CN219409520U - Online dosing device convenient to resource optimization - Google Patents

Abstract

The utility model relates to the technical field of medicine processing, in particular to an online medicine adding device convenient for resource optimization, wherein a processing assembly comprises a processing bin and a mixing system arranged in the processing bin, a mixing bin is arranged above the processing bin, and the mixing bin is communicated with the processing bin; the dosing assembly comprises a first dosing piece which is annularly arranged at the periphery of the mixing bin and a second dosing piece which is arranged below the mixing bin; the first dosing piece comprises a first dosing bin, a first dosing pipe which is obliquely arranged is arranged between the first dosing bin and the mixing bin, and a spiral conveying mechanism capable of conveying medicines forwards is arranged in the first dosing pipe; the medicine that needs to add the medicine is put into the medicine adding storehouse of first medicine adding piece or second medicine adding piece, carries forward through the screw conveyer in the first medicine adding pipe for solid medicine that is located in the medicine adding subassembly can get into in the processing storehouse through screw conveyer's mode fast accessible and process, can not appear the phenomenon of card material and take place, and sludge treatment efficiency is higher.

Description

Online dosing device convenient to resource optimization

Technical Field

The utility model relates to the technical field of medicine processing, in particular to an online medicine adding device convenient for resource optimization.

Background

A large amount of sludge is produced in the river course, lake dredging and civil engineering construction processes, and conventional sludge treatment usually adopts the means of yard drying, sludge treatment stations and the like, but because the cleaned sludge has more granular impurities, the sludge has the characteristics of fine particles, light volume weight, high organic matter content, high water content and the like, long time and low efficiency are usually required for consolidation drying by means of the technologies of yard natural drying, manual intervention drying and the like.

Other common sludge treatment methods also comprise methods such as vacuum water removal, heat treatment, pumping and precipitation airing or curing by adding a curing agent. However, the conventional treatment methods such as vacuum dewatering, heat treatment, pumping, precipitation, air drying and the like are low in efficiency, and if the direct solidification treatment is high in efficiency, the treated sludge is poor in performance and strength and cannot be used for building materials due to high water content and impurity content.

In order to improve the treatment effect, people can add medicament medicaments into the treatment tank so as to improve the treatment efficiency of the sludge. The medicine can be divided into solid and liquid, wherein the liquid can enable liquid medicine to flow into the mixing tank for processing in a pump body mode or a gravity mode; when solid medicines are conveyed by gravity, the phenomenon of clamping materials is easy to occur, so that medicines can not be timely added in a pipeline, and the sludge treatment efficiency is affected.

Disclosure of Invention

The utility model aims to provide an online dosing device which is convenient for optimizing resources and overcomes the defects of the prior art.

In order to achieve the above purpose, the technical scheme of the utility model is as follows:

the on-line dosing device convenient for resource optimization comprises a processing assembly and a dosing assembly, wherein the processing assembly comprises a processing bin and a mixing system arranged in the processing bin, the mixing bin is arranged above the processing bin, and the mixing bin is communicated with the processing bin; the dosing assembly comprises a first dosing piece which is annularly arranged at the periphery of the mixing bin and a second dosing piece which is arranged below the mixing bin; the first dosing piece comprises a first dosing bin, a first dosing pipe which is obliquely arranged is arranged between the first dosing bin and the mixing bin, and a spiral conveying mechanism which can convey medicines forwards is arranged in the first dosing pipe.

Further: the bottom wall of the first dosing bin is obliquely arranged, and an arc-shaped conveying area which is coaxially aligned with and communicated with the first dosing pipe is formed on the bottom wall; the top of the first medicine adding bin is provided with an opening, and the opening is hinged with a top cover.

Further: the screw conveying mechanism comprises a screw rod arranged along the arc conveying area and a first dosing pipe, a driving motor for driving the screw rod to rotate is arranged in the first dosing bin, and a driving hole for the screw rod to pass through is formed in the first dosing bin.

Further: the bottom of the first dosing pipe is provided with a reduction box body, the output end of the reduction box body is in transmission connection with the screw rod, and the input end of the reduction box body is in transmission connection with the driving motor.

Further: the mixing bin is of a cylindrical structure, a medicine outlet is formed in the bottom of the mixing bin, a connecting pipeline leading to the treatment bin is connected to the medicine outlet, and a valve is arranged on the connecting pipeline.

Further: the second dosing piece comprises a second dosing bin which is longitudinally arranged and is in a cylinder shape, a blanking port is formed in the bottom of the second dosing bin, and a second dosing tube is obliquely connected between the blanking port and the mixing bin.

Further: the length of the second dosing tube is greater than that of the first dosing tube, and the second dosing tube is provided with the screw rod which can convey the medicine to the mixing bin along the length direction.

Further: the second medicine adding bin comprises a top bin and a bottom bin formed at the bottom of the top bin, the bottom bin is of a funnel structure, and the blanking port is formed at the bottom of the bottom bin.

Further: the bottom shaping of second charge pipe has the material receiving mouth, encloses into between material receiving mouth and the blanking mouth has integrated into one piece's splint.

The utility model has the beneficial effects that: the sludge to be treated is stored in the treatment bin, the medicine to be added is placed in the medicine adding bin of the first medicine adding part or the second medicine adding part, and is conveyed forward through the spiral conveying mechanism in the first medicine adding pipe, so that the solid medicine in the medicine adding assembly can enter the treatment bin to be mixed with the sludge for processing in a mode of quickly passing through the spiral conveying mechanism, the phenomenon of material blockage can not occur, the cleanliness of sludge treatment after medicine addition is further improved, and the sludge treatment efficiency is higher.

Drawings

Fig. 1 is a schematic view of a structure in which a processing assembly is connected to a dosing assembly.

Fig. 2 is a schematic structural view of the first medicine feeding member.

Fig. 3 is a partially enlarged schematic view of the first drug adding member.

Fig. 4 is a schematic cross-sectional structure of the second dosing member.

The reference numerals include:

1-a dosing assembly,

10-first dosing piece, 11-first dosing bin, 12-opening, 13-top cover, 14-arc conveying area,

15-a first medicine feeding pipe, 16-a driving hole,

A 2-screw conveying mechanism,

21-screw rod, 22-driving motor, 23-reduction box body,

3-a second dosing member,

31-a second medicine adding bin, 32-a top bin, 33-a bottom bin, 34-a blanking port, 35-a material receiving port,

36-a second dosing tube,

4-processing assembly,

41-mixing bin, 42-connecting pipeline, 43-valve, 44-treatment bin and 45-medicine outlet.

Detailed Description

The present utility model will be described in detail below with reference to the accompanying drawings.

As shown in fig. 1-4, an on-line dosing device convenient for resource optimization comprises a processing assembly 4 and a dosing assembly 1, wherein the processing assembly 4 comprises a processing bin 44 for storing sludge and a mixing system arranged in the processing bin 44, and the mixing system can be a stirring mechanism, a heating mechanism, a stirring mechanism and the like for carrying out mixing and stirring treatment on the sludge. Wherein, one side of the treatment bin 44 is formed with an inlet for filling the sludge, and the inlet can be connected with a pipeline in a sealing way to convey the sludge into the treatment bin 44.

A mixing bin 41 for collecting medicines is arranged above the treatment bin 44, and the mixing bin 41 is communicated with the treatment bin 44; the mixing bin 41 is of a cylindrical structure, a medicine outlet 45 is formed in the bottom of the mixing bin 41, a connecting pipeline 42 leading to a treatment bin 44 is connected to the medicine outlet 45, a valve 43 is arranged on the connecting pipeline 42, and medicines in the mixing bin 41 can be introduced into the treatment bin 44 through the connecting pipeline 42 by opening and closing the valve 43.

The dosing assembly 1 comprises a first dosing element 10 annularly arranged at the periphery of a mixing bin 41, wherein the first dosing element 10 comprises a first dosing bin 11, the bottom wall of the first dosing bin 11 is obliquely arranged, and an arc-shaped conveying area 14 coaxially aligned and communicated with a first dosing tube 15 is formed on the bottom wall; the top of the first medicine adding bin 11 is provided with an opening 12, the opening 12 is hinged with a top cover 13 through a rotating shaft, and solid medicines which need to be added, such as industrial sodium sulfide and the like, can be put into the opening 12 through opening and closing the top cover 13.

A first dosing pipe 15 which is obliquely arranged is arranged between the first dosing bin 11 and the mixing bin 41, a spiral conveying mechanism 2 which can convey medicines forwards is arranged in the first dosing pipe 15, the spiral conveying mechanism 2 comprises a spiral rod 21 which is arranged along an arc conveying area 14 and the first dosing pipe 15, the first dosing bin 11 is formed with a driving hole 16 for the spiral rod 21 to pass through, the first dosing bin 11 is provided with a driving motor 22 for driving the spiral rod 21 to rotate, the bottom end of the first dosing pipe 15 is provided with a reduction box body 23, the output end of the reduction box body 23 is in transmission connection with the spiral rod 21 through a coupler, and the input end of the reduction box body 23 is in transmission connection with the driving motor 22 through the coupler; the driving motor 22 outputs power to the reduction gearbox 23, the reduction gearbox 23 outputs power to the screw rod 21 again, the screw rod 21 rotates in the first dosing tube 15, and the medicine falling into the arc-shaped conveying area 14 enters the first dosing tube 15 under the driving of the screw rod 21 and is continuously conveyed until the tail end enters the mixing bin 41. So that the solid medicine in the medicine adding component 1 can enter the processing bin 44 for processing in a mode of the spiral conveying mechanism 2 quickly, the phenomenon of material clamping can not occur, and the sludge treatment efficiency is higher.

A second dosing element 3 is arranged below the mixing bin 41; the second dosing unit 3 includes the second dosing bin 31 that is the tube-shape of longitudinal arrangement, second dosing bin 31 top shaping has the charge mouth, second dosing bin 31 bottom shaping has blanking mouth 34, second dosing bin 31 includes top bin 32 and the bottom bin 33 of shaping in top bin 32 bottom, bottom bin 33 is the funnel structure, blanking mouth 34 shaping is in the bottom of bottom bin 33, the bottom shaping of second charge pipe 36 has receiving mouth 35, enclose into the splint that has integrated into one piece between receiving mouth 35 and the blanking mouth 34 for the medicine that falls into from blanking mouth 34 can not reveal.

A second dosing tube 36 is obliquely connected between the blanking port 34 and the mixing bin 41; the length of the second dosing tube 36 is larger than the length of the first dosing tube 15, and the second dosing tube 36 is provided with the screw 21 in the length direction for delivering the drug to the mixing bin 41; the falling medicine enters the second medicine feeding pipe 36 along the material falling opening 34 and the material receiving opening 35, the spiral rod 21 in the second medicine feeding pipe 36 is driven to rotate by the driving motor 22 arranged at one end through the transmission of the belt transmission mechanism, the spiral rod 21 is driven to rotate, and the medicine in the second medicine feeding pipe 36 is obliquely conveyed upwards into the mixing bin 41.

In addition, the screw rod 21 can be replaced by a screw belt nested on the screw rod, the screw belt is in contact with the inner wall of the dosing tube, at this time, liquid medicine can be spirally conveyed, the diversity of dosing is further improved when sludge is mixed, and solid or liquid medicine can be conveyed and dosed to the treatment bin 44.

The first dosing part 10 and the second dosing part 3 can respectively convey different types of medicines, namely liquid medicines and solid medicines, and can convey and dose the solid medicines and the liquid medicines in the same dosing equipment by fully utilizing the existing dosing tools; so that the resources are reasonably arranged and utilized. The development cost is effectively reduced. Better realizes online dosing, and the sludge and the drug are mixed and reacted and then stirred, thereby improving the efficiency of sludge treatment.

In view of the above, the present utility model has the above-mentioned excellent characteristics, so that it can be used to improve the performance and practicality of the prior art, and is a product with great practical value.

The foregoing is merely exemplary of the present utility model, and those skilled in the art should not be considered as limiting the utility model, since modifications may be made in the specific embodiments and application scope of the utility model in light of the teachings of the present utility model.

Claims (9)

1. Online dosing device convenient to resource optimization, including processing subassembly and dosing subassembly, its characterized in that: the processing assembly comprises a treatment bin for storing sludge and a mixing system arranged in the treatment bin, wherein the mixing bin is arranged above the treatment bin and is communicated with the treatment bin; the dosing assembly comprises a first dosing piece which is annularly arranged at the periphery of the mixing bin and a second dosing piece which is arranged below the mixing bin; the first dosing piece comprises a first dosing bin, a first dosing pipe which is obliquely arranged is arranged between the first dosing bin and the mixing bin, and a spiral conveying mechanism which can convey medicines forwards is arranged in the first dosing pipe.

2. An on-line dosing device for facilitating resource optimization as claimed in claim 1, wherein: the bottom wall of the first dosing bin is obliquely arranged, and an arc-shaped conveying area which is coaxially aligned with and communicated with the first dosing pipe is formed on the bottom wall; the top of the first medicine adding bin is provided with an opening, and the opening is hinged with a top cover.

3. An on-line dosing device for facilitating resource optimization as claimed in claim 2, wherein: the screw conveying mechanism comprises a screw rod arranged along an arc conveying area and a first dosing pipe, a driving motor for driving the screw rod to rotate is arranged in the first dosing bin, and a driving hole for the screw rod to pass through is formed in the first dosing bin.

4. A device for facilitating on-line dosing of a resource optimization as claimed in claim 3, wherein: the bottom of the first dosing pipe is provided with a reduction box body, the output end of the reduction box body is in transmission connection with the screw rod, and the input end of the reduction box body is in transmission connection with the driving motor.

5. An on-line dosing device for facilitating resource optimization as claimed in claim 1, wherein: the mixing bin is of a cylindrical structure, a medicine outlet is formed in the bottom of the mixing bin, the medicine outlet is connected with a connecting pipeline leading to the treatment bin, and a valve is arranged on the connecting pipeline.

6. An on-line dosing device for facilitating resource optimization as defined in claim 4, wherein: the second dosing piece comprises a second dosing bin which is longitudinally arranged and is in a cylindrical shape, a blanking port is formed in the bottom of the second dosing bin, and a second dosing tube is obliquely connected between the blanking port and the mixing bin.

7. The on-line dosing device for facilitating resource optimization of claim 6, wherein: the length of the second dosing tube is greater than that of the first dosing tube, and the second dosing tube is provided with a screw rod which can convey medicines to the mixing bin along the length direction.

8. The on-line dosing device for facilitating resource optimization of claim 7, wherein: the second medicine adding bin comprises a top bin and a bottom bin formed at the bottom of the top bin, the bottom bin is of a funnel structure, and the blanking port is formed at the bottom of the bottom bin.

9. The on-line dosing device for facilitating resource optimization of claim 8, wherein: the bottom of the second dosing tube is provided with a material receiving opening, and an integrally formed clamping plate is enclosed between the material receiving opening and the blanking opening.