CN212166363U - Water kinetic energy system of foam proportion mixing device - Google Patents

Abstract

The utility model discloses a hydrodynamic energy system of a foam proportional mixing device, which comprises a power module, a mixing module and a pipeline system module, wherein the power module comprises a hydrodynamic energy driving pump, a water inlet connecting flange part and a water outlet connecting flange part are respectively cast-welded at the water inlet end and the water outlet end of the hydrodynamic energy driving pump, the mixing module comprises a mechanical plunger pump, the head end of the mechanical plunger pump is provided with a jet type proportional mixer, the hydrodynamic energy driving pump synchronously drives the mechanical plunger pump to form jet power for the jet type proportional mixer through a coupler, the pipeline system module comprises a water inlet pipeline and a water return pipeline, one end of the water inlet pipeline is connected with the water inlet connecting flange part, the other end is connected with the water inlet of the jet type proportional mixer, and one end of the water return pipeline is connected with the water outlet connecting flange part, and the other end of the water return pipeline is connected with a water return port of the jet type proportional mixer. The utility model discloses better saving the energy loss to accord with the requirement of low carbon environmental protection, also reduced manufacturing cost for manufacturing enterprise simultaneously.

Description

Water kinetic energy system of foam proportion mixing device

Technical Field

The utility model relates to a technical field of fire-fighting equipment production specifically is a foam proportion mixing arrangement's hydrodynamic energy system.

Background

The fire extinguisher in the fire-fighting equipment is most commonly provided with a foam extinguishing agent bottle, the production technology of the foam extinguishing agent is mature, the foam extinguishing agent bottle has the advantages of high yield and low cost, and the foam extinguishing agent bottle is one of main products of fire-fighting equipment manufacturers.

In a production system of a foam extinguishing agent, a proportioner is used for pressurizing and mixing a certain amount of water and a certain amount of foam to form the foaming agent, most of the foam in the proportioner is mainly in a spraying mode, so a power pump is usually equipped to complete pressurization and spraying work, a common power pump has a plunger type and a balance type, and in the existing production system, a driving device is required to be used for driving the power pump to continuously move, such as a motor, a diesel engine, a gasoline engine and the like, and under the large environment advocating low carbon, environmental protection, energy conservation and emission reduction, the driving modes have the defect of large energy consumption, and the production cost of production enterprises is additionally increased.

Therefore, there is a need for a power system that is environmentally friendly and energy efficient and can be used in a foam suppressant production system.

SUMMERY OF THE UTILITY MODEL

The utility model mainly provides a foam proportion mixing arrangement's hydrodynamic energy system for solve the technical problem who proposes among the above-mentioned background art.

The utility model provides a technical scheme that above-mentioned technical problem adopted does:

the utility model provides a hydrodynamic energy system of foam proportion mixing arrangement, includes power module, mixing module and pipe-line system module, power module is including hydrodynamic energy driving pump, the water inlet/outlet both ends of hydrodynamic energy driving pump are cast respectively and are welded into water flange part and go out water flange part, the inside drive storehouse that is equipped with of hydrodynamic energy driving pump, be provided with auger shaft one and auger shaft two in the drive storehouse, auger shaft one and auger shaft two mesh side by side, auger shaft one and auger shaft two both ends run through respectively the both sides casing of hydrodynamic energy driving pump and be the rotation and connect, wherein the one end cast joint of auger shaft one is connected with the output lever, and this output lever extends to the casing external connection of hydrodynamic energy driving pump and is connected with the shaft coupling;

the mixing module comprises a mechanical plunger pump, an injection type proportional mixer is mounted at the pump head end of the mechanical plunger pump, a power output shaft of the mechanical plunger pump is connected with a coupler, and the water kinetic energy driving pump synchronously drives the mechanical plunger pump to form injection power for the injection type proportional mixer through the coupler;

the pipeline system module comprises a water inlet pipeline and a water return pipeline, one end of the water inlet pipeline is connected with the water inlet connecting flange component, the other end of the water inlet pipeline is connected with the water inlet of the jet type proportional mixer, one end of the water return pipeline is connected with the water outlet connecting flange component, and the other end of the water return pipeline is connected with the water return port of the jet type proportional mixer.

Preferably, the bottom of the hydrodynamic energy driving pump, the bottom of the mechanical plunger pump and the bottom of the jet type proportioning mixer are fixedly connected with a lower fixed support through bolts, and the top of the mechanical plunger pump is fixedly connected with an upper fixed support through bolts.

Preferably, the top of the coupler is provided with a U-shaped protective cover, an opening of the U-shaped protective cover is downwards buckled above the coupler and is fixedly connected with the lower fixing support through a bolt, and the U-shaped protective cover is formed by bending and processing a carbon fiber plate.

Preferably, the upper end of the jet proportioning device, which is positioned at the water inlet, is in threaded connection with a foam concentrate delivery pipe joint.

Preferably, the inlet channel with it is threaded connection to advance water flange part bottom through elbow water pipe joint, just the inlet channel with the injection formula proportioner water inlet is threaded connection through manual formula tee bend ball valve one.

Preferably, install the filter on the inlet channel, the filter both ends are hexagonal female connector, it has mesh filter plug to inlay in the filter is close to the casing of water outlet end, the filter is close to the shell body bottom cast joint of water inlet end and has a dirty bifurcated pipe of collection, dirty bifurcated pipe other end of collection is close to the filter water outlet end direction and is the 30 degrees downwardly extending of inclination to drain, and this drain female connection has the end cap.

Preferably, the body top that return water pipe is close to injection formula proportioner return water mouth one end installs the pressure relief valve, and this section body is close to pressure relief valve one side threaded connection has manual formula three-way ball valve two, just return water pipe is close to water flange part top one end and is threaded connection through the outer screwed joint of double-end, is located to be connected with the manometer through three way connection on the return water pipe of water flange part upper end.

Preferably, the bottom of the water outlet connecting flange part is connected with a manual three-way ball valve III through an elbow water pipe joint in a threaded manner.

Preferably, the water consumption required by one rotation of the auger shaft is equal to the water absorption of one pumping movement of the mechanical plunger pump.

Compared with the prior art, the beneficial effects of the utility model are that:

one of the two, the utility model discloses a hydrodynamic energy system includes power module, mixing module and pipe-line system module, through the auger axle one and auger axle two side by side meshing in the hydrodynamic energy actuating pump, when rivers pass through the drive storehouse, drive auger axle one and auger axle two and rotate, the output rod of auger axle one utilizes the power output shaft of shaft coupling and mechanical plunger pump to connect, thereby drive mechanical plunger pump work, the better energy saving loss of this mode, and accord with the requirement of low carbon environmental protection, also reduced manufacturing cost for manufacturing enterprise;

it is two, the utility model discloses in injecting the injection formula proportioner of pump head end with the foam extrusion, inlet channel and injection formula proportioner water inlet are connected, once can absorb the water of a certain proportion and mix with the foam in getting into injection formula proportioner at every mechanical plunger pump acting, and in the return water pipe that does not in time absorb gets back to the connecting tube of hydrodynamic force actuating pump from the return water pipe way of return water mouth department in time, carry out the reuse after the circulation, not only reach accurate, efficient foam liquid proportional mixing production effect, but also practiced thrift the water resource.

The present invention will be explained in detail with reference to the drawings and specific embodiments.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

fig. 2 is a bottom view of the overall structure of the present invention;

FIG. 3 is a right side view of the overall structure of the present invention;

fig. 4 is a sectional view of the internal structure of the hydrodynamic energy driven pump of the present invention;

fig. 5 is a cross-sectional view of the internal structure of the filter of the present invention.

1. The water kinetic energy drives the pump; 1a, a driving bin; 11. a water inlet connection flange part; 12. a water outlet connecting flange part; 13. a first packing auger shaft; 13a, an output rod; 14. a second auger shaft; 15. a manual three-way ball valve III; 2. a mechanical plunger pump; 21. a jet proportioner; 21a, a foam liquid conveying pipe joint; 3. a lower fixed bracket; 4. an upper fixing bracket; 5. a water inlet pipe; 51. a manual three-way ball valve I; 52. a filter; 52a, a sewage collecting branch pipe; 52b, a mesh filter plug; 6. a water return pipe; 61. a manual three-way ball valve II; 62. a pressure gauge; 63. a pressure relief valve; 7. a coupling; 8. a U-shaped protective housing.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully with reference to the accompanying drawings, in which several embodiments of the present invention are shown, but the present invention can be implemented in different forms, and is not limited to the embodiments described in the text, but rather, these embodiments are provided to make the disclosure of the present invention more thorough and comprehensive.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may be present, and when an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present, as the terms "vertical", "horizontal", "left", "right" and the like are used herein for descriptive purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs, and the use of the term knowledge in the specification of the present invention is for the purpose of describing particular embodiments and is not intended to limit the present invention, and the term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.

The embodiment, please refer to fig. 1-4, a water kinetic energy system of foam proportional mixing device, includes power module, mixing module and pipe-line system module, power module is including water kinetic energy driving pump 1, water inlet/outlet both ends of water kinetic energy driving pump 1 are cast and welded respectively with water inlet flange part 11 and water outlet flange part 12, the inside driving storehouse 1a that is equipped with of water kinetic energy driving pump 1, be provided with auger shaft one 13 and auger shaft two 14 in the driving storehouse 1a, auger shaft one 13 and auger shaft two 14 mesh side by side, auger shaft one 13 and auger shaft two 14 both ends run through respectively the both sides casing of water kinetic energy driving pump 1 and be the rotation and connect, wherein the one end cast and weld of auger shaft one 13 is connected with output rod 13a, and this output rod 13a extends to the casing external connection of water kinetic energy driving pump 1 and is connected with shaft coupling 7, the hybrid module is including mechanical plunger pump 2, injection formula proportioner 21 is installed to 2 pump head ends of machinery plunger pump, the power output shaft of machinery plunger pump 2 with shaft coupling 7 is connected, just water kinetic energy driving pump 1 constitutes injection power to injection formula proportioner 21 through shaft coupling 7 synchronous drive machinery plunger pump 2, auger shaft 13 rotate the required water consumption of round with the water absorption volume of 2 suction motion of machinery plunger pump equals, can mix the required foam concentrate dosage of processing into production according to quantitative water and foaming agent in proportion when producing.

In the embodiment, please refer to fig. 1 and 3, the pipe system module includes a water inlet pipe 5 and a water return pipe 6, one end of the water inlet pipe 5 is connected to the water inlet connection flange part 11, the other end of the water inlet pipe is connected to the water inlet of the jet type proportional mixer 21, the main pipe water flow connected to the water inlet connection flange part 11 is divided into a flow from the water inlet pipe 5 to the jet type proportional mixer 21, the upper end of the jet type proportional mixer 21 at the water inlet is connected to a foam liquid delivery pipe joint 21a through a screw, the foam liquid is mixed in the jet type proportional mixer 21 and then sent out from the foam liquid delivery pipe joint 21a to enter a corresponding storage container, the water inlet pipe 5 is connected to the bottom of the water inlet connection flange part 11 through a screw joint, and the water inlet pipe 5 and the water inlet of the jet type proportional mixer 21 are connected through a screw joint of a manual three-way ball valve 51, make-and-break of intaking convenient to control water flow direction and control injection formula proportioner 21, just return water pipe 6 one end with go out water connection flange part 12 and be connected, the other end with injection formula proportioner 21 return water mouth is connected, return water pipe 6 is close to the body top of injection formula proportioner 21 return water mouth one end and installs pressure relief valve 63, and pressure relief valve 63 is threaded connection with dedicated release interface on return water pipe 6, and this section body is close to pressure relief valve 63 one side threaded connection has manual formula three way ball valve two 61, just return water pipe 6 is close to water connection flange part 12 top one end and is threaded connection through the outer screwed joint of double-end, is located to be connected with manometer 62 through three way connection on the return water pipe 6 of water connection flange part 12 upper end, from the new main pipeline that flows back on hydrodynamic drive pump 1 of remaining water capacity in injection formula proportioner 21, and utilize manometer 62 and pressure-relief valve 63 better realization the inside pressure control of pipeline, equally can install the check valve additional according to the producer needs on this part return water pipe 6, go out water flange part 12 bottom and have manual formula three-way ball valve 15 through elbow water pipe head threaded connection, can follow three 15 installation pipelines of manual formula three-way ball valve and draw forth rivers if when needing.

In an embodiment, referring to fig. 1 and 3 again, the bottoms of the hydrodynamic energy driven pump 1, the mechanical plunger pump 2 and the jet type proportioner 21 are fixedly connected with a lower fixing support 3 through bolts, so as to facilitate the integral installation and fixation of the device, and bring better stability for the operation of the hydrodynamic energy driven pump 1, the mechanical plunger pump 2 and the jet type proportioner 21, the top of the mechanical plunger pump 2 is fixedly connected with an upper fixing support 4 through bolts, so that equipment required for production can be additionally installed on the upper fixing support 4, the top of the coupler 7 is provided with a U-shaped protective cover 8, the U-shaped protective cover 8 is opened and downwards buckled above the coupler 7 and is fixedly connected with the lower fixing support 3 through bolts, and the U-shaped protective cover 8 is formed by bending and processing a carbon fiber plate, and the transmission part connected with the coupler 7 below is protected by the U-shaped protective cover 8, compared with a common metal plate, the U-shaped protective cover 8 made of the carbon fiber plate has the advantages of high strength, long service life, corrosion resistance and the like.

In the embodiment, please refer to fig. 2 and 5, a filter 52 is installed on the water inlet pipe 5, both ends of the filter 52 are hexagonal female connectors, which facilitates the disassembly and assembly of the filter 52, a mesh filter plug 52b is embedded in the housing of the filter 52 close to the water outlet end, a dirt collecting bifurcated pipe 52a is cast and welded at the bottom of the housing of the filter 52 close to the water inlet end, the other end of the dirt collecting bifurcated pipe 52a is close to the water outlet end of the filter 52 and extends downwards to a sewage drain at an inner inclination angle of 30 degrees, a plug is connected to the sewage drain in an internal thread manner, the flowing water in the water inlet pipe 5 is filtered by the mesh filter plug 52b, impurities are blocked at one end of the dirt inlet at the dirt collecting bifurcated pipe 52a and accumulated at a position close to the sewage drain by water pressure, and a worker only needs to regularly loosen the plug to discharge the impurities.

The utility model discloses a concrete flow is as follows:

firstly, the water inlet connecting flange part 11 and the water outlet connecting flange part 12 at two ends of the hydrodynamic energy driven pump 1 are respectively connected with a main pipeline, when the water flow is started, the water flow entering the driving bin 1a drives the screw conveyor shaft I13 and the screw conveyor shaft II 14 to rotate in a meshed manner, the driving force is transmitted to the power output shaft of the mechanical plunger pump 2 along the output rod 13a and the coupler 7 to rotate synchronously, the water inlet pipeline 5 connected with the lower end of the water inlet connecting flange part 11 guides a part of the water flow into the jet type proportional mixer 21, the water with a certain proportion is sucked by the suction of the mechanical plunger pump 2 and enters the jet type proportioning mixer 21 to be mixed with the synchronously jetted foam, the produced foam liquid is sent out from the foam liquid conveying pipe joint 21a and enters the corresponding storage container, and the temporarily unused water is newly supplied from the return pipe 6 to the upper end of the outlet connection flange part 12 and enters the main pipe to be recycled next.

The present invention has been described above with reference to the accompanying drawings, and it is obvious that the present invention is not limited by the above-mentioned manner, if the method and the technical solution of the present invention are adopted, the present invention can be directly applied to other occasions without substantial improvement, and the present invention is within the protection scope of the present invention.

Claims (9)

1. The utility model provides a water kinetic energy system of foam proportion mixing arrangement, includes power module, mixing module and pipe-line system module, a serial communication port, power module is including water kinetic energy driving pump (1), the water inlet/outlet both ends of water kinetic energy driving pump (1) are cast joint respectively and are intake flange part (11) and go out water flange part (12), water kinetic energy driving pump (1) inside is equipped with drive storehouse (1 a), be provided with auger shaft (13) and auger shaft two (14) in drive storehouse (1 a), auger shaft (13) and auger shaft two (14) mesh side by side, auger shaft (13) and auger shaft two (14) both ends run through respectively the both sides casing of water kinetic energy driving pump (1) is the rotation and connects, and wherein the one end cast joint of auger shaft (13) is connected with output rod (13 a), the output rod (13 a) extends to the outside of the shell of the water kinetic energy driving pump (1) and is connected with a coupling (7);

the mixing module comprises a mechanical plunger pump (2), an injection type proportional mixer (21) is installed at the pump head end of the mechanical plunger pump (2), a power output shaft of the mechanical plunger pump (2) is connected with a coupler (7), and the hydrodynamic energy driving pump (1) synchronously drives the mechanical plunger pump (2) through the coupler (7) to form injection power for the injection type proportional mixer (21);

pipeline system module is including inlet channel (5) and return water pipe (6), inlet channel (5) one end with intake flange part (11) is connected, the other end with injection formula proportioner (21) water inlet is connected, just return water pipe (6) one end with go out water flange part (12) and be connected, the other end with injection formula proportioner (21) return water mouth is connected.

2. The water kinetic energy system of a foam proportioning device according to claim 1, wherein the bottom of the hydrokinetic energy driven pump (1), the mechanical plunger pump (2) and the jet proportioning mixer (21) are all fixedly connected with a lower fixing bracket (3) by bolts, and the top of the mechanical plunger pump (2) is fixedly connected with an upper fixing bracket (4) by bolts.

3. The water kinetic energy system of a foam proportioning device according to claim 2, wherein a U-shaped protective cover (8) is arranged on the top of the coupler (7), the U-shaped protective cover (8) is fastened above the coupler (7) with an opening facing downward and is fixedly connected with the lower fixing bracket (3) through bolts, and the U-shaped protective cover (8) is formed by bending and processing a carbon fiber plate.

4. The hydrokinetic energy system for a foam proportioning device according to claim 1, wherein a foam concentrate delivery nipple (21 a) is screwed into the ejector proportioner (21) at the upper end of the water inlet.

5. The water kinetic energy system of a foam proportioning device according to claim 1 wherein the water inlet pipe (5) is threaded to the bottom of the water inlet flange part (11) by means of an elbow water connection and the water inlet pipe (5) is threaded to the water inlet of the ejector proportioner (21) by means of a manual three-way ball valve (51).

6. The water kinetic energy system of the foam proportioning device as claimed in claim 1, wherein a filter (52) is installed on the water inlet pipe (5), both ends of the filter (52) are hexagonal female connectors, a mesh filter plug (52 b) is embedded in the housing of the filter (52) close to the water outlet end, a sewage collecting branch pipe (52 a) is cast-welded at the bottom of the housing of the filter (52) close to the water inlet end, the other end of the sewage collecting branch pipe (52 a) extends downwards to a sewage draining outlet at an inward inclination angle of 30 degrees in the direction close to the water outlet end of the filter (52), and a plug is connected to the sewage draining outlet through a female thread.

7. The water kinetic energy system of a foam proportioning device of claim 1, characterized in that, return water pipe (6) are close to the body top of injection formula proportioner (21) return water mouth one end and install pressure-relief valve (63), and this section body is close to pressure-relief valve (63) one side threaded connection has two (61) of manual formula tee bend ball valve, just return water pipe (6) are close to water outlet flange part (12) top one end and are threaded connection through the double-end outer screwed joint, are located water outlet flange part (12) upper end and go up return water pipe (6) and be connected with manometer (62) through three way connection.

8. The water kinetic energy system of a foam proportioning device according to claim 7 wherein the bottom of the water outlet connecting flange part (12) is threadedly connected with a manual three-way ball valve three (15) through an elbow water pipe joint.

9. The water kinetic energy system of a foam proportioning device according to claim 1, wherein the amount of water required for one rotation of the first auger shaft (13) is equal to the amount of water absorbed by one pumping movement of the mechanical plunger pump (2).

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