CN103877886A - Flexible non-return self-propelled anti-reflux mixing device - Google Patents

Abstract

The invention relates to a mixing conveying apparatus, and particularly relates to a flexible non-return self-propelled anti-reflux mixing device. One end of a cylinder is connected with a slurry case, and the other end is provided with an outlet; a jet pipe assembly is inserted in the cylinder; a jet nozzle and a jet head are orderly mounted on the jet pipe assembly in the cylinder; the jet pipe assembly is communicated with a variable pump through a connecting pipe; a valve head reciprocating in the axial direction is disposed on the jet head; a support is located in the cylinder; a hole flow mixing plate and a ring flow mixing plate are disposed on the support with intervals; slurry flowing into the cylinder from the slurry case is well mixed with agent liquid pumped into the cylinder through the variable pump, while orderly flowing through the through holes on the hole flow mixing plate and the gap between the ring flow mixing plate and the cylinder inner wall, and is outputted through an outlet. The mixing device of the invention realizes rapid and well mixing of the slurry and the agent liquid in the cylinder; when the supply of the agent liquid stops, the slurry in the cylinder is high in pressure and does not obstruct the jet head of the agent liquid, so the purpose of continuous mixing and delivery of the slurry and the agent liquid is realized.

Description

A kind of flexible non-return self-propelled counterflow-preventing mixing arrangement

Technical field

The present invention relates to mixing conveying device, specifically a kind of flexible non-return self-propelled counterflow-preventing mixing arrangement.

Background technology

Novel light insulating construction material, is the environmental protection and energy saving product of developing in recent years, has wide market prospects.In work progress, slurry stirs operation with adopting single tank mixing of liquid (blowing agent), and efficiency of construction is low, and cost of labor is high, is mainly to work continuously, and mixes inhomogeneous.

Summary of the invention

The object of the present invention is to provide a kind of flexible non-return self-propelled counterflow-preventing mixing arrangement.This mixing arrangement can mix slurry rapidly with liquid, realizes the object that slurry mixes conveying continuously with liquid.

The object of the invention is to be achieved through the following technical solutions:

The present invention includes cylindrical shell, playpipe assembly, shower nozzle, nozzle, hole bridge insert, ring bridge insert and bracing frame, one end of its middle cylinder body is connected with slurry box, the other end is provided with outlet, described playpipe assembly is plugged on cylindrical shell, nozzle and shower nozzle are arranged on the playpipe assembly that is positioned at cylindrical shell successively, and this playpipe assembly is communicated with variable pump by tube connector; Described shower nozzle is provided with the valve head moving back and forth vertically, by the switch of controlling the micropore of offering on shower nozzle that moves back and forth of valve head; Support frame as described above is positioned at cylindrical shell, on bracing frame, be interval with hole bridge insert and ring bridge insert, enter slurry in cylindrical shell and pump into liquid limit in cylindrical shell by variable pump and evenly mix the gap between the through hole on via hole bridge insert and ring bridge insert and cylinder inboard wall successively, limit by slurry box, by outlet output.

Wherein: described playpipe assembly comprises playpipe and valve rod, and playpipe is plugged on cylindrical shell, in the middle of playpipe, have the second through hole, one end of described playpipe is communicated with variable pump by tube connector, and the other end is threaded and controls the valve rod of medicinal liquid flow; Described nozzle is arranged on the playpipe assembly that is positioned at cylindrical shell, has the first through hole being connected with described the second through hole on nozzle; The longitudinal center line of described the second through hole and the longitudinal center line of cylindrical shell are perpendicular, and the longitudinal center line of the first through hole and the second through hole is perpendicular; One end of described shower nozzle is connected with nozzle, and the other end has third through-hole, is evenly equipped with multiple micropores around third through-hole, is provided with cavity in the inside of shower nozzle; Described valve head passes from third through-hole, and on valve head, cover has return spring; The axial cross section of described valve head is " work " font, one end of " work " font is positioned at cavity, the other end is positioned at outside shower nozzle, sheathed described return spring on the valve head that is positioned at cavity inside, and the two ends of this return spring are connected to respectively on one end and shower nozzle of valve head; Described hole bridge insert is annular, has fourth hole in the middle of it; Described ring bridge insert is disk, and the edge of disk, along being circumferentially evenly equipped with multiple arc gap, forms projection between each arc gap; One end of described cylindrical shell is connected with slurry box by elbow, and tube connector is fixed on described elbow by support; Described tube connector comprises flexible pipe and steel pipe, and wherein steel pipe is fixed on elbow by support; One end of described flexible pipe is connected with variable pump, and the other end is connected with one end of steel pipe, and the other end of steel pipe is connected to playpipe assembly.

Advantage of the present invention and good effect are:

1. mixing arrangement of the present invention makes slurry mix rapidly in cylindrical shell with liquid, and after liquid stops supplying, can not stop up liquid shower nozzle when slurry pressure is larger in cylindrical shell, reaches the object that slurry mixes conveying continuously with liquid.

2. valve rod of the present invention can regulate the flow of liquid.

3. hole of the present invention bridge insert and ring bridge insert can make slurry mix in cylindrical shell with liquid.

Brief description of the drawings

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

Fig. 2 is the partial schematic diagram of playpipe assembly, nozzle and shower nozzle in Fig. 1;

Fig. 3 is the partial schematic diagram of nozzle and shower nozzle in Fig. 2;

Fig. 4 is the front view of shower nozzle in Fig. 3;

Fig. 5 is the A-A cutaway view in Fig. 4;

Fig. 6 is the perspective view of Fig. 1 mesopore bridge insert;

Fig. 7 is the perspective view of encircling bridge insert in Fig. 1;

Wherein: 1 is variable pump, 2 is flexible pipe, and 3 is steel pipe, and 4 is support, and 5 is elbow, 6 is flange, and 7 is cylindrical shell, and 8 is playpipe assembly, and 9 is shower nozzle, 10 is nozzle, and 11 is valve rod, and 12 is valve head, and 13 is return spring, 14 is hole bridge insert, and 15 is ring bridge insert, and 16 is outlet, and 17 is bracing frame, 18 is playpipe, and 19 is micropore, and 20 is the first through hole, and 21 is the second through hole, 22 is third through-hole, and 23 is fourth hole, and 24 is projection, and 25 is cavity.

Detailed description of the invention

Below in conjunction with accompanying drawing, the invention will be further described.

As shown in Figure 1, the present invention includes cylindrical shell 7, playpipe assembly 8, shower nozzle 9, nozzle 10, hole bridge insert 14, ring bridge insert 15 and bracing frame 17, one end of its middle cylinder body 7 is communicated with slurry box by elbow 5, the two ends of elbow 5 are respectively equipped with flange 6, and affixed with one end and the slurry box of cylindrical shell 7 respectively by flange 6, the other end of cylindrical shell 7 is connected with the outlet(discharge) flange of band outlet 16.

Cylindrical shell 7 is hollow structure, and playpipe assembly 8 is vertically plugged on cylindrical shell 7.As shown in Figure 2-5, playpipe assembly 8 comprises playpipe 18 and valve rod 11, and wherein playpipe 18 is vertically plugged on cylindrical shell 7, in the middle of playpipe 18, has the second through hole 21, and the longitudinal center line of this second through hole 21 is perpendicular to the longitudinal center line of cylindrical shell 7; One end of playpipe 18 is communicated with variable pump 1 by tube connector, and the other end is threaded and controls the valve rod 11 of medicinal liquid flow; The axial cross section of this valve rod 11 is "T"-shaped, is inserted by the second through hole 21.Tube connector comprises flexible pipe 2 and steel pipe 3, and wherein steel pipe 3 is fixed on elbow 5 by support 4; One end of flexible pipe 2 is connected with variable pump 1, and the other end is connected with one end of steel pipe 3, and the other end of steel pipe 3 is connected to one end of playpipe 18.

Nozzle 10 is fixed on the playpipe 18 that is positioned at cylindrical shell 7, and the longitudinal center line that has the first through hole 20, the first through holes 20 of being connected with the second through hole 21 and the second through hole 21 on nozzle 10 is perpendicular.One end of shower nozzle 9 is fixed on nozzle 10, and the center of the other end has third through-hole 22, the longitudinal center line conllinear of the longitudinal center line of this third through-hole 22 and the first through hole 20; Around third through-hole 22, be evenly equipped with multiple micropores 19.Be provided with cavity 25 in the inside of shower nozzle 9, one end of this cavity 25 is communicated with the first through hole 20 on nozzle 10, and the other end is communicated with third through-hole 22 and each micropore 19.

The axial cross section of valve head 12 is " work " font, one end of " work " font be positioned at cavity 25, the other end from third through-hole 22 through, be positioned at the outside of shower nozzle 9, sheathed return spring 13 on the valve head 12 that is positioned at cavity 25 inside, the two ends of this return spring 13 are connected to respectively on one end and shower nozzle 9 of valve head 12; Valve head 12 can move back and forth vertically, by the switch of controlling the micropore 19 of offering on shower nozzle 9 that moves back and forth of valve head 12; The size of valve head 12 other ends will guarantee third through-hole 22 and each micropore 19 all to cover in.

Bracing frame 17 is positioned at cylindrical shell 7, is interval with hole bridge insert 14 and ring bridge insert 15 on bracing frame 17.As shown in Figure 6, hole bridge insert 14 is annular, has fourth hole 23 in the middle of it.As shown in Figure 7, ring bridge insert 15 is disk, and the edge of disk, along being circumferentially evenly equipped with multiple arc gap, forms projection 24 between each arc gap.Enter slurry in cylindrical shell 7 and pump into liquid limit in cylindrical shell 7 by variable pump 1 and evenly mix the gap (being the position of arc gap) between the fourth hole 23 on via hole bridge insert 14 and ring bridge insert 15 and cylindrical shell 7 inwalls successively, limit by slurry box, finally exported by outlet 16.

Operation principle of the present invention is:

Slurry is entered in cylindrical shell 7 from elbow 5 by slurry box, and liquid, in variable pump 1, flexible pipe 2, steel pipe 3 enter the second through hole 21 on playpipe 18, then is entered in the cavity 25 of shower nozzle 9 by the first through hole 20 on nozzle 10; In the liquid process mobile to the first through hole 20 by the second through hole 21, can control to the mobile medicinal liquid flow of the first through hole 20 by moving up and down of valve rod 11.Liquid forms high pressure in shower nozzle 9, the jet forming along multiple micropores 19 ejections in shower nozzle 9 outboard end promotes valve head 12 and outwards moves, and is formed and the parallel plane medical liquid jet face of valve head 12 other end end plate by the end plate retardance of valve head 12 other ends, this medical liquid jet face with tentatively mix from the slurry of elbow 5.The preliminary slurry mixing and liquid be the gap between the fourth hole 23 on via hole bridge insert 14 and ring bridge insert 15 and cylindrical shell 7 inwalls successively, and repeatedly mixed homogeneous mixture is from exporting 16 outflows.

In the time that liquid stops supplying, the slurry pressure in cylindrical shell 7 and return spring 13 actings in conjunction promote valve heads 12 and move back, and cover in the micropore 19 of shower nozzle 9 outer ends, effectively prevent that micropore 19 from stopping up.

Bracing frame 17 of the present invention and on hole bridge insert 14 and ring bridge insert 15 can be fixed in cylindrical shell 7, also can be placed in cylindrical shell 7, when slurry and liquid are cylindrical shell 7 is interior while mixing, the outlet(discharge) flange that bracing frame 17 can be pushed to cylindrical shell 7 other ends, the pressure that bracing frame 17 is subject to is not moved it.

Claims (9)

1. a flexible non-return self-propelled counterflow-preventing mixing arrangement, it is characterized in that: comprise cylindrical shell (7), playpipe assembly (8), shower nozzle (9), nozzle (10), hole bridge insert (14), ring bridge insert (15) and bracing frame (17), one end of its middle cylinder body (7) is connected with slurry box, the other end is provided with outlet (16), described playpipe assembly (8) is plugged on cylindrical shell (7), nozzle (10) is arranged on the playpipe assembly (8) that is positioned at cylindrical shell (7) successively with shower nozzle (9), this playpipe assembly (8) is communicated with variable pump (1) by tube connector, described shower nozzle (9) is provided with the valve head (12) moving back and forth vertically, by the switch of controlling the micropore (19) of offering on shower nozzle (9) that moves back and forth of valve head (12), support frame as described above (17) is positioned at cylindrical shell (7), on bracing frame (17), be interval with hole bridge insert (14) and ring bridge insert (15), enter slurry in cylindrical shell (7) and pump into liquid limit in cylindrical shell (7) by variable pump (1) and evenly mix the gap between the through hole on via hole bridge insert (14) and ring bridge insert (15) and cylindrical shell (7) inwall successively, limit by slurry box, export by exporting (16).

2. by flexible non-return self-propelled counterflow-preventing mixing arrangement claimed in claim 1, it is characterized in that: described playpipe assembly (8) comprises playpipe (18) and valve rod (11), wherein playpipe (18) is plugged on cylindrical shell (7), in the middle of playpipe (18), have the second through hole (21), one end of described playpipe (18) is communicated with variable pump (1) by tube connector, and the other end is threaded and controls the valve rod (11) of medicinal liquid flow; Described nozzle (10) is arranged on the playpipe assembly (8) that is positioned at cylindrical shell (7), has the first through hole (20) being connected with described the second through hole (21) on nozzle (10).

3. by flexible non-return self-propelled counterflow-preventing mixing arrangement claimed in claim 2, it is characterized in that: the longitudinal center line of the longitudinal center line of described the second through hole (21) and cylindrical shell (7) is perpendicular, the first through hole (20) is perpendicular with the longitudinal center line of the second through hole (21).

4. by the flexible non-return self-propelled counterflow-preventing mixing arrangement described in claim 1 or 2, it is characterized in that: one end of described shower nozzle (9) is connected with nozzle (10), the other end has third through-hole (22), around third through-hole (22), be evenly equipped with multiple micropores (19), be provided with cavity (25) in the inside of shower nozzle (9); Described valve head (12) passes from third through-hole (22), has return spring (13) at the upper cover of valve head (12).

5. by flexible non-return self-propelled counterflow-preventing mixing arrangement claimed in claim 4, it is characterized in that: the axial cross section of described valve head (12) is " work " font, one end of " work " font is positioned at cavity (25), the other end is positioned at outside shower nozzle (9), be positioned at the upper sheathed described return spring (13) of the inner valve head (12) of cavity (25), the two ends of this return spring (13) are connected to respectively on one end and shower nozzle (9) of valve head (12).

6. by flexible non-return self-propelled counterflow-preventing mixing arrangement claimed in claim 1, it is characterized in that: described hole bridge insert (14) is annular, has fourth hole (23) in the middle of it.

7. by flexible non-return self-propelled counterflow-preventing mixing arrangement claimed in claim 1, it is characterized in that: described ring bridge insert (15) is disk, the edge of disk, along being circumferentially evenly equipped with multiple arc gap, forms projection (24) between each arc gap.

8. by flexible non-return self-propelled counterflow-preventing mixing arrangement claimed in claim 1, it is characterized in that: one end of described cylindrical shell (7) is connected with slurry box by elbow (5), tube connector is fixed on described elbow (5) by support (4).

9. by flexible non-return self-propelled counterflow-preventing mixing arrangement claimed in claim 8, it is characterized in that: described tube connector comprises flexible pipe (2) and steel pipe (3), wherein steel pipe (3) is fixed on elbow (5) by support (4); One end of described flexible pipe (2) is connected with variable pump (1), and the other end is connected with the one end of steel pipe (3), and the other end of steel pipe (3) is connected to playpipe assembly (8).

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