CN213272053U - Integrated form collection flow device - Google Patents

Abstract

The utility model provides an integrated form device that converges, including the multiunit module that converges, at least a set of module that converges is the module that converges of advancing more, wherein: the multi-inlet confluence module comprises a plurality of first inlets, a plurality of first valve body connecting ends and at least one first outlet; the input ends of different first valve body connecting ends are connected with the output ends of different first inlets; the input end of each first outlet is connected with the output end of part or all of the first valve body connecting ends; the input end of the first valve body connecting end is used for being connected with the input end of the electromagnetic valve, and the output end of the first valve body connecting end is used for being connected with the output end of the electromagnetic valve. Through the scheme, the medium can enter the confluence device through the first inlets and then is output through the first outlet or is output through the first outlets, and therefore the application requirement of monitoring after mixing of multiple media can be met.

Description

Integrated form collection flow device

Technical Field

The utility model relates to a monitoring instrument designs technical field, specifically relates to an integrated form confluence device.

Background

With the deep development of the environment monitoring work, the market space of the environment online monitoring technology is continuously expanding, and the requirements on the accuracy and stability of the online monitoring instrument are also very high. In on-line monitoring instruments, the transmission devices for fluids such as gas and liquid are widely used, and the confluence devices are developed on the basis of the transmission devices.

In the current confluence device, a plurality of inlets and a plurality of outlets are provided, and a communication pipeline is provided between the inlets and the outlets to realize a medium passage (medium may be liquid or gas, etc.) that one inlet corresponds to one outlet or one inlet corresponds to a plurality of outlets. Each inlet is connected to a media source as needed, and then delivers the media through a single outlet or multiple outlets. However, in an actual monitoring scenario, various monitoring environments may be encountered, and only one-to-one transmission or one-to-many transmission of media can be realized by using the bus device, which is not adaptive enough to support the field-variable media transmission requirements. For example, in a monitoring site, it is sometimes necessary to mix a plurality of media and monitor them, and this cannot be achieved by the above-described confluence device.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an integrated form collection flow device to the technical problem who detects after can't satisfying multiple medium mixture of collection flow device fluid transmission route among the solution prior art.

Therefore, some embodiments of the present invention provide an integrated type bus device, including a plurality of groups of bus modules, at least one group of bus modules is a multi-input type bus module, wherein:

the multi-inlet confluence module comprises a plurality of first inlets, a plurality of first valve body connecting ends and at least one first outlet; the input ends of different first valve body connecting ends are connected with the output ends of different first inlets; the input end of each first outlet is connected with the output end of part or all of the first valve body connecting ends; the input end of the first valve body connecting end is used for being connected with the input end of the electromagnetic valve, and the output end of the first valve body connecting end is used for being connected with the output end of the electromagnetic valve.

Optionally, in the integrated bus device, at least one group of the bus modules is a single-in single-out bus module, wherein:

the single-inlet single-outlet type confluence module comprises a second inlet, a second valve body connecting end and a second outlet; the input end of the second valve body connecting end is connected with the output end of the second inlet; the input end of the second outlet is connected with the output end of the second valve body connecting end; the input end of the second valve body connecting end is used for being connected with the input end of the electromagnetic valve, and the output end of the second valve body connecting end is used for being connected with the output end of the electromagnetic valve.

Optionally, in the integrated bus device, at least one group of the bus modules is a single-in multi-out bus module, wherein:

the single-inlet multi-outlet type confluence module comprises a third inlet, a plurality of third valve body connecting ends and a plurality of third outlets; the input end of each third valve body connecting end is connected with the output end of the third inlet; the input end of each third outlet is connected with the output end of one third valve body connecting end; the input end of the third valve body connecting end is used for being connected with the input end of the electromagnetic valve, and the output end of the third valve body connecting end is used for being connected with the output end of the electromagnetic valve.

Optionally, in the integrated bus device, at least one group of the bus modules is a straight-through bus module:

the straight-through type confluence module comprises a fourth inlet and a fourth outlet; the fourth inlet is connected with the fourth outlet.

Optionally, in the integrated bus device, at least one group of the bus modules is a hybrid bus module:

the hybrid type bus module comprises at least two groups of a multi-input type bus module, a single-input single-output type bus module, a single-input multi-output type bus module and a straight-through type bus module.

Optionally, in the integrated confluence device, at least one valve body connection end includes an exhaust end, and the exhaust end is used for being connected with an exhaust port of the solenoid valve;

the input, the output and the exhaust end of each valve body link are the through-hole, the solenoid valve sets up on each valve body link, the input of solenoid valve sets up in the input through-hole of valve body link insertingly, the output of solenoid valve sets up in the output through-hole of valve body link insertingly, the gas vent of solenoid valve sets up in the exhaust end through-hole of valve body link insertingly.

Optionally, in the integrated collecting device, each valve body connecting end includes a pair of fixing holes;

the electromagnetic valve is formed with a pair of fixed ends, and each fixed end is provided with a bolt hole; the pair of bolt holes of the electromagnetic valve are opposite to the pair of fixing holes of the valve body connecting end, and the positioning bolts penetrate through the bolt holes and the fixing holes to fixedly connect the electromagnetic valve and the valve body connecting end.

Optionally, in the integrated type confluence device, a sealing gasket is disposed at the input end, the output end and the exhaust end of each valve body connecting end.

Optionally, in the integrated manifold device, the first inlet, the second inlet, the third inlet, and the fourth inlet are located on a first side of the device;

the first outlet, the second outlet, the third outlet, the fourth outlet, and the exhaust port are located on a second side of the device, the second side being disposed parallel to the first side.

Optionally, in the integrated type confluence device, the input end through hole, the output end through hole and the fixing hole of each valve body connecting end are located on a third side of the integrated type confluence device, and the third side is different from the first side and the second side.

The embodiment of the utility model provides an above-mentioned technical scheme has following beneficial effect at least:

the utility model discloses in the integrated form device that converges that provides, have the multiunit module of converging, and at least a set of module of converging can satisfy the form of converging of many advances many-outs or many advances singly-outs. That is, the medium may enter the confluence device through the first plurality of inlets and then be output through one first outlet or through the first plurality of outlets. Therefore, the application requirement of monitoring after mixing of multiple media can be met.

Drawings

Fig. 1 is a schematic view illustrating a bus mode of an integrated bus device according to an embodiment of the present invention;

fig. 2 is a schematic view illustrating a bus mode of an integrated bus device according to another embodiment of the present invention;

fig. 3 is a schematic structural diagram of a multi-inlet single-outlet type flow module according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of a single-in multiple-out type bus module according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram of a hybrid bus module including a single-in multi-out bus module and a straight-through bus module according to an embodiment of the present invention;

fig. 6 is a schematic structural diagram of a single-in single-out type bus module according to an embodiment of the present invention;

fig. 7 is a schematic structural diagram of an integrated bus device according to an embodiment of the present invention.

Detailed Description

The embodiments of the present invention will be further explained with reference to the drawings. In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description of the present invention, and do not indicate or imply that the device or component to which the reference is made must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; the two components can be directly connected or indirectly connected through an intermediate medium, and the two components can be communicated with each other. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In the following embodiments provided in the present application, unless mutually contradictory, different technical solutions may be mutually combined, and technical features thereof may be mutually replaced.

The integrated form device that converges that provides in the following embodiment of this application, it includes a plurality of imports, a plurality of exports and a plurality of valve body link, because the integrated form device that converges includes the multiple mode of converging, consequently for inciting somebody to action import, export and valve body link distinguish, the import, export and the valve body link under the different mode of converging distinguish with ways such as first, second, third, fourth.

The present embodiment provides an integrated type bus device, which includes a plurality of sets of bus modules, at least one set of bus modules is a multi-input type bus module, as shown in fig. 1 and fig. 3, the multi-input type bus module may include a multi-input multi-output type bus module 1 and a multi-input single-output type bus module 2, wherein: the multi-inlet confluence module comprises a plurality of first inlets P1, a plurality of first valve body connecting ends and at least one first outlet A1; the input end of the different first valve body connecting end is connected with the output end of the different first inlet P1; the input end of each first outlet A1 is connected with the output end of part or all of the first valve body connecting ends; the input of first valve body link is used for being connected with solenoid valve SV's input, the output of first valve body link be used for with solenoid valve SV's output is connected.

As shown in fig. 1 and 3, for the multi-input multi-output type bus module, the connection manner of the two first outlets a1 may include two cases: one of the first outlets a1 is connected to the output of one of the first valve body connection ends, and the other first outlet a1 is simultaneously connected to the outputs of the remaining two first valve body connection ends. Or as shown in the left half part of fig. 1, the output ends of the three first valve body connecting ends are uniformly connected to the confluence circuit, and the two first outlets a1 are both connected with a certain point in the confluence circuit.

The integrated bus device provided by the above solution of the present embodiment has a plurality of sets of bus modules, and at least one set of bus modules can satisfy a multi-input multi-output or multi-input single-output bus form. That is, the medium may enter the confluence device through the plurality of first inlets P1, flow through the solenoid valve through the first valve body connection end, and be switched on and off by the solenoid valve, and when the solenoid valve controls the medium circuit to be switched on, the medium is output through the one first outlet or output through the plurality of first outlets a1 and then supplied to the working end. Therefore, the application requirement of monitoring after mixing of multiple media can be met.

Further, in the integrated type bus device in the above aspect, as shown in fig. 2, at least one group of the bus modules is a single-in single-out type bus module 3, in which: the single-in single-out type confluence module 3 comprises a second inlet P2, a second valve body connecting end and a second outlet A2; the input end of the second valve body connecting end is connected with the output end of the second inlet P2; the input end of the second outlet A2 is connected with the output end of the second valve body connecting end; the input end of the second valve body connecting end is used for being connected with the input end of a solenoid valve SV6, and the output end of the second valve body connecting end is used for being connected with the output end of the solenoid valve SV 6. The integrated type confluence device in the scheme can be suitable for a single-in single-out confluence mode besides a multiple-in multiple-out and multiple-in single-out confluence mode, and the application scene of the integrated type confluence device is increased.

In the above solution, at least one group of the bus modules is a single-in multiple-out bus module 4, and the structure shown in fig. 4 is combined, wherein: the single-in multi-out type confluence module 4 comprises a third inlet P3, a plurality of third valve body connecting ends and a plurality of third outlets A3; the input end of each third valve body connecting end is connected with the output end of the third inlet P3; the input end of each third outlet A3 is connected with the output end of the third valve body connecting end; the figure illustrates two third valve body connecting ends, wherein the input end of one third valve body connecting end is used for being connected with the input end of a solenoid valve SV1, and the output end of the third valve body connecting end is used for being connected with the output end of the solenoid valve SV 1; the input end of the other third valve body connecting end is used for being connected with the input end of a solenoid valve SV2, and the output end of the third valve body connecting end is used for being connected with the output end of the solenoid valve SV 2. The integrated convergence device in the scheme can be suitable for a convergence mode of multi-input multi-output, multi-input single-output and single-input single-output, and can also be suitable for a single-input multi-output convergence mode, and the application scene of the integrated convergence device is further expanded.

The integrated bus device in the above solution, preferably, at least one group of the bus modules is a straight-through bus module, as shown in fig. 2 and 5, the straight-through bus module includes therein a fourth inlet P4 and a fourth outlet a 4; the fourth inlet P4 is connected to the fourth outlet a 4. Through the straight-through type confluence module, the medium can be directly input from the fourth inlet P4 and then output from the fourth outlet A4, and the straight-through type confluence module is suitable for application scenes of medium diversion.

Further preferably, in the above-mentioned integrated type bus device, at least one group of the bus modules is a hybrid type bus module 5, and the hybrid type bus module 5 includes at least two groups of a multi-input type bus module, a single-input single-output type bus module, a single-input multi-output type bus module, and a straight-through type bus module. The hybrid type bus module 5 as shown in fig. 2 and 5 includes a combination of a single-in multi-out type bus module, which may share one inlet with a through type bus module, i.e., each connected to a fourth inlet P4, and a through type bus module, which includes three third valve body connection terminals connected to a solenoid valve SV7, a solenoid valve SV8, and a solenoid valve SV9, respectively, wherein the third outlet A3 is connected to an outlet of one solenoid valve, respectively. The figure shows only one implementation of the hybrid bus module 5, which can also be implemented with other combinations of bus modules. By adding the mixed type bus module, the bus mode of the integrated bus device is further enriched. The structure shown in fig. 7 integrates multiple confluence modes such as common-in single-out, single-in common-out, single-in single-out, multiple-in multiple-out and the like, and when the confluence device is used in an air path system for environment monitoring, multiple loop integration of media can be realized, the space is saved, the piping is simplified, and the leakage probability is reduced.

In addition, in the above scheme, at least one valve body connecting end may further include an exhaust end, and the exhaust end is used for being connected with an exhaust port of the electromagnetic valve; as shown in fig. 2, the single-inlet single-outlet type confluence module 3 has a second valve body connection end including an exhaust port R, wherein the exhaust port R is mainly used for exhausting gas during gas monitoring and is connected to an R port of a three-way electromagnetic valve. The input, the output and the exhaust end (not all valve body links all have the exhaust end, but all valve body links all have input and output) of each valve body link (being first valve body link, second valve body link, third valve body link) in above scheme are the through-hole, the solenoid valve sets up on each valve body link, the input of solenoid valve sets up in the input through-hole of valve body link with inserting, the output of solenoid valve sets up in the output through-hole of valve body link with inserting, the gas vent of solenoid valve sets up in the exhaust end through-hole of valve body link with inserting. Through the setting of this scheme, direct mode through pegging graft just can be connected solenoid valve and valve body link, need not to carry out the switching through the air pipe head, has simplified the operation, has reduced the gas leakage risk, has improved monitoring system's stability.

In addition, as shown in fig. 3 to 7, each valve body connection end may include a pair of fixing holes G; a pair of fixed ends can be formed on the shell of the electromagnetic valve, and each fixed end is provided with a bolt hole; when the electromagnetic valve is arranged, the pair of bolt holes of the electromagnetic valve can be directly arranged opposite to the pair of fixing holes G of the valve body connecting end, and the electromagnetic valve and the valve body connecting end are fixedly connected after the positioning bolts penetrate through the bolt holes and the fixing holes G. That is, the positions between the ports of the valve body connecting end and the solenoid valve and the fixing end G are designed according to the positions between the ports and the bolt holes of the solenoid valve, when the solenoid valve is installed, the ports on the solenoid valve can be directly buckled into the corresponding ports on the valve body connecting end, and the bolt holes on the solenoid valve and the fixing holes on the valve body connecting end are screwed up through bolts.

Preferably, the input end, the output end and the exhaust end of each valve body connecting end in the above scheme are all provided with a sealing gasket, and the sealing gasket can further enhance the sealing performance of the connecting part of the valve body connecting end and the electromagnetic valve.

The integrated confluence device in various aspects of the present application may be a solid block perforated to achieve gas passage, as shown in fig. 7, wherein the first inlet P1, the second inlet P2, the third inlet P3 and the fourth inlet P4 are located at a first side of the device; the first outlet a1, second outlet a2, third outlet A3, fourth outlet a4, and exhaust R are located on a second side of the device, which is disposed parallel to the first side. Wherein the ports through which the medium needs to flow are connected. And the input end through hole, the output end through hole and the fixing hole G of each valve body connecting end are all positioned on a third side of the integrated confluence device, and the third side is different from the first side and the second side. The integrated bus bar device shown in fig. 7 has a rectangular parallelepiped structure, and the third side is a surface perpendicular to the first side and the second side. Due to the design, the pipe connection between the integrated collecting device and other equipment is more convenient, and the installation of the electromagnetic valve is more convenient.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention in its corresponding aspects.

Claims (10)

1. An integrated form device that converges, its characterized in that includes multiunit and converges the module, and at least a set of module that converges is the type that advances more and converges module, wherein:

the multi-inlet confluence module comprises a plurality of first inlets, a plurality of first valve body connecting ends and at least one first outlet; the input ends of different first valve body connecting ends are connected with the output ends of different first inlets; the input end of each first outlet is connected with the output end of part or all of the first valve body connecting ends; the input end of the first valve body connecting end is used for being connected with the input end of the electromagnetic valve, and the output end of the first valve body connecting end is used for being connected with the output end of the electromagnetic valve.

2. The integrated bus device of claim 1, wherein at least one set of bus modules is a single-in single-out bus module, wherein:

the single-inlet single-outlet type confluence module comprises a second inlet, a second valve body connecting end and a second outlet; the input end of the second valve body connecting end is connected with the output end of the second inlet; the input end of the second outlet is connected with the output end of the second valve body connecting end; the input end of the second valve body connecting end is used for being connected with the input end of the electromagnetic valve, and the output end of the second valve body connecting end is used for being connected with the output end of the electromagnetic valve.

3. The integrated bus device of claim 1, wherein at least one set of bus modules is a single-in multiple-out bus module, wherein:

the single-inlet multi-outlet type confluence module comprises a third inlet, a plurality of third valve body connecting ends and a plurality of third outlets; the input end of each third valve body connecting end is connected with the output end of the third inlet; the input end of each third outlet is connected with the output end of one third valve body connecting end; the input end of the third valve body connecting end is used for being connected with the input end of the electromagnetic valve, and the output end of the third valve body connecting end is used for being connected with the output end of the electromagnetic valve.

4. The integrated bus device of claim 1, wherein at least one set of bus modules is a straight-through bus module:

the straight-through type confluence module comprises a fourth inlet and a fourth outlet; the fourth inlet is connected with the fourth outlet.

5. The integrated bus device of any one of claims 1 to 4, wherein at least one set of bus modules is a hybrid bus module:

the hybrid type bus module comprises at least two groups of a multi-input type bus module, a single-input single-output type bus module, a single-input multi-output type bus module and a straight-through type bus module.

6. The integrated bus device of claim 5, wherein:

the at least one valve body connecting end comprises an exhaust end, and the exhaust end is used for being connected with an exhaust port of the electromagnetic valve;

the input, the output and the exhaust end of each valve body link are the through-hole, the solenoid valve sets up on each valve body link, the input of solenoid valve sets up in the input through-hole of valve body link insertingly, the output of solenoid valve sets up in the output through-hole of valve body link insertingly, the gas vent of solenoid valve sets up in the exhaust end through-hole of valve body link insertingly.

7. The integrated bus device of claim 6, wherein:

each valve body connecting end comprises a pair of fixing holes;

the electromagnetic valve is formed with a pair of fixed ends, and each fixed end is provided with a bolt hole; the pair of bolt holes of the electromagnetic valve are opposite to the pair of fixing holes of the valve body connecting end, and the positioning bolts penetrate through the bolt holes and the fixing holes to fixedly connect the electromagnetic valve and the valve body connecting end.

8. The integrated bus device of claim 7, wherein:

the input end, the output end and the exhaust end of each valve body connecting end are provided with sealing gaskets.

9. The integrated bus device of claim 7, wherein:

the first inlet, the second inlet, the third inlet and the fourth inlet are located on a first side of the device;

the first outlet, the second outlet, the third outlet, the fourth outlet, and the exhaust port are located on a second side of the device, the second side being disposed parallel to the first side.

10. The integrated bus device of claim 9, wherein:

the input end through hole, the output end through hole and the fixing hole of each valve body connecting end are all located on a third side of the integrated type confluence device, and the third side is different from the first side and the second side.

Images