CN112140333A - Concrete mixing equipment for hydraulic engineering - Google Patents

Abstract

The invention discloses concrete stirring equipment for hydraulic engineering, which structurally comprises a stirring mechanism, a discharge opening, a power shaft and a material carrying bin, wherein the stirring mechanism is fixedly embedded under the material carrying bin; rabbling mechanism includes the puddler, the hatch door, the apparatus further comprises a rotating shaft, mix the storehouse, puddler lower extreme off-plate surface inlays the solid connection pivot, the outside up end at mixing the storehouse is being installed to the hatch door inlay block, the inboard terminal surface down at rabbling mechanism is installed to the block is inlayed in the pivot, mix the storehouse and be located under the year storehouse, because the extension piece of puddler is the tilting design with the thrust groove, and support through the first spring of inlaying solid installation both ends about the second pivot in the interference mechanism, make the blade of installing in the loose ring outside keep constantly with mixing the laminating degree in storehouse under the elastic support of first spring at the pivoted in-process.

Description

Concrete mixing equipment for hydraulic engineering

Technical Field

The invention belongs to the field of concrete equipment, and particularly relates to concrete stirring equipment for hydraulic engineering.

Background

The concrete mixing equipment is characterized in that cement ash, water and sand are well mixed in a certain proportion and then poured into the equipment, a mixing barrel in the equipment is utilized to fully mix the mixture to obtain a viscous concrete mixture, and the viscous concrete mixture is poured into a construction site through a discharge port and is allowed to stand for a period of time to solidify.

Based on the findings of the inventor, the following defects mainly exist in the prior art, such as: when pouring the raw and other materials of a certain proportion into concrete mixing equipment, because the agitator has adopted the tilting installation that comparatively makes things convenient for the row material and is equipped with the interval between puddler and the section of thick bamboo wall, lead to the inclination of a large amount of raw and other materials accumulations at the bottom of agitator in-process of stirring, when utilizing the puddler to stir the material, partial heavier stone of quality deposits always in the corner can not be stirred with all the other materials together.

Therefore, a concrete mixing device for hydraulic engineering needs to be provided.

Disclosure of Invention

In order to solve the technical problem that when raw materials in a certain proportion are poured into concrete stirring equipment, the stirring barrel is installed in an inclined mode and a distance is reserved between the stirring rod and the barrel wall, so that a large amount of raw materials are accumulated at the inclined angle of the bottom end of the stirring barrel in the stirring process, and when the stirring rod is used for stirring the materials, partial heavy stones are always deposited at corners and cannot be stirred together with other materials.

The invention relates to a concrete mixing device for hydraulic engineering, which is achieved by the following specific technical means: the stirring mechanism is embedded and fixedly arranged under the material carrying bin, the material discharging opening is embedded and clamped and arranged under the material carrying bin, the power shaft is movably clamped and arranged under the material carrying bin, and the material carrying bin is positioned above the left side of the material discharging opening; rabbling mechanism includes puddler, hatch door, pivot, mixes the storehouse, the terminal surface outside is inlaying fixedly under the puddler and is being connected the pivot, the block is inlayed to the hatch door and is installed at the outside up end that mixes the storehouse, the block is inlayed in the pivot and installs terminal surface under rabbling mechanism's inboard, mix the storehouse and be located and carry the storehouse under.

Wherein, the puddler includes extension piece, thrust slot, mosaic block, interference mechanism, the extension piece is inlayed and is installed directly over the thrust slot, the thrust slot is inlayed the block and is installed directly over interference mechanism, the mosaic block is inlayed and is connected under interference mechanism, interference mechanism is located under the extension piece, interference mechanism is equipped with inside and outside two-layer.

The interference mechanism comprises a movable ring, a closing mechanism, a second rotating shaft, blades and a first spring, wherein the movable ring is uniformly installed on the end face of the outer side of the second rotating shaft, the closing mechanism is symmetrically installed on the left side and the right side of the second rotating shaft, the upper end and the lower end of the second rotating shaft are fixedly connected with the first spring in an embedded mode, the blades are attached to the end face of the outer side of the movable ring, the end face of the outer side of the first spring is embedded in the clamping mode and installed on the end face of the inner side of the movable ring, and the blades are designed in a segmented.

The closing mechanism comprises an embedded magnetic block, a second spring, a ball and a sliding rail, the embedded magnetic block is fixedly installed on the outer end face of the left side of the second spring in an embedded mode, the second spring is embedded and clamped on the inner side end face of the sliding rail, the upper end face of the ball is installed on the inner side end face of the movable ring in a welded mode, the sliding rail is embedded on the inner side end face of the movable ring, and the magnetic pole of the embedded magnetic block is opposite to the magnetic pole of the ball.

The ball comprises a connecting block, a repulsive magnetic ball, a folding rubber sheet and an embedding block, wherein the connecting block is embedded and clamped on the end face of the right side of the repulsive magnetic ball, the repulsive magnetic ball is movably clamped on the end face of the inner side of the sliding rail, the folding rubber sheet is embedded and fixedly arranged on the surface of the inner end of the outer layer of the movable ring, the embedding block is symmetrically arranged at the upper end and the lower end of the folding rubber sheet and is connected with the movable ring, and the tail end of the connecting block is connected to the lower end of the right side of the folding rubber sheet.

The blade is including lifting up mechanism, leakage port, inlay solid board, movable vane, it links firmly movable vane to lift up mechanism right side terminal surface and inlay, the leakage port inlays and locates the inner left surface of blade, inlay solid board and inlay solid and install terminal surface under the blade and be connected with the movable ring, movable vane activity block is installed in the right side direction of leakage port, the leakage port adopts the ladder formula to gather together the design inwards, and movable vane establishes to the inclined plane that the slope rises gradually.

The lifting mechanism comprises a third rotating shaft, a second embedded block, a rotating drum and a third spring, the third rotating shaft is movably clamped and connected with the movable blade, the upper end face of the right side of the second embedded block is embedded with the rotating drum, the rotating drum is embedded and clamped with the inner side end face of the movable blade, the third spring is fixedly arranged above the right side of the rotating drum in front, and the lifting mechanism is in an inclined design at the connecting end face of the rotating drum and the movable blade.

Compared with the prior art, the invention has the following beneficial effects:

1. because the extension piece of puddler is the tilting design with the promotion groove, and supports through the first spring of inlaying solid installation both ends about the second pivot in the interference mechanism, makes the blade of installing in the activity ring outside constantly keep with the laminating degree in mixed storehouse under the elastic support of first spring at the pivoted in-process.

2. Because the left end face of the movable blade is connected with the rotary drum through the third rotating shaft, and the inner end face of the movable blade is connected through the third spring, the movable blade can be obliquely and upwards swung by the third rotating shaft and the rotary drum as a swinging point in the working state, the floating height of the mixture is increased, and the long-time sedimentation of materials in the inclined angle of the inner side of the stirring mechanism is avoided.

Drawings

Fig. 1 is a schematic view of the overall structure of a concrete mixing plant for hydraulic engineering according to the present invention.

Fig. 2 is a schematic structural diagram of a stirring mechanism of a concrete stirring device for hydraulic engineering.

Fig. 3 is a schematic structural diagram of a mixing rod of concrete mixing equipment for hydraulic engineering.

Fig. 4 is a schematic structural diagram of an interference mechanism of a concrete stirring device for hydraulic engineering.

Fig. 5 is a schematic structural diagram of a concrete mixing equipment closing mechanism for hydraulic engineering.

FIG. 6 is a schematic structural diagram of a ball of a concrete mixing plant for hydraulic engineering according to the present invention.

FIG. 7 is a schematic structural diagram of a blade of a concrete mixing device for hydraulic engineering according to the present invention.

Fig. 8 is a schematic structural diagram of a lifting mechanism of a concrete mixing plant for hydraulic engineering.

In the figure: a stirring mechanism-1, a discharge port-2, a power shaft-3, a material carrying bin-4, a stirring rod-11, a cabin door-12, a rotating shaft-13, a mixing bin-14, an extension sheet-111, a pushing groove-112, an embedding block-113, an interference mechanism-114, a movable ring-141, a closing mechanism-142, a second rotating shaft-143, a blade-144, a first spring-145, an embedded magnetic block-421, a second spring-422, a ball-423, a sliding rail-424, a connecting block-231, a repulsive magnetic ball-232, a folding rubber sheet-233, an embedding block-234, a lifting mechanism-441, a leakage port-442, an embedding plate-443, a movable blade-444, a third rotating shaft-411, a second embedding block-412, a lifting mechanism-234, a lifting mechanism-441, a leakage port-443, a movable blade-444, A drum-413 and a third spring-414.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

example 1:

as shown in figures 1 to 6:

the invention provides concrete mixing equipment for hydraulic engineering, which structurally comprises a mixing mechanism 1, a discharge outlet 2, a power shaft 3 and a material carrying bin 4, wherein the mixing mechanism 1 is fixedly embedded under the material carrying bin 4, the discharge outlet 2 is embedded and clamped under the material carrying bin 4, the power shaft 3 is movably clamped and installed under the material carrying bin 4, and the material carrying bin 4 is positioned above the left side of the discharge outlet 2; rabbling mechanism 1 includes puddler 11, hatch door 12, pivot 13, mixes storehouse 14, 11 terminal surface outside of the terminal surface of puddler is inlaying and is being connected pivot 13, hatch door 12 is inlayed the block and is installed at the outside up end that mixes storehouse 14, the terminal surface under the inboard at rabbling mechanism 1 is installed to the block is inlayed in pivot 13, mix storehouse 14 and be located under year feed bin 4.

Wherein, puddler 11 includes extension piece 111, promotion groove 112, mosaic block 113, interference mechanism 114, extension piece 111 inlays solid the installation directly over promotion groove 112, promotion groove 112 inlays the block and installs directly over interference mechanism 114, mosaic block 113 inlays solid the connection under interference mechanism 114, interference mechanism 114 is located under extension piece 111, interference mechanism 114 is equipped with two-layer inside and outside, and is equipped with the interval before this inlayer, can form and pull the space that the extension was filled in mixing the storehouse 14.

The interference mechanism 114 comprises a movable ring 141, a closing mechanism 142, a second rotating shaft 143, a blade 144 and a first spring 145, the movable ring 141 is uniformly installed on the outer end face of the second rotating shaft 143, the closing mechanism 142 is symmetrically installed on the left side and the right side of the second rotating shaft 143, the upper end and the lower end of the second rotating shaft 143 are fixedly embedded in the first spring 145, the blade 144 is attached to the outer end face of the movable ring 141, the outer end face of the first spring 145 is embedded in the inner end face of the movable ring 141, the blade 144 is designed in a sectional tilting manner, and the mixed material can be rolled up upwards through the outer contour in the rotating process, so that precipitation is avoided.

The closing mechanism 142 comprises an embedded magnetic block 421, a second spring 422, a ball 423 and a sliding rail 424, the embedded magnetic block 421 is embedded and fixedly installed on the outer end face of the left side of the second spring 422, the second spring 422 is embedded and clamped and installed on the inner side end face of the sliding rail 424, the upper end face of the ball 423 is installed on the inner side end face of the movable ring 141 through welding, the sliding rail 424 is embedded and arranged on the inner side end face of the movable ring 141, the magnetic poles of the embedded magnetic block 421 are opposite to the magnetic poles of the ball 423, the two can keep an effective distance when the two are excessively close to each other, and damage to equipment is avoided.

Wherein, ball 423 includes connecting block 231, repulsion magnetic ball 232, folding rubber sheet 233, inlays solid piece 234, connecting block 231 inlays the block and installs the right side terminal surface at repulsion magnetic ball 232, repulsion magnetic ball 232 activity block is installed at the medial surface of slide rail 424, folding rubber sheet 233 inlays solid and installs the surface in the outer inner of activity ring 141, inlay solid piece 234 symmetry and install the upper and lower both ends at folding rubber sheet 233, and be connected with activity ring 141, connecting block 231's end connection is at the right side lower extreme of folding rubber sheet 233, can make it form the parcel to the right side extension folding rubber sheet 233 length diameter when repulsion magnetic ball 232 atress is dragged.

The specific use mode and function of the embodiment are as follows:

in the invention, after prepared materials are poured into a mixing bin 14 through a hatch 12, a rotating shaft 13 in a stirring mechanism 1 is driven to rotate by controlling the rotation of a power shaft 3, so that the stirring rod 11 is driven to stir the materials in the mixing bin 14 in the rotating process, as an extension sheet 111 of the stirring rod 11 and a pushing groove 112 are in an inclined design, and an interference mechanism 114 is supported by first springs 145 fixedly installed at the upper end and the lower end of a second rotating shaft 143, a blade 144 installed at the outer side of a movable ring 141 keeps the attaching degree with the mixing bin 14 under the elastic support of the first springs 145 in the rotating process, and a ball 423 fixedly installed in the movable ring 141 slides in a sliding rail 424 while sliding, a rubber sheet 233 is pulled and folded rightwards through a connecting block 231 to wrap the connecting end faces of an inner movable ring 141 and an outer movable ring 141, can effectively ensure that the stirring rod 11 can avoid the material precipitation in the inclination angle of the mixing bin 14 in the rotating process, and avoid the blockage between the connecting end surfaces by the material.

Example 2:

as shown in fig. 7 to 8: the blade 144 includes a lifting mechanism 441, a leakage port 442, an embedding plate 443, and a movable blade 444, the right end face of the lifting mechanism 441 is embedded and fixedly connected with the movable blade 444, the leakage port 442 is embedded and arranged on the left side face of the inner end of the blade 144, the embedding plate 443 is embedded and fixedly arranged on the lower end face of the blade 144 and connected with the movable ring 141, the movable blade 444 is movably clamped and arranged on the right side of the leakage port 442, the leakage port 442 adopts a ladder-type inward gathering design, and the movable blade 444 is an inclined face with a gradually rising slope, so that when the blade 444 is used for stirring, part of materials can flow downwards through the leakage block 442, and the flowing and stirring distance is increased.

The lifting mechanism 441 includes a third rotating shaft 411, a second embedded and fixed block 412, a rotating drum 413, and a third spring 414, the third rotating shaft 411 is movably connected with the movable blade 444 in an embedded manner, the upper end surface of the right side of the second embedded and fixed block 412 is installed with the rotating drum 413 in an embedded manner, the rotating drum 413 is embedded and fixed with the inner end surface of the movable blade 444 in an embedded manner, the third spring 414 is installed above the right side of the rotating drum 413 in a front manner, the lifting mechanism 441 adopts an inclined design at the connecting end surface of the rotating drum 413 and the movable blade 444, and when the lifting mechanism is elastically supported by the third spring 414, the movable blade 444 can be obliquely lifted upwards.

The specific use mode and function of the embodiment are as follows:

in the process of stirring, the movable blade 444 adopts a three-section type grounded lifting design, so that materials can be rolled up along the movable blade 444 in the process of stirring, and partial materials can flow downwards along the leakage port 442 fixedly installed on the inner side surface of the upper end of the movable blade 444 to be stirred again, because the left end surface of the movable blade 444 is connected with the rotating drum 413 through the third rotating shaft 411, and because the inner end surface of the movable blade 444 is connected through the third spring 414, the movable blade 444 can be obliquely swung upwards by taking the third rotating shaft 411 and the rotating drum 413 as a swinging point in a working state, the floating height of the mixture is increased, and the long-time precipitation of the materials in the inclined angle of the inner side of the stirring mechanism 1 is avoided.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention to achieve the above technical effects.

Claims (7)

1. A concrete mixing device for hydraulic engineering structurally comprises a mixing mechanism (1), a discharge outlet (2), a power shaft (3) and a material carrying bin (4), wherein the mixing mechanism (1) is fixedly embedded under the material carrying bin (4), the discharge outlet (2) is embedded, clamped and installed under the material carrying bin (4), the power shaft (3) is movably clamped and installed under the material carrying bin (4), and the material carrying bin (4) is positioned above the left side of the discharge outlet (2); the structure includes:

rabbling mechanism (1) includes puddler (11), hatch door (12), pivot (13), mixes storehouse (14), puddler (11) end off-plate surface is inlaying and is being connected pivot (13), the block is installed at the outside up end that mixes storehouse (14) is inlayed in hatch door (12), the inboard terminal surface down of installing in rabbling mechanism (1) is inlayed to pivot (13), mix storehouse (14) and be located under year feed bin (4).

2. The concrete mixing equipment for the water conservancy project according to claim 1, wherein the mixing rod (11) comprises an extension piece (111), a pushing groove (112), an embedding block (113) and an interference mechanism (114), the extension piece (111) is embedded and fixedly installed right above the pushing groove (112), the pushing groove (112) is embedded and clamped and installed right above the interference mechanism (114), the embedding block (113) is embedded and fixedly connected right below the interference mechanism (114), and the interference mechanism (114) is located right below the extension piece (111).

3. The concrete mixing equipment for the hydraulic engineering according to claim 2, wherein the interference mechanism (114) comprises a movable ring (141), a closing mechanism (142), a second rotating shaft (143), blades (144) and a first spring (145), the movable ring (141) is uniformly installed on the outer side end face of the second rotating shaft (143), the closing mechanism (142) is symmetrically installed on the left side and the right side of the second rotating shaft (143), the upper end and the lower end of the second rotating shaft (143) are fixedly connected with the first spring (145) in an embedded mode, the blades (144) are connected to the outer side end face of the movable ring (141) in an attached mode, and the outer side end face of the first spring (145) is installed on the inner side end face of the movable ring (141) in an embedded and clamped mode.

4. The concrete mixing equipment for the hydraulic engineering as claimed in claim 3, wherein the closing mechanism (142) comprises an embedded magnetic block (421), a second spring (422), a ball (423) and a sliding rail (424), the embedded magnetic block (421) is embedded and fixedly installed on the outer end face of the left side of the second spring (422), the second spring (422) is embedded and clamped and installed on the inner end face of the sliding rail (424), the upper end face of the ball (423) is installed on the inner end face of the movable ring (141) through welding, and the sliding rail (424) is embedded and installed on the inner end face of the movable ring (141).

5. The concrete mixing equipment for the hydraulic engineering as claimed in claim 4, wherein the ball (423) comprises a connecting block (231), a repulsive magnetic ball (232), a folding rubber sheet (233) and an embedding block (234), the connecting block (231) is embedded, clamped and installed on the right side end face of the repulsive magnetic ball (232), the repulsive magnetic ball (232) is movably clamped and installed on the inner side end face of the sliding rail (424), the folding rubber sheet (233) is embedded and installed on the outer layer inner end surface of the movable ring (141), and the embedding block (234) is symmetrically installed at the upper end and the lower end of the folding rubber sheet (233) and connected with the movable ring (141).

6. The concrete mixer for water conservancy projects according to claim 3, wherein the blade (144) comprises a lifting mechanism (441), a leakage opening (442), an embedding plate (443) and a movable blade (444), the right end face of the lifting mechanism (441) is embedded and fixed with the movable blade (444), the leakage opening (442) is embedded and arranged on the left side face of the inner end of the blade (144), the embedding plate (443) is embedded and fixed on the lower end face of the blade (144) and connected with the movable ring (141), and the movable blade (444) is movably embedded and fixed on the right side of the leakage opening (442).

7. The concrete mixing equipment for the water conservancy project according to claim 6, wherein the lifting mechanism (441) comprises a third rotating shaft (411), a second embedded block (412), a rotating drum (413) and a third spring (414), the third rotating shaft (411) is movably connected with the movable blade (444) in a clamped mode, the rotating drum (413) is embedded and mounted on the upper end face of the right side of the second embedded block (412), the rotating drum (413) is embedded and clamped on the inner side end face of the movable blade (444), and the third spring (414) is fixedly mounted above the right side of the rotating drum (413).

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