AU2021106317A4 - An online monitoring device for concrete aggregate particle size - Google Patents

Abstract

Disclosed is an online monitoring device for concrete aggregate particle size, comprising base, platform, screen, coast, vibration spring, sieve plate, fine aggregate sieve, medium aggregate sieve, coarse aggregate sieve, offset plate, motor 1, offset block, motor 2, gear 1, support column, shaft, gear 2, reclaimer hopper, drive chain, hydraulic lifter, connecting shaft, collection tank, intelligent data electronic scale; said platform is set on the base; said screen is set on the platform; said coast is set on the platform; said vibration spring is set on the screen; said sieve plate is set on the vibration spring; said fine aggregate screen is set on the sieve plate; this invention relates to the technical field of concrete inspection, in particular to an online online monitoring device for concrete aggregate particle size; at present, monitoring methods available to the market rely on manual sampling, which is inefficient and the data is not accurate enough; said device can effectively solve said problems and realize the purpose of online continuous intelligent monitoring with accurate data and high efficiency. 1 DRAWINGS FIG. 1 1

Description

DRAWINGS

FIG. 1

SPECIFICATION AN ONLINE MONITORING DEVICE FOR CONCRETE AGGREGATE PARTICLE SIZE TECHNICAL FIELD

[0001] This invention relates to the technical field of concrete inspection, in particular

to an online online monitoring device for concrete aggregate particle size.

BACKGROUNDOFTHETECHNOLOGY

[0002] Concrete aggregate refers to the granular loose material that acts as a skeleton

or filling in concrete, divided into coarse aggregate and fine aggregate; coarse

aggregate refers to pebbles, crushed stone, etc., and fine aggregate refers to natural

sand, artificial sand, etc.; aggregates with particle size greater than 4.75 mm are called

coarse aggregates, commonly known as stones; there are two commonly used gravel

and pebbles; crushed stone is made of natural rocks or rocks that are mechanically

crushed and sieved, and rock particles with particle size greater than 4.75 mm;

pebbles are rock particles larger than 4.75 mm in diameter, which are formed by

natural weathering, water flow handling, sorting, and accumulation; pebble and gravel

particles whose length is greater than 2.4 times the average particle size of the

corresponding size of the particle are needle-shaped particles; those with thickness

less than 0.4 times the average particle size are flaky particles (the average particle

size refers to the average of the upper and lower limits of the particle size); aggregate

is the skeleton of concrete; according to statistics, aggregate can account for 50% to

% of the volume of concrete; it will affect the rheology of fresh concrete and the

mechanical properties and durability of hardened concrete; therefore, it is necessary to

realize the online monitoring of all aspects of the performance of the concrete

production raw materials to ensure the stability of the concrete performance.

[0003] In order to monitor the particle size of the aggregate, traditional offline

monitoring methods rely on manual sampling and then experimental detection to

SPECIFICATION

obtain the data of the particle size of the aggregate; this method is not only inefficient, but also difficult to obtain representative data.

SUMMARY OF THE INVENTION

[0004] In view of above mentioned situation, in order to overcome the shortcomings of the prior art, this invention provides an online monitoring device for concrete aggregate particle size; at present, monitoring methods available to the market rely on manual sampling, which is inefficient and the data is not accurate enough; said device can effectively solve said problems and realize the purpose of online continuous intelligent monitoring with accurate data and high efficiency.

[0005] Technical solution of this invention is introduced as follow: an online monitoring device for concrete aggregate particle size comprises base, platform, screen, coast, vibration spring, sieve plate, fine aggregate sieve, medium aggregate sieve, coarse aggregate sieve, offset plate, motor 1, offset block, motor 2, gear 1, support column, shaft, gear 2, reclaimer hopper, drive chain, hydraulic lifter, connecting shaft, collection tank, intelligent data electronic scale; said platform is set on the base; said screen is set on the platform; said coast is set on the platform; said vibration spring is set on the screen; said sieve plate is set on the vibration spring; said fine aggregate screen is set on the sieve plate; said medium aggregate screen is set on the sieve plate; said coarse aggregate screen is set on the sieve plate; said offset plate is set on the sieve plate; said motor 1 is set on the platform; said offset block is set on the motor 1; said motor 2 is set on the sieve plate; said gear 1 is set on the motor 2; said support column is set on the sieve plate; said shaft is set on the support column; said gear 2 is set on the shaft; said reclaimer hopper is set on the shaft; one end of said drive chain is wrapped on gear 1 and the other end is wrapped on gear 2; said hydraulic lifter is set on the base; said connecting shaft is set on the platform; said collection tank is set on the hydraulic lifter and is arranged to rotate around the connecting shaft; said intelligent data electronic scale is set on the collection tank; said vibration spring plays the role of vibration of the sieve plate; said offset plate

SPECIFICATION

plays the role in driving the vibration of said sieve plate; said coast of the platform

plays the role in the quantitative analysis of the occupancy of aggregates of various

particle sizes in the concrete.

[0006] Preferred, said platform is set between the screen and the coast; said screen is

set between the platform and the vibration spring; said vibration spring is set between

the screen and the sieve plate; said support column is set between the shaft and sieve

plate; said hydraulic lifter is set between the base and collection tank; said connecting

shaft is set between the collection tank and the platform.

[0007] Preferred, said base and platform are arranged vertically; said screen and

vibration spring are arranged vertically; said vibration spring and sieve plate are

arranged vertically; said motor 1 and offset block are arranged vertically; said support

column and shaft are arranged vertically; said drive chain and gear 2 are arranged

vertically; said gear 1 and gear 2 are arranged in parallel; said hydraulic lifter and

base are arranged vertically.

[0008] Preferred, said base is arranged in rectangular parallelepiped; said fine

aggregate screen is arranged in net shape; said motor 1 is arranged in cylindrical

shape; said support column is arranged in rectangular shape; said shaft is cylindrically

arranged; said gear 2 is cylindrically arranged; said connecting shaft is arranged in

cylindrical shape.

[0009] Preferred, said screen has four sets; said coast has three sets; said vibration

spring has several sets; said reclaimer hopper has four sets; said hydraulic lifter has

three sets; said collection tank has three sets; said intelligent data electronic scale has

three sets; said collection tank and intelligent data electronic scale share the same

number in quantity.

[0010] beneficial effect of this invention is introduced as follow: this invention relates

to the technical field of concrete inspection, in particular to an online online

monitoring device for concrete aggregate particle size; at present, monitoring methods

available to the market rely on manual sampling, which is inefficient and the data is

SPECIFICATION

not accurate enough; said device can effectively solve said problems and realize the purpose of online continuous intelligent monitoring with accurate data and high efficiency.

DESCRIPTION OF THE DRAWING

[0011] FIG. 1 is the the overall structural diagram of an online monitoring device for concrete aggregate particle size;

[0012] FIG. 2 is another view of the structural diagram of an online monitoring device for concrete aggregate particle size.

[0013] As shown in the diagram, 1. base, 2. platform, 3. screen, 4. coast, 5. vibration spring, 6. sieve plate, 7. fine aggregate sieve, 8. medium aggregate sieve, 9. coarse aggregate sieve, 10. offset plate, 11. motor 1, 12. offset block, 13. motor 2, 14. gear 1, 15. support column, 16. shaft, 17. gear 2, 18. reclaimer hopper, 19. drive chain, 20. hydraulic lifter, 21. connecting shaft, 22. collection tank, 23. intelligent data electronic scale.

[0014] The accompanying drawings are used to provide a further understanding of this invention and constitute part of the specification; together with the embodiments of this invention, they are used to explain the invention and do not constitute limitation to this invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

[0015] Technical solutions in the embodiments of this invention will be clearly and completely introduced in conjunction with the drawings in the embodiments; said embodiments are only part of the embodiments of this invention, rather than all the embodiments; based on the embodiments of this invention, all other embodiments obtained by those of ordinary skilled in the art without creative work shall fall within the protection scope of this invention.

SPECIFICATION

[0016] As shown in the FIG. 1-2, an online monitoring device for concrete aggregate

particle size comprises base (1), platform (2), screen (3), coast (4), vibration spring

(5), sieve plate (6), fine aggregate sieve (7), medium aggregate sieve (8), coarse

aggregate sieve (9), offset plate (10), motor 1 (11), offset block (12), motor 2 (13),

gear 1 (14), support column (15), shaft (16), gear 2 (17), reclaimer hopper (18), drive

chain (19), hydraulic lifter (20), connecting shaft (21), collection tank (22), intelligent

data electronic scale (23); said platform (2) is set on the base (1); said screen (3) is set

on the platform (2); said coast (4) is set on the platform (2); said vibration spring (5)

is set on the screen (3); said sieve plate (6) is set on the vibration spring (5); said fine

aggregate screen (7) is set on the sieve plate (6); said medium aggregate screen (8) is

set on the sieve plate (6); said coarse aggregate screen (9) is set on the sieve plate (6);

said offset plate (10) is set on the sieve plate (6); said motor 1 (11) is set on the

platform (2); said offset block (12) is set on the motor 1 (11); said motor 2 (13) is set

on the sieve plate (6); said gear 1 (14) is set on the motor 2 (13); said support column

(15) is set on the sieve plate (6); said shaft (16) is set on the support column (15); said

gear 2 (17) is set on the shaft (16); said reclaimer hopper (18) is set on the shaft (16);

one end of said drive chain (19) is wrapped on gear 1 (14) and the other end is

wrapped on gear 2 (17); said hydraulic lifter (20) is set on the base (1); said

connecting shaft (21) is set on the platform(2); said collection tank (22) is set on the

hydraulic lifter (20) and is arranged to rotate around the connecting shaft (21); said

intelligent data electronic scale (23) is set on the collection tank (22).

[0017] Said platform (2) is set between the screen (3) and the coast (4); said screen (3)

is set between the platform (2) and the vibration spring (5); said vibration spring (5) is

set between the screen (3) and the sieve plate (6); said support column (15) is set

between the shaft (16) and sieve plate (6); said hydraulic lifter (20) is set between the

base (1) and collection tank (22); said connecting shaft (21) is set between the

collection tank (22) and the platform (2).

[0018] Said base (1) and platform (2) are arranged vertically; said screen (3) and

vibration spring (5) are arranged vertically; said vibration spring (5) and sieve plate (6)

SPECIFICATION

are arranged vertically; said motor 1 (11) and offset block (12) are arranged vertically;

said support column (15) and shaft (16) are arranged vertically; said drive chain (19)

and gear 2 (17) are arranged vertically; said gear 1 (14) and gear 2 (17) are arranged

in parallel; said hydraulic lifter (20) and base (1) are arranged vertically.

[0019] Said base (1) is arranged in rectangular parallelepiped; said fine aggregate

screen (7) is arranged in net shape; said motor 1 (11) is arranged in cylindrical shape;

said support column (15) is arranged in rectangular shape; said shaft (16) is

cylindrically arranged; said gear 2 (17) is cylindrically arranged; said connecting shaft

(21) is arranged in cylindrical shape.

[0020] Said screen (3) has four sets; said coast (4) has three sets; said vibration spring

(5) has several sets; said reclaimer hopper (18) has four sets; said hydraulic lifter (20)

has three sets; said collection tank (22) has three sets; said intelligent data electronic

scale (23) has three sets; said collection tank (22) and intelligent data electronic scale

(23) share the same number in quantity.

[0021] First step is to debug the device when the user starts to use this device; place

said reclaimer hopper (18) level with the concrete conveyor belt; open gear 1 (14) and

drive motor 2 (13); under the action of drive chain (19), said gear 2 (17) is driven to

rotate, thereby driving the shaft (16) to rotate, thereby rotating the reclaimer hopper

(18); from the concrete drive belt, take out the concrete material to the sieve plate (6);

the second step is to turn on the motor 1 (11) to rotate, and drive the offset block (12)

to rotate in the concave and convex holes of the offset plate (10), so that the sieve

plate (6) vibrates left and right under the support of the vibration spring (5); at this

time, aggregates of different particle sizes fall from the sieve plate (6), fine aggregate

sieve (7) and medium aggregate sieve (8), and slide down the coast (4) into the coast

(4) inside the platform (2); after weighing and analyzing the proportion of various

aggregates, lower the hydraulic lifter (20) and drive the collection tank (22) to turn

sideways around the connecting shaft (21), pour out the aggregate from the coast (4)

of the platform (2) and continue the next measurement record; above mentioned is the

SPECIFICATION

operation process of the entire online monitoring device for concrete aggregate

particle size.

[0022] It should be noted that in this article, terms such as first and second are only

used to distinguish one entity or operation from another entity or operation; it does not

necessarily require or imply any such actual relationship or order between these

entities or operations; terms such as "include", "comprise" or any other variants

thereof are intended to cover non-exclusive inclusion, so that a process, method,

article or device that includes a series of elements includes not only those elements; it

also includes other elements that are not explicitly listed, or elements inherent to the

process, method, article, or device.

[0023] Although embodiments of this invention have been shown and introduced,

those ordinary that skilled in the art can understand that various changes, substitutions

and modifications can be made to these embodiments without departing from the

principle and spirit of this invention; the scope of this invention is defined by the

appended claims and their equivalents.

[0024] Embodiments of this invention are introduced above, and said introduction is

not restrictive; what are shown in the drawings are only one embodiment of this

invention, and the actual structure is not limited to this; if ordinary that skilled in the

art receives its enlightenment and does not deviate from the purpose of this invention,

and without creative design, structural methods and embodiments similar to the

technical solution shall fall within the protection scope of this invention.

Claims (5)

1.An online monitoring device for concrete aggregate particle size comprises base,

platform, screen, coast, vibration spring, sieve plate, fine aggregate sieve, medium

aggregate sieve, coarse aggregate sieve, offset plate, motor 1, offset block, motor 2,

gear 1, support column, shaft, gear 2, reclaimer hopper, drive chain, hydraulic lifter,

connecting shaft, collection tank, intelligent data electronic scale; said platform is set

on the base; said screen is set on the platform; said coast is set on the platform; said

vibration spring is set on the screen; said sieve plate is set on the vibration spring; said

fine aggregate screen is set on the sieve plate; said medium aggregate screen is set on

the sieve plate; said coarse aggregate screen is set on the sieve plate; said offset plate

is set on the sieve plate; said motor 1 is set on the platform; said offset block is set on

the motor 1; said motor 2 is set on the sieve plate; said gear 1 is set on the motor 2;

said support column is set on the sieve plate; said shaft is set on the support column;

said gear 2 is set on the shaft; said reclaimer hopper is set on the shaft; one end of said

drive chain is wrapped on gear 1 and the other end is wrapped on gear 2; said

hydraulic lifter is set on the base; said connecting shaft is set on the platform; said

collection tank is set on the hydraulic lifter and is arranged to rotate around the

connecting shaft; said intelligent data electronic scale is set on the collection tank.

2.An online monitoring device for concrete aggregate particle size as claimed in

claim 1, wherein said platform is set between the screen and the coast; said screen is

set between the platform and the vibration spring; said vibration spring is set between

the screen and the sieve plate; said support column is set between the shaft and sieve

plate; said hydraulic lifter is set between the base and collection tank; said connecting

shaft is set between the collection tank and the platform.

3.An online monitoring device for concrete aggregate particle size as claimed in

claim 2, wherein said base and platform are arranged vertically; said screen and

vibration spring are arranged vertically; said vibration spring and sieve plate are

arranged vertically; said motor 1 and offset block are arranged vertically; said support

column and shaft are arranged vertically; said drive chain and gear 2 are arranged

vertically; said gear 1 and gear 2 are arranged in parallel; said hydraulic lifter and

base are arranged vertically.

4.An online monitoring device for concrete aggregate particle size as claimed in

claim 3, wherein said base is arranged in rectangular parallelepiped; said fine

aggregate screen is arranged in net shape; said motor 1 is arranged in cylindrical

shape; said support column is arranged in rectangular shape; said shaft is cylindrically

arranged; said gear 2 is cylindrically arranged; said connecting shaft is arranged in

cylindrical shape.

5.An online monitoring device for concrete aggregate particle size as claimed in

claim 4, wherein said screen has four sets; said coast has three sets; said vibration

spring has several sets; said reclaimer hopper has four sets; said hydraulic lifter has

three sets; said collection tank has three sets; said intelligent data electronic scale has

three sets; said collection tank and intelligent data electronic scale share the same

number in quantity.

D R AW I N G S 21 Aug 2021 2021106317

FIG. 1

D R AW I N G S 21 Aug 2021 2021106317

FIG. 2