprising: storage part, the inner hollow of described storage part is storage part inner chamber, storage part is provided with at least partially the deformation region being easy to deformation; Press section, described press section is provided with outlet, and the inner hollow of press section is press section inner chamber, and press section inner chamber and storage part intracavity inter-connection, press section is provided with at least partially the crush-zone of elastically deformable; Delivery section, the inner hollow of this delivery section is delivery section inner chamber, and delivery section top is provided with delivery outlet, and bottom is provided with input port, and input port exports with press section and is connected, and delivery outlet is opened to the outside world; The elastic recovery capability of described press section crush-zone is greater than the elastic recovery capability of storage part deformation region, and delivery section delivery outlet inner edge girth and/or inner edge, the delivery section transverse cross sectional face girth closing on press section are less than inner edge, the press section transverse cross sectional face maximum perimeter closing on delivery section, when External Force Acting is on press section crush-zone, deformation is there is in this crush-zone to press section lumen centers direction, the viscous fluid of press section inner cavity is extruded from delivery outlet through outlet, and partial cohesive fluid enters storage part inner chamber; When external force is cancelled, press section crush-zone utilizes natural resiliency to restore to the original state, press section inner chamber forms negative pressure, and storage part deformation region to storage part lumen centers direction, deformation occurs under negative pressure effect, and the viscous fluid of storage part inner cavity enters press section inner chamber.Described elastic deformation refers to that press section crush-zone is under the effect of external force, and relative position generation deformation between crush-zone each point, after external force is cancelled, crush-zone utilizes natural resiliency to restore to the original state.Namely described elastic recovery capability is utilize the restorable ability of natural resiliency.The viscosity of described viscous fluid is between 5Pa.s to 500Pa.s, and it is the most suitable that 60Pa.s extrudes effect.In order to effectively stop viscous fluid reflux enter delivery section inner chamber, above-mentioned delivery section delivery outlet internal diameter between 0.5mm to 2.5mm, preferred 1.5mm.The average wall thickness of above-mentioned press section crush-zone is greater than the average wall thickness of storage part deformation region, and the average wall thickness of press section crush-zone is between 0.5mm to 5mm, and the average wall thickness of storage part deformation region is between 0.1mm to 2mm.The shore hardness of described crush-zone material, deformation region material and delivery section material is between 30 degree to 60 degree, and the shore hardness of crush-zone material is more than or equal to the shore hardness of deformation region material.

Described delivery section is drum, or the square column shape of hollow, or the interior cross section of hollow is the shape of abnormity, same, the shape of press section is also the one in above-mentioned shape, when delivery section delivery outlet inner edge girth is less than inner edge, press section transverse cross sectional face maximum perimeter, or inner edge, the delivery section transverse cross sectional face girth closing on press section is when being less than the press section transverse cross sectional face inner edge maximum perimeter closing on delivery section, with reference to hydraulic radius computing formula, after diminishing according to Inner edge girth, viscous fluid resistance becomes large principle, backflow is not easy when viscous fluid flows to delivery outlet direction, because extruding required power is manual control, can autonomous adjusting size, prevent viscous fluid from refluxing the most key.

Particularly, above-mentioned storage part, press section and delivery section can adopt elastomeric material sulfuration to make, plastic material or thermoplastic elastic material injection moulding can also be adopted to make, storage part, press section and delivery section can be one-body molded, also can be storage part, press section, delivery section make separately, adopt be threaded, the mode such as the bonding or ultrasonic bonding of medical bonding agent connects as one.Certainly, above-mentioned storage part deformation region can adopt film-shaped flexible material to make, and press section crush-zone can adopt quality of rubber materials sulfuration to make or thermoplastic elastic material injection moulding is made.

Described delivery section plays the effect of guiding and conveying to viscous fluid, and especially for eye local application patient, viscous fluid directly can be delivered to diseased region by delivery section.In order to avoid cross infection, the use of assurance device safety and sanitation, this mastic container is single use consumptive material, before using, the prefilled toughness fluid of mastic container, when press section crush-zone caves in press section lumen centers by external force extruding, press section intracavity space diminishes, the viscous fluid of press section inner chamber enters delivery section inner chamber through outlet, and finally from delivery outlet squeezing out quantitative, partial cohesive fluid enters storage part inner chamber; After external force is cancelled, elastic recovery capability due to press section crush-zone is greater than the elastic recovery capability of storage part deformation region, press section crush-zone utilizes natural resiliency to restore to the original state, when press section crush-zone restores to the original state, press section inner chamber forms negative pressure, storage part deformation region caves in storage part inner chamber by under this negative pressure effect, and storage part inner chamber viscous fluid is sucked and enters press section inner chamber, completes the supplementary process of viscous fluid to press section inner chamber.In addition, because delivery section delivery outlet inner edge girth and/or inner edge, the delivery section transverse cross sectional face girth that closes on press section are less than inner edge, the press section transverse cross sectional face maximum perimeter closing on delivery section, delivery section inner chamber viscous fluid is effectively stoped to flow to next time into press section inner chamber by this negative pressure effect.

Described delivery section inner chamber inner edge girth diminishes along central axis gradually to delivery outlet, make delivery section delivery outlet inner edge girth be less than delivery section inner chamber inner edge girth, effectively stop the viscous fluid extruding delivery section delivery outlet to enter delivery section inner chamber by negative pressure effect backflow.

In another kind of scheme, described at least one section of delivery section caves in delivery section lumen centers direction, this section of delivery section inner chamber inner edge girth is less than the average perimeter of delivery section inner chamber inner edge, effectively stops the viscous fluid extruding delivery section delivery outlet to enter delivery section inner chamber by negative pressure effect backflow.

Described delivery section is provided with adjustment member, this adjustment member is positioned at delivery section inner chamber and/or equipped at outlet port, adjustment member is provided with at least one through passage, viscous fluid is inner by adjustment member, contact with the vias inner walls of adjustment member, the vias inner walls of adjustment member and the contact area scalable of viscous fluid.The one that described adjustment member and delivery section connected mode adopt that thread seal connects, tight fit connection, medical bonding agent are bonding etc. and be tightly connected in mode, this adjustment member longitudinal direction is provided with at least one through passage, the longitudinal length of passage is not less than 5mm, this passage makes viscous fluid bond area increase, and effectively stops delivery section inner chamber viscous fluid to enter press section inner chamber by negative pressure effect backflow.In addition, by adjusting the length of number of channels and passage, adjust the contact area of adjustment member vias inner walls and viscous fluid, also delivery section inner chamber viscous fluid can be effectively stoped to enter press section inner chamber by negative pressure effect backflow, the passage lateral cross section of this adjustment member can rounded, semicircle, star, square, polygonal shape, make the viscous fluid extruded present difformity, contribute to viscous fluid deeply to diseased region, viscous fluid is fully applied in diseased region.

The average wall thickness of described press section crush-zone is greater than the average wall thickness of storage part deformation region.Under the prerequisite not changing crush-zone material and deformation region material, only change the wall thickness of crush-zone and the wall thickness of deformation region, make the elastic recovery capability of press section crush-zone be greater than the elastic recovery capability of storage part deformation region, increase press section inner chamber and form negative pressure.

The inwall of described at least one section of delivery section is provided with rough layer, and this rough layer makes the frictional force between delivery section inwall and viscous fluid increase.Described rough layer is projective structure and/or the sunk structure of the setting of delivery section inwall, coarse process can also be done for delivery section inner wall surface to make, this rough layer makes the adhesion between viscous fluid and delivery section inwall increase, and effectively stops delivery section inner chamber viscous fluid to enter press section inner chamber by negative pressure effect backflow.

Described delivery section inwall is provided with resistance projection, this resistance projection be selected from a mao shape, cotton-shaped, lamellar, strip, thorn-like, wedge-like one or more, this resistance projection is the extension of delivery section inwall to the inclined delivery outlet of delivery section inner chamber.Described resistance projection is extended by the convex shape of delivery section inwall to cavity direction in delivery section, and protruding extending end points to delivery outlet direction, the protruding softness of described resistance is easy to deformation, when viscous fluid is extruded from outlet to delivery outlet, this resistance projection extrudes by viscous fluid, fit with delivery section inwall, viscous fluid is extruded smoothly; When viscous fluid is by suction function backflow, this resistance is protruding utilizes natural resiliency to restore to the original state on the one hand, and the viscous fluid be refluxed on the other hand is pushed into vertical with delivery section inwall, effectively stops the viscous fluid backflow be extruded to enter delivery section inner chamber.

This container also comprises smears parts, and this smears parts inner hollow is spreader portion inner chamber, and smear parts top and be provided with and smear mouth, bottom is provided with connector, smears parts connector and delivery section delivery outlet is tightly connected.Above-mentioned parts of smearing can adopt elastomeric material sulfuration to make or thermoplastic elastic material injection moulding is made, and smear that parts connector can adopt back-off to connect with delivery section delivery outlet connected mode, is threaded, bonding agent is bonding, one in ultrasonic bonding.This hardness of smearing mouth is identical with the hardness of diseased region, viscous fluid is avoided to cause discomfort even to injure when smearing to diseased region, described parts of smearing are demountable single use consumptive material, ensure that the safety and sanitation of smearing parts, avoid cross infection.Smear parts to smear mouth and can make specification not of the same race, with diseased region conformal, contribute to smearing parts and stretch to diseased region, by viscous fluid fully, uniform application is to diseased region.Described parts of smearing smear mouth and/or delivery section delivery outlet is provided with cap body, this cap body can adopt elastomeric material sulfuration to make or plastic material injection moulding is made, cap body with smear parts and smear mouth and be tightly connected, this cap body not only prevents mastic internal tank viscous fluid and contacting external air, can also assist to smear parts and be installed on delivery section delivery outlet.

This container also comprises the support component of hard, the conformal container outer wall be wrapped in except press section crush-zone of this support component.This support component can be one-body molded, can also be involuted by two parts, adopts plastic material injection moulding to make, and for supporting or fixing mastic container, prevents the mastic container except press section crush-zone to be subject to external force compressional deformation.

Described storage part is provided with filling exit, and filling exit is provided with the sealing cap to external seal, and filling exit and storage part intracavity inter-connection, viscous fluid enters storage part inner chamber through filling exit.Described filling exit contributes to adding viscous fluid to storage part inner chamber, and described sealing cap adopts thermoplastic elastic material injection moulding to make, and sealing cap is connected or tight fit connection with filling exit thread seal.

To achieve these goals, this utility model also provides a kind of paste quantifying device, comprise pressing component and above-mentioned mastic container, this pressing component is positioned on press section crush-zone, external force acts on press section crush-zone by pressing component, make crush-zone generation deformation, external force is cancelled, press section crush-zone utilizes natural resiliency to restore to the original state, by acting on the adjustment of area on press section crush-zone and/or the extruding degree of depth to pressing component, control the deformation quantity of press section crush-zone, indirectly control the amount that mastic container is extruded viscous fluid.Described pressing component can be the part that press section crush-zone outwardly protrudes, also can be separate part, and be fixedly connected with press section crush-zone, this pressing component is marked with scale, pressing component, by the extruding degree of depth of scale Accommodation at press section crush-zone, controls the amount that mastic container is extruded viscous fluid indirectly.Described pressing component can make different size, by changing the area of pressing component Accommodation on press section crush-zone, makes viscous fluid extrusion capacity more accurate.Pressing component is extruded by external force, pressing component acts on press section crush-zone, crush-zone is caved in press section lumen centers, press section intracavity space diminishes, the viscous fluid of press section inner cavity enters delivery section inner chamber through outlet, finally extrude from delivery outlet, when external force is cancelled, press section crush-zone utilizes natural resiliency to restore to the original state.

This paste quantifying device also comprises the housing of exterior contour and staff conformal, and housing hollow receiver mastic container, housing tip is provided with through hole, and delivery section is at least partially stretched out by through hole.Described housing is made up of a shell and two shells, the opening-closing structure be convenient to housing and opened or closed is provided with between one shell and two shells, housing is provided with the storage tank installing pressing component, inner walls surface is provided with the guiding rib of protrusion, this guiding rib and mastic container support parts cooperatively interact, and fixing mastic container is positioned at the position of enclosure interior.

Described housing tip is provided with mirror, and this mirror is connected with the telescopic shaft of adjusting angle and/or height.Described mirror is mainly for the user of eye local application, and user can regulate height and the angle of mirror, observes the multi-angle position that you need to observe, accurately viscous fluid is smeared to diseased region by mirror.

Beneficial effect:

This utility model provides a kind of mastic container, by applying External Force Acting on press section crush-zone, press section inner chamber viscous fluid is extruded from delivery outlet through outlet, control viscous fluid accurate quantification on the one hand to extrude, reduce the residual quantity of the viscous fluid in container on the other hand, and structural design does not have check valve, easy processing and manufacturing; This container by changing the Inner edge girth of delivery section, both press sections, and arranges different elastic recovery capabilities, viscous fluid is constantly extruded, eliminates the labyrinth of check valve, have the technique effect facilitating viscous fluid quantitatively to use.

Parts of smearing on this container smear mouth and diseased region conformal, contribute to smearing parts and stretch to diseased region, full and uniform for viscous fluid is smeared to diseased region, smearing parts is single use consumptive material, avoid user cross infection, ensure that the safety and sanitation of device; In addition, this is smeared parts and have employed the material identical with the hardness of diseased region and make, and avoids viscous fluid to cause discomfort even to injure when smearing to diseased region.

This utility model also provides a kind of paste quantifying device, and its housing tip is provided with mirror, and user can regulate height and the angle of mirror, observes the position of multi-angle when device uses, accurately viscous fluid is smeared to diseased region by mirror.

Accompanying drawing explanation

Fig. 1 is this utility model mastic container perspective view 1;

Fig. 2 is this utility model mastic container cutting structural representation Fig. 1;

Fig. 3 is this utility model mastic container cutting structural representation Fig. 2;

Fig. 4 is this utility model mastic container cutting structural representation Fig. 3;

Fig. 5 is this utility model mastic container cutting structural representation Fig. 4;

Fig. 6 is this utility model mastic container cutting structural representation Fig. 5;

Fig. 7 is the three-dimensional biopsy cavity marker devices structural representation of this utility model mastic container;

Fig. 8 is this utility model mastic container biopsy cavity marker devices structural representation Fig. 1;

Fig. 9 is this utility model mastic container biopsy cavity marker devices structural representation Fig. 2;

Figure 10 is this utility model mastic container perspective view 2;

Figure 11 is this utility model paste quantifying device pressing component cutting structural representation;

Figure 12 is this utility model paste quantifying device stereo decomposing structural representation;

Figure 13 is this utility model paste quantifying device perspective view;

Figure 14 is this utility model paste quantifying device using state structural representation;

Figure 15 is this utility model paste quantifying device local open mode structural representation;

Figure 16 is this utility model paste quantifying device biopsy cavity marker devices structural representation Fig. 1;

Figure 17 is this utility model paste quantifying device biopsy cavity marker devices structural representation Fig. 2;

Figure 18 is this utility model paste quantifying device pressing component partial structurtes schematic diagrams;

In figure: 1. storage part, 11. storage part inner chambers, 12. deformation region, 13. filling exits, 131. sealing cap, 2. press section, 21. outlets, 22. press section inner chambers, 23. crush-zones, 24. central axis, 25. adjustment members, 251. passage, 26. rough layers, 27. inner edge, the press section transverse cross sectional face maximum perimeters closing on delivery section, 3. delivery section, 31. delivery section inner chambers, 32. delivery outlets, 33. input ports, 34. fixed parts, 35. delivery outlet inner edge girths, 36. inner edge, the delivery section transverse cross sectional face girths closing on press section, 4. resistance is protruding, 41. maos of shapes, 42. is cotton-shaped, 43. lamellars, 44. strips, 45. thorn-likes, 46. wedge-likes, 5. smear parts, 51. spreader portion inner chambers, 52. smear mouth, 521. cap bodies, 53. connectors, 6. pressing component, 61. pressure caps, 611. connecting rod, 6111. scale, 6112. press head, 612. arrow, 62. pads, 63. back-moving springs, 64. catch, 65. links, 651. limit part, 6511. hole, 7. support component, 71. fore shells, 72. back covers, 8. housing, 81. through holes, 82. 1 shells, 821. storage tank, 8211. notch, 8212. graduated disc, 83. 2 shells, 84. opening-closing structures, 85. guiding ribs, 86. contact surfaces, 861. locating hole, 87. arrows, 88. articulated elements, 89. snap close pieces, 9. mirror, 91. telescopic shafts, 911. card ball joint, 912. spherical shell, 10. mastic container.

Detailed description of the invention

Embodiment 1:

As Fig. 1, shown in Fig. 4, a kind of mastic container, for storing viscous fluid and squeezing out quantitative viscous fluid, the viscosity of viscous fluid is 500Pa.s, this mastic container 10 comprises storage part 1, press section 2 and delivery section 3, described storage part 1 is the cryptomere of inner hollow, the inner hollow of storage part 1 is storage part inner chamber 11, storage part 1 is provided with the deformation region 12 being easy to deformation, described press section 2 is the column of inner hollow both ends open, press section 2 is provided with outlet 21, the inner hollow of press section 2 is press section inner chamber 22, storage part inner chamber 11 is connected with press section inner chamber 22, press section 2 is provided with the crush-zone 23 of elastically deformable, described delivery section 3 is inner hollow both ends open column, the inner hollow of delivery section 3 is delivery section inner chamber 31, delivery section 3 top is provided with delivery outlet 32, delivery outlet 32 is opened to the outside world, bottom is provided with input port 33, input port 33 and press section 2 export 21 and are tightly connected.Described crush-zone 23 is a part for press section 2, and deformation region 12 is a part for storage part 1, and storage part 1, press section 2 and delivery section 3 are integrated and adopt the sulfuration of shore hardness 40 degree of medical grade silastic materials to make.The average wall thickness of described crush-zone 23 is 1.2mm, the average wall thickness of deformation region 12 is 0.3mm, the average wall thickness of crush-zone 23 is greater than the average wall thickness of deformation region 12, makes the elastic recovery capability of press section 2 crush-zone 23 be greater than the elastic recovery capability of storage part 1 deformation region 12.

As shown in Figure 4, described storage part 1 is provided with filling exit 13, filling exit 13 is connected with storage part inner chamber 11, filling exit 13 contributes to adding viscous fluid to storage part inner chamber 11, in addition, filling exit 13 is provided with the sealing cap 131 to external seal, and sealing cap 131 adopts the sulfuration of medical grade silastic material to make, and sealing cap 131 adopts thread seal to be connected with filling exit 13.The inwall of delivery section 3 is provided with rough layer 26, and this rough layer 26 is the dots structure that delivery section 3 inwall protrudes, and rough layer 26 makes the frictional force between delivery section 3 inwall and viscous fluid increase, and effectively stops viscous fluid backflow to enter delivery section inner chamber 31.Described delivery section 3 delivery outlet inner edge girth 35 is less than with inner edge, the delivery section transverse cross sectional face girth 36 closing on press section inner edge, the press section transverse cross sectional face maximum perimeter 27 closing on delivery section, this delivery section 3 delivery outlet 32 internal diameter is 1.5mm, contribute to viscous fluid to extrude, effective prevention viscous fluid backflow enters delivery section inner chamber 31, this delivery section 3 pairs of viscous fluids play the effect of guiding and conveying, especially for eye local application patient, viscous fluid directly can be delivered to diseased region.Before using, the prefilled toughness fluid of mastic container 10, when press section 2 crush-zone 23 extrudes to press section inner chamber 22 central concave by external force, press section inner chamber 22 space diminishes, the viscous fluid of press section inner chamber 22 is extruded from delivery outlet 32 through exporting 21, partial cohesive fluid enters storage part inner chamber 11, after external force is cancelled, elastic recovery capability due to press section 2 crush-zone 23 is greater than the elastic recovery capability of storage part 1 deformation region 12, press section 2 crush-zone 23 utilizes natural resiliency to restore to the original state, during press section 2 crush-zone 23 restores to the original state, press section inner chamber 22 forms negative pressure, storage part 1 deformation region 12 by under this negative pressure effect to storage part inner chamber 11 central concave, storage part inner chamber 11 viscous fluid is sucked and enters press section inner chamber 22, again because delivery section 3 delivery outlet inner edge girth 35 and inner edge, the delivery section transverse cross sectional face girth 36 closing on press section are less than inner edge, the press section transverse cross sectional face maximum perimeter 27 closing on delivery section, effective prevention delivery section inner chamber 31 viscous fluid enters press section inner chamber 22 by negative pressure effect backflow.After diminishing according to Inner edge girth, viscous fluid resistance becomes large principle, and be not easy backflow when viscous fluid flows to delivery outlet 32 direction, power required when extruding is manual control, can become large, prevent viscous fluid from refluxing the most key from main regulation.

As shown in Figure 7, delivery section 3 is provided with adjustment member 25, this adjustment member 25 is positioned at delivery section inner chamber 31, adjustment member 25 adopts medical bonding agent bonding with delivery section 3 connected mode, this adjustment member 25 longitudinal direction is provided with multiple through passage 251, and the longitudinal length of passage 251 is 5mm, viscous fluid and adjustment member 25 passage 251 contact internal walls, increase viscous fluid bond area, effectively stop delivery section inner chamber 31 viscous fluid to enter press section inner chamber 22 by negative pressure effect backflow.In addition, the cylindrical shape of passage 251 lateral cross section of this adjustment member 25, makes to extrude viscous fluid also cylindrical shape, contributes to viscous fluid deeply to diseased region, viscous fluid is fully applied in diseased region.

As shown in Figure 8, described delivery section 3 inwall is provided with resistance projection 4, this resistance protruding 4 is in hair shape 41, cotton-shaped by 42, lamellar 43, strip 44, thorn-like 45, wedge-like 46, resistance protruding 4 is the extension of delivery section 3 inwall to inclined delivery outlet 32 direction of delivery section inner chamber 31, this resistance protruding 4 is one-body molded with delivery section 3, protruding 4 softnesses of described resistance are easy to deformation, when viscous fluid through export 21 extrude to delivery outlet 32 direction time, resistance protruding 4 extrudes by viscous fluid, fit with delivery section 3 inwall, when viscous fluid is by suction function backflow, resistance projection 4 utilizes natural resiliency to restore to the original state, viscous fluid backflow is stoped to enter press section inner chamber 22.

As shown in Figure 9, container is also provided with and smears parts 5, this smears parts 5 inner hollow is spreader portion inner chamber 51, and smear parts 5 top and be provided with and smear mouth 52, bottom is provided with connector 53, smears mouth 52 and is sealed covering by cap body 521.Described parts 5 connector 53 of smearing adopts reverse buckling type to be tightly connected with delivery section 3 delivery outlet 32, smearing parts 5 adopts the sulfuration of shore hardness 20 degree of medical grade silastic materials to make, viscous fluid is avoided to cause discomfort even to injure when smearing to diseased region, smear parts 5 and be divided into different size, can with diseased region conformal, contribute to smearing parts 5 and stretch to diseased region, by viscous fluid fully, uniform application is to diseased region, smearing parts 5 is the single use consumptive material that can change, ensure that the safety and sanitation of smearing parts 5, avoid cross infection.Above-mentioned cap body 521 adopts polypropylene material injection moulding to make, cap body 521 with smear parts 5 and smear mouth 52 and adopt buckle-type to be tightly connected, cap body 521 not only prevents viscous fluid and extraneous contact in mastic container 10, and can assist and smear parts 5 and be installed on delivery section 3 delivery outlet 32.

As shown in Figure 10, external container is provided with the support component 7 of hard material, described support component 7 is wrapped in mastic container 10 outer wall except press section 2 crush-zone 23, support component 7 inwall and mastic container 10 outer wall conformal, this support component 7 comprises fore shell 71 and back cover 72, and fore shell 71 is connected by buckle with back cover 72, and support component 7 adopts polypropylene material injection moulding to make, for supporting or fixing mastic container 10, prevent mastic container 10 under fortuitous event by external force compressional deformation.

As shown in Figure 2, in another kind of situation, delivery section 3 input port 33 inwall protrudes to delivery section inner chamber 31 center, input port 33 internal diameter is less than 1.5mm, make inner edge, the delivery section transverse cross sectional face girth 36 closing on press section be less than inner edge, the press section transverse cross sectional face maximum perimeter 27 closing on delivery section, can effectively stop in such cases delivery section inner chamber 31 viscous fluid be squeezed the effect of portion's inner chamber 22 negative pressure backflow enter press section inner chamber 22.

As shown in Figure 3, delivery section 3 delivery outlet 32 inwall protrudes to delivery section inner chamber 31 center, delivery outlet 32 internal diameter is less than 1.5mm, delivery section 3 delivery outlet inner edge girth 35 is less than inner edge, the press section transverse cross sectional face maximum perimeter 27 closing on delivery section, in such cases, the viscous fluid extruded from delivery outlet 32 portion's inner chamber 22 negative pressure effect that is squeezed can be effectively stoped to flow to next time into delivery section inner chamber 31.

As shown in Figure 5, delivery section inner chamber 31 inner edge girth diminishes along central axis 24 gradually to delivery outlet 32, delivery section inner chamber 31 internal diameter is 1.5mm, delivery outlet 32 diminishes as 0.5mm gradually, this structural design effectively stops the viscous fluid extruded from delivery section inner chamber 31 portion's inner chamber 22 negative pressure effect that is squeezed to flow to into delivery section inner chamber 31 next time on the one hand, can control diameter when viscous fluid is extruded on the other hand.

As shown in Figure 6, delivery section 3 near delivery outlet 32 caves in delivery section inner chamber 31 center position, delivery section inner chamber 31 internal diameter is 1.5mm, delivery section 3 is 0.5mm to the internal diameter of delivery section inner chamber 31 center position sunk area, less diameter can prevent the viscous fluid backflow of extruding delivery outlet 32, particularly, the viscous fluid extruding delivery outlet 32 portion's inner chamber 22 negative pressure effect that is squeezed is stoped to flow to next time into delivery section inner chamber 31.

Embodiment 2:

As shown in figure 11, a kind of paste quantifying device, comprise mastic container 10, this mastic container 10 is for storing viscous fluid and squeezing out quantitative viscous fluid, the viscosity of viscous fluid is 5Pa.s, conveniently press press section 2, also be provided with pressing component 6, it is outside that this pressing component 6 is positioned at press section 2 crush-zone 23, described pressing component 6 comprises pressure cap 61, pad 62, back-moving spring 63, link 65, wherein pressure cap 61 one end is connecting rod 611, the part that connecting rod 611 contacts with press section 2 crush-zone 23 is press head 6112, pressure cap 61 other end connects the pad 62 being suitable for human contact, described pressure cap 61 adopts polypropylene material and ABS polymer mixed injection molding to make, pad 62 adopts the silastic material sulfuration of soft comfortable to make, in order to ensure press head 6112 accurately pressing press section 2 crush-zone 23 of pressure cap 61, link 65 is provided with between pressing component 6 and press section 2 crush-zone 23, described link 65 adopts polypropylene material injection moulding to make, for the tubular of inner hollow, this link 65 one end is fixedly connected with relative to press section 2 crush-zone 23, the other end is flexibly connected with pressure cap 61, particularly, can be that pressure cap 61 is inlayed or is set on link 65, described link 65 inner radial direction is provided with limit part 651, limit part 651 center is provided with hole 6511, part pressure cap 61 is positioned at the outside of link 65, described back-moving spring 63 one end contacts with pressure cap 61, and the other end contacts with link 65, and described connecting rod 611, through back-moving spring 63 and limit part 651 hole 6511, makes press head 6112 can press press section 2 crush-zone 23.

Described pressing component 6 does back and forth movement in the vertical direction of press section 2 crush-zone 23, when External Force Acting is on the pressure cap 61 of pressing component 6, pressure cap 61 promotes back-moving spring 63 compression, press head 6112 on pressure cap 61 acts on press section 2 crush-zone 23, make crush-zone 23 to press section inner chamber 22 central concave, press section inner chamber 22 space diminishes, the viscous fluid of press section inner chamber 22 inside is extruded from delivery outlet 32 through exporting 21, completes the work of a viscous fluid squeezing out quantitative; When external force is cancelled, back-moving spring 63 utilizes natural resiliency to be returned to original position, cancels the External Force Acting of press head 6112 pairs of press section 2 crush-zones 23, and press section 2 crush-zone 23 utilizes natural resiliency to restore to the original state.The area that above-mentioned pressure cap 61 press head 6112 acts on press section 2 crush-zone 23 can adjust, according to pressing depth can according to the according to pressing depth active adjustment of pressure cap 61.

Embodiment 3:

As Fig. 1, Fig. 4, Figure 12, shown in Figure 13 and Figure 14, a kind of paste quantifying device, comprise mastic container 10, this mastic container 10 is for storing viscous fluid, the viscosity of viscous fluid is 60Pa.s, comprise storage part 1, press section 2 and delivery section 3, described storage part 1 is the cryptomere of inner hollow, the inner hollow of storage part 1 is storage part inner chamber 11, storage part 1 is provided with the deformation region 12 being easy to deformation, described press section 2 is the column of inner hollow both ends open, press section 2 is provided with outlet 21, the inner hollow of press section 2 is press section inner chamber 22, storage part inner chamber 11 is connected with press section inner chamber 22, press section 2 is provided with the crush-zone 23 of elastically deformable, described delivery section 3 is inner hollow both ends open column, the inner hollow of delivery section 3 is delivery section inner chamber 31, delivery section 3 top is provided with delivery outlet 32, delivery outlet 32 is opened to the outside world, bottom is provided with input port 33, input port 33 and press section 2 export 21 and are tightly connected.Above-mentioned crush-zone 22 is a part for press section 2, and deformation region 12 is a part for storage part 1, and described storage part 1, press section 2 and delivery section 3 adopt the sulfuration of shore hardness 40 degree of medical grade silastic materials to be made into integration.The viscosity of above-mentioned viscous fluid is 60Pa.s, the average wall thickness of above-mentioned crush-zone 23 is 1.2mm, the average wall thickness of above-mentioned deformation region 12 is 0.3mm, the average wall thickness of crush-zone 23 is greater than the average wall thickness of deformation region 12, makes the elastic recovery capability of press section 2 crush-zone 23 be greater than the elastic recovery capability of storage part 1 deformation region 12.

As shown in Figure 4, described storage part 1 is provided with filling exit 13, filling exit 13 is connected with storage part inner chamber 11, filling exit 13 is for adding viscous fluid to storage part inner chamber 11, filling exit 13 is provided with the sealing cap 131 to external seal, sealing cap 131 adopts the sulfuration of medical grade silastic material to make, and sealing cap 131 adopts thread seal to be connected with filling exit 13.

Described delivery section 3 delivery outlet inner edge girth 35 is less than with inner edge, the delivery section transverse cross sectional face girth 36 closing on press section inner edge, the press section transverse cross sectional face maximum perimeter 27 closing on delivery section, above-mentioned delivery section 3 delivery outlet 32 internal diameter is 1.5mm, this structural design contributes to viscous fluid and extrudes, effective prevention viscous fluid backflow enters press section inner chamber 22, this delivery section 3 pairs of viscous fluids play the effect of guiding and conveying, especially for eye local application patient, viscous fluid directly can be delivered to diseased region.Before using, the prefilled toughness fluid of mastic container 10, when press section 2 crush-zone 23 extrudes to press section inner chamber 22 central concave by external force, press section inner chamber 22 space diminishes, the viscous fluid of press section inner chamber 22 enters delivery section inner chamber 31 through exporting 21, finally extrude from delivery outlet 32, partial cohesive fluid reflux enters storage part inner chamber 11, after external force is cancelled, elastic recovery capability due to press section 2 crush-zone 23 is greater than the elastic recovery capability of storage part 1 deformation region 12, press section 2 crush-zone 23 utilizes natural resiliency to restore to the original state, when press section 2 crush-zone 23 restores to the original state, press section inner chamber 22 forms negative pressure, storage part 1 deformation region 12 by under this negative pressure effect to storage part inner chamber 11 central concave, storage part inner chamber 11 viscous fluid is sucked and enters press section inner chamber 22.

As Figure 10, Figure 12, Figure 13, Figure 14, shown in Figure 15, paste quantifying device also comprises housing 8, the support component 7 that described housing 8 is wrapped in mastic container 10 is outside, this housing 8 exterior contour and staff conformal, be convenient to staff hold, housing 8 adopts polypropylene material and ABS polymer mixed injection molding to make, housing 8 top is provided with through hole 81, delivery section 3 is stretched out from through hole 81, in order to fixing delivery section 3 and prevent the stressed crimp of delivery section 3, fixed part 34 is provided with between delivery section 3 and through hole 81, this fixed part 34 fits with delivery section 3 outer wall, be fixed on through hole 81, fixed part 34 adopts polypropylene material and ABS polymer mixed injection molding to make.Described housing 8 comprises shell 82 and two shells 83, opening-closing structure 84 is provided with between one shell 82 and two shells 83, this opening-closing structure 84 comprises is located at locating hole 861 on a shell 82 and two shell 83 contact surfaces 86, and in locating hole 861, Magnet and iron block are installed, this opening-closing structure 84 controls a shell 82 by Magnet and the mutual adhesive of iron block and two shells 83 are opened or closed, and Magnet and iron block are convenient to housing 8 folding to change mastic container 10.Described two shell 83 inwalls are provided with guiding rib 85, described guiding rib 85 is the outwardly part of two shell 83 inner wall surface, this guiding rib 85 and support component 7 are clasped mutually, not only play guiding and positioning action to mastic container 10, and are convenient to mastic container 10 and install and take out.Described two shell 83 tops are provided with mirror 9, the extension of mirror 9 one end is provided with telescopic shaft 91, this telescopic shaft 91 end is provided with card ball joint 911, two shells 83 are fixedly connected with spherical shell 912, described mirror 9 utilizes card ball joint 911, spherical shell 912 to be flexibly connected with two shells 83, and with card ball joint 911 for basic point can 360 degree of rotations, described telescopic shaft 91 can elongate or shorten, as shown in figure 14, the angle of user adjustable mirror 9 and height, by mirror 9, viscous fluid is accurately smeared to diseased region, especially human body Eye disease position.

As shown in Figure 12, Figure 16, a described shell 82 is provided with the storage tank 821 that can hold pressing component 6, and storage tank 821 center is provided with notch 8211.Described pressing component 6 pressure cap 61 is provided with connecting rod 611, connecting rod 611 is provided with press head 6112, pressure cap 61 major part is positioned at the outside of a shell 82, described back-moving spring 63 one end contacts with pressure cap 61, the other end contacts with shell 82 storage tank 821, and described connecting rod 611 passes the notch 8211 of back-moving spring 63 and storage tank 821.Described pressing component 6 is provided with catch 64, and for preventing connecting rod 611 from exiting from storage tank 821, catch 64 is between a shell 82 and press head 6112, and restriction press head 6112 is positioned at the position of storage tank 821.As shown in figure 16, described pressing component 6 pressure cap 61 connecting rod 611 is provided with scale 6111, described connecting rod 611 scale 6111 indicates pressing component 6 in the distance of the vertical direction top offset of press section 2 crush-zone 23, the amount that Indirect method viscous fluid is extruded, when External Force Acting is in pressing component 6 pressure cap 61, the degree of depth of pressing component 6 pairs of press section 2 crush-zone 23 extruding is adjusted by connecting rod 611 scale 6111, the deformation quantity of press section 2 crush-zone 23 is changed, the amount that Indirect method viscous fluid is extruded.

In another kind of situation, as shown in figure 15, opening-closing structure 84 is provided with between a described shell 82 and two shells 83, one shell 82 and two shell 83 bottoms are provided with the arrow 87 of folding, this opening-closing structure 84 is be interconnected by articulated elements 88 between a shell 82 and two shells 83, certainly, be also provided with snap close piece 89 at articulated elements 88 opposite side, for fixing a shell 82 and two shells 83 close.

In another kind of situation, as shown in Figure 17 and Figure 18, described pressing component 6 pressure cap 61 is connected by screw thread is adjustable with between connecting rod 611, described pressure cap 61 outer surface is provided with arrow 612, one shell 82 storage tank 821 circumferential edges is provided with graduated disc 8212, by rotary push cap 61, arrow 612 points to selected graduated disc 8212, adjust the degree of depth of pressing component 6 pairs of press section 2 crush-zone 23 extruding, the deformation quantity of press section 2 crush-zone 23 is changed, the amount that Indirect method viscous fluid is extruded.

In addition, described pressing component 6 press head 6112 is specification not of the same race, and by changing the press head 6112 of different area, adjustment pressing component 6 acts on the area of press section 2 crush-zone 23, the deformation quantity of press section 2 crush-zone 23 is changed, the amount that Indirect method viscous fluid is extruded.

Claims (13)

1. a mastic container, for storing and squeezing out quantitative viscous fluid, comprising:

Storage part (1), the inner hollow of described storage part (1) is storage part inner chamber (11), storage part (1) is provided with at least partially the deformation region (12) being easy to deformation;

Press section (2), described press section (2) is provided with outlet (21), the inner hollow of press section (2) is press section inner chamber (22), press section inner chamber (22) is connected with storage part inner chamber (11), press section (2) is provided with at least partially the crush-zone (23) of elastically deformable;

Delivery section (3), the inner hollow of this delivery section (3) is delivery section inner chamber (31), delivery section (3) top is provided with delivery outlet (32), bottom is provided with input port (33), input port (33) exports (21) with press section (2) and is connected, and delivery outlet (32) is opened to the outside world;

It is characterized in that,

The elastic recovery capability of described press section (2) crush-zone (23) is greater than the elastic recovery capability of storage part (1) deformation region (12), and delivery section (3) delivery outlet inner edge girth (35) and/or the inner edge, delivery section transverse cross sectional face girth (36) closing on press section are less than the inner edge, press section transverse cross sectional face maximum perimeter (27) closing on delivery section, when External Force Acting is on press section (2) crush-zone (23), this crush-zone (23) is to press section inner chamber (22) center position generation deformation, the viscous fluid of press section inner chamber (22) inside is extruded from delivery outlet (32) through outlet (21), partial cohesive fluid enters storage part inner chamber (11), when external force is cancelled, press section (2) crush-zone (23) utilizes natural resiliency to restore to the original state, press section inner chamber (22) forms negative pressure, storage part (1) deformation region (12) is to storage part inner chamber (11) center position generation deformation under negative pressure effect, and the viscous fluid of storage part inner chamber (11) inside enters press section inner chamber (22).

2. mastic container according to claim 1, is characterized in that, delivery section inner chamber (31) inner edge girth diminishes along central axis (24) gradually to delivery outlet (32).

3. mastic container according to claim 1, is characterized in that, at least one section of delivery section (3) is caved in delivery section inner chamber (31) center position.

4. mastic container according to claim 1, it is characterized in that, delivery section (3) is provided with adjustment member (25), this adjustment member (25) is positioned at delivery section inner chamber (31) and/or delivery outlet (32) place, adjustment member (25) is provided with at least one through passage (251), viscous fluid is inner by adjustment member (25), with passage (251) contact internal walls of adjustment member (25), passage (251) inwall of adjustment member (25) and the contact area scalable of viscous fluid.

5. mastic container according to claim 1, is characterized in that, the average wall thickness of press section (2) crush-zone (23) is greater than the average wall thickness of storage part (1) deformation region (12).

6. mastic container according to claim 1, it is characterized in that, the inwall of at least one section of delivery section (3) is provided with rough layer (26), and this rough layer (26) makes the frictional force of delivery section (3) between inwall and viscous fluid increase.

7. according to the arbitrary described mastic container of claim 1-6, it is characterized in that, described delivery section (3) inwall is provided with resistance projection (4), this resistance projection (4) be selected from a mao shape (41), cotton-shaped (42), lamellar (43), strip (44), thorn-like (45), wedge-like (46) one or more, this resistance projection (4) is for delivery section (3) inwall is to the extension of delivery section inner chamber (31) delivery outlet (32) partially.

8. mastic container according to claim 7, it is characterized in that, also comprise and smear parts (5), this smears parts (5) inner hollow is spreader portion inner chamber (51), smear parts (5) top to be provided with and to smear mouth (52), bottom is provided with connector (53), smears parts (5) connector (53) and is tightly connected with delivery section (3) delivery outlet (32).

9. mastic container according to claim 8, it is characterized in that, also comprise the support component (7) of hard, the conformal container outer wall be wrapped in except press section (2) crush-zone (23) of this support component (7).

10. mastic container according to claim 9, it is characterized in that, storage part (1) is provided with filling exit (13), filling exit (13) is provided with the sealing cap (131) to external seal, filling exit (13) is connected with storage part inner chamber (11), and viscous fluid enters storage part inner chamber (11) through filling exit (13).

11. 1 kinds of paste quantifying devices, comprise pressing component (6), this pressing component (6) is positioned on press section (2) crush-zone (23), external force acts on press section (2) crush-zone (23) by pressing component (6), make crush-zone (23) that deformation occur, external force is cancelled, press section (2) crush-zone (23) utilizes natural resiliency to restore to the original state, act on the area on press section (2) crush-zone (23) by pressing component (6) and/or extrude the adjustment of the degree of depth, control the deformation quantity of press section (2) crush-zone (23), it is characterized in that, also comprise the arbitrary described a kind of mastic container (10) of claim 1-10.

12. paste quantifying devices according to claim 11, it is characterized in that, also comprise the housing (8) of exterior contour and staff conformal, housing (8) hollow receiver mastic container (10), housing (8) top is provided with through hole (81), and delivery section (3) is at least partially stretched out by through hole (81).

13. paste quantifying devices according to claim 12, is characterized in that, housing (8) top is provided with mirror (9), and this mirror (9) is connected with the telescopic shaft (91) of adjusting angle and/or height.