CN209552107U - High-effective concrete blender - Google Patents

Abstract

The utility model relates to a kind of high-effective concrete blenders, it includes shell, set on shell side driving device and be connected with driving device and be set to the mixing component in shell, the mixing component includes two driving levers for being rotatably connected on shell two sides, multipair follower lever set on shell two sides, helical blade between two driving levers and multipair follower lever and the backward vane being fixedly arranged on helical blade outer ring surface, the helical blade is opposite with the hand of spiral of backward vane, being equipped between the driving lever and follower lever makes follower lever be followed by the transmission component that driving lever is rotated.The utility model has the effect of improving concrete stirring efficiency.

Description

High-effective concrete blender

Technical field

The utility model relates to the technical fields of blender, more particularly, to a kind of high-effective concrete blender.

Background technique

Concrete two shaft pugmill mixer is mainly used for mixing and stirring for various granular materials.Various powderies can be produced to mix And material.Its aggregate can be wet fly-ash, carbide slurry, ardealite, sandstone, clinker etc..It is mainly used as various standard bricks, sand-lime The matched host machine of the production lines such as brick.It is one of autoclaved fly ash brick, the important equipment in Dinas brickes production process.

In the prior art, the patent document that the application notification number that can refer to is CN103128856A, it discloses a kind of new Type double-horizontal axle concrete-mixer belongs to building trade equipment technical field, it is therefore an objective to provide a kind of novel double-horizontal axle concrete The side of mixing drum assembly is arranged in blender, the transmission device, and Dump gate assembly is provided with below transmission device, It is provided with upper cover above mixing drum assembly, is internally provided with agitating device, agitating device passes through stirring by two main shafts The reduction gearbox being arranged on cylinder assembly one end and transmission device is connect, the other end and the shaft end seal being arranged on the outside of mixing drum assembly And support connection, the lubricating cup being arranged and the fueller and electric appliance assembly of setting connect on the shaft end seal and bearing.

Although prior art among the above has the following deficiencies: the documents and can reduce the work labour of worker And the quality of concrete works is improved, but with the development of present engineering, the amount for the concrete for needing to stir is increasing, and Mesh Double-horizontal-shaft paddle mixing area is small, and stirring efficiency is low, is difficult to meet the requirement of increasing concrete mixing.

Utility model content

The purpose of the utility model is to provide a kind of high-effective concrete blenders for improving concrete stirring efficiency.

The above-mentioned purpose of utility model of the utility model has the technical scheme that

A kind of high-effective concrete blender is connected including shell, set on the driving device of shell side and with driving device And it is set to the mixing component in shell, the mixing component includes two driving levers for being rotatably connected on shell two sides, set on outer The multipair follower lever of shell two sides, the helical blade between two driving levers and multipair follower lever and it is fixedly arranged on helical blade The hand of spiral of backward vane on outer ring surface, the helical blade and backward vane on the contrary, the driving lever and follower lever it Between be equipped with so that follower lever is followed by the transmission component that driving lever is rotated.

By using above-mentioned technical proposal, after concrete plurality of raw materials is transported in shell, driving device works simultaneously Driving lever rotation is driven, driving lever drives follower lever to be rotated around it by transmission component, and helical blade can be by concrete Raw material is moved towards the side of shell, and concrete material can be fallen in backward vane after the stirring by helical blade, instead Concrete material is driven to be stirred to blade, the concrete material dropped into backward vane is reversed blade and drives rotation one Spill after circle towards the other side, respectively to driving lever or driven when such concrete material passes through helical blade and backward vane The two sides of bar are dished out, and material is thus formed a circulations, ensure that the stable operation of stirring blade, the cavity quilt in such shell Completely, concrete material can be sufficiently stirred for driving lever or follower lever filling.

The utility model is further arranged to: support plate, the reversed leaf are installed on the driving lever and follower lever It is installed with the connecting plate being axially arranged along driving lever on the side wall of piece, is offered in the support plate and connecting plate cooperation Fixing groove, the side of the connecting plate stretch out support plate setting, are correspondingly connected with plate extension two sides on the side wall of the support plate Position at be installed with fixed plate, fastening bolt is threaded between fixed plate and connecting plate.

By using above-mentioned technical proposal, backward vane is then led to by the way that connecting plate to be inserted between two fixed plates It crosses fastening bolt to further fix backward vane, to guarantee that backward vane is more stable during stirring, no Shaking can be generated.

The utility model is further arranged to: the transmission component includes being fixedly arranged on the first gear of active boom end and consolidating Set on the second gear of driven boom end, the first gear and second gear intermeshing.

By using above-mentioned technical proposal, driving lever rotates and first gear is driven to rotate, then first gear by with The engagement of second gear drives follower lever to be rotated, relatively stable.

The utility model is further arranged to: the outside of the follower lever is equipped with stabilizer, and multiple second gears are set to It is equipped with internal tooth in stabilizer, in the stabilizer and is intermeshed with second gear, stabilizer is fixedly connected with shell.

By using above-mentioned technical proposal, when follower lever rotation, second gear is carried out around the internal gear of stabilizer Rotation, stabilizer play the role of limit to second gear to prevent follower lever from shifting in rotation.

The utility model is further arranged to: the stabilizer is installed with connector sleeve close to the side of interior of shell, described Link slot is offered in connector sleeve, and closed plate, the closed plate and driving lever and follower lever are rotatably connected in the connector sleeve It is mutually inserted cooperation.

By using above-mentioned technical proposal, closed plate can prevent the concrete material in shell enter first gear and The operation that the two is influenced between second gear, when driving lever and follower lever rotate, closed plate can follow the two to be turned Dynamic, closed plate is set in link slot to prevent closed plate from shifting in rotation.

The utility model is further arranged to: the shell, which corresponds to, is equipped with protective cover, the drive at the position of driving device Dynamic device include the driving motor being fixedly arranged on shell, the first transmission mechanism being connected with driving motor and with the first transmission mechanism The second connected transmission mechanism, first transmission mechanism include the first pulley being fixedly arranged in driving motor shaft, rotation company Connect the rotating bar made in protective cover, the second belt wheel for being fixedly arranged in rotating bar and connection and the skin in first pulley and the second belt wheel Band.

By using above-mentioned technical proposal, driving motor work drives first pulley rotation, and first pulley passes through belt band Dynamic second gear rotation, then second gear drives rotating bar to be rotated, and it is convenient to stablize.

The utility model is further arranged to: second transmission mechanism includes the first bevel gear being fixedly arranged in rotating bar With the second bevel gear being fixedly arranged on driving lever, the first bevel gear and second bevel gear intermeshing.

By using above-mentioned technical proposal, when the second rotating bar rotates in protective cover, first bevel gear rotation and band Dynamic second bevel gear rotation, second bevel gear rotates and driving lever is driven to be rotated, to realize rotating bar and driving lever Vertical-transmission, it is relatively stable.

The utility model is further arranged to: being offered discharge port on the side wall of the shell, is cut with scissors on the side wall of discharge port It is connected to reclaiming plate, bolt is installed on the lateral wall of reclaiming plate, is corresponded on the side wall in outside and offers slot at the position of bolt.

It, will by toggling it in slot and can fix reclaiming plate the plug of bolt by using above-mentioned technical proposal When plug is pushed aside out of slot, driving lever and follower lever rotation can throw away the concrete mixed in shell automatically, more It is convenient.

In conclusion the advantageous effects of the utility model are as follows:

1. the utility model passes through is arranged driving lever and multiple follower levers inside the shell, and between driving lever and follower lever Fixed helical blade and backward vane, to improve the stirring efficiency of concrete；

2. the utility model is installed on driving lever and follower lever by the way that connecting plate is arranged in the two sides of backward vane The fixed plate being affixed with connecting plate is fixed connecting plate by fixed plate to prevent backward vane from shaking in rotation It is dynamic；

3. the power of driving lever is transmitted on follower lever by the utility model by the cooperation of first gear and second gear, It is more stable.

Detailed description of the invention

Fig. 1 is the overall structure diagram of the utility model；

Fig. 2 is the utility model driving device and mixing component structural schematic diagram；

Fig. 3 is the utility model helical blade and backward vane structural schematic diagram；

Fig. 4 is the utility model stabilizer perspective view of the explosion；

Fig. 5 is the structural schematic diagram that the utility model highlights reclaiming plate.

In figure, 1, shell；11, the first feed pipe；12, the second feed pipe；13, stabilizer；131, internal tooth；132, it connects Set；133, link slot；14, closed plate；141, sliding block；15, protective cover；16, reclaiming plate；17, bolt；18, link block；181, it inserts Slot；2, driving device；21, driving motor；22, the first transmission mechanism；221, first pulley；222, rotating bar；223, the second band Wheel；224, belt；23, the second transmission mechanism；231, first bevel gear；232, second bevel gear；3, mixing component；31, actively Bar；311, support plate；312, slot；313, fixed plate；314, fastening bolt；32, follower lever；33, helical blade；331, reversed Blade；332, connecting plate；34, transmission component；341, first gear；342, second gear.

Specific embodiment

The utility model is described in further detail below in conjunction with attached drawing.

As shown in Figure 1, be a kind of high-effective concrete blender disclosed by the utility model, including shell 1, be set to shell 1 The driving device 2 of side and be connected with driving device 2 and be set to shell 1 in mixing component 3.

As shown in Figures 2 and 3, outside mixing component 3 includes two driving levers 31 for being rotatably connected on 1 two sides of shell, is set to The multipair follower lever 32 of 1 two sides of shell, the helical blade 33 between two driving levers 31 and multipair follower lever 32 and fixed The hand of spiral of backward vane 331 on 33 outer ring surface of helical blade, helical blade 33 and backward vane 331 is on the contrary, actively Being equipped between bar 31 and follower lever 32 makes follower lever 32 be followed by the transmission component 34 that driving lever 31 is rotated, and shell 1 is horizontal It is placed on the ground, the top of shell 1 is installed with the first feed pipe 11 and the second feed pipe 12 being vertically arranged, concrete material Enter from the first feed pipe 11 and the second feed pipe 12.

It is installed with circular support plate 311 on driving lever 31 and follower lever 32, is installed on the side wall of backward vane 331 Along the connecting plate 332 of driving lever 31 being axially arranged, the fixing groove cooperated with connecting plate 332 is offered in support plate 311 312, the side of connecting plate 332 is stretched out support plate 311 and is arranged, and is correspondingly connected with 332 extension two sides of plate on the side wall of support plate 311 Position at be installed with fixed plate 313, fastening bolt 314 is threaded between fixed plate 313 and connecting plate 332.

After concrete plurality of raw materials is transported in shell 1, driving device 2 works and driving lever 31 is driven to rotate, main Lever 31 drives follower lever 32 to be rotated around it by transmission component 34, and helical blade 33 can be by concrete material towards outer The side of shell 1 moves, and concrete material can be fallen in backward vane 331 after the stirring by helical blade 33, reversed leaf Piece 331 drives concrete material to be stirred, and the concrete material dropped into backward vane 331 is reversed the drive of blade 331 Rotation one circle after spill towards the other side, such concrete material pass through helical blade 33 and backward vane 331 when respectively to The two sides of driving lever 31 or follower lever 32 are dished out, and material is thus formed a circulations, ensure that the stable operation of stirring blade, this Cavity in sample shell 1 is filled completely by driving lever 31 or follower lever 32, and concrete material can be sufficiently stirred.

Backward vane 331 then passes through fastening bolt 314 by the way that connecting plate 332 to be inserted between two fixed plates 313 Backward vane 331 is further fixed, to guarantee that backward vane 331 is more stable during stirring, will not be produced It is raw to shake.

As shown in Figure 3 and Figure 4, transmission component 34 includes being fixedly arranged on the first gear 341 of 31 end of driving lever and being fixedly arranged on The second gear 342 of 32 end of follower lever, first gear 341 and second gear 342 are intermeshed.The outside of follower lever 32 is equipped with Stabilizer 13, multiple second gears 342 are set in stabilizer 13, be equipped in stabilizer 13 internal tooth 131 and with second gear 342 Intermeshing, stabilizer 13 are fixedly connected with shell 1.Side of the stabilizer 13 inside shell 1 is installed with connector sleeve 132, Offer link slot 133 on the inner sidewall of connector sleeve 132, be rotatably connected to closed plate 14 in connector sleeve 132, closed plate 14 it is outer Sliding block 141 is installed on anchor ring, the sliding of sliding block 141 is connected in link slot 133, closed plate 14 and driving lever 31 and follower lever 32 It is mutually inserted cooperation.

Driving lever 31 rotate simultaneously drive first gear 341 rotate, then first gear 341 by with second gear 342 Engagement drives follower lever 32 to be rotated, relatively stable, and when follower lever 32 rotates, second gear 342 is around stabilizer 13 The wheel of internal tooth 131 rotated, stabilizer 13 plays the role of limit to second gear 342 to preventing follower lever 32 from rotating When shift.

Closed plate 14 can prevent the concrete material in shell 1 from entering between first gear 341 and second gear 342 And the operation of the two is influenced, when driving lever 31 and follower lever 32 rotate, closed plate 14 can follow the two to be rotated, and close Plate 14 is set in link slot 133 to prevent closed plate 14 from shifting in rotation.

As shown in Figure 1 and Figure 5, it is equipped with protective cover 15 at the position of the corresponding driving device 2 of shell 1, driving device 2 includes solid Driving motor 21 on shell 1, the first transmission mechanism 22 being connected with driving motor 21 and with 22 phase of the first transmission mechanism The second transmission mechanism 23 even, the first transmission mechanism 22 include the first pulley 221 being fixedly arranged in 21 shaft of driving motor, rotation Connect the rotating bar 222 made in protective cover 15, the second belt wheel 223 being fixedly arranged in rotating bar 222 and connection and first pulley 221 With the belt 224 on the second belt wheel 223.Second transmission mechanism 23 includes 231 He of first bevel gear being fixedly arranged in rotating bar 222 The second bevel gear 232 being fixedly arranged on driving lever 31, first bevel gear 231 and second bevel gear 232 are intermeshed.

Driving motor 21 works, and first pulley 221 is driven to rotate, and first pulley 221 drives second gear by belt 224 342 rotations, then second gear 342 drives rotating bar 222 to be rotated, and it is convenient to stablize, when the second rotating bar 222 is in protective cover In 15 when rotation, first bevel gear 231 rotates and second bevel gear 232 is driven to rotate, and second bevel gear 232 rotates and drives master Lever 31 is rotated, so that the vertical-transmission of rotating bar 222 Yu driving lever 31 is realized, it is relatively stable.

Discharge port is offered on the side wall of shell 1, and reclaiming plate 16, the outside of reclaiming plate 16 are hinged on the side wall of discharge port It is installed with bolt 17 on wall, is corresponded on the side wall in outside and offers slot 181 at the position of bolt 17.Pass through inserting bolt 17 Head toggles it in slot 181 can be fixed by reclaiming plate 16, when plug is pushed aside out of slot 181, driving lever 31 and follower lever 32 rotations can throw away the concrete mixed in shell 1 automatically, more convenient.

The embodiment of present embodiment is the preferred embodiment of the utility model, and not limitation is originally practical new according to this The protection scope of type, therefore: the equivalence changes that all structures, shape, principle according to the utility model are done should all be covered by practical Within novel protection scope.

Claims (8)

1. a kind of high-effective concrete blender including shell (1), is set to the driving device (2) of shell (1) side and fills with driving It sets (2) to be connected and be set to the mixing component (3) in shell (1), it is characterised in that: the mixing component (3) includes rotation connection Two driving levers (31) in shell (1) two sides, are set to two driving levers at the multipair follower lever (32) set on shell (1) two sides (31) helical blade (33) between multipair follower lever (32) and the reversed leaf being fixedly arranged on helical blade (33) outer ring surface Piece (331), the hand of spiral of the helical blade (33) and backward vane (331) is on the contrary, the driving lever (31) and follower lever (32) being equipped between makes follower lever (32) be followed by the transmission component (34) that driving lever (31) is rotated.

2. high-effective concrete blender according to claim 1, it is characterised in that: the driving lever (31) and follower lever (32) it is installed on support plate (311), the axial direction along driving lever (31) is installed on the side wall of the backward vane (331) The connecting plate (332) of setting offers the fixing groove (312) with connecting plate (332) cooperation on the support plate (311), described Support plate (311) setting is stretched out in the side of connecting plate (332), is correspondingly connected with plate (332) on the side wall of the support plate (311) and stretches It is installed at the position of portion two sides out fixed plate (313), is threaded with fastening between fixed plate (313) and connecting plate (332) Bolt (314).

3. high-effective concrete blender according to claim 1, it is characterised in that: the transmission component (34) includes fixed In driving lever (31) end first gear (341) and be fixedly arranged on the second gear (342) of follower lever (32) end, described first Gear (341) and second gear (342) intermeshing.

4. high-effective concrete blender according to claim 3, it is characterised in that: the outside of the follower lever (32) is equipped with Stabilizer (13), multiple second gears (342) are set in stabilizer (13), the stabilizer (13) and second gear (342) It is intermeshed and stabilizer (13) is fixedly connected with shell (1).

5. high-effective concrete blender according to claim 4, it is characterised in that: the stabilizer (13) is close to shell (1) internal side is installed with connector sleeve (132), offers link slot (133), the connector sleeve in the connector sleeve (132) (132) it is rotatably connected to closed plate (14) in, the closed plate (14) is mutually inserted and matches with driving lever (31) and follower lever (32) It closes.

6. high-effective concrete blender according to claim 1, it is characterised in that: the corresponding driving device of the shell (1) (2) at position be equipped with protective cover (15), the driving device (2) include be fixedly arranged on shell (1) driving motor (21), with The second transmission mechanism (23) driving motor (21) connected the first transmission mechanism (22) and be connected with the first transmission mechanism (22), First transmission mechanism (22) includes the first pulley (221) being fixedly arranged in driving motor (21) shaft, is rotatablely connected and makes guarantor Rotating bar (222) in shield (15), the second belt wheel (223) being fixedly arranged on rotating bar (222) and connection and first pulley (221) belt (224) and on the second belt wheel (223).

7. high-effective concrete blender according to claim 6, it is characterised in that: second transmission mechanism (23) includes The first bevel gear (231) being fixedly arranged on rotating bar (222) and the second bevel gear (232) being fixedly arranged on driving lever (31), institute State first bevel gear (231) and second bevel gear (232) intermeshing.

8. high-effective concrete blender according to claim 1, it is characterised in that: opened up on the side wall of the shell (1) There is discharge port, be hinged on the side wall of discharge port reclaiming plate (16), bolt (17) is installed on the lateral wall of reclaiming plate (16), outside It is corresponded on the side wall of side and offers slot (181) at the position of bolt (17).