CN108995045B - New-type industrial automatic sand screening separation agitating unit - Google Patents

Abstract

The invention relates to an automatic device, in particular to a novel industrial automatic sand screening, separating and stirring device, which comprises a sand conveying mechanism, a sand stirring mechanism and a sand screening and stirring mechanism. The left side of the sand conveying mechanism is provided with a sand stirring mechanism, and the right side of the sand conveying mechanism is provided with a sand screening and stirring mechanism.

Description

New-type industrial automatic sand screening separation agitating unit

Technical Field

The invention relates to an automatic device, in particular to a novel industrial automatic sand screening, separating and stirring device.

Background

In industrial construction, sand is than indispensable building material, when using sand, often needs the screening sand, and the sand usefulness of different size granules also is different, and at the in-process that sand was screened and sand was used, needs a large amount of manual works to come the operation, in order to reduce artificial use amount, so design a new-type automatic sand screening separation agitating unit for industry and solve this problem.

Disclosure of Invention

The invention mainly solves the technical problem of providing a novel industrial automatic sand screening, separating and stirring device, which can automatically convey sand to a screening device port and throw the sand, can break the agglomerated sand for secondary screening, can discharge the finally selected sand independently, can also directly add cement and stir the sand into cement mortar, and can discharge the sand which is not screened intensively for other places or secondary screening.

The invention relates to an automatic device, in particular to a novel industrial automatic sand screening, separating and stirring device, which comprises a sand conveying mechanism, a sand stirring mechanism and a sand screening and stirring mechanism, wherein the device can automatically convey and put sand into a screening device, can break the agglomerated sand and carry out secondary screening, and finally the selected sand can be discharged independently or cement can be directly added and stirred into cement mortar, and the unscreened sand can be discharged intensively and used in other places or for secondary screening.

The sand conveying mechanism comprises a conveying platform, a conveying crawler belt, a first supporting leg, a small-sized conveying crawler belt, a supporting sloping platform, a moving roller, a second supporting leg, a rotating shaft of the conveying belt, a conveying belt mechanism, a first rotating shaft, a second rotating shaft and a sand sliding platform, wherein the conveying platform is fixedly contacted and connected with the first supporting leg, the conveying platform is fixedly contacted and connected with the second supporting leg, the moving roller is arranged at the bottoms of the second supporting leg and the first supporting leg, the number of the second supporting leg is two, the sand sliding platform is arranged between the two second supporting legs, one end of the conveying platform is movably contacted and connected with the rotating shaft of the conveying belt, the other end of the conveying platform is movably contacted and connected with the first rotating shaft, the conveying crawler belt is wrapped outside the conveying platform, the rotating shaft of the conveying belt and the first rotating shaft, the conveying belt mechanism, the second rotating shaft is fixedly connected with the supporting inclined table in a contact manner;

the conveyor belt mechanism comprises a right supporting leg, a first motor fixing cover, a gear set and a left supporting leg, wherein the first motor and the right supporting leg are matched through a groove;

the gear set comprises a first gear, a second gear and a third gear, the second gear is fixedly connected with the first motor in a contact mode through a groove, the second gear is meshed with the first gear, the second gear is meshed with the third gear, the third gear is fixedly connected with the first rotating shaft in a contact mode, and the first gear is fixedly connected with the second rotating shaft in a contact mode;

the sand stirring mechanism comprises a sand fluctuation wheel, a fluctuation wheel rotating shaft, a rotating shaft supporting leg I, a motor II and a rotating shaft supporting leg II, wherein the motor II is installed in the rotating shaft supporting leg II, the motor II is fixedly connected with one end of the fluctuation wheel rotating shaft in a contact mode, the other end of the fluctuation wheel rotating shaft is movably connected with the rotating shaft supporting leg I in a contact mode, the sand fluctuation wheel is located in the middle of the fluctuation wheel rotating shaft, and the sand fluctuation wheel is fixedly connected with the fluctuation wheel rotating shaft in a contact mode;

the sand screening and stirring mechanism comprises a stirring mechanism, a sand screening mechanism, a cement mortar stirring mechanism, a filtered sand conveying mechanism, a sand discharging mechanism, a device shell and a bidirectional conveying mechanism, wherein the stirring mechanism is positioned at the uppermost part of the sand screening and stirring mechanism, the sand screening mechanism is arranged below the stirring mechanism, the filtered sand conveying mechanism is arranged below the sand screening mechanism, the bidirectional conveying mechanism is arranged below the filtered sand conveying mechanism, the cement mortar stirring mechanism and the sand discharging mechanism are arranged below the bidirectional conveying mechanism, the cement mortar stirring mechanism is positioned at the right lower part of the bidirectional conveying mechanism, the sand discharging mechanism is positioned at the left lower part of the bidirectional conveying mechanism, and the device shell is a protective shell of the device;

the stirring and crushing mechanism comprises a first fixing cover, a second motor, a first spiral impeller and a sealing sheet, wherein the second motor is matched with the device shell through a groove;

the sand screening mechanism comprises a first servo, a second servo, a first screening plate, a second screening plate and screening plate pillars, wherein the first servo is fixed below a second motor, the second servo is fixed below the first servo, the first servo is fixedly connected with the first screening plate in a contact manner, the second screening plate is fixedly connected with the second servo in a contact manner, the number of the screening plate pillars is two, the two screening plate pillars are respectively connected with the first screening plate and the second screening plate in a contact manner, and the screening plate pillars are fixedly connected with the device shell in a contact manner;

the cement mortar stirring mechanism comprises a stirring chamber, a spiral impeller II, a cement mortar discharge port, a discharge port baffle and a motor III, wherein the stirring chamber is arranged on the device shell, the stirring chamber is adaptive to the spiral impeller II, one end of the spiral impeller II is fixedly contacted and connected with the motor III, the other end of the spiral impeller II is movably contacted and connected with the device shell, the discharge port baffle is movably contacted and connected with the device shell through a groove, and the cement mortar discharge port is arranged on the stirring chamber;

the sand filtering and conveying mechanism comprises a sand prevention baffle, a first crawler belt, a conveying shaft, a conveying bearing plate, a supporting upright post and a fourth motor, wherein the fourth motor is fixed on the device shell, the fourth motor is fixedly connected with the conveying shaft in a contact manner, the conveying shaft is movably connected with the conveying bearing plate in a contact manner, the first crawler belt is movably connected with the conveying shaft and the conveying bearing plate in a contact manner, the supporting upright post is fixedly connected with the conveying bearing plate in a contact manner, and the sand prevention baffle is fixed on the device shell through a fastening screw;

the sand discharging mechanism comprises a sealing shell, a six-blade rotating wheel, a six-blade rotating shaft, a motor five, a sealing fixed cover and a bearing, wherein the sealing shell is arranged on the device shell, the motor five is installed on the sealing shell, the motor five is fixedly connected with the six-blade rotating wheel in a contact manner, the six-blade rotating shaft is fixedly connected with the six-blade rotating wheel in a contact manner, the bearing is matched with the sealing shell through a groove, the bearing is fixedly connected with the sealing shell in a contact manner through a fastening screw, the six-blade rotating shaft is fixedly connected with the bearing in a contact manner through a groove, the six-blade rotating shaft is matched with the sealing fixed cover through a through hole, and the sealing fixed cover is;

the device shell comprises shell supporting legs, a motor six, a bottom fixing cover and a rotating disc, wherein the shell supporting legs are arranged at the bottom of the device shell;

the bidirectional conveying mechanism comprises a rotating central shaft, a second crawler belt mounting plate and a seventh motor, wherein the seventh motor is fixed on the device shell, the seventh motor is fixedly connected with the rotating central shaft in a contact manner, the rotating central shaft is movably connected with the second crawler belt mounting plate in a contact manner, and the crawler belt mounting plate and the rotating central shaft are movably connected with the second crawler belt in a contact manner;

the left side of the sand conveying mechanism is provided with a sand stirring mechanism, and the right side of the sand conveying mechanism is provided with a sand screening and stirring mechanism.

As a further optimization of the technical scheme, the bearing material of the novel industrial automatic sand screening, separating and stirring device is bearing steel.

As a further optimization of the technical scheme, the number of the shell supporting legs of the novel industrial automatic sand screening, separating and stirring device is four, and the four shell supporting legs are uniformly and respectively arranged at the bottom of the shell of the device.

As a further optimization of the technical scheme, the first supporting leg and the second supporting leg of the novel industrial automatic sand screening, separating and stirring device are parallel.

The novel industrial automatic sand screening, separating and stirring device has the beneficial effects that:

the invention relates to a novel industrial automatic sand screening, separating and stirring device, which can automatically convey sand to a screening device opening and put the sand in, can crush the agglomerated sand and carry out secondary screening, can discharge the finally selected sand independently, can also directly add cement and stir the sand into cement mortar, and can discharge the sand which is not screened in a centralized manner and be used in other places or carry out secondary screening.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic structural diagram of a front view of a novel industrial automatic sand screening, separating and stirring device.

Fig. 2 is a schematic structural diagram of a novel industrial automatic sand screening, separating and stirring device.

Fig. 3 is a schematic cross-sectional view of a-a in fig. 2.

Fig. 4 is a schematic structural diagram of a gear set 1-9-4 of the novel industrial automatic sand screening, separating and stirring device.

Fig. 5 is a partially enlarged structural diagram of B in fig. 2.

Fig. 6 is a partially enlarged structural diagram of C in fig. 2.

Fig. 7 is a schematic view of a partially enlarged structure of D in fig. 2.

Fig. 8 is a schematic diagram of a partial enlarged structure of E in fig. 2.

Fig. 9 is a partially enlarged structural diagram of F in fig. 2.

Fig. 10 is a schematic cross-sectional view of G-G in fig. 9.

Fig. 11 is a schematic cross-sectional view of H-H in fig. 2.

Fig. 12 is a schematic view of a partial enlarged structure of I in fig. 2.

In the figure: a sand conveyance mechanism 1; a transfer platform 1-1; a conveying crawler 1-2; 1-3 of a support leg I; a small-sized conveying crawler 1-4; 1-5 of a supporting inclined table; moving rollers 1-6; support legs II 1-7; 1-8 parts of a rotating shaft of a conveying belt; a conveyor belt mechanism 1-9; a right support leg 1-9-1; 1-9-2 of a first motor; 1-9-3 of a motor fixing cover; gear sets 1-9-4; a first gear 1-9-4-1; a second gear 1-9-4-2; a third gear 1-9-4-3; 1-9-5 parts of a left supporting leg; a first rotating shaft 1-10; a second shaft 1-11; 1-12 of a sand sliding platform; a sand stirring mechanism 2; 2-1 of a sand wavelet wheel; 2-2 of a wave wheel rotating shaft; a rotating shaft supporting leg I2-3; 2-4 of a second motor; a second rotating shaft supporting leg 2-5; a sand screening and stirring mechanism 3; a mincing mechanism 3-1; a fixed cover I3-1-1; a second motor 3-1-2; 3-1-3 parts of a spiral impeller I; 3-1-4 of a sealing sheet; 3-2 of a sand screening mechanism; a first server 3-2-1; a second server 3-2-2; a layer of screening plate 3-2-3; 3-2-4 of a second layer of screening plate; screening plate pillars 3-2-5; 3-3 of a cement mortar stirring mechanism; 3-3-1 of a stirring chamber; 3-3-2 parts of a spiral impeller II; a cement mortar discharge port 3-3-3; a discharge port baffle 3-3-4; 3-3-5 of a motor III; a filtering sand conveying mechanism 3-4; 3-4-1 of a sand prevention baffle; 3-4-2 of a first crawler belt; 3-4-3 of a transmission shaft; carrying plate 3-4-4; 3-4-5 of a support column; motor four 3-4-6; 3-5 parts of a sand discharge mechanism; 3-5-1 of a sealed shell; 3-5-2 parts of a six-blade rotating wheel; six-impeller rotating shaft 3-5-3; 3-5-4 parts of a motor V; 3-5-5 parts of a sealing and fixing cover; 3-5-6 parts of a bearing; device housings 3-6; the shell supports legs 3-6-1; motor six 3-6-2; 3-6-3 of a bottom fixing cover; 3-6-4 of a rotating disc; bidirectional transmission mechanisms 3-7; rotating the central shaft 3-7-1; a second crawler belt 3-7-2; 3-7-3 parts of a crawler mounting plate; and 3-7-4 of a motor.

Detailed Description

The first embodiment is as follows:

the embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, and 12, and the present invention relates to an automatic device, more specifically to a novel industrial automatic sand screening, separating and stirring device, which comprises a sand transportation mechanism 1, a sand shifting mechanism 2, and a sand screening and stirring mechanism 3.

The sand conveying mechanism 1 comprises a conveying platform 1-1, a conveying crawler 1-2, a first supporting leg 1-3, a small-sized conveying crawler 1-4, a supporting inclined table 1-5, a moving roller 1-6, a second supporting leg 1-7, a conveying belt rotating shaft 1-8, a conveying belt mechanism 1-9, a first rotating shaft 1-10, a second rotating shaft 1-11 and a sand sliding platform 1-12, wherein the conveying platform 1-1 is fixedly contacted and connected with the first supporting leg 1-3, the conveying platform 1-1 is fixedly contacted and connected with the second supporting leg 1-7, the moving rollers 1-6 are respectively arranged at the bottoms of the second supporting leg 1-7 and the first supporting leg 1-3, the number of the second supporting legs 1-7 is two, and the sand sliding platform 1-12 is arranged between the second supporting legs 1-7, one end of a conveying platform 1-1 is movably connected with a conveying belt rotating shaft 1-8 in a contact way, the other end of the conveying platform is movably connected with a first rotating shaft 1-10 in a contact way, a conveying crawler 1-2 is wrapped outside the conveying platform 1-1, the conveying belt rotating shaft 1-8 and the first rotating shaft 1-10, a conveying belt mechanism 1-9 is movably connected with the first rotating shaft 1-10 and a second rotating shaft 1-11 in a contact way, the second rotating shaft 1-11 is movably connected with a small conveying crawler 1-4, the second rotating shaft 1-11 is fixedly connected with a support sloping platform 1-5 in a contact way, the conveying crawler 1-2 and the small conveying crawler 1-4 play a conveying role, and a supporting leg I1-3, a moving roller 1-6 and a supporting leg II 1-7 play a supporting and moving role, the sand sliding platform 1-12 is a platform for discharging large-particle sand, the conveyor belt mechanism 1-9 drives the first rotating shaft 1-10 and the second rotating shaft 1-11, the first rotating shaft 1-10 and the second rotating shaft 1-11 drive the conveying crawler belt 1-2 and the small conveying crawler belt 1-4, and the conveyor belt rotating shaft 1-8 plays a role in auxiliary rotation;

the conveyor belt mechanism 1-9 comprises a right supporting leg 1-9-1, a motor I1-9-2, a motor fixing cover 1-9-3, a gear set 1-9-4 and a left supporting leg 1-9-5, wherein the motor I1-9-2 is matched with the right supporting leg 1-9-1 through a groove, the motor fixing cover 1-9-3 is fixed on the right supporting leg 1-9-1 through a fastening screw, the motor fixing cover 1-9-3 is in contact connection with the motor I1-9-2, the gear set 1-9-4 is matched with the right supporting leg 1-9-1 through a groove, the motor I1-9-2 is matched with the gear set 1-9-4 through a groove, and the left supporting leg 1-9-5 is movably connected with a first rotating shaft 1-10 and a second rotating shaft 1-11 The motor I1-9-2 drives the gear set 1-9-4, the right supporting leg 1-9-1 and the left supporting leg 1-9-5 play a supporting role, and the motor fixing cover 1-9-3 plays a sealing and fixing role;

the gear set 1-9-4 comprises a first gear 1-9-4-1, a second gear 1-9-4-2 and a third gear 1-9-4-3, wherein the second gear 1-9-4-2 is fixedly contacted and connected with a first motor 1-9-2 through a groove, the second gear 1-9-4-2 is meshed with the first gear 1-9-4-1, the second gear 1-9-4-2 is meshed with the third gear 1-9-4-3, the third gear 1-9-4-3 is fixedly contacted and connected with a first rotating shaft 1-10, the first gear 1-9-4-1 is fixedly contacted and connected with a second rotating shaft 1-11, and the first gear 1-9-4-1, The second gear 1-9-4-2 and the third gear 1-9-4-3 are mutually matched to drive a first rotating shaft 1-10 and a second rotating shaft 1-11;

the sand stirring mechanism 2 comprises a sand fluctuation wheel 2-1, a fluctuation wheel rotating shaft 2-2, a rotating shaft supporting leg I2-3, a motor II 2-4 and a rotating shaft supporting leg II 2-5, wherein the motor II 2-4 is installed in the rotating shaft supporting leg II 2-5, the motor II 2-4 is fixedly contacted and connected with one end of the fluctuation wheel rotating shaft 2-2, the other end of the fluctuation wheel rotating shaft 2-2 is movably contacted and connected with the rotating shaft supporting leg I2-3, the sand fluctuation wheel 2-1 is positioned in the middle of the fluctuation wheel rotating shaft 2-2, the sand fluctuation wheel 2-1 is fixedly contacted and connected with the fluctuation wheel rotating shaft 2-2, the sand fluctuation wheel 2-1 primarily crushes sand blocks and transports the sand blocks, the motor II 2-4 drives the fluctuation wheel rotating shaft 2-2, and the fluctuation wheel rotating shaft 2-2 drives the sand fluctuation wheel 2-, the first rotating shaft supporting leg 2-3 and the second rotating shaft supporting leg 2-5 play a supporting role;

the sand screening and stirring mechanism 3 comprises a stirring mechanism 3-1, a sand screening mechanism 3-2, a cement mortar stirring mechanism 3-3, a filtering sand conveying mechanism 3-4, a sand discharging mechanism 3-5, a device shell 3-6 and a bidirectional conveying mechanism 3-7, wherein the stirring mechanism 3-1 is positioned at the uppermost part of the sand screening and stirring mechanism 3, the sand screening mechanism 3-2 is arranged below the stirring mechanism 3-1, the filtering sand conveying mechanism 3-4 is arranged below the sand screening mechanism 3-2, the bidirectional conveying mechanism 3-7 is arranged below the filtering sand conveying mechanism 3-4, the cement mortar stirring mechanism 3-3 and the sand discharging mechanism 3-5 are arranged below the bidirectional conveying mechanism 3-7, the cement mortar stirring mechanism 3-3 is positioned at the right side below the bidirectional conveying mechanism 3-7, the sand discharging mechanism 3-5 is positioned at the left lower part of the bidirectional conveying mechanism 3-7, the device shell 3-6 is a protective shell of the device, the stirring mechanism 3-1 has the function of crushing sand blocks, the sand screening mechanism 3-2 screens sand, the cement mortar stirring mechanism 3-3 stirs sand and cement into cement mortar and intensively discharges the cement mortar, the filtering sand conveying mechanism 3-4 intensively discharges sand which cannot be screened, the sand discharging mechanism 3-5 intensively discharges screened sand, the device shell 3-6 is a sealed shell of the device, and the bidirectional conveying mechanism 3-7 conveys the screened sand to the cement mortar stirring mechanism 3-3 or the sand discharging mechanism 3-5;

the stirring and crushing mechanism 3-1 comprises a first fixing cover 3-1-1, a second motor 3-1-2, a first spiral impeller 3-1-3 and a sealing sheet 3-1-4, the second motor 3-1-2 is adapted to a shell 3-6 of the device through a groove, the first fixing cover 3-1-1 is in contact connection with the second motor 3-1-2, the first fixing cover 3-1-1 is fixed on the shell 3-6 of the device through a fastening screw, the second motor 3-1-2 is in fixed contact connection with one end of the first spiral impeller 3-1-3, the other end of the first spiral impeller 3-1-3 is in movable contact connection with the shell 3-6 of the device, the sealing sheet 3-1-4 is fixed at one end of the first spiral impeller 3-1-3, the first fixing cover 3-1-1 of the first spiral impeller 3-1-3 to drive the 3, the screw impeller I3-1-3 plays a role in breaking sand blocks, the sealing sheet 3-1-4 plays a role in sealing, and the fixing cover I3-1-1 plays a role in sealing and fixing;

the sand screening mechanism 3-2 comprises a first servo machine 3-2-1, a second servo machine 3-2-2, a first layer of screening plate 3-2-3, a second layer of screening plate 3-2-4 and a screening plate support 3-2-5, wherein the first servo machine 3-2-1 is fixed below a second motor 3-1-2, the second servo machine 3-2-2 is fixed below the first servo machine 3-2-1, the first servo machine 3-2-1 is fixedly contacted and connected with the first layer of screening plate 3-2-3, the second layer of screening plate 3-2-4 is fixedly contacted and connected with the second servo machine 3-2-2, the number of the screening plate support 3-2-5 is two, and the two screening plate supports are respectively contacted and connected with the first layer of screening plate 3-2-3 and the second layer of screening plate 3-2-4, the screening plate strut 3-2-5 is fixedly connected with the device shell 3-6 in a contact mode, the first server 3-2-1 and the second server 3-2-2 respectively drive the first screening plate 3-2-3 and the second screening plate 3-2-4, and the screening plate strut 3-2-5 plays a role in supporting the first screening plate 3-2-3 and the second screening plate 3-2-4;

the cement mortar stirring mechanism 3-3 comprises a stirring chamber 3-3-1, a spiral impeller II 3-3-2, a cement mortar discharge port 3-3-3, a discharge port baffle 3-3-4 and a motor III 3-3-5, the stirring chamber 3-3-1 is arranged on a device shell 3-6, the stirring chamber 3-3-1 is adapted to the spiral impeller II 3-3-2, one end of the spiral impeller II 3-3-2 is fixedly contacted and connected with the motor III 3-3-5, the other end is movably contacted and connected with the device shell 3-6, the discharge port baffle 3-3-4 is movably contacted and connected with the device shell 3-6 through a groove, the cement mortar discharge port 3-3-3 is arranged on the stirring chamber 3-3-1, the second spiral impeller 3-3-2 plays a role in stirring sand and cement, the third motor 3-3-5 drives the second spiral impeller 3-3-2, and the discharge port baffle 3-3-4 plays a role in controlling the discharge of cement mortar;

the filtering sand conveying mechanism 3-4 comprises a sand-proof baffle 3-4-1, a first crawler belt 3-4-2, a conveying shaft 3-4-3, a conveying bearing plate 3-4-4, a supporting upright 3-4-5 and a fourth motor 3-4-6, wherein the fourth motor 3-4-6 is fixed on a device shell 3-6, the fourth motor 3-4-6 is fixedly contacted and connected with the conveying shaft 3-4-3, the conveying shaft 3-4-3 is movably contacted and connected with the conveying bearing plate 3-4-4, the first crawler belt 3-4-2 is movably contacted and connected with the conveying shaft 3-4-3 and the conveying bearing plate 3-4-4, the supporting upright 3-4-5 is fixedly contacted and connected with the conveying bearing plate 3-4-4, the sand-proof baffle 3-4-1 is fixed on the device shell 3-6 through a fastening screw, the sand-proof baffle 3-4-1 has the function of preventing sand leakage, the motor 3-4-6 drives the conveying shaft 3-4-3, the conveying shaft 3-4-3 drives the crawler belt I3-4-2, and the supporting upright post 3-4-5 has the function of supporting the conveying bearing plate 3-4-4;

the sand discharging mechanism 3-5 comprises a sealing shell 3-5-1, a six-blade rotating wheel 3-5-2, a six-blade rotating shaft 3-5-3, a motor five 3-5-4, a sealing fixed cover 3-5-5 and a bearing 3-5-6, the sealing shell 3-5-1 is arranged on the device shell 3-6, the motor five 3-5-4 is arranged on the sealing shell 3-5-1, the motor five 3-5-4 is fixedly contacted and connected with the six-blade rotating shaft 3-5-3, the six-blade rotating shaft 3-5-3 is fixedly contacted and connected with the six-blade rotating wheel 3-5-2, the bearing 3-5-6 is matched with the sealing shell 3-5-1 through a groove, the bearing 3-5-6 is fixedly connected with the sealing shell 3-5-1 in a contact manner through a fastening screw, the six-blade wheel rotating shaft 3-5-3 is fixedly connected with the bearing 3-5-6 in a contact manner through a groove, the six-blade wheel rotating shaft 3-5-3 is matched with the sealing fixed cover 3-5-5 through a through hole, the sealing fixed cover 3-5-5 is fixed on the sealing shell 3-5-1 through the fastening screw, the bearing 3-5-6 assists the six-blade wheel rotating shaft 3-5-3 to rotate, the motor five 3-5-4 drives the six-blade wheel rotating shaft 3-5-3 to rotate, the six-blade wheel 3-5-2 plays a role in stirring sand, and the sealing fixed cover 3-5-5 plays a role in sealing and fixing;

the device shell 3-6 comprises shell supporting legs 3-6-1, a motor six 3-6-2, a bottom fixing cover 3-6-3 and a rotating disc 3-6-4, the bottom of the device shell 3-6 is provided with the shell supporting legs 3-6-1, the motor six 3-6-2 is arranged on the device shell 3-6, the bottom fixing cover 3-6-3 is fixed on the device shell 3-6 through fastening screws, the bottom fixing cover 3-6-3 is in contact connection with the motor six 3-6-2, the motor six 3-6-2 is in fixed contact connection with the rotating disc 3-6-4 through a groove, the motor six 3-6-2 drives the rotating disc 3-6-4, the rotating disc 3-6-4 drives sand to rotate, the bottom fixing cover 3-6-3 plays a role in sealing and fixing, and the shell supporting leg 3-6-1 plays a role in supporting the device;

the bidirectional transmission mechanism 3-7 comprises a rotating central shaft 3-7-1, a second crawler belt 3-7-2, a crawler belt mounting plate 3-7-3 and a seventh motor 3-7-4, wherein the seventh motor 3-7-4 is fixed on a device shell 3-6, the seventh motor 3-7-4 is fixedly connected with the rotating central shaft 3-7-1 in a contact manner, the rotating central shaft 3-7-1 is movably connected with the crawler belt mounting plate 3-7-3, both the crawler belt mounting plate 3-7-3 and the rotating central shaft 3-7-1 are movably connected with the second crawler belt 3-7-2 in a contact manner, the seventh motor 3-7-4 drives the rotating central shaft 3-7-1, the rotating central shaft 3-7-1 drives the second crawler belt 3-7-2, the crawler belt mounting plate 3-7-3 is a bearing plate for driving the crawler belt II 3-7-2;

the left side of the sand conveying mechanism 1 is provided with a sand stirring mechanism 2, and the right side of the sand conveying mechanism 1 is provided with a sand screening and stirring mechanism 3.

The second embodiment is as follows:

the present embodiment will be described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, and 12, and the present embodiment further describes the first embodiment, in which the material of the bearings 3 to 5 to 6 is bearing steel.

The third concrete implementation mode:

the present embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, and 12, and the present embodiment further describes the first embodiment, in which the number of the housing support legs 3-6-1 is four, and the four housing support legs are uniformly and respectively located at the bottom of the device housings 3-6.

The fourth concrete implementation mode:

the present embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, and 12, and the present embodiment further describes the first embodiment, in which the first support leg 1-3 and the second support leg 1-7 are parallel.

The use method of the device comprises the following steps: the motor II 2-4 is started to drive the sand fluctuation wheel 2-1, the sand fluctuation wheel 2-1 breaks the blocks of sand into small blocks, the small blocks are transmitted to the small transmission crawler belt 1-4, the motor I1-9-2 is started to drive the gear set 1-9-4, the gear set 1-9-4 drives the first rotating shaft 1-10 and the second rotating shaft 1-11, the sand is transmitted to an inlet of the sand screening and stirring mechanism 3, and the effect that the sand which is primarily broken into blocks can be automatically transmitted is achieved at the moment, and manual feeding is not needed.

The sand enters the stirring and crushing mechanism 3-1, the motor II 3-1-2 drives the spiral impeller I3-1-3, the spiral impeller I3-1-3 breaks and discharges the agglomerated sand in all directions, the discharged sand falls onto the first layer of screening plate 3-2-3, the servo machine I3-2-1 drives the first layer of screening plate 3-2-3 to swing left and right, the sand is filtered and falls onto the second layer of screening plate 3-2-4, the servo machine II 3-2-2 drives the second layer of screening plate 3-2-4 to carry out secondary screening, then the sand falls onto the second crawler belt 3-7-2, the sand which is not screened on the first layer of screening plate 3-2-3 and the second layer of screening plate 3-2-4 falls onto the first crawler belt 3-4-2, then the sand falls into the ground in a centralized way through the sand sliding platforms 1-12.

The motor seven 3-7-4 can rotate clockwise or anticlockwise, when rotating clockwise, the sand falls into the stirring chamber 3-3-1, cement is added and is stirred by the spiral impeller II 3-3-2 to become cement mortar, the discharge port baffle 3-3-4 is opened, the cement mortar can be intensively discharged from the cement mortar discharge port 3-3-3, when the device rotates anticlockwise, the sand falls into the sealing shell 3-5-1 and falls on the rotating disc 3-6-4, the motor six 3-6-2 drives the rotating disc 3-6-4 to rotate, the sand moves below the six-blade rotating wheel 3-5-2 through rotation, and the sand is discharged outside the device in a centralized manner through the fluctuation of the six-blade rotating wheel 3-5-2.

This device can transport the sieving mechanism mouth and put in with the sand automatically, and the device can smash the sand of blocking, carries out the secondary screening, and the sand that chooses at last can discharge alone, also can directly add cement stirring become cement mortar, and the sand that does not filter can concentrate the discharge for other places or carry out the secondary screening.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (4)

1. The utility model provides a new-type industrial automatic sand screening separation agitating unit, includes sand transport mechanism (1), sand toggle mechanism (2), sand screening and rabbling mechanism (3), its characterized in that: the sand conveying mechanism (1) comprises a conveying platform (1-1), a conveying crawler (1-2), a first supporting leg (1-3), a small conveying crawler (1-4), a supporting inclined table (1-5), a moving roller (1-6), a second supporting leg (1-7), a conveying belt rotating shaft (1-8), a conveying belt mechanism (1-9), a first rotating shaft (1-10), a second rotating shaft (1-11) and a sand sliding platform (1-12), wherein the conveying platform (1-1) is fixedly connected with the first supporting leg (1-3) in a contact manner, the conveying platform (1-1) is fixedly connected with the second supporting leg (1-7) in a contact manner, the moving rollers (1-6) are arranged at the bottoms of the second supporting leg (1-7) and the first supporting leg (1-3), the number of the supporting legs II (1-7) is two, a sand sliding platform (1-12) is arranged between the two supporting legs II (1-7), one end of the conveying platform (1-1) is movably connected with the rotating shaft (1-8) of the conveying belt in a contact mode, the other end of the conveying platform is movably connected with the first rotating shaft (1-10) in a contact mode, the conveying belt track (1-2) is wrapped on the conveying platform (1-1), the conveyor belt mechanism (1-9) is movably connected with the first rotating shaft (1-10) and the second rotating shaft (1-11) in a contact manner outside the conveyor belt rotating shaft (1-8) and the first rotating shaft (1-10), the second rotating shaft (1-11) is movably connected with the small-sized conveying crawler belt (1-4), and the second rotating shaft (1-11) is fixedly connected with the supporting inclined table (1-5) in a contact manner;

the conveyor belt mechanism (1-9) comprises a right supporting leg (1-9-1), a motor I (1-9-2), a motor fixing cover (1-9-3), a gear set (1-9-4) and a left supporting leg (1-9-5), the motor I (1-9-2) is matched with the right supporting leg (1-9-1) through a groove, the motor fixing cover (1-9-3) is fixed on the right supporting leg (1-9-1) through a fastening screw, the motor fixing cover (1-9-3) is in contact connection with the motor I (1-9-2), the gear set (1-9-4) is matched with the right supporting leg (1-9-1) through a groove, the motor I (1-9-2) is matched with the gear set (1-9-4) through a groove, the left supporting legs (1-9-5) are movably connected with the first rotating shaft (1-10) and the second rotating shaft (1-11) in a contact manner;

the gear set (1-9-4) comprises a first gear (1-9-4-1) and a second gear (1-9-4-2), the third gear (1-9-4-3), the second gear (1-9-4-2) is fixedly connected with the first motor (1-9-2) through a groove in a contact mode, the second gear (1-9-4-2) is meshed with the first gear (1-9-4-1), the second gear (1-9-4-2) is meshed with the third gear (1-9-4-3), the third gear (1-9-4-3) is fixedly connected with the first rotating shaft (1-10) in a contact mode, and the first gear (1-9-4-1) is fixedly connected with the second rotating shaft (1-11) in a contact mode;

the sand shifting mechanism (2) comprises a sand fluctuation wheel (2-1), a fluctuation wheel rotating shaft (2-2), a rotating shaft supporting leg I (2-3), a motor II (2-4) and a rotating shaft supporting leg II (2-5), the motor II (2-4) is installed in the rotating shaft supporting leg II (2-5), the motor II (2-4) is fixedly contacted and connected with one end of the fluctuation wheel rotating shaft (2-2), the other end of the fluctuation wheel rotating shaft (2-2) is movably contacted and connected with the rotating shaft supporting leg I (2-3), the sand fluctuation wheel (2-1) is positioned in the middle of the fluctuation wheel rotating shaft (2-2), and the sand fluctuation wheel (2-1) is fixedly contacted and connected with the fluctuation wheel rotating shaft (2-2);

the sand screening and stirring mechanism (3) comprises a stirring mechanism (3-1), a sand screening mechanism (3-2), a cement mortar stirring mechanism (3-3), a filtering sand conveying mechanism (3-4), a sand discharging mechanism (3-5), a device shell (3-6) and a bidirectional conveying mechanism (3-7), wherein the stirring mechanism (3-1) is positioned at the uppermost part of the sand screening and stirring mechanism (3), the sand screening mechanism (3-2) is arranged below the stirring mechanism (3-1), the filtering sand conveying mechanism (3-4) is arranged below the sand screening mechanism (3-2), the bidirectional conveying mechanism (3-7) is arranged below the filtering sand conveying mechanism (3-4), the cement mortar stirring mechanism (3-3) and the sand discharging mechanism (3-5) are arranged below the bidirectional conveying mechanism (3-7), the cement mortar stirring mechanism (3-3) is positioned at the lower right of the bidirectional conveying mechanism (3-7), the sand discharging mechanism (3-5) is positioned at the lower left of the bidirectional conveying mechanism (3-7), and the device shell (3-6) is a protective shell of the device;

the stirring and crushing mechanism (3-1) comprises a first fixed cover (3-1-1), a second motor (3-1-2), a first spiral impeller (3-1-3) and a sealing sheet (3-1-4), the second motor (3-1-2) is adapted to the device shell (3-6) through a groove, the first fixed cover (3-1-1) is in contact connection with the second motor (3-1-2), the first fixed cover (3-1-1) is fixed on the device shell (3-6) through a fastening screw, the second motor (3-1-2) is in fixed contact connection with one end of the first spiral impeller (3-1-3), the other end of the first spiral impeller (3-1-3) is in movable contact connection with the device shell (3-6), the sealing piece (3-1-4) is fixed at one end of the first helical impeller (3-1-3);

the sand screening mechanism (3-2) comprises a first servo machine (3-2-1), a second servo machine (3-2-2), a first layer of screening plate (3-2-3), a second layer of screening plate (3-2-4) and screening plate pillars (3-2-5), wherein the first servo machine (3-2-1) is fixed below the second motor (3-1-2), the second servo machine (3-2-2) is fixed below the first servo machine (3-2-1), the first servo machine (3-2-1) is fixedly connected with the first layer of screening plate (3-2-3) in a contact manner, the second layer of screening plate (3-2-4) is fixedly connected with the second servo machine (3-2-2) in a contact manner, and the number of the screening plate pillars (3-2-5) is two, the screening plates are respectively in contact connection with a first layer of screening plate (3-2-3) and a second layer of screening plate (3-2-4), and screening plate supports (3-2-5) are fixedly in contact connection with a device shell (3-6);

the cement mortar stirring mechanism (3-3) comprises a stirring chamber (3-3-1), a spiral impeller II (3-3-2), a cement mortar discharge port (3-3-3), a discharge port baffle plate (3-3-4) and a motor III (3-3-5), wherein the stirring chamber (3-3-1) is arranged on a device shell (3-6), the stirring chamber (3-3-1) is adapted to the spiral impeller II (3-3-2), one end of the spiral impeller II (3-3-2) is fixedly contacted and connected with the motor III (3-3-5), the other end of the spiral impeller II (3-3-2) is movably contacted and connected with the device shell (3-6), the discharge port baffle plate (3-3-4) is movably contacted and connected with the device shell (3-6) through a groove, a cement mortar discharge port (3-3-3) is arranged on the stirring chamber (3-3-1);

the filtering sand conveying mechanism (3-4) comprises a sand prevention baffle (3-4-1), a first crawler belt (3-4-2), a conveying shaft (3-4-3), a conveying bearing plate (3-4-4), a supporting upright post (3-4-5) and a fourth motor (3-4-6), wherein the fourth motor (3-4-6) is fixed on a device shell (3-6), the fourth motor (3-4-6) is fixedly connected with the conveying shaft (3-4-3) in a contact manner, the conveying shaft (3-4-3) is movably connected with the conveying bearing plate (3-4-4) in a contact manner, the first crawler belt (3-4-2) is movably connected with the conveying shaft (3-4-3) and the conveying bearing plate (3-4-4) in a contact manner, the supporting upright posts (3-4-5) are fixedly contacted and connected with the conveying bearing plate (3-4-4), and the sand-proof baffle plate (3-4-1) is fixed on the device shell (3-6) through fastening screws;

the sand discharging mechanism (3-5) comprises a sealing shell (3-5-1), a six-blade rotating wheel (3-5-2), a six-blade rotating shaft (3-5-3), a motor five (3-5-4), a sealing fixed cover (3-5-5) and a bearing (3-5-6), the sealing shell (3-5-1) is arranged on the device shell (3-6), the motor five (3-5-4) is installed on the sealing shell (3-5-1), the motor five (3-5-4) is fixedly connected with the six-blade rotating shaft (3-5-3) in a contact manner, the six-blade rotating shaft (3-5-3) is fixedly connected with the six-blade rotating wheel (3-5-2) in a contact manner, and the bearing (3-5-6) and the sealing shell (3-5-1) are matched through a groove The bearing (3-5-6) is fixedly connected with the sealed shell (3-5-1) in a contact manner through a fastening screw, the six-impeller rotating shaft (3-5-3) is fixedly connected with the bearing (3-5-6) in a contact manner through a groove, the six-impeller rotating shaft (3-5-3) is adapted to the sealed fixed cover (3-5-5) through a through hole, and the sealed fixed cover (3-5-5) is fixed on the sealed shell (3-5-1) through the fastening screw;

the device shell (3-6) comprises a shell supporting leg (3-6-1) and a motor six (3-6-2), the device comprises a bottom fixing cover (3-6-3) and a rotating disc (3-6-4), wherein the bottom of a device shell (3-6) is provided with a shell supporting leg (3-6-1), a motor six (3-6-2) is installed on the device shell (3-6), the bottom fixing cover (3-6-3) is fixed on the device shell (3-6) through a fastening screw, the bottom fixing cover (3-6-3) is in contact connection with the motor six (3-6-2), and the motor six (3-6-2) is in fixed contact connection with the rotating disc (3-6-4) through a groove;

the bidirectional conveying mechanism (3-7) comprises a rotating central shaft (3-7-1), a second crawler belt (3-7-2), a crawler belt mounting plate (3-7-3) and a seventh motor (3-7-4), wherein the seventh motor (3-7-4) is fixed on a device shell (3-6), the seventh motor (3-7-4) is fixedly connected with the rotating central shaft (3-7-1) in a contact manner, the rotating central shaft (3-7-1) is movably connected with the crawler belt mounting plate (3-7-3) in a contact manner, and the crawler belt mounting plate (3-7-3) and the rotating central shaft (3-7-1) are movably connected with the second crawler belt (3-7-2) in a contact manner;

the left side of the sand conveying mechanism (1) is provided with a sand stirring mechanism (2), and the right side of the sand conveying mechanism (1) is provided with a sand screening and stirring mechanism (3).

2. The novel industrial automatic sand screening, separating and stirring device as claimed in claim 1, characterized in that: the bearing (3-5-6) is made of bearing steel.

3. The novel industrial automatic sand screening, separating and stirring device as claimed in claim 1, characterized in that: the number of the shell supporting legs (3-6-1) is four, and the four shell supporting legs are uniformly arranged at the bottom of the shell (3-6) of the device respectively.

4. The novel industrial automatic sand screening, separating and stirring device as claimed in claim 1, characterized in that: the first support leg (1-3) and the second support leg (1-7) are parallel in position.

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