CN219730609U - Device is put in to light quantum same-frequency resonance water purifier - Google Patents

Abstract

The utility model discloses a light quantum same-frequency resonance water purifier throwing device, which belongs to the technical field of water ecological environment treatment and comprises a blanking bin, a conveying assembly, a throwing assembly and a material guiding assembly which are sequentially arranged, wherein the conveying assembly is positioned below a blanking opening; the discharging bin is used for discharging the light quantum same-frequency resonance water purifier onto the conveying component; the conveying assembly is used for conveying the instruments to the throwing assembly one by one; the delivery assembly is used for delivering the instrument to the material guiding assembly; the guide assembly is used for guiding the instrument to a specified position for placement. The design of this device can put in the assigned position with the instrument one by one to can just can change the input position of instrument through the position of the adjustment passage other end, this device is also applicable to the instrument of different models and puts in simultaneously.

Description

Device is put in to light quantum same-frequency resonance water purifier

Technical Field

The utility model belongs to the technical field of water ecological environment treatment, and particularly relates to a device for putting a light quantum same-frequency resonance water purifier.

Background

Chinese patent application number CN202011231925.9 provides a quantum water treatment substrate, relates to the technical field of water ecological environment treatment, and the raw materials of this substrate include: the precursor of the photocatalytic material is prepared from graphene, zinc acetate and magnesium acetate serving as raw materials by a coprecipitation method; the dielectric material is prepared by activating anion powder, lithium niobate and epoxy resin through an activating agent, and the activating adopts ball milling activation; and, clay, fly ash, rare earth compounds, metal oxides, and tourmaline; the particle size of each raw material is not more than 3 μm. The preparation method of the substrate comprises the following steps: providing a photocatalytic material precursor; providing a dielectric material; providing a protective atmosphere, mixing and ball-milling all raw materials of the quantum water treatment substrate, pressing into a green body, calcining and cooling to obtain the quantum water treatment substrate; the thickness of the blank body is not less than 50mm.

In the prior art, a new light quantum water treatment energy carrier material for treating water quality is presented, specific light quantum energy and frequency are loaded into the selected light quantum water treatment energy carrier material according to the principle of energy conservation, and energy is condensed in the new carrier material to form the light quantum same-frequency resonance water purifier with a water purifying function. When the light quantum same-frequency resonance water purifier is put into water, quantum energy waves are continuously released and resonate with wave frequency of the water, the contact area of the water body and air is increased, the dissolved oxygen rate of the water body is increased, so that the dissolved oxygen in the water is increased, meanwhile, the dissolved oxygen is transmitted to the water body in all directions through vibration, the water body and the bottom mud are converted into aerobic environment, the reproduction of anaerobic microorganisms is inhibited, the reproduction of the aerobic microorganisms is promoted, and pollutants in the water are digested through the decomposition of the aerobic microorganisms, so that the effects of treating black and odorous water, reducing eutrophication of the water body, treating surface water environment such as water quality and the like are achieved.

But in the process of putting the water into the water, the water is manually put into the water, so that the operation difficulty and the labor cost are increased.

Disclosure of Invention

In view of the above problems in the prior art, the present utility model aims to provide a device for putting a light quantum co-frequency resonance water purifier.

The utility model provides the following technical scheme:

the utility model provides a light quantum same-frequency resonance water purifier throwing device, includes the unloading storehouse, conveying subassembly, throwing component and the guide subassembly of arranging in proper order, and wherein conveying subassembly is located the below of feed opening; the discharging bin is used for discharging the light quantum same-frequency resonance water purifier onto the conveying component; the conveying assembly is used for conveying the instruments to the throwing assembly one by one; the delivery assembly is used for delivering the instrument to the material guiding assembly; the guide assembly is used for guiding the instrument to a specified position for placement.

Specifically, the blanking bin comprises a bin body with a first side surface and an open top surface, a hydraulic push rod is arranged on a second side surface of the bin body, the second side surface is a side surface adjacent to the first side surface, a push plate is arranged on the hydraulic push rod, a blanking opening is arranged at one end of the bottom surface of the bin body, a plurality of slots are symmetrically arranged on the first side surface and the opposite side surface of the bin body, and the side cover plate is inserted into the bin body along the slots.

Specifically, the side of the cover plate on the opposite side of the lower bin is provided with a track, and the push plate is correspondingly provided with a bulge.

Specifically, the conveying component comprises a motor, a driving roller, a driven roller, a belt and a dividing protrusion; the motor is arranged on the driving roller, the driven roller is in transmission connection with the driving roller through a belt, and the minimum distance between the belt and the discharging opening is between one time and two times of the height of the instrument; a plurality of segmentation protrusions are uniformly arranged on the belt, and the distance between two adjacent segmentation protrusions is not smaller than the length of the instrument.

Specifically, the delivery assembly comprises a rotating shaft provided with a servo motor, a rotating body is arranged on the rotating shaft, and the rotating body is positioned at an initial position when the conveying assembly conveys the instrument to the delivery assembly; when the servo motor is started, the rotating body is driven to rotate to a vertical state by the rotating shaft; one end of the rotator far away from the rotating shaft is provided with a baffle plate.

Specifically, the guide assembly comprises a guide pipe, a fixed ring arranged at one end of the guide pipe, which is close to the throwing assembly, and the fixed ring is connected with the ship body, and the fixed ring is used for fixing the shape of a feed inlet of the guide assembly.

The beneficial effects of the utility model are as follows:

the design of this device can put in the assigned position with the instrument one by one to can just can change the input position of instrument through the position of the adjustment passage other end, this device is also applicable to the instrument of different models and puts in simultaneously.

Drawings

The accompanying drawings are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate the utility model and together with the embodiments of the utility model, serve to explain the utility model. In the drawings:

FIG. 1 is a three-dimensional view of the present utility model;

FIG. 2 is a three-dimensional view of the blanking bin of the present utility model;

FIG. 3 is a top view of the blanking bin of the present utility model;

fig. 4 is an enlarged view at a in fig. 2;

FIG. 5 is a diagram of the positional relationship of the blanking bin and the conveying assembly in the present utility model;

FIG. 6 is a three-dimensional view of the transport assembly of the present utility model;

FIG. 7 is a three-dimensional view of the present utility model with the dispensing assembly positioned horizontally;

FIG. 8 is a three-dimensional view of the launch assembly of the present utility model in an upright position;

marked in the figure as: 1. discharging the material bin; 2. a transport assembly; 3. a launch assembly; 4. a material guiding component;

11. a bin body; 12. a transport assembly; 13. a feed opening; 14. a hydraulic push rod; 15. a push plate; 16. a slot;

21. a drive roll; 22. a passive roller; 23. a belt; 24. dividing the protrusion;

31. a rotating body; 32. a servo motor; 33. a rotating shaft; 311. and a baffle.

Detailed Description

The light quantum same-frequency resonance water purifier is characterized in that specific light quantum energy and frequency are loaded into a selected light quantum water treatment energy carrier new material according to an energy conservation principle, wherein energy is condensed in the carrier new material, so that the light quantum same-frequency resonance water purifier with a water purifying function is formed. Therefore, when the light quantum same-frequency resonance water purifier is put into water, quantum energy waves are continuously released to resonate with wave frequency of the water, the contact area of the water body and air is increased, and the dissolved oxygen rate of the water body is improved, so that the dissolved oxygen in the water is improved, and meanwhile, the dissolved oxygen is transmitted to the water body in all directions through vibration, so that the aim of purifying the water quality is achieved.

As shown in fig. 1, the utility model provides a device for throwing a light quantum same-frequency resonance water purifier, which comprises a blanking bin 1, a conveying component 2, a throwing component 3 and a material guiding component 4 which are sequentially arranged, wherein the conveying component 2 is positioned below a blanking opening 13; the discharging bin 1 is used for discharging the light quantum same-frequency resonance water purifier onto the conveying component 2 by using an instrument for later representation; the conveying assembly 2 is used for conveying the instruments to the throwing assembly 3 one by one; the throwing component 3 is used for throwing the instrument onto the material guiding component 4; the guide assembly 4 is used for guiding the instrument to a specified position for placement.

Please refer to fig. 2 with emphasis on the drawing, the blanking bin 1 includes a bin body 11 with a side surface and a top surface opened, a hydraulic push rod 14 installed on a side surface second of the bin body 11, the side surface second is a side surface adjacent to the side surface first, a push plate 15 is installed on the hydraulic push rod 14, please refer to fig. 3 with emphasis on drawing, one end of the bottom surface of the bin body 11 is provided with a blanking opening 13, under the action of the hydraulic push rod 14 matched with the push plate 15, the blanking opening 13 can put instruments on the conveying assembly 2, please refer to fig. 4 with emphasis on drawing, a plurality of slots 16 are symmetrically arranged on the side surface first and the opposite side surface, the side cover 12 is inserted into the bin body 11 along the slots 16, and the side cover 12 is matched with the slots 16 to enable the blanking bin 1 to be suitable for instruments of different types.

Firstly, the instrument is placed into the bin body 1 manually, then the hydraulic push rod 14 is started, and the instrument sequentially falls onto the conveying assembly 2 from the feed opening 13 under the thrust of the hydraulic push rod 14.

Specifically, the side surface of the cover plate 12 on the opposite side of the discharging bin 1 is provided with a track, and the push plate 15 is correspondingly provided with a bulge, so that the stability of the push plate 15 during movement is ensured.

Referring to fig. 5 and 6 with emphasis, the conveying assembly 2 includes a motor, a driving roller 21, a driven roller 22, a belt 23, and a dividing protrusion 24; the motor is arranged on the driving roller 21, the driven roller 22 is in transmission connection with the driving roller 21 through the belt 23, and the minimum distance between the belt 23 and the blanking opening 13 is between one time and two times of the height of the instrument, so that after the instrument falls on the conveying assembly 2, the follow-up instrument can be ensured to fall on the conveying assembly 2 one by one; a plurality of dividing protrusions 24 are uniformly arranged on the belt 23, and the distance between two adjacent dividing protrusions 24 is not smaller than the length of the instrument; the design of the segmentation bulge 24 can properly block the instrument in the conveying process, so that the instrument can fall more stably when reaching the delivery assembly 3, and interference between two adjacent instruments is avoided, so that the stability of the shape of the instrument is ensured, the segmentation bulge 24 also plays a role in pushing the instrument, and the position of the instrument can be controlled more accurately relative to the carrier conveying only by virtue of friction force.

Referring to fig. 7 and 8, the delivery assembly 3 includes a rotating shaft 33 provided with a servo motor 32, the rotating shaft 33 is provided with a rotating body 31, and the rotating body 31 is at an initial position when the conveying assembly 2 conveys the instrument to the delivery assembly 3; when the servo motor 32 is started, the rotating body 31 is driven by the rotating shaft 33 to rotate to a vertical state; the end of the rotator 31 far away from the rotating shaft 33 is provided with a baffle 311, and the baffle 311 is used for preventing the instrument from flying away radially when rotating along the rotating shaft 33.

The guide assembly 4 comprises a guide pipe, a fixed ring is arranged at one end of the guide pipe, which is close to the throwing assembly 3, and the fixed ring is connected with the ship body, and the fixed ring is used for fixing the shape of a feeding port of the guide assembly 4, so that the accuracy of feeding an instrument is ensured, the guide pipe is used for guiding the instrument, and the instrument reaches a specified feeding position through the guide of the guide pipe; specifically, the material guiding pipe adopts a flexible material guiding pipe.

The working principle of the utility model is as follows:

firstly, an instrument is manually placed into the bin body 1, then the hydraulic push rod 14 is started, the instrument sequentially drops to a position between the dividing protrusions 24 on the belt 23 from the feed opening 13 under the thrust of the hydraulic push rod 14, then the instrument drops onto the rotating body 31 under the operation of the conveying assembly 2, then the instrument is rotationally put into the material guide pipe along with the rotating shaft 33, and finally the material guide pipe guides the instrument to a specified position.

The design of this device can put in the assigned position with the instrument one by one to can just can change the input position of instrument through the position of the adjustment passage other end, this device is also applicable to the instrument of different models and puts in simultaneously.

The foregoing description is only a preferred embodiment of the present utility model, and the present utility model is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present utility model has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (6)

1. The utility model provides a light quantum same-frequency resonance water purifier throwing device which is characterized by comprising a discharging bin (1), a conveying component (2), a throwing component (3) and a material guiding component (4) which are sequentially arranged, wherein the conveying component (2) is positioned below a discharging opening (13); the discharging bin (1) is used for discharging the light quantum same-frequency resonance water purifier onto the conveying component (2); the conveying assembly (2) is used for conveying the instruments to the throwing assembly (3) one by one; the delivery assembly (3) is used for delivering the instrument to the guide assembly (4); the material guiding component (4) is used for guiding the instrument to a specified position for placement.

2. The device for throwing the light quantum same-frequency resonance water purifier according to claim 1, wherein the lower bin (1) comprises a bin body (11) with a first side surface and an opening on a top surface, a hydraulic push rod (14) arranged on a second side surface of the bin body (11), the second side surface is a side surface adjacent to the first side surface, a push plate (15) is arranged on the hydraulic push rod (14), a blanking opening (13) is arranged at one end of the bottom surface of the bin body (11), a plurality of slots (16) are symmetrically arranged on the first side surface and the opposite side surface, and the side cover plate (12) is inserted into the bin body (11) along the slots (16).

3. The device for throwing the light quantum same-frequency resonance water purifier according to claim 2 is characterized in that a track is arranged on the side face of the cover plate (12) on the right side of the lower bin (1), and a bulge is correspondingly arranged on the push plate (15).

4. A photonic on-channel resonance water purifier delivery device according to claim 2 or 3, characterized in that the delivery assembly (2) comprises a motor, a driving roller (21), a driven roller (22), a belt (23) and a dividing protrusion (24); the motor is arranged on the driving roller (21), the driven roller (22) is in transmission connection with the driving roller (21) through a belt (23), and the minimum distance between the belt (23) and the blanking opening (13) is between one time and two times of the height of the instrument; a plurality of segmentation protrusions (24) are uniformly arranged on the belt (23), and the distance between two adjacent segmentation protrusions (24) is not smaller than the length of the instrument.

5. The device for putting the light quantum on-frequency resonance water purifier according to claim 4, wherein the putting component (3) comprises a rotating shaft (33) provided with a servo motor (32), the rotating shaft (33) is provided with a rotating body (31), and the rotating body (31) is in an initial position when the conveying component (2) conveys the light quantum on the putting component (3); when the servo motor (32) is started, the rotating body (31) is driven by the rotating shaft (33) to rotate to a vertical state; one end of the rotating body (31) far away from the rotating shaft (33) is provided with a baffle plate (311).

6. The device for throwing the light quantum co-frequency resonance water purifier according to claim 1, wherein the material guiding assembly (4) comprises a material guiding pipe, a fixing ring is arranged at one end of the material guiding pipe, which is close to the throwing assembly (3), and is connected with a ship body, and the fixing ring is used for fixing the shape of a material inlet of the material guiding assembly (4).