CN202414450U - Isobaric and uniform fluid distributor - Google Patents

Abstract

The utility model discloses an isobaric and uniform fluid distributor comprising a tail end current equalizer, connecting pipes and pipe fittings with equal diameter and length and a throttling and pressure equalizing pipe. The isobaric and uniform fluid distributor is connected with a main pipe beyond the isobaric and uniform fluid distributor through the throttling and pressure equalizing pipe to equalize the pressure of the inlets of the fluid. The fluid flows by the throttling and pressure equalizing pipe through the main pipe, the fluid is distributed to the horizontal connecting pipes with equal diameter and length after being subjected to pressure stabilization and uniform division and is vertically distributed to vertical connecting pipes with equal diameter and length at the two ends of the horizontal pipes, and finally, the fluid flows out from the current equalizers arranged at the tail ends of four vertical pipes in equal pressure and identical flow rate so as to realize uniformity of the regions of the water distribution points.

Description

Isobaric uniform fluid distribution device

Technical field

The utility model relates to the uniform fluid distribution device, particularly a kind of isobaric uniform fluid distribution device.

Background technology

Simple heating water tank and outer tube are only considered the pipeline of one-in-and-one-out, and water in water tank flows out from coolant outlet pipe, and coolant outlet pipe is connected with water pump and heating device, and heated hot water is back in the hot well through coolant inlet pipe again.Because water tank is not provided with water-distributing device, because flow of hot water is gone into water tank and remained bigger kinetic energy, water body is produced bigger disturbance behind the hot water entering water tank, very easily the hot and cold water in the water tank is mixed.Water after the heating, must be evacuated to heating device through water pump once more and heat once more because of the mixed water temperature out of reach of hot and cold water operating needs to water tank.So the circulation heating mixes, and progressively reaches the heating design temperature.This type of heating, the temperature of tank water are difficult to accuracy control to design temperature.In addition, current circulate in water tank and form short circuit easily, and heats is relatively poor, is unfavorable from this heating heat-supplying mode of technical standpoint.

In view of top heating water distribution is not taked any technical measures, and then a kind of even type of heating of perforated tube that in water tank, increases is arranged.These technical measures can partly solve the problem of above-mentioned existence, but perforated tube only alleviated the large-area disturbance of the water body of water tank, and the even effect of water distribution is not satisfactory, and the phenomenon of cold and hot mixing is still serious.To the less demanding engineering of water temperature control, can satisfy operating needs for undersize item basically, for large-scale engineering, when the pond capacity was huge, this mode was just unsuitable yet.Because the harmony of effluenting in the unresolved every group of hole of perforated tube, a large amount of dead bands can appear in whole water surface area current skewness, reduces the effective volume in pond.

Summary of the invention

The utility model provides a kind of isobaric uniform fluid distribution device to the deficiency of prior art.

The utility model comprises the throttling balance tube, inlet tube, distribution pipe, distributor pipe and current equalizer.Wherein the throttling balance tube is connected with second distribution pipe with first distribution pipe through inlet tube, and first distribution pipe is connected with first distributor pipe, second distributor pipe, and second distribution pipe is connected with the 3rd distributor pipe, the 4th distributor pipe, and current equalizer is arranged at the end of distributor pipe; Wherein distribution pipe is isometrical with long, and distributor pipe is isometrical, and inlet tube is perpendicular to first distribution pipe and second distribution pipe with long, and first distribution pipe is perpendicular to first distributor pipe and second distributor pipe, and second distribution pipe is perpendicular to the 3rd distributor pipe and the 4th distributor pipe.

Described inlet tube and distribution pipe in same plane, perhaps inlet tube and distribution pipe coupling end be 90 ° of syphon shapes and with distribution pipe not in same plane.

Described distribution pipe and distributor pipe are on same plane, and perhaps distribution pipe and distributor pipe coupling end are 90 ° of syphon shapes and distribution pipe and distributor pipe not in same plane,

Described distributor pipe is that the end of linear pattern or distributor pipe is 90 ° of syphon shapes.

Can be one-body molded between inlet tube and the distribution pipe, between distribution pipe and the distributor pipe or be connected through connection pipe.

The utility model beneficial effect: the utility model can isobaric water distribution uniformity, and the water surface area current are evenly distributed, and every layer of water temperature of the degree of depth is constant along the pond, solves dead band, pond phenomenon, improves the effective volume rate in pond effectively.

Description of drawings

Fig. 1 for each assembly at grade and contain the isobaric uniform fluid distribution device of adaptor union;

Fig. 2 does not contain the isobaric uniform fluid distribution device of adaptor union at grade for each assembly;

Fig. 3 for inlet tube and other assembly on Different Plane and contain the isobaric uniform fluid distribution device of adaptor union;

Fig. 4 does not contain the isobaric uniform fluid distribution device of adaptor union on Different Plane for inlet tube and other assembly;

Fig. 5 inlet tube, distribution pipe and other assembly are on Different Plane and contain the isobaric uniform fluid distribution device of adaptor union;

Fig. 6 is inlet tube, distribution pipe and other assembly do not contain adaptor union on Different Plane an isobaric uniform fluid distribution device;

Fig. 7 for current equalizer down or up and contain the isobaric uniform fluid distribution device of adaptor union;

Fig. 8 does not contain the isobaric uniform fluid distribution device of adaptor union down or up for current equalizer.

The specific embodiment

As shown in Figure 1, the utility model comprises throttling balance tube 1, inlet tube 2, distribution pipe 3,4, distributor pipe 5,6,7,8, current equalizer 9.Wherein throttling balance tube 1 is connected with distribution pipe 4 with distribution pipe 3 through inlet tube 2, and distribution pipe 3 is connected with distributor pipe 5, distributor pipe 6, and distribution pipe 4 is connected with distributor pipe 7, distributor pipe 8, and current equalizer 9 places the end of distributor pipe.Be arranged on the distribution pipe; Wherein distribution pipe 3 is isometrical with long with distribution pipe 4; Distributor pipe 6,7,8,9 is isometrical with length, and inlet tube 2 is perpendicular to distribution pipe 3 and distribution pipe 4, and distribution pipe 3 is perpendicular to distributor pipe 5, distributor pipe 6; Distribution pipe 4 is perpendicular to distributor pipe 7, distributor pipe 8, and each assembly at grade and contain adaptor union.

As shown in Figure 2, the utility model comprises throttling balance tube 1, inlet tube 2, distribution pipe 3,4, distributor pipe 5,6,7,8, current equalizer 9.Wherein throttling balance tube 1 is connected with distribution pipe 4 with distribution pipe 3 through inlet tube 2, and distribution pipe 3 is connected with distributor pipe 5, distributor pipe 6, and distribution pipe 4 is connected with distributor pipe 7, distributor pipe 8, and current equalizer 9 places the end of distributor pipe.Be arranged on the distribution pipe; Wherein distribution pipe 3 is isometrical with long with distribution pipe 4; Distributor pipe 6,7,8,9 is isometrical with long; Inlet tube 2 is perpendicular to distribution pipe 3 and distribution pipe 4, and distribution pipe 3 is perpendicular to distributor pipe 5, distributor pipe 6, and distribution pipe 4 is perpendicular to distributor pipe 7, distributor pipe 8; Each assembly at grade, between inlet tube and the distribution pipe, can be one-body molded between distribution pipe and the distributor pipe.

As shown in Figure 3, the utility model comprises throttling balance tube 1, inlet tube 2, distribution pipe 3,4, distributor pipe 5,6,7,8, current equalizer 9.Wherein throttling balance tube 1 is connected with distribution pipe 4 with distribution pipe 3 through inlet tube 2, and distribution pipe 3 is connected with distributor pipe 5, distributor pipe 6, and distribution pipe 4 is connected with distributor pipe 7, distributor pipe 8, and current equalizer 9 places the end of distributor pipe.Be arranged on the distribution pipe; Wherein distribution pipe 3 is isometrical with long with distribution pipe 4; Distributor pipe 6,7,8,9 is isometrical with long; Inlet tube 2 is perpendicular to distribution pipe 3 and distribution pipe 4; Distribution pipe 3 is perpendicular to distributor pipe 5, distributor pipe 6, and distribution pipe 4 is perpendicular to distributor pipe 7, distributor pipe 8, the coupling end of its inlet tube and distribution pipe be 90 ° of syphon shapes and with distribution pipe and distributor pipe not in same plane and contain adaptor union.

As shown in Figure 4, the utility model comprises throttling balance tube 1, inlet tube 2, distribution pipe 3,4, distributor pipe 5,6,7,8, current equalizer 9.Wherein throttling balance tube 1 is connected with distribution pipe 4 with distribution pipe 3 through inlet tube 2, and distribution pipe 3 is connected with distributor pipe 5, distributor pipe 6, and distribution pipe 4 is connected with distributor pipe 7, distributor pipe 8, and current equalizer 9 places the end of distributor pipe.Be arranged on the distribution pipe; Wherein distribution pipe 3 is isometrical with long with distribution pipe 4; Distributor pipe 6,7,8,9 is isometrical with long; Inlet tube 2 is perpendicular to distribution pipe 3 and distribution pipe 4, and distribution pipe 3 is perpendicular to distributor pipe 5, distributor pipe 6, and distribution pipe 4 is perpendicular to distributor pipe 7, distributor pipe 8; Inlet tube and distribution pipe coupling end be 90 ° of syphon shapes and with distribution pipe and distributor pipe not in same plane, between inlet tube and the distribution pipe, can be one-body molded between distribution pipe and the distributor pipe.

As shown in Figure 5, the utility model comprises throttling balance tube 1, inlet tube 2, distribution pipe 3,4, distributor pipe 5,6,7,8, current equalizer 9.Wherein throttling balance tube 1 is connected with distribution pipe 4 with distribution pipe 3 through inlet tube 2, and distribution pipe 3 is connected with distributor pipe 5, distributor pipe 6, and distribution pipe 4 is connected with distributor pipe 7, distributor pipe 8, and current equalizer 9 places the end of distributor pipe.Be arranged on the distribution pipe; Wherein distribution pipe 3 is isometrical with long with distribution pipe 4; Distributor pipe 6,7,8,9 is isometrical with length, and inlet tube 2 is perpendicular to distribution pipe 3 and distribution pipe 4, and distribution pipe 3 is perpendicular to distributor pipe 5, distributor pipe 6; Distribution pipe 4 is perpendicular to distributor pipe 7, distributor pipe 8; Inlet tube and distribution pipe are in same plane, and the coupling end of distribution pipe and distributor pipe is 90 ° of syphon shapes, and distribution pipe and distributor pipe do not contain adaptor union in same plane.

As shown in Figure 6, the utility model comprises throttling balance tube 1, inlet tube 2, distribution pipe 3,4, distributor pipe 5,6,7,8, current equalizer 9.Wherein throttling balance tube 1 is connected with distribution pipe 4 with distribution pipe 3 through inlet tube 2, and distribution pipe 3 is connected with distributor pipe 5, distributor pipe 6, and distribution pipe 4 is connected with distributor pipe 7, distributor pipe 8, and current equalizer 9 places the end of distributor pipe.Be arranged on the distribution pipe; Wherein distribution pipe 3 is isometrical with long with distribution pipe 4, and distributor pipe 6,7,8,9 is isometrical with long, and inlet tube 2 is perpendicular to distribution pipe 3 and distribution pipe 4; Distribution pipe 3 is perpendicular to distributor pipe 5, distributor pipe 6; Distribution pipe 4 is perpendicular to distributor pipe 7, distributor pipe 8, and inlet tube and distribution pipe are in same plane, and distribution pipe and distributor pipe coupling end are 90 ° of syphon shapes; Distribution pipe and distributor pipe be not in same plane, between inlet tube and the distribution pipe, can be one-body molded between distribution pipe and the distributor pipe.

As shown in Figure 7, the utility model comprises throttling balance tube 1, inlet tube 2, distribution pipe 3,4, distributor pipe 5,6,7,8, current equalizer 9.Wherein throttling balance tube 1 is connected with distribution pipe 4 with distribution pipe 3 through inlet tube 2, and distribution pipe 3 is connected with distributor pipe 5, distributor pipe 6, and distribution pipe 4 is connected with distributor pipe 7, distributor pipe 8, and current equalizer 9 places the end of distributor pipe.Be arranged on the distribution pipe; Wherein distribution pipe 3 is isometrical with long with distribution pipe 4; Distributor pipe 6,7,8,9 is isometrical with long; Inlet tube 2 is perpendicular to distribution pipe 3 and distribution pipe 4, and distribution pipe 3 is perpendicular to distributor pipe 5, distributor pipe 6, and distribution pipe 4 is perpendicular to distributor pipe 7, distributor pipe 8; Inlet tube and distribution pipe are in same plane, and the end of its distributor pipe is 90 ° of syphon shapes and contains adaptor union.

As shown in Figure 8, the utility model comprises throttling balance tube 1, inlet tube 2, distribution pipe 3,4, distributor pipe 5,6,7,8, current equalizer 9.Wherein throttling balance tube 1 is connected with distribution pipe 4 with distribution pipe 3 through inlet tube 2, and distribution pipe 3 is connected with distributor pipe 5, distributor pipe 6, and distribution pipe 4 is connected with distributor pipe 7, distributor pipe 8, and current equalizer 9 places the end of distributor pipe.Be arranged on the distribution pipe; Wherein distribution pipe 3 is isometrical with long with distribution pipe 4; Distributor pipe 6,7,8,9 is isometrical with length, and inlet tube 2 is perpendicular to distribution pipe 3 and distribution pipe 4, and distribution pipe 3 is perpendicular to distributor pipe 5, distributor pipe 6; Distribution pipe 4 is perpendicular to distributor pipe 7, distributor pipe 8; Inlet tube and distribution pipe are in same plane, and the end of its distributor pipe is 90 ° of syphon shapes, between inlet tube and the distribution pipe, can be one-body molded between distribution pipe and the distributor pipe.

Claims (9)

1. isobaric uniform fluid distribution device is characterized in that: this uniform device comprises throttling balance tube, inlet tube, distribution pipe, distributor pipe and current equalizer; Wherein the throttling balance tube is connected with second distribution pipe with first distribution pipe through inlet tube, and first distribution pipe is connected with first distributor pipe, second distributor pipe, and second distribution pipe is connected with the 3rd distributor pipe, the 4th distributor pipe, and current equalizer is arranged at the end of distributor pipe; Wherein distribution pipe is isometrical with long, and distributor pipe is isometrical, and inlet tube is perpendicular to first distribution pipe and second distribution pipe with long, and first distribution pipe is perpendicular to first distributor pipe and second distributor pipe, and second distribution pipe is perpendicular to the 3rd distributor pipe and the 4th distributor pipe.

2. isobaric uniform fluid distribution device according to claim 1, it is characterized in that: inlet tube and distribution pipe are in same plane.

3. isobaric uniform fluid distribution device according to claim 1 is characterized in that: inlet tube and distribution pipe coupling end be 90 ° of syphon shapes and with distribution pipe not in same plane.

4. isobaric uniform fluid distribution device according to claim 1, it is characterized in that: distribution pipe and distributor pipe are on same plane.

5. isobaric uniform fluid distribution device according to claim 1 is characterized in that: distribution pipe and distributor pipe coupling end are 90 ° of syphon shapes and distribution pipe and distributor pipe not in same plane.

6. isobaric uniform fluid distribution device according to claim 1 is characterized in that: distributor pipe is a linear pattern.

7. isobaric uniform fluid distribution device according to claim 1 is characterized in that: the end of distributor pipe is 90 ° of syphon shapes.

8. isobaric uniform fluid distribution device according to claim 1 is characterized in that: between inlet tube and the distribution pipe, one-body molded between distribution pipe and the distributor pipe.

9. isobaric uniform fluid distribution device according to claim 1 is characterized in that: between inlet tube and the distribution pipe, be connected through connection pipe between distribution pipe and the distributor pipe.

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