CN213890582U - Building engineering is with coaxial reverse concrete mixing mechanism - Google Patents

Abstract

The utility model discloses a building engineering includes with coaxial reversal concrete mixing mechanism: the utility model discloses a stirring storehouse, including basic support, the cat ladder of stirring storehouse one side with basic support fixed connection's stirring storehouse fixed mounting, fixed mounting is at the driving motor of stirring storehouse other one side, grafting driving motor's drive working shaft, cup joint the drive input wheel of drive working shaft, the drive wheel of being connected with the drive input wheel transmission, the drive gear group of grafting drive wheel, the reversal drive gear group of cup jointing drive gear group, the stirring unit of being connected with reversal drive gear group, and fixed mounting blocks the subassembly in stirring storehouse bottom. The utility model relates to a reverse drive gear group drives the outer stirring rake in the stirring unit and carries out the antiport with interior stirring rake, and then accomplishes the stirring work to the concrete, and outer stirring rake carries out the antiport with interior stirring rake and will form reverse effort in the stirring storehouse, and then must be more even when stirring the concrete, and speed is more swift.

Description

Building engineering is with coaxial reverse concrete mixing mechanism

Technical Field

The utility model relates to a concrete mixing mechanism specifically is a building engineering is with coaxial reversal concrete mixing mechanism.

Background

Concrete mixing is an operation method for uniformly mixing cement, lime, water and other materials. Concrete mixing is divided into two categories: manually and mechanically stirring the water. The concrete mixing plant is widely applied to construction projects of industry, agriculture, traffic, national defense, water conservancy, municipal administration and the like in China, and the demand is increasing continuously.

The mud concrete mixing plant is widely applied to construction projects of industry, agriculture, traffic, national defense, water conservancy, municipal administration and the like in China, and the demand is increasing continuously. Although the domestic concrete mixing equipment is continuously innovated and advanced on the basis of referring to foreign products and the technical level is gradually improved, the research on the batching process is not sufficient for the whole mixing plant.

However, the existing concrete mixing mechanism is basically designed with a single same-direction mixing mechanism, and the single same-direction mixing mechanism does not form a reverse acting force in the mixing bin, so that the effect of mixing concrete is not ideal, the condition of uneven mixing of concrete is easy to occur, and the mixing efficiency is influenced.

SUMMERY OF THE UTILITY MODEL

Utility model purpose: the utility model provides a coaxial reversal concrete mixing mechanism for building engineering to solve the above-mentioned problem that prior art exists.

The technical scheme is as follows: a coaxial inversion concrete mixing mechanism for construction engineering, comprising:

the stirring device comprises a basic bracket, a stirring bin fixedly connected with the basic bracket, a ladder stand fixedly arranged on one side of the stirring bin, a driving motor fixedly arranged on the other side of the stirring bin, a driving working shaft inserted with the driving motor, a driving input wheel sleeved with the driving working shaft, a driving wheel in transmission connection with the driving input wheel, a transmission gear set inserted with the driving wheel, a reverse driving gear set sleeved with the transmission gear set, a stirring unit connected with the reverse driving gear set, and a blocking component fixedly arranged at the bottom of the stirring bin;

the reverse driving gear set comprises a reverse driving first gear sleeved with the transmission gear set, a reverse driving second gear and a reverse driving third gear which are meshed with the reverse driving first gear, a second gear shaft inserted with the reverse driving second gear, and a third gear shaft inserted with the reverse driving third gear; the third gear shaft is sleeved with the second gear shaft.

In a further embodiment, the stirring unit comprises an outer stirring paddle fixedly connected with the third gear shaft and an inner stirring paddle fixedly connected with the second gear shaft, and the outer stirring paddle and the inner stirring paddle are designed to form reverse rotation mainly for forming the outer stirring paddle and the inner stirring paddle, so that reverse acting force is formed in the stirring bin, and concrete is stirred more rapidly and uniformly.

In a further embodiment, a drive belt is provided between the drive input wheel and the drive wheel.

In a further embodiment, the transmission gear set comprises a driving shaft inserted into the driving wheel, an input gear sleeved on the driving shaft, a driving transmission gear meshed with the input gear, and a driving transmission shaft inserted into the driving transmission gear.

In a further embodiment, the drive transmission shaft is inserted to reversely drive the first gear; and a feeding port is arranged at the top of the stirring bin.

In a further embodiment, stop the subassembly include with stirring storehouse fixed connection block, with stop the articulated cylinder that blocks of connecting block, peg graft stop the cylinder block the telescopic link, with stop the articulated pivot that blocks of telescopic link, with block the articulated piece that blocks of pivot, peg graft block the plug-in spindle of blockking, and cup joint block the plug-in spindle and with stirring storehouse fixed connection's the fixed block that blocks, the design blocks the subassembly mainly in order to accomplish the unloading to the concrete and block, when stirring unit during operation, it will be airtight to stop the subassembly this moment, blocks the stirring storehouse, when stirring unit accomplishes work, the concrete need unload, has at this moment to stop the subassembly and abandons the work that blocks the stirring storehouse, and then accomplishes the work of unloading to the concrete.

Has the advantages that: the utility model discloses a building engineering is with coaxial reverse rotation concrete mixing mechanism, the utility model relates to a reverse drive gear group drives the outer stirring rake in the stirring unit and carries out the antiport with interior stirring rake, and then accomplishes the stirring work to the concrete, and outer stirring rake carries out the antiport with interior stirring rake and will form reverse effort in the stirring storehouse, and then must be more even when stirring the concrete, and speed is more swift.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic view of the transmission gear set of the present invention.

Fig. 3 is a schematic view of a reverse drive gear set according to the present invention.

Fig. 4 is a schematic view of the stirring unit of the present invention.

Fig. 5 is a schematic view of the blocking assembly of the present invention.

The reference signs are: the device comprises a basic support 1, a stirring bin 2, a feeding port 3, a driving motor 4, a driving belt 5, a driving wheel 6, a driving shaft 61, an input gear 62, a driving transmission gear 63, a driving transmission shaft 64, a blocking component 7, a blocking connecting block 71, a blocking cylinder 72, a blocking telescopic rod 73, a blocking rotating shaft 74, a blocking block 75, a blocking plug-in shaft 76, a blocking fixed block 77, a ladder stand 8, a reverse driving first gear 81, a reverse driving second gear 82, a reverse driving third gear 83, a third gear shaft 84, a second gear shaft 85, an outer stirring paddle 91 and an inner stirring paddle 92.

Detailed Description

Through research and analysis of the applicant, the reason for the problem (the existing concrete stirring mechanism has an unsatisfactory stirring effect) is that the existing concrete stirring mechanism is basically designed with a single homodromous stirring mechanism, and the single homodromous stirring mechanism does not form a reverse acting force in a stirring bin, so that the effect of stirring concrete is not ideal, the condition of uneven concrete stirring is easy to occur, and the stirring efficiency is influenced; and the utility model relates to a reverse drive gear group drives the outer stirring rake in the stirring unit and carries out the antiport with interior stirring rake, and then accomplishes the stirring work to the concrete, and outer stirring rake carries out the antiport with interior stirring rake and will form reverse effort in the stirring storehouse, and then must be more even when stirring the concrete, and speed is more swift.

A coaxial inversion concrete mixing mechanism for construction engineering, comprising: the device comprises a basic support 1, a stirring bin 2, a feeding port 3, a driving motor 4, a driving belt 5, a driving wheel 6, a driving shaft 61, an input gear 62, a driving transmission gear 63, a driving transmission shaft 64, a blocking component 7, a blocking connecting block 71, a blocking cylinder 72, a blocking telescopic rod 73, a blocking rotating shaft 74, a blocking block 75, a blocking plug-in shaft 76, a blocking fixed block 77, a ladder stand 8, a reverse driving first gear 81, a reverse driving second gear 82, a reverse driving third gear 83, a third gear shaft 84, a second gear shaft 85, an outer stirring paddle 91 and an inner stirring paddle 92.

Wherein, stirring storehouse 2 with 1 fixed connection of basic support, cat ladder 8 sets up one side of stirring storehouse 2, driving motor 4 sets up one side in addition of stirring storehouse 2, the grafting of drive working shaft driving motor 4, the drive input wheel cup joints the drive working shaft, drive wheel 6 with the drive input wheel transmission is connected, drive gear group plug-in connect drive wheel 6, reverse drive gear group cup joints drive gear group, the stirring unit with reverse drive gear group connects, block subassembly 7 fixed mounting in the bottom of stirring storehouse 2.

The reverse driving gear set comprises a reverse driving first gear 81 sleeved with the transmission gear set, a reverse driving second gear 82 and a reverse driving third gear 83 meshed with the reverse driving first gear 81, a second gear shaft 85 inserted with the reverse driving second gear 82, and a third gear shaft 84 inserted with the reverse driving third gear 83; the third gear shaft 84 is sleeved on the second gear shaft 85.

The stirring unit comprises an outer stirring paddle 91 fixedly connected with the third gear shaft 84 and an inner stirring paddle 92 fixedly connected with the second gear shaft 85, the outer stirring paddle 91 and the inner stirring paddle 92 are designed to form reverse rotation mainly for forming the outer stirring paddle 91 and the inner stirring paddle 92, and then reverse acting force is formed in the stirring bin 2, so that concrete can be stirred more rapidly and uniformly.

A driving belt 5 is arranged between the driving input wheel and the driving wheel 6.

The transmission gear set comprises a driving shaft 61 inserted into the driving wheel 6, an input gear 62 sleeved on the driving shaft 61, a driving transmission gear 63 meshed with the input gear 62, and a driving transmission shaft 64 inserted into the driving transmission gear 63.

The driving transmission shaft 64 is inserted and reversely rotated to drive the first gear 81; and a feeding port 3 is arranged at the top of the stirring bin 2.

Stop subassembly 7 include with stirring storehouse 2 fixed connection block 71 that blocks, with block connecting block 71 articulated cylinder 72 that blocks, peg graft block cylinder 72 block telescopic link 73, with block telescopic link 73 articulated pivot 74 that blocks, with block pivot 74 articulated block 75, peg graft block 75 block that blocks peg graft 76, and cup joint block peg 76 and with stirring storehouse 2 fixed connection block fixed block 77, the design blocks subassembly 7 mainly in order to accomplish the unloading to the concrete and block, when stirring unit during operation, blocks subassembly 7 this moment and will be airtight, blocks stirring storehouse 2, when stirring unit accomplishes work after, the concrete need be unloaded, has at this moment to block subassembly 7 and abandons the work that blocks stirring storehouse 2, and then accomplishes the work of unloading to the concrete.

Description of the working principle: when concrete needs to be stirred, the concrete is placed into the stirring bin 2 through the feeding port 3, the driving motor 4 rotates the concrete, the driving working shaft rotates the concrete, the driving input wheel rotates the concrete, the driving wheel 6 rotates the concrete, the driving shaft 61 rotates the concrete, the input gear 62 rotates the driving transmission gear 63, the driving transmission shaft 64 rotates the driving transmission gear 81, the reverse driving first gear 81 rotates the driving transmission gear, the reverse driving second gear 82 and the reverse driving third gear 83 rotate the driving transmission gear, the second gear 82 rotates the driving transmission gear, the inner stirring paddle 92 rotates the driving transmission gear, and the third gear 83 rotates the driving transmission gear, the beaten outer stirring paddle 91 rotates to drive the inner stirring paddle 92 and the outer stirring paddle 91 to rotate in the opposite direction, so that the inner stirring paddle 92 and the outer stirring paddle 91 form reverse acting force in the stirring bin 2, and the concrete stirring effect is better;

and after the concrete mixing is completed, the blocking cylinder 72 works at the moment, and then the blocking telescopic rod 73 is driven to work, and then the blocking rotating shaft 74 is driven to move, and then the blocking block 75 is driven to swing along the blocking inserting shaft 76, so that the blocking work of abandoning the mixing bin 2 is completed.

The preferred embodiments of the present invention have been described in detail with reference to the accompanying drawings, however, the present invention is not limited to the details of the above embodiments, and the technical concept of the present invention can be modified to perform various equivalent transformations, which all belong to the protection scope of the present invention.

Claims (6)

1. The utility model provides a building engineering is with coaxial reversal concrete mixing mechanism which characterized by includes:

the stirring device comprises a basic bracket, a stirring bin fixedly connected with the basic bracket, a ladder stand fixedly arranged on one side of the stirring bin, a driving motor fixedly arranged on the other side of the stirring bin, a driving working shaft inserted with the driving motor, a driving input wheel sleeved with the driving working shaft, a driving wheel in transmission connection with the driving input wheel, a transmission gear set inserted with the driving wheel, a reverse driving gear set sleeved with the transmission gear set, a stirring unit connected with the reverse driving gear set, and a blocking component fixedly arranged at the bottom of the stirring bin;

the reverse driving gear set comprises a reverse driving first gear sleeved with the transmission gear set, a reverse driving second gear and a reverse driving third gear which are meshed with the reverse driving first gear, a second gear shaft inserted with the reverse driving second gear, and a third gear shaft inserted with the reverse driving third gear; the third gear shaft is sleeved with the second gear shaft.

2. A coaxial reversing concrete mixing mechanism for building engineering according to claim 1, characterised in that: the stirring unit comprises an outer stirring paddle fixedly connected with the third gear shaft and an inner stirring paddle fixedly connected with the second gear shaft.

3. A coaxial reversing concrete mixing mechanism for building engineering according to claim 1, characterised in that: and a driving belt is arranged between the driving input wheel and the driving wheel.

4. A coaxial reversing concrete mixing mechanism for building engineering according to claim 1, characterised in that: the transmission gear set comprises a driving shaft, an input gear, a driving transmission gear and a driving transmission shaft, wherein the driving shaft is inserted into the driving wheel, the input gear is sleeved with the driving shaft, the driving transmission gear is meshed with the input gear, and the driving transmission shaft is inserted into the driving transmission gear.

5. The coaxial inversion concrete mixing mechanism for building engineering as set forth in claim 4, wherein: the driving transmission shaft is inserted and reversely rotated to drive the first gear; and a feeding port is arranged at the top of the stirring bin.

6. A coaxial reversing concrete mixing mechanism for building engineering according to claim 1, characterised in that: stop the subassembly include with stirring storehouse fixed connection stop the connecting block, with stop the connecting block articulated cylinder that stops, peg graft stop the cylinder stop the telescopic link, with stop the telescopic link articulated pivot that stops, with stop the pivot articulated piece that stops, peg graft stop the piece block the spiale to and cup joint stop the spiale and with stirring storehouse fixed connection stop the fixed block.

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