CN207204507U - Runner branches module and overflow mechanism - Google Patents

Abstract

Embodiments herein provides a kind of runner branches module, including：Feeding mouth and the first flow being respectively communicated with feeding mouth and second flow channel, wherein, the fluid path of first flow is identical with the fluid path of second flow channel, and the outlet of first flow and the outlet of second flow channel are located at same surface.Embodiments herein additionally provides a kind of overflow mechanism for including above-mentioned runner branches module.The purpose of the application can be by a fluid dispersion of injection into uniform fluid surface region in each runner in runner branches module is at least realized.

Description

Runner branches module and overflow mechanism

Technical field

Embodiments herein is related to coating/overflow device field, and more particularly, to runner branches module and Overflow mechanism.

Background technology

In current coating/overflow device field, usually using such as syringe needle glue spreading apparatus or the mode of glued membrane rubberizing Carry out gluing.However, some defects are usually there will be in current device, for example, gluing can be due to a plastic emitting using syringe needle gluing Mode causes less efficient；Cost is higher by the way of glued membrane rubberizing, and has useless centrifugation paper and produce.Therefore, deposit In the demand of the novel device to can solve the problem that above mentioned problem.

Utility model content

For problem present in correlation technique, the purpose of the application is to provide runner branches module and overflow dress Put, at least to realize that each runner in runner branches module can be by a fluid dispersion of injection into uniform fluid surface region.

According to embodiments herein, there is provided a kind of runner branches module, including：Feeding mouth and with feeding mouth point The first flow and second flow channel not connected, wherein, the fluid path of first flow is identical with the fluid path of second flow channel, and And the outlet of first flow and the outlet of second flow channel are located at same surface.

According to embodiments herein, the axis of first flow and the axis of second flow channel relative to feeding mouth axis institute In plane specular.

According to embodiments herein, runner branches module also includes：With multiple first points of first flow parallel arrangement Branch flow passage, wherein, the entrance of each first branch flow passage connects with second flow channel, and the outlet position of each first branch flow passage In on above-mentioned same surface.

According to embodiments herein, runner branches module also includes：With multiple second points of second flow channel parallel arrangement Branch flow passage, wherein, the entrance of each second branch flow passage connects with first flow, and the outlet position of each second branch flow passage In on above-mentioned same surface, wherein, each first branch flow passage is intersecting with each second branch flow passage and connects.

According to embodiments herein, there is provided a kind of overflow mechanism, the overflow mechanism include runner as described above point Formwork.

According to embodiments herein, feeding mouth is configured to channel form, and one end of passage passes through supplied materials connector and material Cylinder connection, and cavity between the other end of passage and supplied materials connector forms the first cushion chamber, wherein, first flow and the Two runners directly connect at the first cushion chamber with feeding mouth.

According to embodiments herein, barrel is removably joined together with supplied materials connector.

According to embodiments herein, runner branches module is runner branches module as described above, and first flow, Second flow channel, the first branch flow passage and the second branch flow passage are formed in matrix, wherein, first flow, second flow channel, first point The outlet of branch flow passage and the second branch flow passage is respectively positioned in the depressed part of matrix, wherein, end overflow head covering depressed part and with Matrix is fixedly connected, and the second cushion chamber is formed between depressed part and end overflow head.

According to embodiments herein, the multiple through channels connected with the second cushion chamber are provided with the overflow head of end, Wherein, the fluid path of multiple through channels is equal to each other.

According to embodiments herein, in end, the side opposite with the second cushion chamber of overflow head is provided with predetermined shape Groove, wherein, the outlet of each through channel is in the bottom of groove.

According to embodiments herein, the joint of end overflow head and matrix is provided with sealing ring, and sealing ring surrounds Depressed part is arranged.

The advantageous effects of the application are：

In the runner branches module and overflow mechanism of the application, by by the first and second runners positioned at feeding mouth and Each the fluid path between outlet is arranged to equal, so that synchronously can be flowed in the module into the fluid in module It is dynamic；Simultaneously as the outlet of first flow and the outlet of second flow channel are located on same surface, so that the stream synchronously flowed Body can form fluid discharge feed side region on the surface.Therefore, the structure of the application can cause each in runner branches module Runner can be by a fluid dispersion of injection into uniform fluid surface region, to improve service efficiency.

Brief description of the drawings

Fig. 1 is the sectional view according to runner branches module one embodiment of the application；

Fig. 2 is the sectional view according to another embodiment of the runner branches module of the application；

Fig. 3 is that wherein the overflow mechanism is using shown in Fig. 2 according to the sectional view of overflow mechanism one embodiment of the application The runner branches module of embodiment；

Fig. 4 is the partial enlarged drawing in I regions in embodiment illustrated in fig. 3；

Fig. 5 is the left view of embodiment illustrated in fig. 3；

Fig. 6 is the partial enlarged drawing in II regions in embodiment illustrated in fig. 5；

Fig. 7 is the sectional view intercepted in embodiment illustrated in fig. 3 along line A-A；

Fig. 8 is the sectional view intercepted in embodiment illustrated in fig. 3 along line B-B；

Fig. 9 is the perspective view according to overflow mechanism one embodiment of the application；And

Figure 10 is the cross-sectional perspective view of embodiment illustrated in fig. 9.

Embodiment

The runner branches module and overflow mechanism of the application are described referring now to accompanying drawing.It is it should be appreciated that following Corresponding exemplary embodiment can be mutually combined in specification and in accompanying drawing, so as to be formed not in described herein below other Embodiment；And which part part can omit in different embodiments.In other words, describe below to the application not Form and limit.

As depicted in figs. 1 and 2, embodiments herein discloses a kind of runner branches module 10, and the module 10 is total to be come Say including feeding mouth 12, first flow 14 and second flow channel 16.Wherein, the first and second runners 14,16 respectively with feeding mouth 12 connections, and the fluid path of first flow 14 is identical with the fluid path of second flow channel 16.In addition, first flow 14 goes out Mouth and the outlet of second flow channel 16 are located at same surface S.

In this respect it is to be noted that the fluid path of above-described first and second runner 14,16 refers to：When waiting to locate After reason fluid enters module 10 by feeding mouth 12, the path of the first and second runners 14,16 is respectively flowed through.In other words, exist In some embodiments, the length or distance of not the first and second runners 14,16 that the path refers to, but fluid row in runner The path entered or flowed through.Therefore, positioned at feeding mouth 12 and respective stream between outlet by first and second runners 14,16 is passed through Body path be arranged to it is equal so that synchronously can be flowed within the module 10 into the fluid in module 10；Simultaneously as The outlet of first flow 14 is located on same surface S with the outlet of second flow channel 16, so that the fluid synchronously flowed can On the surface, S forms fluid discharge feed side region.Therefore, the structure of the application can cause each runner in runner branches module 10 14th, 16 can by injection fluid dispersion into uniform fluid surface region, to improve service efficiency.

With continued reference to the embodiment shown in Fig. 1 and Fig. 2, first flow 14 and second flow channel 16 have axis respectively, and The axis of first flow 14 and the axis of second flow channel 16 are relative to plane specular where the axis of feeding mouth 12.It is specific next Say, referring to Fig. 1 and Fig. 2, axis (not shown) of the runner branches module 10 including extending through feeding mouth 12, and first flow 14 It is located at the both sides of the axis respectively with second flow channel 16, and relative to the axis specular.That is, first flow 14 The axis shape of axis and feeding mouth 12 has angle, and second flow channel 16 on feeding mouth 12 axis relative to first flow 14 Axisymmetrical arrangement.So, as shown in the figure so that the first and second runners 14,16 form an isosceles triangular structure, so as to So that the fluid path of the two is equal.

It should here be noted that in the embodiment shown in Fig. 1 and Fig. 2, first flow 14 and second flow channel 16 are arranged In the opposite sides of feeding mouth 12.And in other alternative-embodiments, if for example, feeding mouth 12 is shaped to such as cuboid Shape, the first and second runners 14,16 can be arranged on two sides relative to each other of cuboid so as to form mirror image pair Claim；Optionally, the first and second runners 14,16 can also be arranged on two sides adjacent to each other of cuboid so as to also may be used To form specular, and this arrangement is also contained in the application.

In addition, though the runner shown in embodiment described above is symmetrical structure it should be appreciated that In other optional embodiments of the application, first flow 14 and second flow channel 16 can also be structures asymmetrical relative to one another.Example Such as, first flow 14 can be linear runner；And second flow channel 16 may, for example, be the shapes such as shaped form, fold-line-shaped.Change sentence Talk about, one of first flow 14 and second flow channel 16 can be configured to the shape or structure different from another one, need to only make The fluid path for obtaining them is identical.That is, the application is not to each runner that is described above and being described below Shape and structure form limit.

Additionally it is noted that the runner in the application is also arranged so that multilayer form.For example, the He of first flow 14 Second flow channel 16 forms first layer, and another first flow 14 and another second flow channel 16 form the second layer, and first layer and the Two layers parallel.Now, the first and second runners 14,16 in this two layers are equally planes where the axis relative to feeding mouth 12 Specular.It is understood, therefore, that the application include all embodiments as described above and they between Combination.

With continued reference to Fig. 1, in one embodiment of the application, runner branches module 10 may further include and first Multiple first branch flow passages 18 that runner 14 is arranged in parallel.Specifically, the entrance and second flow channel of each first branch flow passage 18 16 connections, and the outlet of each first branch flow passage 18 is located on same surface S as described above.That is, first point The all outlet ports of branch flow passage 18 be respectively positioned on on the first and second runners 14,16 identical surface S, so that the fluid of formation Face region is more uniform.

With further reference to Fig. 2, in another embodiment of the application, in addition to the first branch flow passage 18, runner divides Formwork 10 can also include multiple second branch flow passages 20 being arranged in parallel with second flow channel 16.Specifically, each second point The entrance of branch flow passage 20 connects with first flow 14, and the outlet of each second branch flow passage 20 is positioned at as described above same On the S of surface.In addition, each first branch flow passage 18 can be intersecting with each second branch flow passage 20 and connected, so as to be formed such as Structure shown in Fig. 2.So, the uniformity for further improving the fluid surface region formed can be caused.

It should here be understood that the quantity of the first and second branch flow passages 18,20 does not form any limit to the application It is fixed.As depicted in figs. 1 and 2, can for example include in the embodiment in figure 1 than more first branches of embodiment shown in Fig. 2 Runner；And can for example include both first and second branch flow passages in the embodiment shown in Figure 2, and the implementation shown in Fig. 1 Example only includes the first branch flow passage.Therefore, the selection of the first and second branch flow passages 18,20 can specifically should according to the application Depending on situation.

Although additionally it is understood that describe in the embodiment above the entrance of each first branch flow passage 18 with Second flow channel 16 connects, and the entrance of each second branch flow passage 20 connects with first flow 14.It is understood that herein The connection of finger can include directly connection and indirect communication.That is, as shown in Fig. 2 one in the first branch flow passage 18 Point branch flow passage can directly connect with second flow channel 16, and another part branch flow passage in the first branch flow passage 18 can be with Feeding mouth 12 is connected and then connected by feeding mouth 12 with second flow channel 16.The annexation of second branch flow passage 20 can with It is upper similar.Therefore, above-described various embodiments all should be included within the scope of application, and not to the application structure Into any restriction.

With further reference to Fig. 3 to Figure 10, the overflow mechanism 100 of the application is shown.It should be appreciated that in overflow mechanism 100 Runner branches module 10 as described above can be provided with, and the various embodiments of runner branches module 10 can be applied Into overflow mechanism 100, and restriction is not formed.By taking embodiment illustrated in fig. 3 as an example, wherein overflow mechanism 100 is employed such as Fig. 2 institutes The embodiment for the runner branches module 10 shown.

Referring specifically to Fig. 3 and Fig. 4 is combined, in the embodiment of the overflow mechanism 100 of the application, feeding mouth 12 can be with structure Cause channel form.Wherein, the passage includes both ends relative to each other, and wherein one end of passage passes through supplied materials connector 22 and material Cylinder 24 connects, and the cavity between the other end of passage and supplied materials connector 22 forms the first cushion chamber 26.It is in addition, first-class Road 14 and second flow channel 16 directly connect at the first cushion chamber 26 with feeding mouth 12.In supplied materials connector 22 and first and second First cushion chamber 26 is set between the entrance of runner 14,16, supplied materials of the cushion chamber 26 to barrel 24 is utilized so as to realize Enter the effect of row buffering or unhurried current.

Further, in an alternate embodiment of the invention, can be detachably connected between barrel 24 and supplied materials connector 22 Together.For example, the two can be by being such as threadedly coupled, being clasped, in fastener connection any-mode be connected to one another at Together, only barrel 24 need to be allowd to be pulled down from supplied materials connector 22.It should be appreciated that by the way that barrel 24 and supplied materials are connected Connect device 22 and be arranged to dismountable form each other, so that the more convenient operation of the application；In addition, needing to be expected When cylinder is changed, standard barrel only need to be changed, is produced without excessive consumptive material.

With continued reference to Fig. 4, according to one embodiment of the application, runner branches module 10 may further include pedestal or Matrix 28, and the first flow 14 of runner branches module 10, second flow channel 16, the first branch flow passage 18 and the second branch flow passage 20 can be both formed in matrix 28, so that they form modular structure.

Further, matrix 28 could be formed with depressed part 30, and first flow 14, second flow channel 16, the first affluent-dividing The outlet of the branch flow passage 20 of road 18 and second can be respectively positioned in the depressed part 30 of matrix.It should be appreciated that now, depressed part 30 Surface is to form the same surface S that each runner as described above is located at.

In addition, from Fig. 3 and Fig. 4, overflow mechanism 100 further comprises end overflow head 32.Specifically, end is overflow Stream first 32 can cover the depressed part 30 of matrix 28 and is fixedly connected with matrix 28, so that depressed part 30 overflows with end The second cushion chamber 34 is formed between stream first 32.Similar with the effect of the first cushion chamber 26, the second cushion chamber 34 can also be realized The effect of row buffering or unhurried current is entered to the supplied materials of runner branch module 10.

With continued reference to Fig. 3 and Fig. 4, the multiple insertions connected with the second cushion chamber 34 can be provided with end overflow head 32 Passage 36, and the fluid path of these through channels 36 is equal to each other.For example, in embodiment as shown in Figure 3 and Figure 4, Through channel 36 is shaped to a plurality of path parallel to each other and spaced apart, and these paths can also for example with depressed part 30 Surface is vertical, so as to form structure as depicted.Due to being provided with above-mentioned through channel 36 in end overflow head 32, lead to Crossing runner branch module 10 and being dispersed into the fluid in face region further can continue the shape with homogeneous (uniform) fluid by through channel 36 Formula flows, and is finally discharged by the outlet of end overflow head 32 with uniform face region, so that by barrel 24 with a note Enter the fluid that mode is added finally can flow out use in the exit of end overflow head 32 with uniform surface area format.

Referring now to Fig. 5 and Fig. 6, in the embodiment shown in the drawings, in end overflow head 32 with the phase of the second cushion chamber 34 The side of the back of the body can be provided with the groove 38 of predetermined shape, and the outlet of each through channel 36 is in the bottom of groove 38. Specifically, end overflow head 32 can include first surface and the second surface relative with first surface, wherein, first surface court To the second cushion chamber 34, and fluted 38 are set on second surface.Groove 38 can be formed in end with various appropriate shapes On the second surface of overflow head 32, and it is recessed into second surface.

For example, in embodiment as shown in Figure 5 and Figure 6, groove 38 can include first group extended in a first direction Slit and second group of slit along the second direction extension intersected with first direction.Wherein, first and second groups of slits are each other Intersecting and connection, so as to form the network structure shown in Fig. 6.In an alternate embodiment of the invention, the predetermined shape for example can be Polygon, circle, the combination etc. of irregular figure are variously-shaped, and this can be depending on particular condition in use, the application not office It is limited to the special style of predetermined shape.

It should be appreciated that groove 38 as described above is provided with the discharging port of end overflow head 32, so as to With by the liquid distribution uniformly overflowed into given pattern so that the easier and application of the application application is wider.In addition, end The discharge end of portion's overflow head 32 can customize as needed, once can finished surface region application.

Referring again to Fig. 3 and Fig. 4 and Fig. 7 and Fig. 8 is combined, in an alternative embodiment of overflow mechanism 100, end is overflow The joint of stream first 32 and matrix 28 can be provided with sealing ring 40.As shown in figure 8, sealing ring 40 can surround the cloth of depressed part 30 Put.By setting sealing ring 40 further to improve the sealing of overflow mechanism 100, so as to avoid the leakage of fluid.

Referring again to the embodiment shown in Fig. 3 to Figure 10, during the use of the overflow mechanism 100 of the application, fluid (such as glue) enters the feeding mouth 12 of runner branches module 10 by barrel 24 via supplied materials connector 22.At feeding mouth 12 After being buffered via the first cushion chamber 26, fluid flows into each runner (for example, first flow 14, second flow channel 16, the first affluent-dividing The branch flow passage 20 of road 18 and second) in, because the fluid path of each runner composition is equal, therefore fluid is to centre position It is identical with the actual distance to both ends, arrives first so as to ensure that centre will not occur for fluid, phenomenon is arrived behind both ends, so in base Fluid surface region is formed at the depressed part 30 of body 28.Further, fluid surface region buffers follow-up afterflow in the second cushion chamber 34 In the through channel 36 for entering end overflow head 32, and continue the inflow groove in the form of fluid surface region via through channel 36 In 38.In groove 38, fluid carries out short stay and after forming designated shape, can paste fluid or zero needed for being coated on The surface of part, so as to complete to operate.

In summary, in the runner branches module and overflow mechanism of the application, by by the position of the first and second runners In feeding mouth and each outlet between fluid path be arranged to it is equal so that can be synchronously into the fluid in module Flow in the module；Simultaneously as the outlet of first flow and the outlet of second flow channel are located on same surface, so that same Fluid discharge feed side region can be formed on the surface by walking the fluid of flowing.Therefore, the structure of the application can cause runner branches Each runner in module can be by a fluid dispersion of injection into uniform fluid surface region, to improve service efficiency.

The preferred embodiment of the application is the foregoing is only, is not limited to the application, for the skill of this area For art personnel, the application can have various modifications and variations.It is all within spirit herein and principle, made any repair Change, equivalent substitution, improvement etc., should be included within the protection domain of the application.

Claims (10)

1. A kind of 1. runner branches module, it is characterised in that including：Feeding mouth and be respectively communicated with the feeding mouth first Runner and second flow channel,

   Wherein, the fluid path of the first flow is identical with the fluid path of the second flow channel, and the first flow Outlet be located at same surface with the outlet of the second flow channel.
2. 2. runner branches module according to claim 1, it is characterised in that the axis of the first flow and described second The axis of runner is relative to plane specular where the axis of the feeding mouth.
3. 3. runner branches module according to claim 2, it is characterised in that also include：Cloth parallel with the first flow Multiple first branch flow passages put,

   Wherein, the entrance of each first branch flow passage connects with the second flow channel, and each first affluent-dividing The outlet in road is located on the same surface.
4. 4. runner branches module according to claim 3, it is characterised in that also include：Cloth parallel with the second flow channel Multiple second branch flow passages put,

   Wherein, the entrance of each second branch flow passage connects with the first flow, and each second affluent-dividing The outlet in road is located on the same surface,

   Wherein, each first branch flow passage is intersecting with each second branch flow passage and connects.
5. 5. a kind of overflow mechanism, it is characterised in that including the runner branches module any one of Claims 1-4.
6. 6. overflow mechanism according to claim 5, it is characterised in that the feeding mouth is configured to channel form, described logical The one end in road is connected by supplied materials connector with barrel, and the chamber between the other end of the passage and the supplied materials connector Body forms the first cushion chamber,

   Wherein, the first flow and the second flow channel directly connect at first cushion chamber with the feeding mouth.
7. 7. overflow mechanism according to claim 6, it is characterised in that the barrel and the supplied materials connector are removably Link together.
8. 8. the overflow mechanism according to any one of claim 5 to 6, it is characterised in that the runner branches module is power Profit requires the runner branches module described in 4, and the first flow, the second flow channel, first branch flow passage and institute The second branch flow passage is stated to be formed in matrix,

   Wherein, the outlet of the first flow, the second flow channel, first branch flow passage and second branch flow passage is equal In the depressed part of described matrix,

   Wherein, end overflow head covers the depressed part and is fixedly connected with described matrix, and the depressed part and the end The second cushion chamber is formed between portion's overflow head.
9. 9. overflow mechanism according to claim 8, it is characterised in that be provided with and described second in the end overflow head Multiple through channels of cushion chamber connection, wherein, the fluid path of the multiple through channel is equal to each other.
10. 10. overflow mechanism according to claim 9, it is characterised in that slow with described second in the end overflow head The groove that the opposite side of chamber is provided with is rushed, wherein, the outlet of each through channel is in the bottom of the groove.