CN207154025U - Fluid micro injection apparatus and its flow channel component - Google Patents

Abstract

The utility model discloses a kind of flow channel component of fluid micro injection apparatus and there is its fluid micro injection apparatus, flow channel component includes：Fluid seat, fluid cavity and the runner connected with the fluid cavity are defined in the fluid seat；Nozzle, the nozzle are located on the fluid seat and connected with the fluid cavity, and the moving element of the fluid micro injection apparatus is movably through the fluid cavity to open and close the nozzle；Fluid supply joint, the fluid supply joint and the flow passage to the nozzle by the runner and the fluid cavity to provide fluid.According to the flow channel component of the fluid micro injection apparatus of the utility model embodiment, by limiting fluid cavity and runner in fluid seat, nozzle on fluid cavity is opened and closed by moving element, fluid supply joint is connected by runner with fluid cavity, the flow channel component is simple in construction, dismount, be easy to clean, maintenance cost is low.

Description

Fluid micro injection apparatus and its flow channel component

Technical field

It the utility model is related to a kind of flow channel component of fluid micro injection apparatus and the fluid with the flow channel component be micro- Measure injection apparatus.

Background technology

There is closure runner in the fluid course of existing fluid micro injection apparatus, clean cumbersome, related accessory installing/dismounting It is cumbersome, cause efficiency of assembling low, exist installation, dismounting, cleaning are inconvenient, and maintenance cost is high, assembly fee when the problem of.

Utility model content

The utility model is intended at least solve one of technical problem present in prior art.

Therefore, the utility model proposes a kind of flow channel component of fluid micro injection apparatus, the flow channel component is easy to clean, Assembling is simple.

The utility model also proposes a kind of fluid micro injection apparatus with above-mentioned flow channel component.

According to the flow channel component of the fluid micro injection apparatus of the utility model first aspect embodiment, including：Fluid seat, Fluid cavity and the runner connected with the fluid cavity are defined in the fluid seat；Nozzle, the nozzle are located at the fluid seat Upper and connected with the fluid cavity, the moving element of the fluid micro injection apparatus is movably through the fluid cavity to beat The open and close nozzle；Fluid supply joint, the fluid supply joint and the flow passage with by the runner and The fluid cavity provides fluid to the nozzle.

According to the flow channel component of the fluid micro injection apparatus of the utility model embodiment, flowed by being limited in fluid seat Body cavity and runner, the nozzle on fluid cavity are opened and closed by moving element, and fluid supply joint passes through runner and fluid cavity Connection, the flow channel component is simple in construction, dismounts, be easy to clean, maintenance cost is low.

According to the utility model one embodiment, the flow channel component also includes：Adapter, define in the adapter Flow-guiding channel, the adapter is connected with the fluid seat and the flow-guiding channel and the flow passage, the fluid supply Joint is located on the adapter and connected with the flow-guiding channel.

According to the utility model one embodiment, between the adapter and the fluid supply joint and the fluid seat It is respectively equipped with sealing ring.

According to the utility model one embodiment, it is connected between the adapter and the fluid seat by screw.

According to the utility model one embodiment, the fluid seat, which is provided with, tilts the first of extension relative to horizontal direction Inclined-plane is assembled, the adapter is provided with the second assembling inclined-plane coordinated with the described first assembling inclined-plane, and the screw passes through institute Adapter and the fluid seat are stated to compress the first assembling inclined-plane and the second assembling inclined-plane.

According to the utility model one embodiment, the first assembling inclined-plane is provided with detent, second assembling Inclined-plane is provided with the positioning boss corresponding with the detent structure, and the positioning boss is plugged on the detent It is interior.

According to the utility model one embodiment, the opening of the detent is the bottom surface of acute angle and the detent It is horizontally extending.

According to the utility model one embodiment, the runner tilts relative to horizontal direction to be extended, the flow-guiding channel Extend relative to vertical direction, the lower end of the runner connects with the fluid cavity, and the upper end of the runner leads to the water conservancy diversion The lower end connection in road.

According to the utility model one embodiment, the flow channel component also includes：Fluid cavity seal, the fluid cavity are close Sealing is located in the fluid cavity and closes the upper end of the fluid cavity, the fluid cavity sealing positioned at the fluid cavity upper end Part be provided with along its axially through endoporus, the moving element stretched into the fluid cavity through the endoporus.

According to the utility model one embodiment, the upper end of the fluid cavity is formed as step-like, the fluid cavity sealing Part includes：Outside cylinder, the shape of the outside cylinder it is corresponding with the upper end shape of the fluid cavity with coordinate in the fluid cavity Upper end；Interior cylinder, the radial dimension of the interior cylinder are less than the radial dimension of the outside cylinder, and the interior cylinder is located at described Be connected in outside cylinder and with outside cylinder elasticity, in the interior cylinder provided with along its axially through the endoporus.

According to the utility model one embodiment, the interior cylinder is connected with the outside cylinder by the way that hollow is curved.

According to the utility model one embodiment, the flow channel component also includes：Seal receptacle, the seal receptacle are located at described On fluid seat between the fluid cavity seal and the nozzle, the seal receptacle be provided with along its axially through guiding lead to Road, the nozzle are connected with the seal receptacle and connected with the guide channel, and the moving element passes through the guide channel It is and movable to open and close the nozzle along the axial direction of the guide channel.

According to the utility model one embodiment, the section of the guide channel is formed as flower pattern section.

According to the utility model one embodiment, the bottom of the seal receptacle is provided with positioning step, and the nozzle is provided with Positioning convex corresponding with the positioning step, the positioning convex are embedded in the positioning step.

According to the utility model one embodiment, the injection channel of up/down perforation, the injection are defined in the nozzle The upper end of passage is formed as the taper surface coordinated with the lower surface of the moving element.

According to the utility model one embodiment, the lower end of the injection channel is provided with fine holes.

According to the utility model one embodiment, the lower end of the nozzle is provided with cone boss, and the fine holes are located at institute State in cone boss.

According to the utility model one embodiment, the flow channel component also includes：Swivel nut, the nozzle and the seal receptacle It is arranged on by the swivel nut on the fluid seat.

According to the fluid micro injection apparatus of the utility model second aspect embodiment, including according to above-described embodiment Fluid micro injection apparatus flow channel component.

Additional aspect and advantage of the present utility model will be set forth in part in the description, partly by from following description In become obvious, or by it is of the present utility model practice recognize.

Brief description of the drawings

Of the present utility model above-mentioned and/or additional aspect and advantage will in the description from combination accompanying drawings below to embodiment Become obvious and be readily appreciated that, wherein：

Fig. 1 is the structural representation according to the flow channel component of the fluid micro injection apparatus of the utility model embodiment；

Fig. 2 is shown according to the structure of the fluid seat of the flow channel component of the fluid micro injection apparatus of the utility model embodiment It is intended to；

Fig. 3 is the section view according to the fluid seat of the flow channel component of the fluid micro injection apparatus of the utility model embodiment Figure；

Fig. 4 is shown according to the structure of the adapter of the flow channel component of the fluid micro injection apparatus of the utility model embodiment It is intended to；

Fig. 5 is the section view according to the adapter of the flow channel component of the fluid micro injection apparatus of the utility model embodiment Figure；

Fig. 6 is the fluid cavity seal according to the flow channel component of the fluid micro injection apparatus of the utility model embodiment Structural representation；

Fig. 7 is the fluid cavity seal according to the flow channel component of the fluid micro injection apparatus of the utility model embodiment Sectional view；

Fig. 8 is shown according to the structure of the seal receptacle of the flow channel component of the fluid micro injection apparatus of the utility model embodiment It is intended to；

Fig. 9 is the section view according to the seal receptacle of the flow channel component of the fluid micro injection apparatus of the utility model embodiment Figure；

Figure 10 is the sectional view according to the nozzle of the flow channel component of the fluid micro injection apparatus of the utility model embodiment；

Figure 11 is shown according to the structure of the swivel nut of the flow channel component of the fluid micro injection apparatus of the utility model embodiment It is intended to；

Figure 12 is the sectional view according to the swivel nut of the flow channel component of the fluid micro injection apparatus of the utility model embodiment.

Reference：

Flow channel component 200；

Fluid seat 210；Fluid cavity 211；Runner 212；First assembling inclined-plane 213；Detent 214；

Nozzle 220；Positioning convex 221；Injection channel 222；Cone boss 223；

Fluid cavity is fed joint 230；

Adapter 240；Flow-guiding channel 241；Second assembling inclined-plane 242；Positioning boss 243；U-shaped opening 244；

Fluid cavity seal 250；Endoporus 251；Outside cylinder 252；Interior cylinder 253；Hollow curved 254；

Seal receptacle 260；Guide channel 261；Positioning step 262；

Swivel nut 270；Internal thread 271；Interior mounting plane 272；Flower pattern breach 273；

Sealing ring 280；Screw 281.

Embodiment

Embodiment of the present utility model is described below in detail, the example of the embodiment is shown in the drawings, wherein from beginning Same or similar element is represented to same or similar label eventually or there is the element of same or like function.Below by ginseng The embodiment for examining accompanying drawing description is exemplary, is only used for explaining the utility model, and it is not intended that to of the present utility model Limitation.

In description of the present utility model, it is to be understood that term " " center ", " longitudinal direction ", " transverse direction ", " length ", " width Degree ", " thickness ", " on ", " under ", "front", "rear", "left", "right", " vertical ", " level ", " top ", " bottom " " interior ", " outer ", " suitable The orientation or position relationship of the instruction such as hour hands ", " counterclockwise ", " axial direction ", " radial direction ", " circumference " are based on orientation shown in the drawings Or position relationship, be for only for ease of description the utility model and simplify and describe, rather than instruction or imply signified device or Element must have specific orientation, with specific azimuth configuration and operation, therefore it is not intended that to limit of the present utility model System.In addition, define " first ", one or more this feature can be expressed or be implicitly included to the feature of " second ". In description of the present utility model, unless otherwise indicated, " multiple " are meant that two or more.

, it is necessary to which explanation, unless otherwise clearly defined and limited, term " are pacified in description of the present utility model Dress ", " connected ", " connection " should be interpreted broadly, for example, it may be fixedly connected or be detachably connected, or integratedly Connection；Can be mechanical connection or electrical connection；Can be joined directly together, can also be indirectly connected by intermediary, It can be the connection of two element internals.For the ordinary skill in the art, above-mentioned art can be understood with concrete condition Concrete meaning of the language in the utility model.

Below with reference to the accompanying drawings the flow channel component of the fluid micro injection apparatus according to the utility model embodiment is specifically described 200。

As shown in Figures 1 to 12, wrapped according to the flow channel component 200 of the fluid micro injection apparatus of the utility model embodiment Include fluid seat 210, nozzle 220 and fluid cavity feed joint 230.

Specifically, fluid cavity 211 and the runner 212 connected with fluid cavity 211, nozzle 220 are defined in fluid seat 210 It is located on fluid seat 210 and is connected with fluid cavity 211, the moving element of fluid micro injection apparatus is movably through fluid cavity 211 to open and close nozzle 220, and fluid cavity feed joint 230 is connected with by runner 212 and fluid cavity 211 with runner 212 Fluid is provided to nozzle 220.

In other words, as depicted in figs. 1 and 2, flow channel component 200 is mainly by fluid seat 210, the spray being located on fluid seat 210 Mouth 220 and be connected with fluid seat 210 with to fluid seat 210 provide fluid fluid cavity feed joint 230 form, fluid seat 210 Interior to be provided with fluid cavity 211 and runner 212, runner 212 is connected with fluid cavity 211, and nozzle 220 is provided with the port of export of fluid cavity 211, Axial direction of the movable part along nozzle 220 is movable to open and close nozzle 220, and fluid cavity feed joint 230 is located at fluid seat 210 Above and with runner 212 connect, fluid cavity feed joint 230 is suitable to connect with fluid-storing container so that fluid is passed through into runner 212 and fluid cavity 211 flow to nozzle.

Wherein it should be noted that can be by execution system according to the fluid micro injection apparatus of the utility model embodiment Formed with flow channel component, execution system is mainly used in controlling the operation of moving element, and flow channel component 200 is provided with to store with fluid and tied The runner 212 of structure circulation, execution system is by controlling the displacement for whether running and running of moving element, with flow channel component 200 can open or close the nozzle 220 of flow channel component 200 when coordinating, so as to reach opening, close fluid micro injection apparatus Or the purpose of the jeting effect of regulation fluid micro injection apparatus, the fluid seat 210 of flow channel component 200 be provided with it is multiple be suitable to The pilot hole of execution system assembling.The structure of execution system is it is appreciated that and easily real to those skilled in the art Existing, therefore be not described in detail.

Thus, according to the flow channel component 200 of the fluid micro injection apparatus of the utility model embodiment, by fluid seat Limit fluid cavitys 211 and runner 212 in 210, the nozzle 220 on fluid cavity 211 is opened and closed by moving element, fluid cavity Feed joint 230 is connected by runner 212 with fluid cavity 211, and the flow channel component 200 is simple in construction, dismounting, easy to clean, dimension It is low to protect cost.

According to the utility model one embodiment, flow channel component 200 also includes adapter 240, is defined in adapter 240 Flow-guiding channel 241, adapter 240 is connected with fluid seat 210 and flow-guiding channel 241 connects with runner 212, fluid cavity feed joint 230 are located on adapter 240 and are connected with flow-guiding channel 241.

Specifically, as shown in figure 1, in the present embodiment, fluid cavity is fed between joint 230 and fluid seat 210 by turning Joint 240 is connected and connected, and flow-guiding channel 241 is defined in adapter 240, and fluid cavity feed joint 230 can pass through screw thread Connect and be connected and realize the connection with flow-guiding channel 241 with adapter 240.

Alternatively, in some embodiments of the present utility model, adapter 240 and fluid cavity feed joint 230 Sealing ring 280 is respectively equipped between fluid seat 210.Further, screw 281 is passed through between adapter 240 and fluid seat 210 It is connected.

It is joined directly together that is, being connected through a screw thread between fluid cavity feed joint 230 and adapter 240, adapter Then be connected between 240 and fluid seat 210 by screw 281, the junction of adapter 240 and fluid cavity feed joint 230 and The junction of adapter 240 and fluid seat 210 is respectively equipped with sealing ring 280, and mating surface, which is provided with, to be suitable to place sealing ring 280 Fitting recess, sealing ring 280 is compressed when each part is worked in coordination and realizes sealing, thereby guarantees that the overall tightness of flow channel component 200, By screw thread or the Standard of mode connects for screw, on the basis of sealing is ensured, assembly difficulty can be substantially reduced, is easy to Dismounting and cleaning.

Wherein, it is connected between adapter 240 and fluid seat 210 by screw 281, after screw 281 are removed, adapter 240 are removed from fluid seat 210, then the open at one end of runner 212, and adapter 240 and fluid cavity feed joint 230 are not deposited In closure runner, thus each part of whole flow channel component 200, can after each part is split in the absence of closure runner Easily to be cleaned to each part, cleaning difficulty is reduced.

According to the utility model one embodiment, fluid seat 210, which is provided with, tilts the first of extension relative to horizontal direction Inclined-plane 213 is assembled, adapter 240 is provided with the second assembling inclined-plane 242 coordinated with the first assembling inclined-plane 213, and screw 281 passes through Adapter 240 and fluid seat 210 assemble inclined-plane 241 to compress the first assembling inclined-plane 213 and second.

Preferably, in some embodiments of the present utility model, the first assembling inclined-plane 213 is provided with detent 214, the second assembling inclined-plane 242 is provided with the positioning boss 243 corresponding with the structure of detent 214, the grafting of positioning boss 243 In detent 214.Further, the opening of detent 214 for acute angle and detent 214 bottom surface in the horizontal direction Extension.

Specifically, as shown in Fig. 1, Fig. 3 and Fig. 5, the dress worked in coordination is respectively equipped with fluid seat 210 and adapter 240 The first assembling inclined-plane 213 with inclined-plane, and fluid seat 210 is provided with detent 214, and the second assembling of adapter 240 is oblique Face 242 is provided with positioning boss 243, and in assembling, the assembling inclined-plane of adapter 240 and fluid seat 210 is worked in coordination, and is led to Cross positioning boss 243 and detent 214 is worked in coordination positioning, then adapter 240 and fluid seat 210 are passed through by screw 281 Adapter 240 and fluid seat 210 are fastened, the sealed connection of adapter 240 and fluid seat 210 can be realized.

Thus, for adapter 240 with fluid seat 210 in installation locking, positioning boss 243 and detent 214 can be certainly The dynamic guiding for realizing adapter 240 and fluid seat 210, positioning, so that mounting surface is brought into close contact, assemble inclined-plane and detent 214 angle of inclination combines to form cooperation, is easy to precise positioning to assemble.

According to the utility model one embodiment, runner 212 tilts relative to horizontal direction to be extended, the phase of flow-guiding channel 241 Extend for vertical direction, the lower end of runner 212 connects with fluid cavity 211, under the upper end of runner 212 and flow-guiding channel 241 End connection.

As shown in Figure 2, that is to say, that runner 212 is formed as oblique runner, the top of runner 212 and the water conservancy diversion of adapter 240 Passage 241 is intersecting, and bottom penetrates and intersected with fluid cavity 211, realizes the conveying of fluid, at the same penetrate intersecting runner 212 and Fluid cavity 211 is easier to clean.Flow-guiding channel 241 is formed as known runner, and top is connected with fluid supply joint 230, passed through Sealing ring 280 compresses deformation and realizes sealing, and bottom is intersected with the upper end of runner 212, close by adapter 240 and fluid seat 210 Pressing makes sealing ring 280 compress realization sealing, realizes the conveying of fluid, while vertical runner is easier to clean.

In addition, being also provided with being suitable to the U-shaped opening 244 assembled with screw 281 on adapter 240, screw 281 can be Fast lock screw 281, for convenience of assembling, can be provided with flower-shaped cylinder on screw 281, facilitate operating personnel manually operated, and spiral shell The mounting plate for being suitable to coordinate with U-shaped opening 244 can be provided with nail 281.When installing adapter 240, screw will be first locked soon 281 screw in the installation screw thread of fluid seats 210, by the U-shaped opening 244 of adapter 240 insert screw 281 and fluid seat 210 it Between, lock-screw 281 completes installation.During dismounting, first screw 281 is unscrewed, directly oblique taking-up adapter 240, dismounting It is more convenient with assembling process.

Alternatively, in some embodiments of the present utility model, flow channel component 200 also includes fluid cavity seal 250, fluid cavity seal 250 is located in fluid cavity 211 and positioned at the upper end of fluid cavity 211 with the upper end of sealing fluid chamber 211, stream Body cavity seal 250 be provided with along its axially through endoporus 251, moving element stretched into fluid cavity 211 through endoporus 251.

Specifically, as shown in Fig. 1, Fig. 6 and Fig. 7, fluid cavity seal 250, fluid are additionally provided with the upper end of fluid cavity 211 Chamber seal 250 can be provided with the upper end of sealed fluid chamber 211, in fluid cavity seal 250 and can accommodate moving element and pass through Endoporus 251, thus, by setting fluid cavity seal 250, ensure moving element it is mobilizable on the basis of, can also protect Demonstrate,prove the sealing of fluid cavity 211.

Further, be formed as step-like according to the utility model one embodiment, the upper end of fluid cavity 211, fluid cavity Seal 250 includes outside cylinder 252 and interior cylinder 253, and the shape of outside cylinder 252 is corresponding with the upper end shape of fluid cavity 211 To coordinate in the upper end of fluid cavity 211, the radial dimension of interior cylinder 253 is less than the radial dimension of outside cylinder 252, interior cylinder 253 Be located in outside cylinder 252 and be connected with the elasticity of outside cylinder 252, in interior cylinder 253 provided with along its axially through endoporus 251.It is excellent Selection of land, in some specific embodiments of the present utility model, interior cylinder 253 is connected with outside cylinder 252 by hollow curved 254.

That is, fluid cavity seal 250 is interior cylinder 253 and the two parts of outside cylinder 252 mainly by being made up of, interior cylinder 253 are coaxially disposed with outside cylinder 252, and interior cylinder 253 is located at the inner ring of outside cylinder 252, and endoporus 251 is located at interior cylinder 253 On, interior cylinder 253 and outside cylinder 252 coordinate be generally formed into it is step-like, it is possible thereby to which preferably the upper end with fluid cavity 211 is fitted Match somebody with somebody.

It is able to can also be fixedly connected with elastic connection between interior cylinder 253 and outside cylinder 252, as long as ensureing sealing While, moving element being capable of the satisfaction requirement of proper motion can.In the preferred embodiment of the application, the interior He of cylinder 253 Outside cylinder 252 is connected by hollow curved 254, and hollow curved 254 can be the bending structure shown in figure, is thus ensureing fluid cavity On the basis of 211 sealing property, moving element can drive interior cylinder 253 up and down, more reasonable structure.

According to the utility model one embodiment, flow channel component 200 also includes seal receptacle 260, and seal receptacle 260 is located at fluid Seat 210 on positioned at fluid cavity seal 250 and nozzle 220 between, seal receptacle 260 provided with along its axially through guide channel 261, nozzle 220 is connected with seal receptacle 260 and connected with guide channel 261, and moving element is through guide channel 261 and along guiding The axial direction of passage 261 is movable to open and close nozzle 220.Further, the section of guide channel 261 is formed as flower pattern section Face.

Specifically, as shown in Figure 8 and Figure 9, in the present embodiment, seal receptacle 260, seal receptacle are additionally provided with fluid cavity 211 Be provided with guide channel 261 in 260, guide channel 261 receiving moving element pass through and it is movable while, fluid can also be realized Transmission, the section of guide channel 261 is arranged to flower pattern section, it can be understood as guide channel 261 by along its axially through Pilot hole and the flower pattern breach composition for being located at pilot hole periphery, when pilot hole is engaged with moving element, pilot hole periphery Flower pattern breach can ensure that fluid reaches the junction of moving element and nozzle 220, smoothly realize that fluid exports.

Alternatively, in some embodiments of the present utility model, the bottom of seal receptacle 260 is provided with positioning step 262, nozzle 220 is provided with positioning convex 221 corresponding with positioning step 262, and positioning convex 221 is embedded in positioning step 262 It is interior.Thus, the cooperation of positioning step 262 and positioning convex 221 is passed through, it is possible to achieve the interference of nozzle 220 and seal receptacle 260 is matched somebody with somebody Close, ensure to ensure the axis of nozzle 220 and the axis coaxle of moving element while sealing.

According to the utility model one embodiment, the injection channel 222 of up/down perforation is defined in nozzle 220, injection is logical The upper end in road 222 is formed as the taper surface coordinated with the lower surface of moving element.

Specifically, as shown in Figure 10, the periphery of the upper end of nozzle 220 is provided with the positioning convex 221 coordinated with seal receptacle 260, The center of nozzle 220 be provided with along its axially through injection channel 222, the upper end of injection channel 222 is formed as taper surface, activity The lower end of element is formed as bulb, when bulb stops the taper surface to injection channel 222, you can closing injection channel 222, and work as Moving element is movable upwards, and when bulb departs from the taper surface of injection channel 222, fluid can spray from injection channel 222, and By controlling moving element to depart from the distance of injection channel 222, nozzle 220 can be controlled to spray the jeting effect of fluid.

In some embodiments of the present utility model, the lower end of injection channel 222 is provided with fine holes.Fine holes with Nozzle 220 is coaxial, is required according to different spraying operations, different fine apertures can be selected, to reach the jeting effect of needs.

Further, cone boss 223, fine holes are provided with according to the utility model one embodiment, the lower end of nozzle 220 It is located in cone boss 223.Thus, by setting cone boss 223 in the exit of nozzle 220, nozzle 220 can be increased and gone out The rigidity of mouth, prevents that the end of nozzle 220 is caused to damage in maintenance process, while reduces reduction fluid and produced in outlet port Buildup issues, improve coating fluid quality.

Alternatively, in some embodiments of the utility model, flow channel component 200 also includes swivel nut 270, the He of nozzle 220 Seal receptacle 260 is arranged on fluid seat 210 by swivel nut 270.

Specifically, as is illustrated by figs. 11 and 12, swivel nut 270 has internal thread 271, matches with the locking screw of seal receptacle 260 Close, nozzle 220 is fixed between seal receptacle 260 and swivel nut 270 when screwing.Interior mounting plane 272 is provided with swivel nut 270, with Internal thread axis is vertical, and when being screwed with seal receptacle 260, interior mounting plane 272 is engaged with the lower plane of nozzle 220, makes nozzle Plane is installed circular groove bottom surface with seal receptacle 260 and is brought into close contact on 220, reaches sealing effectiveness.

The lower end of the periphery of swivel nut 270 is provided with flower pattern breach 273, and flower pattern breach 273 can be with convenient use kit to spray Position between mouth 220 and moving element is adjusted, and execution system is optimal state and carries out fluid injection operation.Flower pattern Breach 273 is uniformly distributed along the circumference, and quantity is more than or equal to 2, and is even number.

The assembling of the flow channel component 200 of the fluid micro injection apparatus according to the utility model embodiment is detailed below Process and assembly features.

First, sealing ring 280 is fitted into the upper circular groove of adapter 240, then by fluid supply system connector 230 with Adapter 240 screws, and reaches runner sealing.Then, sealing ring 280 is fitted into the inclined-plane circular groove of fluid seat 210, using fast Lock screw 281 combines spring washer, adapter 240 is connected and locked with fluid seat 210 by plain washer, reaches runner sealing.So Fluid cavity seal 250 is pressed into the step fluid cavity 211 of fluid seat 210 afterwards, the top of fluid cavity 211 is reached pre-sealed, most Afterwards, fluid seat seal 250, nozzle 220, seal receptacle 260 are assembled together, then seal receptacle 260 is loaded into swivel nut 270, then Swivel nut 270 is screwed in the locking screw of fluid seat 210, fluid cavity 211 is reached sealing.

The assembly features of 200 each part of flow channel component of fluid micro injection apparatus are as follows：

Positioned when adapter 240 assembles with fluid seat 210, it is necessary to which the positioning boss of adapter 240 is inserted into fluid seat 210 In groove, then fast lock screw 281 is screwed, such adapter 240 assembles inclined-plane and is fitted close automatically with the assembling of fluid seat 210 inclined-plane Together, the effect of runner sealing is reached.

Seal 280 is loaded in the sealed groove of seal receptacle 260, then nozzle 220 is loaded to the installation circle of seal receptacle 260 In connected in star, it is then threaded into swivel nut 270, and screwing makes nozzle 220 reach tightening state, and swivel nut 270 then is screwed in into fluid Seat 210 locking screw, make the bulb of the inner conical surface of nozzle 220 and moving element be in close contact, while fluid seat seal 250 with The inwall of fluid cavity 211 of fluid seat 210 is brought into close contact, and fluid cavity 211 is reached sealing.

Include being sprayed according to the fluid micro of above-described embodiment according to the fluid micro injection apparatus of the utility model embodiment The flow channel component 200 of injection device, due to being imitated according to the flow channel component 200 of the utility model above-described embodiment with above-mentioned technology Fruit, therefore, corresponding technique effect is also had according to the fluid micro injection apparatus of the utility model embodiment, you can with convenient Dismounting and cleaning.

In the description of this specification, reference term " one embodiment ", " some embodiments ", " illustrative examples ", The description of " example ", " specific example " or " some examples " etc. means to combine specific features, the knot that the embodiment or example describe Structure, material or feature are contained at least one embodiment or example of the present utility model.In this manual, to above-mentioned art The schematic representation of language is not necessarily referring to identical embodiment or example.Moreover, description specific features, structure, material or Person's feature can combine in an appropriate manner in any one or more embodiments or example.

While there has been shown and described that embodiment of the present utility model, it will be understood by those skilled in the art that： These embodiments can be carried out with a variety of changes, modification in the case where not departing from principle and objective of the present utility model, replaced And modification, the scope of the utility model are limited by claim and its equivalent.

Claims (18)

1. A kind of 1. flow channel component of fluid micro injection apparatus, it is characterised in that including：

   Fluid seat, fluid cavity and the runner connected with the fluid cavity are defined in the fluid seat；

   Nozzle, the nozzle are located on the fluid seat and connected with the fluid cavity, the work of the fluid micro injection apparatus Element is moved movably through the fluid cavity to open and close the nozzle；

   Fluid supply joint, the fluid supply joint and the flow passage with by the runner and the fluid cavity to institute State nozzle and fluid is provided.
2. 2. the flow channel component of fluid micro injection apparatus according to claim 1, it is characterised in that also include：

   Adapter, flow-guiding channel is defined in the adapter, the adapter is connected with the fluid seat and the water conservancy diversion leads to Road and the flow passage, the fluid supply joint are located on the adapter and connected with the flow-guiding channel.
3. 3. the flow channel component of fluid micro injection apparatus according to claim 2, it is characterised in that the adapter and institute State and be respectively equipped with sealing ring between fluid supply joint and the fluid seat.
4. 4. the flow channel component of fluid micro injection apparatus according to claim 2, it is characterised in that the adapter and institute State and be connected by screw between fluid seat.
5. 5. the flow channel component of fluid micro injection apparatus according to claim 4, it is characterised in that set on the fluid seat There is the first assembling inclined-plane that extension is tilted relative to horizontal direction, the adapter is provided with to be coordinated with the described first assembling inclined-plane The second assembling inclined-plane, the screw is through the adapter and the fluid seat to compress the first assembling inclined-plane and described Second assembling inclined-plane.
6. 6. the flow channel component of fluid micro injection apparatus according to claim 5, it is characterised in that first assembling is oblique Face is provided with detent, and the second assembling inclined-plane is provided with the positioning boss corresponding with the detent structure, institute Positioning boss is stated to be plugged in the detent.
7. 7. the flow channel component of fluid micro injection apparatus according to claim 6, it is characterised in that the detent It is open horizontally extending for the bottom surface of acute angle and the detent.
8. 8. the flow channel component of fluid micro injection apparatus according to claim 2, it is characterised in that the runner relative to Horizontal direction tilts extension, and the flow-guiding channel extends relative to vertical direction, and the lower end of the runner connects with the fluid cavity Logical, the upper end of the runner connects with the lower end of the flow-guiding channel.
9. 9. the flow channel component of fluid micro injection apparatus according to claim 1, it is characterised in that also include：

   Fluid cavity seal, the fluid cavity seal are located in the fluid cavity and positioned at the fluid cavity upper end to close State the upper end of fluid cavity, the fluid cavity seal be provided with along its axially through endoporus, the moving element is through in described Hole is stretched into the fluid cavity.
10. 10. the flow channel component of fluid micro injection apparatus according to claim 9, it is characterised in that the fluid cavity Upper end is formed as step-like, and the fluid cavity seal includes：

    Outside cylinder, the shape of the outside cylinder it is corresponding with the upper end shape of the fluid cavity with coordinate in the upper of the fluid cavity End；

    Interior cylinder, the radial dimension of the interior cylinder are less than the radial dimension of the outside cylinder, and the interior cylinder is located at described outer Be connected in cylinder and with outside cylinder elasticity, in the interior cylinder provided with along its axially through the endoporus.
11. 11. the flow channel component of fluid micro injection apparatus according to claim 10, it is characterised in that the interior cylinder with The outside cylinder is connected by the way that hollow is curved.
12. 12. the flow channel component of fluid micro injection apparatus according to claim 9, it is characterised in that also include：

    Seal receptacle, the seal receptacle is located on the fluid seat between the fluid cavity seal and the nozzle, described Seal receptacle be provided with along its axially through guide channel, the nozzle be connected with the seal receptacle and with the guide channel company Logical, the moving element is through the guide channel and movable to open and close the spray along the axial direction of the guide channel Mouth.
13. 13. the flow channel component of fluid micro injection apparatus according to claim 12, it is characterised in that the seal receptacle Bottom is provided with positioning step, and the nozzle is provided with positioning convex corresponding with the positioning step, and the positioning convex is embedded In the positioning step.
14. 14. the flow channel component of fluid micro injection apparatus according to claim 9, it is characterised in that limited in the nozzle Surely there is the injection channel of up/down perforation, the upper end of the injection channel is formed as the cone coordinated with the lower surface of the moving element Shape face.
15. 15. the flow channel component of fluid micro injection apparatus according to claim 14, it is characterised in that the injection channel Lower end be provided with fine holes.
16. 16. the flow channel component of fluid micro injection apparatus according to claim 15, it is characterised in that under the nozzle End is provided with cone boss, and the fine holes are located in the cone boss.
17. 17. the flow channel component of fluid micro injection apparatus according to claim 12, it is characterised in that also include：

    Swivel nut, the nozzle and the seal receptacle are arranged on the fluid seat by the swivel nut.
18. 18. a kind of fluid micro injection apparatus, it is characterised in that including the fluid micro any one of claim 1-17 The flow channel component of injection apparatus.