CN111097687A

CN111097687A - Clay mixing device

Info

Publication number: CN111097687A
Application number: CN202010119855.1A
Authority: CN
Inventors: 不公告发明人
Original assignee: Shaoxing Doka Machinery Equipment Co ltd
Current assignee: Huaibei Jinhui Lvjian Technology Co ltd
Priority date: 2020-02-26
Filing date: 2020-02-26
Publication date: 2020-05-05
Anticipated expiration: 2040-02-26
Also published as: CN111097687B

Abstract

The invention discloses a graded concrete mixing device, which comprises a machine body, wherein a sieving cavity is arranged at the upper end in the machine body, two same mixing cavities are arranged at the lower end in the machine body, a sieving mechanism for sieving sand and stone according to the volume is arranged in the sieving cavity, a driven shaft for controlling the discharge of the sand and stone which cannot be graded in a mixing way is arranged at the left lower end in the machine body, and a mixing mechanism for mixing the sand and stone with cement is arranged in the mixing cavity.

Description

Clay mixing device

Technical Field

The invention relates to the field of concrete mixing, in particular to a graded concrete mixing device.

Background

The concrete is a material frequently used in construction, the concrete is formed by mixing cement and sand and stone, and the sand and stone with different sizes and volumes are mixed with the cement to obtain concrete with different grades so as to adapt to different requirements.

At the present stage, when the gravel and sand of different size volumes need to be used, the gravel and sand need to be screened in advance, thereby reducing the efficiency of concrete mixing and taking.

Disclosure of Invention

The invention aims to provide a graded concrete mixing device, which solves the problems of screening sand and stone without the ground, low mixing efficiency and the like, increases the function of screening sand and stone and improves the mixing efficiency.

The invention is realized by the following technical scheme.

The invention discloses a graded concrete mixing device, which comprises a machine body, wherein a sieving cavity is arranged at the upper end in the machine body, two same mixing cavities are arranged at the lower end in the machine body, a sieving mechanism for sieving sand and stone according to the volume is arranged in the sieving cavity, a driven shaft for controlling the mixed blanking of sand and stone which cannot be graded is arranged at the left lower end in the machine body, and a mixing mechanism for mixing the sand and stone and cement is arranged in the mixing cavity;

the sieving mechanism comprises a slider cavity which is positioned in the left cavity wall and the right cavity wall of the sieving cavity and has an inward opening, a slider which can slide back and forth in the cavity is arranged in each slider cavity, a sieve plate which is positioned in the sieving cavity is fixedly arranged between the two sliders, a first through hole which is communicated up and down is arranged at the left end of the sieve plate, a plurality of sieve meshes which are distributed at equal intervals are arranged at the right end of the sieve plate, a moving cavity which has a leftward opening is arranged in the right cavity wall at the lower end of the sieving cavity, a moving block which can move back and forth in the cavity is arranged in the moving cavity, a fixed plate is fixedly arranged between the left end surface of the moving block and the lower end surface, a second sieve mesh which is communicated up and down is arranged at the right end of the fixed plate, a driving shaft is arranged at the left side of the slider, the chamber downside of sieving is equipped with three the same storage chamber, the lower chamber wall that sieves the chamber left end is equipped with the intercommunication left the through-hole of storage chamber, right side the storage chamber go up the chamber wall with the lower chamber wall intercommunication of the chamber right-hand member of sieving, the downside is equipped with first driven chamber, first driven chamber downside is equipped with the driven chamber of second, the driving shaft is gone up chamber wall internal fixation and is equipped with the motor, motor lower extreme power connection have the lower extreme with the driven chamber lower chamber wall of second rotates the transmission shaft of connecting, the transmission shaft upper end is equipped with and is located in the driving shaft and with the sector gear that rack toothing connects, the chamber wall is equipped with the feed inlet on sieving.

Furthermore, the driven shaft comprises two same driven rods which are rotatably connected with the lower cavity wall of the second driven cavity and are symmetrically distributed relative to the transmission shaft, a ratchet wheel is arranged at the upper end of each driven rod, a reel is arranged at the lower end of each driven rod in a friction mode, a pull rope is wound on the reel, a driving gear which can be meshed with the two driven rods is arranged at the lower end of the transmission shaft, fourteen rotating cavities with outward openings are arranged in the ratchet wheel, a fixed rod is fixedly arranged between the upper cavity wall and the lower cavity wall in each rotating cavity, rotating teeth are arranged on the fixed rod, a torsion spring is connected between each rotating tooth and the fixed rod, first channels communicated with the two mixing cavities are respectively arranged on the lower cavity walls of the two storage cavities on the left side and the right side, two second through holes respectively communicated with the two mixing cavities are arranged on the lower cavity wall of the middle storage cavity, and a second through, the baffle plate capable of moving left and right in the cavity is arranged in the second through hole, the left end of the baffle plate on the right side is provided with a through hole which is communicated up and down, a tension spring is connected between the right end face of the baffle plate and the right cavity wall of the baffle plate cavity, and the right end face of the baffle plate is connected with one end of the pull rope.

Further, the mixing mechanism comprises a rotating shaft which is rotatably connected to the right cavity wall of the first driven cavity, the right end of the rotating shaft is rotatably connected with the right cavity wall of the storage cavity on the right side, three stirring blocks which are respectively positioned in the three storage cavities are arranged on the rotating shaft, a second bevel gear positioned in the first driven cavity is arranged at the left end of the rotating shaft, a first bevel gear meshed with the second bevel gear is arranged on the transmission shaft, a rotating rod with the right end extending into the mixing cavity on the left side is rotatably arranged on the right cavity wall of the second driven cavity, a fourth bevel gear positioned in the second driven cavity is arranged at the left end of the rotating rod, a third bevel gear meshed with the fourth bevel gear is arranged at the lower end of the transmission shaft, rotating rods are rotatably arranged on the upper cavity walls of the two mixing cavities, six stirring blades are arranged at the lower end of the rotating rods, the rotary rod right-hand member be equipped with the fifth bevel gear that eighth bevel gear meshing is connected, left the wall of mixing chamber right side rotates and is equipped with the right-hand member and stretches into the right side the rotation axis in the mixing chamber, the rotation axis left end is equipped with the sixth bevel gear that is connected with left eighth bevel gear meshing, the rotation axis right-hand member be equipped with the right side the seventh bevel gear that eighth bevel gear meshing is connected, two it all is equipped with the material mouth of getting that communicates the external space to get material mouthful lower chamber wall, it is equipped with electromagnetic switch in the material mouth to get.

Further, the pulling force of the pulling spring is larger than the friction force applied to the baffle when the baffle slides in the baffle cavity.

Further, the tension of one of the extension springs and the elastic force of one of the extension springs are larger than the friction force applied to the slider when the slider slides in the slider cavity.

The invention has the beneficial effects that: the sand and stone separator has a simple structure, is convenient and fast to operate, can screen and separately collect sand and stone through the filtering function of the sand and stone separator during work, can take the sand and stone according to the volume requirement of the sand and stone during mixing, and can finally mix the taken sand and stone with cement so as to improve the efficiency of taking different concrete.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

FIG. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is a schematic structural diagram at A-A in FIG. 1 according to an embodiment of the present invention;

FIG. 3 is a schematic diagram of the structure at B in FIG. 1 according to an embodiment of the present invention;

FIG. 4 is a schematic view of the ratchet structure shown in FIG. 1 according to an embodiment of the present invention.

Detailed Description

The invention will now be described in detail with reference to fig. 1-4, wherein for ease of description the orientations described hereinafter are now defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

Combine a hierarchical muddy earth mixing arrangement of attached drawing 1-4, including fuselage 10, the upper end is equipped with sieve chamber 13 in the fuselage 10, the lower extreme is equipped with two the same hybrid chamber 35 in the fuselage 10, be equipped with the mechanism 20 that sieves that screens gravel and sand according to the volume size in the sieve chamber 13, the left end is equipped with the driven shaft 45 that control can not grade gravel and sand mixes the unloading in the fuselage 10, be equipped with the hybrid mechanism 33 that mixes gravel and sand with cement in the hybrid chamber 35, the mechanism 20 that sieves is located in the chamber wall and the inward slider chamber 19 of opening about sieve chamber 13, all be equipped with one in the slider chamber 19 and can be at gliding slider 18 of intracavity front and back, two fixed being equipped with one between the slider 18 and being located sieve 14 in the sieve chamber 13, sieve 14 left end is equipped with first through-hole 12 that communicates from top to bottom, the right end of the sieve plate 14 is provided with a plurality of sieve holes 15 which are distributed at equal intervals, a right cavity wall at the lower end of the sieve cavity 13 is internally provided with a moving cavity 23 with a left opening, the moving cavity 23 is internally provided with a moving block 22 capable of moving back and forth in the cavity, a fixed plate 16 is fixedly arranged between the left end surface of the moving block 22 and the lower end surface of the sieve plate 4, the right end of the fixed plate 16 is provided with a second sieve hole 21 which is communicated with the upper part and the lower part, the left side of the slider cavity 19 at the left side is provided with a driving shaft 55, the left end surface of the slider 18 at the left side is fixedly provided with a rack 57, the front end surface and the rear end surface of the slider 18 are respectively provided with a telescopic spring 58 which is respectively connected with the front cavity wall and the rear cavity wall of the slider cavity 19, the lower side of the sieve cavity 13, the downside is equipped with first driven chamber 50, first driven chamber 50 downside is equipped with second driven chamber 47, the chamber wall internal fixation is equipped with motor 56 on the driving shaft 55, motor 56 lower extreme power connection have the lower extreme with second driven chamber 47 lower chamber wall rotates transmission shaft 53 of connecting, transmission shaft 53 upper end is equipped with and is located in the driving shaft 55 and with sector gear 54 that rack 57 meshing is connected, the chamber wall is equipped with feed inlet 17 on the chamber of sieving 13.

Advantageously, the driven shaft 45 comprises two identical driven rods 60 rotatably connected to the lower cavity wall of the second driven cavity 47 and symmetrically distributed about the driving shaft 53, a ratchet wheel 61 is arranged at the upper end of each driven rod 60, a reel 59 is frictionally arranged at the lower end of each driven rod 60, a pull rope 29 is wound on each reel 59, a driving gear 62 capable of being engaged with the two driven rods 60 is arranged at the lower end of the driving shaft 53, fourteen rotating cavities 65 with outward openings are arranged in each ratchet wheel 61, a fixed rod 63 is fixedly arranged between the upper cavity wall and the lower cavity wall in each rotating cavity 65, a rotating tooth 64 is arranged on each fixed rod 63, a torsion spring 66 is connected between each rotating tooth 64 and each fixed rod 63, the lower cavity walls of the two storage cavities 26 on the left side and the right side are respectively provided with a first channel 27 communicating the two mixing cavities 35, the lower cavity wall of the storage cavity 26 in the middle is provided with two second through holes 40 respectively communicating the two mixing, the upper sides of the two mixing cavities 35 are respectively provided with a second through hole 40, a baffle 30 capable of moving left and right in the cavity is arranged in each second through hole 40, the left end of the baffle 30 on the right side is provided with a communicating hole 31 which is communicated up and down, a tension spring 28 is connected between the right end face of the baffle 30 and the right cavity wall of the baffle cavity 70, and the right end face of the baffle 30 is connected with one end of the pull rope 29.

Advantageously, the mixing mechanism 33 comprises a rotating shaft 25 rotatably connected to the right wall of the first driven chamber 50 and rotatably connected to the right wall of the right reservoir chamber 26 at the right side, three stirring blocks 24 respectively located in three reservoir chambers 26 are provided on the rotating shaft 25, a second bevel gear 49 located in the first driven chamber 50 is provided at the left end of the rotating shaft 25, a first bevel gear 51 engaged with the second bevel gear 49 is provided on the driving shaft 53, a rotating rod 44 whose right end extends into the mixing chamber 35 at the left side is provided on the right wall of the second driven chamber 47, a fourth bevel gear 46 located in the second driven chamber 47 is provided at the left end of the rotating rod 44, a third bevel gear 48 engaged with the fourth bevel gear 46 is provided at the lower end of the driving shaft 53, a rotating rod 36 is rotatably provided on the wall of each of the two mixing chambers 35, and six stirring blades 34 are provided at the lower end of the rotating rod 36, the upper end of the rotating rod 36 is provided with an eighth bevel gear 32, the right end of the rotating rod 44 is provided with a fifth bevel gear 43 meshed with the eighth bevel gear 32, the right cavity wall of the left mixing cavity 35 is rotatably provided with a rotating shaft 41, the right end of the rotating shaft 41 extends into the right side of the mixing cavity 35, the left end of the rotating shaft 41 is provided with a sixth bevel gear 42 meshed with the eighth bevel gear 32 on the left side, the right end of the rotating shaft 41 is provided with a seventh bevel gear 39 meshed with the eighth bevel gear 32 on the right side, the lower cavity walls of the two material taking ports 37 are both provided with material taking ports 37 communicated with the external space, and the material taking ports 37 are internally provided with.

Advantageously, the tension of the tension spring 28 is greater than the friction experienced by the shutter 30 as it slides within the shutter cavity 70.

Advantageously, the tension of one of said telescopic springs 58 and the elastic force of one of said telescopic springs 58 are greater than the friction forces to which said slider 18 is subjected when sliding inside said slider cavity 19.

In the initial state, the shutter 30 closes the second through hole 40 and the first passage 27.

When the screen plate shaking filtering machine works, gravel and sand are thrown from the feed port 17, the motor 56 is started, the motor 56 works to drive the transmission shaft 53 and the sector gear 54, the first bevel gear 51, the third bevel gear 48 and the driving gear 62 on the transmission shaft 53 to rotate, when the sector gear 54 rotates to be meshed with the rack 57 on the left slider 18, the slider 18 and the screen plate 14 are driven to move backwards, when the sector gear 54 rotates to be disengaged with the rack 57, the left slider 18 moves forwards and returns under the action of the two extension springs 58, so that the screen plate 14 forms a front-back shaking purpose, the gravel and sand on the screen plate 14 are shaken and filtered, the gravel and sand with small volume passes through the screen holes 15 in the screen plate 14 and falls onto the fixed plate 16, finally falls into the right storage cavity 26 through the second screen holes 21, the gravel and sand with large volume continuously slides leftwards and falls into the left storage cavity 26 from the first through hole 12, thereby realizing the effect of grading sand according to the volume, the first bevel gear 51 rotates to drive the second bevel gear 49 connected with the first bevel gear in a meshed manner to rotate, thereby driving the rotating shaft 25 and the three-section stirring block 24 on the rotating shaft 25 to rotate, the stirring block 24 rotates to accelerate the sand and cement in the material storage cavity 26 to smoothly drop, the driving gear 62 rotates to drive one ratchet wheel 61 connected with the driving gear in a meshed manner through the rotating teeth 64 to rotate, the rotating teeth 64 on the other ratchet wheel 61 can rotate in the rotating cavity 65 and cannot rotate, the left ratchet wheel 61 rotates to drive the driven rod 60 and the reel 59 at the lower end of the driven rod 60 to rotate, thereby tensioning the left pull rope 29, the baffle 30 moves leftwards under the pulling force of the pull rope 29, the left first channel 27 and the second through hole 40 are communicated with the left mixing cavity 35, thereby facilitating the sand with larger volume in the left material storage cavity 26 and the cement in the middle material storage cavity 26 to enter the left mixing cavity 35, then the stirring blades 34 are stirred to mix the mixture, the third bevel gear 48 rotates to drive the fourth bevel gear 46 meshed with the third bevel gear to rotate, so as to drive the rotating rod 44 and the fifth bevel gear 43 at the right end of the rotating rod 44 to rotate, so as to drive the eighth bevel gear 32 meshed with the rotating rod to rotate, the eighth bevel gear 32 at the left side rotates to drive the rotating rod 36 at the left side to rotate and the sixth bevel gear 42 meshed with the eighth bevel gear 32 to rotate, the rotating rod 36 at the left side rotates to drive the six stirring blades 34 to rotate, the sixth bevel gear 42 rotates to drive the rotating shaft 41 and the seventh bevel gear 39 at the right end of the rotating shaft 41 to rotate, so as to drive the eighth bevel gear 32 meshed with the rotating rod to rotate, so as to drive the rotating rod 36 at the right side and the six stirring blades 34 on the rotating rod 36 to rotate, when small-volume gravel and cement are required, thereby pass through driving gear 62 and the ratchet 61 meshing on right side through mechanical transmission, thereby drive the baffle 30 motion on right side and let first passageway 27 and second through-hole 40 on right side and the hybrid chamber 35 intercommunication on right side, thereby let the interior gravel and sand of less volume of storage chamber 26 on right side and the cement in the storage chamber 26 in the middle of enter into the hybrid chamber 35 on right side and mix, mix the back that finishes, the electromagnetic switch 38 in the material taking mouth 37 is opened manually, let the cement after mixing drop.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims

1. The utility model provides a hierarchical muddy earth mixing arrangement, includes the fuselage, its characterized in that: the screening device is characterized in that a screening cavity is arranged at the upper end in the machine body, two identical mixing cavities are arranged at the lower end in the machine body, a screening mechanism for screening sand and stone according to the volume is arranged in the screening cavity, a driven shaft for controlling the mixed blanking of sand and stone which cannot be graded is arranged at the lower left end in the machine body, and a mixing mechanism for mixing the sand and stone and cement is arranged in the mixing cavities;

2. A graded concrete mixing device according to claim 1, characterised in that: the driven shaft comprises two same driven rods which are rotationally connected with the lower cavity wall of the second driven cavity and are symmetrically distributed relative to the transmission shaft, a ratchet wheel is arranged at the upper end of each driven rod, a reel is arranged at the lower end of each driven rod in a friction mode, a pull rope is wound on the reel, a driving gear which can be meshed with the two driven rods is arranged at the lower end of the transmission shaft, fourteen rotating cavities with outward openings are arranged in the ratchet wheel, a fixed rod is fixedly arranged between the upper cavity wall and the lower cavity wall of each rotating cavity, rotating teeth are arranged on the fixed rod, torsion springs are connected between the rotating teeth and the fixed rod, first channels for communicating the two mixing cavities are respectively arranged on the lower cavity walls of the two storage cavities on the left side and the right side, two second through holes for respectively communicating the two mixing cavities are arranged on the lower cavity wall of the middle storage cavity, and a second, the baffle plate capable of moving left and right in the cavity is arranged in the second through hole, the left end of the baffle plate on the right side is provided with a through hole which is communicated up and down, a tension spring is connected between the right end face of the baffle plate and the right cavity wall of the baffle plate cavity, and the right end face of the baffle plate is connected with one end of the pull rope.

3. A graded concrete mixing device according to claim 1, characterised in that: the mixing mechanism comprises a rotating shaft which is rotatably connected with the right cavity wall of the first driven cavity, the right end of the rotating shaft is rotatably connected with the right cavity wall of the storage cavity on the right side, the rotating shaft is provided with three stirring blocks which are respectively positioned in three storage cavities, the left end of the rotating shaft is provided with a second bevel gear positioned in the first driven cavity, the transmission shaft is provided with a first bevel gear which is in meshing connection with the second bevel gear, the right cavity wall of the second driven cavity is rotatably provided with a rotating rod, the right end of the rotating rod extends into the left side of the mixing cavity, the left end of the rotating rod is provided with a fourth bevel gear positioned in the second driven cavity, the lower end of the transmission shaft is provided with a third bevel gear which is in meshing connection with the fourth bevel gear, the upper cavity walls of the two mixing cavities are both rotatably provided with rotating rods, the rotary rod right-hand member be equipped with the fifth bevel gear that eighth bevel gear meshing is connected, left the wall of mixing chamber right side rotates and is equipped with the right-hand member and stretches into the right side the rotation axis in the mixing chamber, the rotation axis left end is equipped with the sixth bevel gear that is connected with left eighth bevel gear meshing, the rotation axis right-hand member be equipped with the right side the seventh bevel gear that eighth bevel gear meshing is connected, two it all is equipped with the material mouth of getting that communicates the external space to get material mouthful lower chamber wall, it is equipped with electromagnetic switch in the material mouth to get.

4. A graded concrete mixing device according to claim 2, characterised in that: the pulling force of the tension spring is larger than the friction force applied to the baffle when the baffle slides in the baffle cavity.

5. A graded concrete mixing device according to claim 1, characterised in that: the tension of one of the extension springs and the elasticity of one of the extension springs are greater than the friction force applied to the slider when the slider slides in the slider cavity.