CN104722425B - The stacked one point of overabsorption device of multi-path fluid of one kind combination - Google Patents

Abstract

The invention belongs to fluid distributing apparatus technical field.Specific open stacked one point of overabsorption device of multi-path fluid of combination, including some distribute modules being cascading and the closure cover plate being placed at the top of the superiors' distribute module, if be provided with vertically in the distribute module main line for circulate do not go the same way the axial opening of fluid, a groove structure is provided with the periphery of the correspondence axial direction opening for needing to be separated multichannel distribute module, the periphery of the distribute module is provided with some fluid issuings, the groove structure is internally connected with corresponding axial opening, is externally connected with the fluid issuing of the distribute module.The distributor can realize the distribution of multi-path fluid, and combination is versatile and flexible, can be widely applicable for sharing out the work for fluid not of the same race, and its is easy to process, and manufacturing cost is relatively low, it is easy to accomplish, and its good seal performance.

Description

The stacked one point of overabsorption device of multi-path fluid of one kind combination

Technical field

The invention belongs to fluid distribution product technical field, more particularly to a kind of stacked more than one point points of multi-path fluid of combination With device.

Background technology

At present, in some sprayed product technical fields, such as releasing agent rotary spraying device, releasing agent, water, compression are empty The multiple fluids such as gas are exported from rotating shaft terminal face, and it passes through two pipeline connecting plates and various fluid media (medium)s are each separated into multichannel Multiple entrances such as outlet, releasing agent, water, compressed air respectively with multiple spray guns are connected.When fluid passage is more, what is separated is logical When road is also more, pipeline connecting plate is difficult to realize above-mentioned requirements, and difficulty of processing is big, and fluid distribution effect is poor, it is impossible to extensively Ground coordinates rotary spraying device etc. to use.

The content of the invention

The purpose of the present invention is to overcome the deficiencies in the prior art, there is provided the stacked one point of overabsorption of multi-path fluid of one kind combination Device, the distributor can realize the distribution of multi-path fluid, and combination is versatile and flexible, can be widely applicable for fluid not of the same race Share out the work, its is easy to process, and manufacturing cost is relatively low, it is easy to accomplish.

In order to realize above-mentioned technical purpose, the present invention is realized by following technical scheme：

A kind of stacked one point of overabsorption device of multi-path fluid of combination of the present invention, including some be cascading Distribute module and the closure cover plate that is placed at the top of the superiors' distribute module, if main line use is provided with the distribute module vertically Do not gone the same way the axial opening of fluid in circulation, in the periphery of the correspondence axial direction opening for needing to be separated multichannel distribute module Be provided with a groove structure, the periphery of the distribute module is provided with some fluid issuings, the groove structure internally with corresponding axle Connected to opening, externally connected with the fluid issuing of the distribute module.

Used as the further improvement of above-mentioned technology, the distribute module is the positive multiedge cylinder knot with center connecting hole Structure, each side of the positive multiedge cylinder is at least provided with 1-2 outlet.

Used as the further improvement of above-mentioned technology, the groove structure is located at this including a notched annular groove and Breach is in the straight trough of axial opening correspondence connection, and the annular groove is connected with the fluid issuing of each side.

In the present invention, the center connecting hole of the distribute module is screwed hole, and center attachment screw sets through each stacking Together with closure cover plate be fixedly connected each distribute module by the screwed hole of centre of the distribute module put, it is ensured that each distribute module and envelope Can be closely fixedly connected between stifled template.

In the present invention, the periphery of the distribute module is provided with some spaced screwed holes and counterbore, is stacked Two distribute modules up and down between connected with screw correspondence by each set screwed hole/counterbore and connection at periphery, lead to Cross the correspondence design of screwed hole/counterbore so that screw is concealed between two distribute modules, it is ensured that between each distribute module Energy shape is integral.

In the present invention, sealing ring mounting groove is provided with the annular groove, O-shaped sealing is installed in the sealing ring mounting groove Circle；And the end face of the distribute module is provided with sealing ring mounting groove corresponding to the periphery of each axial opening, the sealing ring is installed O-ring seal is installed in groove；And each distribute module correspondence also is provided with O-shaped sealing with the center connecting screw hole end Circle, to ensure preferable sealing and anti-leakage.

In the present invention, specifically, four axial openings are had in the distribute module, the distribute module is for just Eight prisms, each seamed edge of the distribute module is provided with two fluid issuings.So per 16 road fluids can be separated all the way, divide Go out way more, it is easy to use and reliable.

In the present invention, the closure cover plate is positive eight prism consistent with distribute module profile.

Compared with prior art, the beneficial effects of the invention are as follows：

（1）The present invention is stacked due to the distribute module by modularized design, and being combined into can separate any multichannel Fluid, its is easy to process, and strong modularity, combination is versatile and flexible；

（2）The present invention can according to actual needs, for the primary path for having completed distribution, in other distribute modules below In its axial primary path hole can not be open-minded, directly block the primary path hole of previous module, last closure cover plate is only used Primary path hole in last distribute module is blocked, so as to efficiently reduce O-ring seal quantity and reduce leak point, sealing Performance is greatly improved.

Brief description of the drawings

The present invention is described in detail with specific embodiment below in conjunction with the accompanying drawings：

Fig. 1 is the combination one point of overabsorption apparatus structure schematic diagram of stacked multi-path fluid described in the embodiment of the present invention one （With the distribute module that four layer stackups are set, every layer of one point of four tunnel, four floor are divided into out explanation as a example by 16 tunnels）；

Fig. 2 is the top view of above-mentioned Fig. 1；

Fig. 3 be in above-mentioned Fig. 2 A-A to Section View；

Fig. 4 is B-B direction Section View in above-mentioned Fig. 2；

Fig. 5 be in above-mentioned Fig. 1 C-C to sectional view；

Fig. 6 be in above-mentioned Fig. 1 D-D to sectional view；

Fig. 7 be in above-mentioned Fig. 1 E-E to sectional view；

Fig. 8 be in above-mentioned Fig. 1 F-F to sectional view；

Fig. 9 is distribute module schematic perspective view in the present invention；

Figure 10 is the top view of above-mentioned Fig. 9；

Figure 11 is the G-G of above-mentioned Figure 10 to sectional view；

Figure 12 is one point of overabsorption apparatus structure schematic diagram described in the embodiment of the present invention two（With dividing that five layer stackups are set With module, every layer of one point of four tunnel, five floor are divided into out explanation as a example by 30 tunnels）；

Figure 13 is the H-H of above-mentioned Figure 12 to Section View；

Figure 14 is the I-I of above-mentioned Figure 12 to Section View；

Figure 15 is one point of overabsorption apparatus structure schematic diagram sectional view one described in the embodiment of the present invention three（Reduce leak source side Formula）；

Figure 16 is one point of overabsorption apparatus structure schematic diagram sectional view two described in the embodiment of the present invention three（Reduce leak source side Formula）.

Specific embodiment

Embodiment one：

A kind of stacked one point of overabsorption device of multi-path fluid of combination of the present invention, including some be cascading Distribute module and the closure cover plate that is placed at the top of the superiors' distribute module, if main line use is provided with the distribute module vertically Do not gone the same way the axial opening of fluid in circulation, in the periphery of the correspondence axial direction opening for needing to be separated multichannel distribute module Be provided with a groove structure, the periphery of the distribute module is provided with some fluid issuings, the groove structure internally with corresponding axle Connected to opening, externally connected with the fluid issuing 111 of the distribute module 11.

The present embodiment is explained by taking four distribute modules as an example：

As shown in Figures 1 to 4, the stacked one point of overabsorption device of multi-path fluid of combination of the present invention include by it is lower extremely The distribute module 1,2,3,4 that last time is stacked（Wherein the first distribute module 1, the second distribute module 2, the 3rd distribute module 3, 4th distribute module 4）With the closure cover plate 5 for being placed in the top of the 4th distribute module 4, the profile and each distribute module of cover plate 5 are blocked Profile it is consistent.And be correspondingly provided with vertically in each distribute module 1,2,3,4 four tunnels for circulate do not go the same way fluid axial direction flow Through hole X, Y, Z, W, and axial opening X, Y, Z, W are flowed into respectively for the road fluid primary path of X, Y, Z, W tetra-.In figure 3, Y1-Y2 The sensing of arrow is the flow direction of Y roads fluid primary path；The sensing of W1-W2 arrows is the flow direction of W roads fluid primary path；Y1- The sensing of Y2 arrows is the flow direction of Y roads fluid primary path；In Fig. 4, the sensing of X1-X2 arrows is X roads fluid primary path Flow direction；The sensing of Z1-Z2 arrows is the flow direction of Z roads fluid primary path.

As shown in Fig. 5, Fig. 9, Figure 10, first distribute module 1 is positive eight prism structure with center connecting hole, Each side of positive eight prism is provided with 2 outlets, and first distribute module 1 is used to separate X roads stream where axial opening X Fluid on body primary path.The periphery of the axial opening X of first distribute module 1 is provided with a groove structure 11, described point Each side with module 1 is provided with two fluid issuings 12, and the groove structure 11 includes a notched annular groove 112 and The straight trough 111 that the breach is in axial opening correspondence connection is located at, the annular groove 112 connects with the fluid issuing 12 of each side Logical, such X roads fluid primary path can separate 16 road fluids, and it is more to separate way, easy to use and reliable.

As shown in figure 11, the center connecting hole 13 of first distribute module 1 is screwed hole, first distribute module 1 Periphery be provided with spaced screwed hole 14 and counterbore 15.

In the present invention, each distribute module structure is essentially identical, and its difference is：

As shown in fig. 6, the difference of second distribute module 2 is the straight trough 211 and axial opening Y of its groove structure 21 I.e. Y roads are in fluid communication, and the screwed hole 24 and counterbore 25 of the peripheral modules connection of the second distribute module 2 just stagger, i.e., and the The screwed hole 14 of one distribute module correspond to the counterbore 25 of the second distribute module 2, and the counterbore 15 of the first distribute module 1 correspond to The screwed hole 24 of two distribute modules 2.

As shown in fig. 7, the difference of the 3rd distribute module 3 and the second distribute module 2 is the straight trough of its groove structure 31 311 is that Z roads are in fluid communication with axial direction opening Z, and the screwed hole 34 and counterbore 35 of the periphery connection of the 3rd distribute module 3 are firm Stagger well, i.e. the screwed hole 24 of the second distribute module correspond to the counterbore 35 of the 3rd distribute module 3, the second distribute module 2 it is heavy Hole 25 correspond to the screwed hole 34 of the 3rd distribute module 3.

As shown in figure 8, the difference of the 4th distribute module 4 and the 3rd distribute module 3 is the straight trough of its groove structure 41 411 is that W roads are in fluid communication with axial direction opening W, and the screwed hole 44 and counterbore 45 of the periphery connection of the 4th distribute module 4 are firm Stagger well, i.e. the screwed hole 34 of the 3rd distribute module correspond to the counterbore 45 of the 4th distribute module 4, the 3rd distribute module 3 it is heavy Hole 35 correspond to the screwed hole 44 of the 4th distribute module 4.

More than, by the cooperation between each module stacked on top of one another, the attachment screw 6 of connection two-by-two can be hidden in correspondence Counterbore and screwed hole between, it is ensured that the globality of distributor structure after stacking.

As shown in Fig. 1, Fig. 3, Fig. 4, Figure 11, screwed hole 13 centered on the center connecting hole of first distribute module 1, respectively The distribute module being stacked by the center attachment screw 7 and spring backing plate 8 through screwed hole of centre by each distribute module with Closure cover plate 5 is fixedly connected together, it is ensured that can tightly hold connection between the distribute module and stopend 5 of each stacking.

As shown in Fig. 3, Fig. 4, Figure 11, sealing ring mounting groove is provided with the annular groove 111 of the first distribute module 1, the sealing O-ring seal 9 is installed in circle mounting groove, and the end face of the first distribute module 1 corresponds to the periphery of its axial opening X, Y, Z Sealing ring mounting groove also is provided with, O-ring seal 10 is installed in the sealing ring mounting groove；And first distribute module 1 correspond to Its end of center connection screw thread hole 14 also is provided with O-ring seal 20, to ensure preferable sealing and anti-leakage.Other each distribution moulds Block correspondence position is also equipped with the O-ring seal for being sealed, and so ensures each fluid in primary flow path all without there is fluid Leakage, sealing property greatly improves.

Distribution more than, can separate 16 road branch roads all the way by the every of the road fluid primary path of X, Y, Z, W tetra-.

Embodiment two：

In the present invention, if certain requires that the branch road for separating is more than others all the way in the middle of four tunnels, 1 can individually be increased The distribute module of the path, to reach requirement.As shown in Figure 12 to Figure 14, if 1 point of 30 tunnel of X main roads requirement, can increase by 11 point First distribute module 1 of 16 X paths, while blocking on 2 of the periphery of first distribute module 1 outlets can both meet Example is required.

Embodiment three：

Additionally, in the present invention, to reduce O-ring seal quantity and reducing leak point, the primary path of distribution has been completed, Its axial primary path hole can not be open-minded in other distribute modules below, directly blocks the primary path of previous module Hole, last closure cover plate 5 is served only for the primary path hole in the last distribute module of closure.

As shown in Figure 15, Figure 16, X roads primary path the first distribute module 1 complete 1 point 16 after, the X of the second distribute module 2 The main through hole in road is not just open-minded, directly blocks the main through hole in X roads of second distribute module 2；Y primary paths are in the second distribute module 2 After completing 1 point 16, the X roads of the 3rd distribute module 3, the main through hole in Y roads be not just open-minded, directly blocks the Y roads of the second distribute module 2 Main through hole；After the 3rd distribute module 3 completes 1 point 16, the main through hole of X, Y, Z of distribute module four is not just open-minded, directly for Z primary paths Block the main through holes of Z of three distribute modules 3.So the O-ring seal of whole device and leak point quantity can be reduced a lot, can be saved About cost and improve quality.

The invention is not limited in above-mentioned implementation method, if not departing from the present invention to various changes of the invention or modification Spirit and scope, if these are changed and within the scope of modification belongs to claim of the invention and equivalent technologies, then this hair It is bright also to be changed and modification comprising these.

Claims (10)

1. It is 1. a kind of to combine stacked one point of overabsorption device of multi-path fluid, it is characterised in that：It is cascading including some Distribute module and the closure cover plate being placed at the top of the superiors' distribute module, if be provided with main line in the distribute module being vertically used for Circulation is not gone the same way the axial opening of fluid, is set in the periphery of the correspondence axial direction opening for needing to be separated multichannel distribute module Have a groove structure, the periphery of the distribute module is provided with some fluid issuings, the groove structure internally with corresponding axial direction Opening is connected, and is externally connected with the fluid issuing of the distribute module.
2. It is 2. according to claim 1 to combine stacked one point of overabsorption device of multi-path fluid, it is characterised in that：The distribution Module is the positive multiedge cylinder structure with center connecting hole, and each side of the positive multiedge cylinder is at least provided with 1-2 outlet.
3. It is 3. according to claim 1 and 2 to combine stacked one point of overabsorption device of multi-path fluid, it is characterised in that：It is described Groove structure includes a notched annular groove and one is located at the straight trough that the breach is in axial opening correspondence connection, the ring Shape groove is connected with the fluid issuing of each side.
4. It is 4. according to claim 3 to combine stacked one point of overabsorption device of multi-path fluid, it is characterised in that：The distribution The periphery of module is provided with some spaced screwed holes and counterbore, between two distribute modules up and down being stacked at periphery Connected with screw correspondence by each set screwed hole/counterbore and connection.
5. It is 5. according to claim 2 to combine stacked one point of overabsorption device of multi-path fluid, it is characterised in that：The distribution The center connecting hole of module is screwed hole, and center attachment screw passes through the screwed hole of centre of the distribute module being respectively stacked by respectively Distribute module is fixedly connected.
6. It is 6. according to claim 3 to combine stacked one point of overabsorption device of multi-path fluid, it is characterised in that：The annular Sealing ring mounting groove is provided with groove, O-ring seal is installed in the sealing ring mounting groove.
7. It is 7. according to claim 1 to combine stacked one point of overabsorption device of multi-path fluid, it is characterised in that：The distribution The periphery that the end face of module corresponds to each axial opening is provided with sealing ring mounting groove, is provided with the sealing ring mounting groove O-shaped Sealing ring.
8. It is 8. according to claim 2 to combine stacked one point of overabsorption device of multi-path fluid, it is characterised in that：The distribution The end face that module corresponds to center connecting hole is provided with sealing ring mounting groove, and O-ring seal is provided with the sealing ring mounting groove.
9. It is 9. according to claim 3 to combine stacked one point of overabsorption device of multi-path fluid, it is characterised in that：The distribution Four axial openings are had in module, the distribute module is positive eight prism, and each seamed edge of the distribute module is provided with Two fluid issuings.
10. It is 10. according to claim 2 to combine stacked one point of overabsorption device of multi-path fluid, it is characterised in that：The envelope Blanking cover plate is positive eight prism consistent with distribute module profile.