CN214234941U - Reaction raw material screening equipment based on aluminum ash production accelerator - Google Patents

Abstract

The utility model discloses a reaction raw materials screening equipment based on aluminium ash production accelerator relates to accelerator production facility field, including dividing the sieve case, divide the top of sieve case and seted up a feed inlet, and the inside that divides the sieve case is fixed with the filter screen, the outside of filter screen is provided with the stopper, and the bottom of stopper installs vibrating motor, the below that the inside that divides the sieve case is located the filter screen is provided with the feed opening, and the below of feed opening is provided with the collecting box, the one side of dividing the sieve case is provided with crushing case. The utility model discloses a set up filter screen, vibrating motor, feed opening, collecting box, mounting panel, rotor arm, spring beam, blanking cover, U template and dwang, effectively solved the problem that lacks the structure of control unloading when changing the collecting box, through setting up crushing case, No. two feed inlets, hold case, crushing roller, small-size rotating electrical machines and gear, effectively solved and lacked the problem that reducing mechanism leads to extravagant manpower and time.

Description

Reaction raw material screening equipment based on aluminum ash production accelerator

Technical Field

The utility model relates to an accelerator production facility field specifically is reaction raw materials screening equipment based on aluminium ash production accelerator.

Background

The quick-setting admixture is an admixture which is doped into concrete and can make concrete quickly set and harden, and is produced by high-temperature sintering of aluminium ash and sodium carbonate, etc., and the mixture is made up through the processes of ageing, drying, pulverizing and packaging, and before production and processing, the aluminium ash is screened.

In the prior art, the aluminum ash is screened by the filter screen, but after the aluminum ash works for a period of time, the filter screen is easy to block, so that the screening efficiency is low, and the subsequent production is influenced; secondly, in the prior art, part of aluminum powder is scattered in the process of replacing the collecting box, and equipment is damaged due to frequent starting and stopping of the equipment, so that further improvement is needed; finally, in the prior art, the unqualified aluminum powder after being screened needs to be collected and then conveyed to a designated place for secondary crushing, which results in waste of labor and time.

Disclosure of Invention

The utility model aims to provide a: in order to solve the problem that the structure of lacking the control unloading and lacking the reducing mechanism lead to wasting manpower and time when current reaction raw materials screening installation based on aluminium ash production accelerator exists the change collecting box, provide the reaction raw materials screening installation based on aluminium ash production accelerator.

In order to achieve the above object, the utility model provides a following technical scheme: reaction raw material screening equipment for producing an accelerating agent based on aluminum ash comprises a screening box, wherein a first feeding hole is formed in the top end of the screening box, a filter screen is fixed inside the screening box, a limiting block is arranged on the outer side of the filter screen, a vibrating motor is arranged at the bottom end of the limiting block, a discharging hole is formed in the screening box and located below the filter screen, a collecting box is arranged below the discharging hole, a crushing box is arranged on one side of the screening box, a second feeding hole is formed in the top end of the crushing box, a crushing roller is arranged inside the second feeding hole, a containing box is arranged at the bottom end of the second feeding hole, a box door is formed in the inner wall of the second feeding hole, a discharging door is formed in the inner wall of the screening box, an electric push rod is arranged at one end of the screening box, a push disc is connected to the output end of the electric push rod, and a small-size rotating motor is arranged at one end of the crushing box, and small-size rotating electrical machines's output is connected with the gear, the below of filter screen is provided with the mounting panel in the top of feed opening, and the terminal surface of mounting panel is connected with the rotor arm, the bottom mounting of rotor arm has the spring beam, and the bottom mounting of spring beam has the blanking cover, the other end of mounting panel is provided with the U template, and the one end of U template is fixed with the dwang that extends to the branch sieve case outside.

Preferably, the output end of the vibration motor penetrates through the limiting block and extends to the filter screen, and the output end of the vibration motor is fixedly connected with the filter screen through a bolt.

Preferably, the number of the collecting boxes is two, and the two groups of collecting boxes are symmetrically distributed in the first feeding hole.

Preferably, the discharge door is rotatably connected with the screening box through a hinge.

Preferably, small-size rotating electrical machines's output and first group the gear passes through the shaft coupling and rotates the connection, the quantity of gear and crushing roller is two sets of, and is two sets of the gear and two sets of crushing roller all rotates through the pivot and connects, and is two sets of the gear passes through gear engagement and connects.

Preferably, the rotor arm is connected through the pivot rotation with the mounting panel, the spring beam is connected through the pivot rotation with the rotor arm, the U template is connected through the pivot rotation with the mounting panel.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the utility model discloses a set up the filter screen, vibrating motor, the feed opening, the collecting box, the mounting panel, the rotor arm, the spring beam, the blanking cover, U template and dwang, after a set of collecting box is fully loaded with, through rotating the dwang, make the dwang drive the U template and rotate, one side of U template can drive the rotor arm rotation this moment, the rotor arm can compress the spring beam at the in-process at, when the rotor arm rotates to the opposite side, the spring beam recovers and promotes the blanking cover to remove from the second feed opening and move to the feed opening of first department, thereby prevent the feed opening of first department from continuing the unloading, aluminium ash is followed the feed opening unloading of second group simultaneously, make aluminium ash get into the second group collecting box, thereby the operator of being convenient for takes out the first group collecting box that is fully loaded with, the problem of lacking the structure of control unloading when effectively solving the change collecting box;

2. the utility model discloses a set up crushing case, No. two feed inlets, hold the case, smash the roller, small-size rotating electrical machines and gear, through starting small-size rotating electrical machines, make small-size rotating electrical machines's output drive gear revolve, thereby make the gear drive two sets of crushing rollers and rotate in opposite directions, put into crushing case through No. two feed inlets with bold aluminium ash this moment, bold aluminium ash is smashed into tiny powder and is fallen into and hold the case under the effect of smashing the roller, effectively solved and lacked the problem that reducing mechanism leads to extravagant manpower and time.

Drawings

FIG. 1 is a block diagram of the present invention;

FIG. 2 is a side view of the sieve box of the present invention;

FIG. 3 is a top view of the crushing box of the present invention;

fig. 4 is a partial enlarged view of the position a of the present invention.

In the figure: 1. a screening box; 2. a first feed inlet; 3. filtering with a screen; 4. a limiting block; 5. a vibration motor; 6. mounting a plate; 7. a rotating arm; 8. a spring lever; 9. a collection box; 10. a crushing box; 11. a second feeding hole; 12. a crushing roller; 13. a containing box; 14. a box door; 15. a discharge door; 16. pushing the disc; 17. an electric push rod; 18. a small-sized rotating electrical machine; 19. a gear; 20. blocking the cover; 21. a feeding port; 22. a U-shaped plate; 23. rotating the rod.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted", "connected" and "disposed" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art. The following describes an embodiment of the present invention according to its overall structure.

The vibration motor (HY), the small-sized rotating motor (ZGA 37 RG) and the electric push rod (GRA-L50) provided by the utility model can be obtained by market or private ordering.

Referring to fig. 1-4, a reaction raw material screening device for producing an accelerating agent based on aluminum ash comprises a screening box 1, a first feeding port 2 is arranged at the top end of the screening box 1, a filter screen 3 is fixed inside the screening box 1, a limiting block 4 is arranged outside the filter screen 3, a vibrating motor 5 is arranged at the bottom end of the limiting block 4, a discharging port 21 is arranged below the filter screen 3 inside the screening box 1, a collecting box 9 is arranged below the discharging port 21, a crushing box 10 is arranged at one side of the screening box 1, a second feeding port 11 is arranged at the top end of the crushing box 10, a crushing roller 12 is arranged inside the second feeding port 11, a containing box 13 is arranged at the bottom end of the second feeding port 11, a box door 14 is arranged on the inner wall of the screening box 1, a discharging door 15 is arranged on the inner wall of the screening box 1, an electric push rod 17 is arranged at one end of the screening box 1, and the output end of the electric push rod 17 is connected with a push disk 16, smash the one end of case 10 and install small-size rotating electrical machines 18, and the output of small-size rotating electrical machines 18 is connected with gear 19, the below of filter screen 3 is provided with mounting panel 6 in the top of feed opening 21, and the terminal surface of mounting panel 6 is connected with rotor arm 7, the bottom mounting of rotor arm 7 has spring beam 8, and the bottom mounting of spring beam 8 has blanking cover 20, the other end of mounting panel 6 is provided with U template 22, and the one end of U template 22 is fixed with the dwang 23 that extends to the branch sieve case 1 outside.

Please refer to fig. 1, an output end of the vibration motor 5 penetrates through the limiting block 4 and extends to the filter screen 3, and the output end of the vibration motor 5 is fixedly connected with the filter screen 3 through a bolt, so that the output end of the vibration motor 5 drives the filter screen 3 to vibrate.

Please refer to fig. 1, the collection boxes 9 are two groups, and the two groups of collection boxes 9 are symmetrically distributed inside the first feeding port 2, so that the two groups of collection boxes 9 can collect aluminum ash in a staggered manner, and the efficiency of collecting aluminum ash is increased.

Please refer to fig. 2, the discharging door 15 is rotatably connected to the sieving box 1 through a hinge, so as to facilitate the opening and closing of the discharging door 15.

Please refer to fig. 3, the output end of the small-sized rotating motor 18 is rotatably connected to the first set of gears 19 through a coupling, the number of the gears 19 and the number of the crushing rollers 12 are two, the two sets of gears 19 are rotatably connected to the two sets of crushing rollers 12 through a rotating shaft, and the two sets of gears 19 are meshed with each other through gears, so that the small-sized rotating motor 18 drives the gears 19 to vibrate, and the gears 19 drive the crushing rollers 12 to rotate.

Please refer to fig. 4, the rotating arm 7 is rotatably connected to the mounting plate 6 via a rotating shaft, the spring rod 8 is rotatably connected to the rotating arm 7 via a rotating shaft, and the U-shaped plate 22 is rotatably connected to the mounting plate 6 via a rotating shaft, so as to facilitate the rotation of the rotating arm 7, the U-shaped plate, and the spring rod 8.

The working principle is as follows: when aluminum ash enters the screening box 1 through the first feeding hole 2, the aluminum ash falls into the filter screen 3, the aluminum ash with the diameter can directly fall into the collection box 9 through the filter screen 3, the aluminum ash with the diameter not matched can stay on the filter screen 3, the vibration motor 5 can be always in an operation state, the aluminum ash can fall more quickly through the vibration of the filter screen 3, the situation that the filter screen 3 is blocked is avoided, when the large aluminum ash on the filter screen 3 is large in quantity, the electric push rod 17 is started, the push disc 16 is driven by the electric push rod 17 to push the large aluminum ash on the filter screen 3 out of the box body through the discharge door 15, when a group of collection boxes 9 are fully loaded, the rotating rod 23 drives the U-shaped plate 22 to rotate, one side of the U-shaped plate 22 can drive the rotating arm 7 to rotate, the rotating arm 7 can compress the spring rod 8 in the rotating process, when the rotating arm 7 rotates to the other side, the spring rod 8 restores and pushes the blanking cover 20 to move away from the second blanking port 21 and move to the first blanking port 21, so that the blanking of the first blanking port 21 is prevented from continuing, meanwhile, aluminum ash is blanked from the second group blanking port 21, the aluminum ash enters the second group collecting box 9, an operator can take out the fully loaded first group collecting box 9 conveniently, the output end of the small rotating motor 18 drives the gear 19 to rotate by starting the small rotating motor 18, so that the gear 19 drives the two groups of crushing rollers 12 to rotate oppositely, at the moment, massive aluminum ash taken out from the discharging door 15 is placed into the crushing box 10 through the second feeding port 11, the massive aluminum ash is crushed into fine powder under the action of the crushing rollers 12 and falls into the containing box 13, and the aluminum ash powder in the containing box 13 is placed inside the screening box 1 to be screened continuously.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention 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.

Claims (6)

1. Reaction raw materials screening equipment based on aluminium ash production accelerator is including dividing sieve case (1), its characterized in that: the material distribution device is characterized in that a first feeding hole (2) is formed in the top end of the screen distribution box (1), a filter screen (3) is fixed inside the screen distribution box (1), a limiting block (4) is arranged on the outer side of the filter screen (3), a vibrating motor (5) is installed at the bottom end of the limiting block (4), a feed opening (21) is formed in the inner portion of the screen distribution box (1) and located below the filter screen (3), a collecting box (9) is arranged below the feed opening (21), a crushing box (10) is arranged on one side of the screen distribution box (1), a second feeding hole (11) is formed in the top end of the crushing box (10), a crushing roller (12) is installed inside the second feeding hole (11), a containing box (13) is arranged at the bottom end of the second feeding hole (11), a box door (14) is formed in the inner wall of the second feeding hole (11), and a discharge door (15) is formed in the inner wall of the screen distribution box (1), and the one end ann of branch sieve case (1) is responsible for has electric putter (17), the output of electric putter (17) is connected with and pushes away set (16), small-size rotating electrical machines (18) are installed to the one end of smashing case (10), and the output of small-size rotating electrical machines (18) is connected with gear (19), the below of filter screen (3) is provided with mounting panel (6) in the top of feed opening (21), and the terminal surface of mounting panel (6) is connected with rotor arm (7), the bottom mounting of rotor arm (7) has spring beam (8), and the bottom mounting of spring beam (8) has blanking cover (20), the other end of mounting panel (6) is provided with U template (22), and the one end of U template (22) is fixed with dwang (23) that extend to the branch sieve case (1) outside.

2. The reaction raw material screening device for producing the accelerator based on the aluminum ash as claimed in claim 1, wherein: the output end of the vibrating motor (5) penetrates through the limiting block (4) and extends to the filter screen (3), and the output end of the vibrating motor (5) is fixedly connected with the filter screen (3) through bolts.

3. The reaction raw material screening device for producing the accelerator based on the aluminum ash as claimed in claim 1, wherein: the number of the collecting boxes (9) is two, and the two groups of collecting boxes (9) are symmetrically distributed in the first feeding hole (2).

4. The reaction raw material screening device for producing the accelerator based on the aluminum ash as claimed in claim 1, wherein: the discharge door (15) is rotatably connected with the screening box (1) through a hinge.

5. The reaction raw material screening device for producing the accelerator based on the aluminum ash as claimed in claim 1, wherein: the output and the first set of small-size rotating electrical machines (18) gear (19) pass through the shaft coupling and rotate to be connected, the quantity of gear (19) and crushing roller (12) is two sets of, and is two sets of gear (19) and two sets of crushing roller (12) all rotate through the pivot and connect, and are two sets of gear (19) are connected through gear engagement.

6. The reaction raw material screening device for producing the accelerator based on the aluminum ash as claimed in claim 1, wherein: the rotating arm (7) is rotatably connected with the mounting plate (6) through a rotating shaft, the spring rod (8) is rotatably connected with the rotating arm (7) through a rotating shaft, and the U-shaped plate (22) is rotatably connected with the mounting plate (6) through a rotating shaft.

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