CN210210896U - Equipment is prepared to silt system aerated concrete thin layer masonry material - Google Patents

Abstract

The utility model discloses an equipment is prepared to silt system aerated concrete thin layer masonry material belongs to the building field. An equipment for preparing aerated concrete thin layer masonry material by sludge comprises: a support mechanism for supporting, further comprising: set up in the wabbler mechanism of supporting mechanism one side, set up the rabbling mechanism that is used for stirring the raw materials on the wabbler mechanism, wabbler mechanism and supporting mechanism swing joint, rabbling mechanism and wabbler mechanism swing joint, the utility model discloses an rabbling mechanism rocks the rabbling mechanism through the wabbler mechanism when the rabbling mechanism stirs the raw materials for raw materials stirring is more even.

Description

Equipment is prepared to silt system aerated concrete thin layer masonry material

Technical Field

The utility model belongs to the technical field of the building, especially, relate to an equipment is prepared to silt system aerated concrete thin layer masonry material.

Background

At present, the main component of the aerated concrete is fly ash or sand, the fly ash or sand has high material cost, and the national needs of economic macro regulation and control and the building industry enters low tide, so the profit of the aerated concrete is greatly reduced.

SUMMERY OF THE UTILITY MODEL

1. Technical problem to be solved

To the silt system aerated concrete thin layer masonry material that exists among the prior art prepare the problem that the equipment stirring is not even enough, the utility model aims to provide an equipment is solved to silt system aerated concrete thin layer masonry material and is prepared equipment stirring problem not even enough by silt system aerated concrete thin layer masonry material.

2. Technical scheme

In order to solve the above problems, the utility model adopts the following technical proposal.

An equipment for preparing aerated concrete thin layer masonry material by sludge comprises: a support mechanism for supporting, further comprising: set up in the wabbler mechanism of supporting mechanism one side, set up the rabbling mechanism who is used for stirring the raw materials on the wabbler mechanism, wabbler mechanism and supporting mechanism swing joint, rabbling mechanism and wabbler mechanism swing joint, the supporting mechanism include the backup pad of vertical setting, backup pad and ground fixed connection, backup pad one side is provided with the bracing piece of the perpendicular backup pad of extending direction, bracing piece suspension end is provided with the loop bar, set up intercommunicating pore and the intercommunicating pore extending direction parallel support board on the parallel ground on the loop bar, wabbler mechanism and loop bar swing joint.

Preferably, wabbler mechanism set up the movable rod in above-mentioned feed through hole including matcing, the intercommunicating pore is stretched out at the movable rod both ends, the notch has been seted up along perpendicular backup pad's direction to movable rod one end, both sides are provided with the rack about the notch, be provided with the gear with rack toothing between the two racks, the gear has the teeth of a cogwheel only on half, gear coaxial coupling has the pivot, pivot suspension end is provided with the swing motor, the swing motor passes through support body and bracing piece fixed connection, the movable rod deviates from the articulated rocking bar that has vertical upwards extension of one end of gear, the dead lever and backup pad fixed connection that perpendicular backup pad was worn to be equipped with on the rocking bar top, the rocking bar can rotate around the dead lever circumferenci.

Preferably, the stirring mechanism comprises a shell arranged at the top end of the swinging rod, the extending direction of the shell is parallel to the length direction of the movable rod, a spherical stirring cavity is arranged at the center of the shell, an installation cavity is also arranged inside one end of the shell, a through hole is arranged between the installation cavity and the stirring cavity, the axial direction of the through hole is parallel to the length direction of the shell, the axial direction of the through hole passes through the spherical center of the stirring cavity, a discharge hole communicated with the bottom of the stirring cavity is also arranged inside the shell, a discharge opening of the discharge hole is positioned at one end of the shell, which is far away from the installation cavity, and a sealing plug is arranged in a matching way on the discharge opening of the discharge hole, a feeding cylinder communicated with the stirring cavity is arranged at the top of the shell, a feeding opening is arranged at the top of the feeding cylinder, a piston is arranged, the one end that the stirring pivot is located the stirring intracavity is provided with the initiative semi-ring, and the initiative semi-ring is symmetrical about the stirring pivot, is provided with the initiative bull stick between the initiative semi-ring both ends, and initiative bull stick center department is provided with the driven bull stick of perpendicular initiative bull stick, and driven bull stick is symmetrical about the initiative bull stick, is connected with driven semi-ring and driven semi-ring both ends and the corresponding connection of driven bull stick both ends on the driven bull stick, the perpendicular plane that driven semi-ring belonged to of initiative bull stick.

3. Has the advantages that:

1. the utility model discloses the motor that sways starts and drives the gear through the pivot, because the gear has the teeth of a cogwheel only on half, so along with gear revolve, the gear drives the movable rod horizontal slip through two racks, and the movable rod drives the rocking bar left and right sides and sways, and the rocking bar drives the rabbling mechanism and sways, makes more even of raw materials stirring through rocking mechanism cooperation rabbling mechanism.

2. The utility model discloses start agitator motor, agitator motor drives the stirring pivot and rotates, and the stirring pivot drives the rotation of initiative semi-ring, and the initiative semi-ring drives initiative bull stick, driven semi-ring and rotates and then stir the mixing material, and wabbler mechanism rocks the rabbling mechanism simultaneously and makes the stirring more even, through initiative semi-ring, driven semi-ring, initiative bull stick, driven bull stick to the all-round stirring of raw materials for the raw materials is stirred more evenly.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the overall structure of the present invention;

FIG. 3 is a schematic view of the connection structure of the rocking mechanism and the stirring mechanism of the present invention;

FIG. 4 is a schematic view of a partial structure of the rocking mechanism of the present invention;

FIG. 5 is a schematic structural view of the stirring mechanism of the present invention;

fig. 6 is a schematic structural view of the stirring mechanism of the present invention.

The reference numbers in the figures illustrate:

10. a support mechanism; 110. a support plate; 120. a support bar; 130. a loop bar; 20. a rocking mechanism; 210. a movable rod; 220. a straight notch; 230. a rack; 240. a gear; 250. a rotating shaft; 260. a swing motor; 270. a rocking bar; 280. fixing the rod; 30. a stirring mechanism; 310. a housing; 311. a stirring chamber; 312. a through hole; 313. a mounting cavity; 314. a discharge opening; 320. a charging barrel; 321. a piston; 330. a stirring motor; 340. a stirring rotating shaft; 350. a driving semi-ring; 360. a driven half ring; 370. an active rotating rod; 380. a driven rotating 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.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "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 simplicity of description, and do not indicate or imply that the mechanism 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.

As shown in fig. 1 to 6, an apparatus for manufacturing aerated concrete thin layer masonry material from sludge includes: the supporting mechanism 10 for supporting further comprises: the device comprises a swing mechanism 20 arranged on one side of a support mechanism 10 and a stirring mechanism 30 arranged on the swing mechanism 20 and used for stirring raw materials, wherein the swing mechanism 20 is movably connected with the support mechanism 10, and the stirring mechanism 30 is movably connected with the swing mechanism 20.

The support mechanism 10 includes a vertically arranged support plate 110, the support plate 110 is fixedly connected with the ground, one side of the support plate 110 is provided with a support rod 120 with an extending direction perpendicular to the support plate 110, a loop bar 130 is arranged at the suspension end of the support rod 120, a communication hole parallel to the ground is formed in the loop bar 130, the extending direction of the communication hole is parallel to the support plate 110, and the swing mechanism 20 is movably connected with the loop bar 130.

The swing mechanism 20 comprises a movable rod 210 which is arranged in the communicating hole in a matching manner, the two ends of the movable rod 210 extend out of the communicating hole, one end of the movable rod 210 is provided with a straight notch 220 along the direction perpendicular to the support plate 110, racks 230 are arranged on the upper side and the lower side of the straight notch 220, a gear 240 meshed with the racks 230 is arranged between the two racks 230, only half of the gear 240 is provided with gear teeth, the gear 240 is coaxially connected with a rotating shaft 250, the suspension end of the rotating shaft 250 is provided with a swing motor 260, the swing motor 260 is fixedly connected with the support rod 120 through a frame body, one end of the movable rod 210, which is far away from the gear 240, is hinged with a swing rod 270 which extends vertically and upwards, the top end of the swing rod 270 is provided with a fixed rod 280 perpendicular to the support plate 110 in a penetrating manner, the fixed; the swing motor 260 is started and drives the gear 240 through the rotating shaft 250, and since only half of the gear 240 has gear teeth, the gear 240 drives the movable rod 210 to slide left and right through the two racks 230 as the gear 240 rotates, the movable rod 210 drives the swing rod 270 to swing left and right, and the swing rod 270 drives the stirring mechanism 30 to swing.

The stirring mechanism 30 comprises a shell 310 arranged at the top end of the swing rod 270, the extending direction of the shell 310 is parallel to the length direction of the movable rod 210, a spherical stirring cavity 311 is arranged at the center of the shell 310, an installation cavity 313 is also arranged inside one end of the shell 310, a through hole 312 is arranged between the installation cavity 313 and the stirring cavity 311, the through hole 312 is axially parallel to the length direction of the shell 310, the through hole 312 axially passes through the spherical center of the stirring cavity 311, a discharge hole 314 communicated with the bottom of the stirring cavity 311 is also arranged inside the shell 310, the discharge opening of the discharge hole 314 is positioned at one end of the shell 310 departing from the installation cavity 313, a sealing plug is arranged in a matching manner on the discharge opening of the discharge hole 314, a feeding cylinder 320 communicated with the stirring cavity 311 is arranged at the top of the shell 310, a feeding opening is arranged at the top of the feeding cylinder 320, a piston 321 is arranged in a matching manner in, the stirring rotating shaft 340 penetrates through the through hole 312 and extends into the stirring cavity 311, one end of the stirring rotating shaft 340, which is positioned in the stirring cavity 311, is provided with a driving half ring 350, the driving half ring 350 is symmetrical relative to the stirring rotating shaft 340, a driving rotating rod 370 is arranged between two ends of the driving half ring 350, a driven rotating rod 380 which is perpendicular to the driving rotating rod 370 is arranged at the center of the driving rotating rod 370, the driven rotating rod 380 is symmetrical relative to the driving rotating rod 370, the driven rotating rod 380 is connected with a driven half ring 360, two ends of the driven half ring 360 are correspondingly connected with two ends of the driven rotating rod 380, and the driving rotating rod 370 is perpendicular to the plane where; silt sand, cement, lime, gypsum powder, aluminum powder and a foam stabilizer are put into a stirring cavity 311 through a feeding cylinder 320 according to the proportion of 65% silt sand, 10% cement, 15% lime, 1% gypsum powder, 7% aluminum powder and 2% foam stabilizer, a stirring motor 330 is started, the stirring motor 330 drives a stirring rotating shaft 340 to rotate, the stirring rotating shaft 340 drives a driving semi-ring 350 to rotate, the driving semi-ring 350 drives a driving rotating rod 370, a driven rotating rod 380 and a driven semi-ring 360 to rotate so as to stir the mixed material, meanwhile, a swing mechanism 20 swings a stirring mechanism 30 to stir more uniformly, the prepared magnesium chloride solution and magnesium oxide are put into the stirring cavity 311 according to the proportion to be stirred, then, the prepared base material, bonding agent, additive and stable master batch are put into the stirring cavity 311 to be stirred, the prepared cement, gypsum powder, water reducer, coagulant, lithium carbonate and fibers are added, and uniformly stirring to obtain the aerated concrete wall material slurry, and discharging the slurry through the discharge hole 314.

The driving half ring 350 and the driven half ring 360 have the same shape and size.

Furthermore, the discharge opening is connected with a brick making die through a hose, and the stirred slurry is solidified into bricks through the brick making die.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (3)

1. An equipment for preparing aerated concrete thin layer masonry material by sludge comprises: support means (10) for supporting, characterized in that it further comprises: set up in rocking mechanism (20) of supporting mechanism (10) one side, set up rabbling mechanism (30) that are used for stirring the raw materials on rocking mechanism (20), rocking mechanism (20) and supporting mechanism (10) swing joint, rabbling mechanism (30) and rocking mechanism (20) swing joint, supporting mechanism (10) including backup pad (110) of vertical setting, backup pad (110) and ground fixed connection, backup pad (110) one side is provided with bracing piece (120) of the perpendicular backup pad of extending direction (110), bracing piece (120) suspension end is provided with loop bar (130), set up intercommunicating pore and the parallel backup pad of intercommunicating pore extending direction (110) on parallel ground on loop bar (130), rocking mechanism (20) and loop bar (130) swing joint.

2. The equipment for preparing the aerated concrete thin-layer masonry material by sludge according to claim 1, is characterized in that: the swing mechanism (20) comprises a movable rod (210) which is arranged in the communicating hole in a matching manner, the two ends of the movable rod (210) extend out of the communicating hole, one end of the movable rod (210) is provided with a straight notch (220) along the direction vertical to the support plate (110), racks (230) are arranged on the upper side and the lower side of the straight notch (220), a gear (240) meshed with the racks (230) is arranged between the two racks (230), only half side of the gear (240) is provided with gear teeth, the gear (240) is coaxially connected with a rotating shaft (250), the suspension end of the rotating shaft (250) is provided with a swing motor (260), the swing motor (260) is fixedly connected with the support rod (120) through a frame body, one end of the movable rod (210) departing from the gear (240) is hinged with a swing rod (270) which extends vertically upwards, the top end of the swing rod (270) penetrates through a fixed rod (280, the swing rod (270) can rotate around the circumferential direction of the fixed rod (280), and the stirring mechanism (30) is arranged at the top end of the swing rod (270).

3. The equipment for preparing the aerated concrete thin-layer masonry material by sludge according to claim 2, is characterized in that: the stirring mechanism (30) comprises a shell (310) arranged on the top end of a swing rod (270), the shell (310) is extended in the direction parallel to the length direction of a movable rod (210), a spherical stirring cavity (311) is formed in the center of the shell (310), a mounting cavity (313) is formed in one end of the shell (310), a through hole (312) is formed between the mounting cavity (313) and the stirring cavity (311), the through hole (312) is axially parallel to the length direction of the shell (310) and axially passes through the spherical center of the stirring cavity (311), a discharge hole (314) communicated with the bottom of the stirring cavity (311) is further formed in the shell (310), the discharge opening of the discharge hole (314) is positioned at one end of the shell (310) deviating from the mounting cavity (313), a sealing plug is arranged in a matching manner with the discharge opening of the discharge hole (314), and a charging barrel (320) communicated with the stirring cavity (311) is arranged at the top of the, the top of the feeding cylinder (320) is provided with a feeding port, a piston (321) is arranged in the feeding port in a matching manner, a stirring motor (330) is arranged in the mounting cavity (313), an output shaft of the stirring motor (330) is connected with a stirring rotating shaft (340) matched with the through hole (312), the stirring rotating shaft (340) penetrates through the through hole (312) and extends into the stirring cavity (311), one end of the stirring rotating shaft (340) positioned in the stirring cavity (311) is provided with a driving semi-ring (350), the driving semi-ring (350) is symmetrical relative to the stirring rotating shaft (340), a driving rotating rod (370) is arranged between the two ends of the driving semi-ring (350), the center of the driving rotating rod (370) is provided with a driven rotating rod (380) vertical to the driving rotating rod (370), the driven rotating rod (380) is symmetrical relative to the driving rotating rod (370), the driven rotating rod (380) is connected with a driven semi-ring (360), and the two, the driving rotating rod (370) is vertical to the plane of the driven half ring (360).

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