Novel high temperature resistant thermal-insulated powder material production is with ion mixing device
Technical Field
The utility model relates to the field related to ion mixing devices, in particular to an ion mixing device for producing a novel high-temperature-resistant heat-insulating powder material.
Background
The mixed bed is prepared by filling anion and cation exchange resin into the same ion exchanger according to a certain mixing ratio, and because H ions and OH ions entering water after mixed ion exchange immediately generate water molecules with low ionization degree, the exchange reaction can be completely carried out. The mixed bed is generally arranged behind the first-stage compound bed, further purifies the water quality, and can be used independently when the water quality requirement is not high.
At present stage ion mixing arrangement all sets up to mixing bed structure, thereby all carries out ion exchange through negative and positive resin and rejects mineral salt, pokes into tank structure's middle part at negative and positive resin in the use, makes its installation to negative and positive resin dismantle inconvenient, influences subsequent use, and long-term use can influence its filter effect, can't carry out all-round large-scale backwash.
SUMMERY OF THE UTILITY MODEL
The utility model aims to provide a novel ion mixing device for producing a high-temperature-resistant heat-insulating powder material, which aims to solve the problems that mineral salt is removed by ion exchange through anion and cation resins, and the anion and cation resins are poked into the middle part of a tank body structure in the using process, so that the anion and cation resins are inconvenient to mount and dismount, subsequent use is influenced, the filtering effect is influenced after long-term use, and comprehensive large-scale reverse flushing cannot be carried out.
In order to achieve the purpose, the utility model provides the following technical scheme: a novel ion mixing device for producing a high-temperature-resistant heat-insulating powder material comprises a first resin installation cylinder, a second resin installation cylinder and a washing cover, wherein a middle row layer is installed between the first resin installation cylinder and the second resin installation cylinder, a discharging head is installed at one end of the middle row layer, two ends of the first resin installation cylinder and two ends of the second resin installation cylinder are installed between an upper mixing tank and a lower mixing tank through an upper installation frame and a lower installation frame, and negative resin and positive resin are respectively installed inside the first resin installation cylinder and the second resin installation cylinder;
the utility model provides a novel high temperature resistant thermal-insulated powder material production is with ion mixing device, includes a first resin installation section of thick bamboo, a second resin installation section of thick bamboo and washes the cover, arrange the layer in installing between a first resin installation section of thick bamboo and a second resin installation section of thick bamboo, arrange the stub bar in the one end on layer, a first resin installation section of thick bamboo is installed at last blending tank and between the blending tank down through last mounting bracket and lower mounting bracket with the both ends of a second resin installation section of thick bamboo, a first resin installation section of thick bamboo installs anion resin and positive resin respectively with the inside of a second resin installation section of thick bamboo.
In a further embodiment, a mixed liquid inlet is welded on one side of the upper mixing tank, and a sealing strip is installed at the connecting port of the upper mixing tank and the first resin installation cylinder.
In a further embodiment, the connecting rod is installed on two sides of the middle between the upper installation frame and the lower installation frame through bolts, the middle of the connecting rod is provided with the middle fixing frame, the middle of the middle fixing frame is provided with the pipe connecting port, and one end of the discharge head is embedded and fixedly connected with the pipe connecting port.
In a further embodiment, a hoop sleeve is installed on the outer side of the lower mixing tank, connecting lugs are arranged in the middle of two sides of the hoop sleeve, a hoop opening is formed in the middle of the hoop sleeve, mounting holes are formed in the corners of the hoop sleeve, and a supporting frame is installed on the mounting holes through bolts.
In a further embodiment, a water discharge head is welded in the middle of the bottom end of the lower mixing tank, a water discharge pipe is installed at one end of the water discharge head, the upper liquid pipe is installed between the backwashing pipe and the water discharge pipe, and two tap water inlets are welded on one side of the upper liquid pipe.
In a further embodiment, the first resin installation cylinder and the second resin installation cylinder are in a connected structure, and the calibers of the first resin installation cylinder and the second resin installation cylinder are the same as the calibers of the upper mixing tank and the lower mixing tank, so that the ports of the first resin installation cylinder and the second resin installation cylinder are in seamless butt joint with the upper mixing tank and the lower mixing tank.
Compared with the prior art, the utility model has the beneficial effects that:
1. the utility model discloses a compare the integral jar body before, but set up to the last blending tank of split each other and lower blending tank and first resin installation section of thick bamboo and the second resin installation section of thick bamboo that can dismantle alone and form through the concatenation mode combination, make it can dismantle, conveniently wash alone the jar body, increase abluent effect, and conveniently carry, install cloudy resin and positive resin respectively in the inside of first resin installation section of thick bamboo and second resin installation section of thick bamboo, can dismantle cloudy resin and positive resin through it, conveniently change the washing, continuously keep its functionality.
2. The utility model discloses an internally mounted of overhead guard has the cover of washing, evenly is provided with a plurality of heads of washing in the bottom of washing the cover, makes it carry out the large tracts of land to the resin structure and washes, and the convenience is handled dirt in it, makes it keep higher ion mixed effect, increases its life.
Drawings
FIG. 1 is a schematic structural diagram of an ion mixing device for producing a novel high-temperature-resistant heat-insulating powder material according to the present invention;
FIG. 2 is a schematic structural view of a first resin mounting cylinder and a second resin mounting cylinder according to the present invention;
FIG. 3 is a side view of the first and second resin mounting cylinders of the present invention;
FIG. 4 is a top view of the ferrule of the present invention;
fig. 5 is a schematic structural view of the washing cover of the present invention.
In the figure: 1. a liquid feeding pipe; 2. feeding a liquid pump; 3. backwashing the tubes; 4. a water inlet head; 5. a top cover; 6. a connecting flange; 7. a mixed liquid inlet; 8. an upper mixing tank; 9. mounting a frame; 10. a connecting rod; 11. a first resin mounting cylinder; 12. a middle fixing frame; 13. a pipe connecting port; 14. a second resin mounting cylinder; 15. a lower mounting frame; 16. a lower mixing tank; 17. a hoop sleeve; 18. a support frame; 19. a drainage head; 20. a drain pipe; 21. a tap water inlet; 22. a discharge head; 23. a middle row layer; 24. a negative resin; 25. a cationic resin; 26. a cuff; 27. mounting holes; 28. connecting lugs; 29. washing the cover; 30. a rinsing head; 31. and (4) flushing the pipe.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.
Referring to fig. 1-5, an embodiment of the present invention is shown: a novel ion mixing device for producing high-temperature-resistant heat-insulating powder materials comprises a first resin mounting cylinder 11, a second resin mounting cylinder 14 and a washing cover 29, wherein a middle discharge layer 23 is arranged between the first resin mounting cylinder 11 and the second resin mounting cylinder 14, the middle discharge layer 23 is used for discharging mineral powder materials from a discharge head 22, the discharge head 22 is arranged at one end of the middle discharge layer 23, two ends of the first resin mounting cylinder 11 and the second resin mounting cylinder 14 are arranged between an upper mixing tank 8 and a lower mixing tank 16 through an upper mounting frame 9 and a lower mounting frame 15, the first resin mounting cylinder 11 and the second resin mounting cylinder 14 are convenient to mount and fix through the upper mounting frame 9 and the lower mounting frame 15, and can protect the outside, the inside of the first resin installation cylinder 11 and the second resin installation cylinder 14 are respectively provided with an anion resin 24 and a cation resin 25, and the anion resin 24 and the cation resin 25 are used for removing mineral powder materials in the mixed liquid through ion exchange;
the bottom of the washing cover 29 is welded with a plurality of washing heads 30, the washing cover 29 is installed in the top cover 5, the top of the washing cover 29 is connected with one end of the backwashing pipe 3 through a washing pipe 31, the top cover 5 is installed at the top of the upper mixing tank 8 through a connecting flange 6, one end of the backwashing pipe 3 is provided with the liquid feeding pipe 1, the liquid feeding pump 2 is installed on the liquid feeding pipe 1, and the back side product backwashing is carried out on the resin through the washing cover 29 and the washing heads 30 at the bottom end of the washing cover.
Further, one side welding of last blending tank 8 has mixed liquid entry 7, and the sealing strip is installed to the connection port department of last blending tank 8 and first resin installation section of thick bamboo 11, is used for adding the mixture into last blending tank 8 through mixing liquid entry 7.
Further, go up between mounting bracket 9 and the lower mounting bracket 15 both sides all install connecting rod 10 through the bolt, the mid-mounting of connecting rod 10 has well solid frame 12, the middle part of well solid frame 12 is provided with and connects mouth of pipe 13, and the one end of discharge head 22 inlays fixed connection with taking over mouth 13, can install a resin installation section of thick bamboo fixedly through well solid frame 12, and connect mouth of pipe 13 through the middle part of well solid frame 12 can insert admittedly discharge head 22, it can be connected with outside pipeline simultaneously.
Further, the hoop 17 is installed in the outside of lower blending tank 16, and the both sides middle part of hoop 17 is provided with engaging lug 28, and the middle part of hoop 17 is provided with hoop 26, and the corner of hoop 17 is provided with mounting hole 27, installs support frame 18 through the bolt on the mounting hole 27, is used for installing fixedly with lower blending tank 16 through hoop 17 to carry out the stable stay through support frame 18 and place the device.
Further, a water discharge head 19 is welded in the middle of the bottom end of the lower mixing tank 16, a water discharge pipe 20 is installed at one end of the water discharge head 19, the upper liquid pipe 1 is installed between the backwashing pipe 3 and the water discharge pipe 20, two tap water inlets 21 are welded on one side of the upper liquid pipe 1, water is discharged through the water discharge head 19, and water can flow back through the upper liquid pipe 1 to backwash the resin.
Further, the first resin installation cylinder 11 and the second resin installation cylinder 14 are arranged to be of a connected structure, the calibers of the first resin installation cylinder 11 and the second resin installation cylinder 14 are arranged to be the same as the calibers of the upper mixing tank 8 and the lower mixing tank 16, the ports of the first resin installation cylinder 11 and the second resin installation cylinder 14 are in seamless butt joint with the upper mixing tank 8 and the lower mixing tank 16, and mixed liquid leakage can be avoided through the design.
The working principle is as follows: when in use, the hoop 17 is arranged at the outer side of the lower mixing tank 16 through the hoop opening 26, the hoop 17 is supported through the support frame 18, the ports of the first resin installation cylinder 11 and the second resin installation cylinder 14 are respectively arranged between the upper mixing tank 8 and the lower mixing tank 16 through the upper mounting frame 9 and the lower mounting frame 15, the mixed liquid is added into the upper mixing tank 8 through the mixed liquid inlet 7, the mixed liquid is used for replacing anions and cations in the mixed liquid through the anion resin 24 and the cation resin 25 in the first resin installation cylinder 11 and the second resin installation cylinder 14, so that the powdery material of minerals in the mixed liquid is removed and is collected through the middle discharge layer 23, the powdery material is discharged through the discharge head 22 at one end of the mixed liquid, the water after the powdery material is removed is discharged into the water discharge pipe 20 through the water discharge head 19, meanwhile, under the action of the upper liquid pump 2, the water is conveyed into the backwashing pipe 3 from the upper liquid pipe 1 and is conveyed into the flushing pipe 31 through the backwashing pipe 3, the resin is backwashed by the washing cap 29 at the bottom end of the washing pipe 31 and the washing head 30 at the bottom end thereof, and clean water for washing is injected into the upper liquid pipe 1 through the tap water inlet 21.
It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.