CN204768926U - High -efficient system sand machine for building - Google Patents

High -efficient system sand machine for building Download PDF

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Publication number
CN204768926U
CN204768926U CN201520527778.8U CN201520527778U CN204768926U CN 204768926 U CN204768926 U CN 204768926U CN 201520527778 U CN201520527778 U CN 201520527778U CN 204768926 U CN204768926 U CN 204768926U
Authority
CN
China
Prior art keywords
broken
flabellum
rotor
arc notch
main shaft
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Fee Related
Application number
CN201520527778.8U
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Chinese (zh)
Inventor
谢章钦
谢永宁
吴自强
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Sichuan Zhongtian Construction Engineering Co., Ltd.
Original Assignee
谢章钦
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by 谢章钦 filed Critical 谢章钦
Priority to CN201520527778.8U priority Critical patent/CN204768926U/en
Application granted granted Critical
Publication of CN204768926U publication Critical patent/CN204768926U/en
Expired - Fee Related legal-status Critical Current
Anticipated expiration legal-status Critical

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Abstract

The utility model discloses a high -efficient system sand machine for building, including workstation, actuating mechanism and broken mechanism, broken mechanism includes broken rotor and a plurality of week backplate, and the inlet pipe setting is on broken case upper portion, and the feeder hopper setting is in the inlet pipe upper end, and broken rotor, main shaft and all backplates all set up at broken incasement, and broken rotor setting is in the middle part of broken case, broken rotor includes toper reposition of redundant personnel portion and rotatory broken portion, and toper reposition of redundant personnel portion sets up on rotatory breakage portion upper portion, toper reposition of redundant personnel portion includes the toper platform, evenly is provided with a plurality of and is the downward slope that the heliciform set up on the outer wall of toper platform, is provided with send forth a hopper or a short hopper at the downward slope lower extreme. The utility model discloses high -efficient system sand machine for building crushing effect is good, crushing efficiency is high, and broken rotor has the reposition of redundant personnel function to can go on the material of reposition of redundant personnel dividing regional breakage by different level, thereby improve broken homogeneity, make the material particle diameter after the breakage even.

Description

High-efficiency sand making machine for building
Technical field
The utility model relates to a kind of machining equipment, high-efficiency sand making machine especially for building.
Background technology
Disintegrating machine is a kind of for carrying out the broken a kind of plant equipment obtaining more small particle diameter of processing to material, its principle is that material enters in crusher chamber from feed hopper, rotates counterattack carry out fragmentation to material by the rotor high-speed being positioned at crusher chamber to all backplates of crusher chamber.But existing crusher rotor only has crushing function, sub-material cannot be carried out to the epitrochanterian material of inflow, material only by deadweight blanking at random, and the material of skewness when rotor rotates and the contact of rotor bad, thus make fragmentation unevenly reduce crushing effect.
Utility model content
Technical problem to be solved in the utility model is, for above-mentioned the deficiencies in the prior art, provides a kind of high-efficiency sand making machine for building.
The technical scheme that the utility model high-efficiency sand making machine for building adopts is as follows:
The utility model high-efficiency sand making machine for building, comprise workbench, driving mechanism and crushing mechanism, driving mechanism and crushing mechanism are arranged on the table, driving mechanism is connected with crushing mechanism, described crushing mechanism comprises feed hopper, feed pipe, broken case, main shaft, broken rotor and several week backplate, feed pipe is arranged on broken upper box part, feed hopper is arranged on feed pipe upper end, broken rotor, main shaft and all backplates are all arranged in broken case, and broken rotor is arranged in the middle part of broken case, main shaft is fixedly installed on broken rotor bottom, within several week, backplate uniform pitch is arranged on broken case sidewall, driving mechanism is connected with main shaft, described broken rotor comprises tapered shunting portion and rotates broken portion, tapered shunting portion is arranged on and rotates top, broken portion, described tapered shunting portion comprises taper platform, the outer wall of taper platform is evenly provided with some the chutes arranged in the shape of a spiral, is provided with in chute lower end and grows hopper or short discharge bucket.
As preferred version of the present utility model, the broken portion of described rotation comprises countershaft, shaft coupling, several tube sealings and some groups of broken leaf wheel assemblies, countershaft is connected with main shaft by shaft coupling, tube sealing and broken leaf wheel assembly are all nested with on countershaft, and spaced setting between tube sealing and broken leaf wheel assembly.
As preferred version of the present utility model, described broken leaf wheel assembly of often organizing includes Special-shaped Plates, hinged otic placode, broken flabellum and connecting rod, hinged otic placode is arranged on Special-shaped Plates edge, and connecting rod one end and hinged otic placode are articulated and connected, and the connecting rod other end is fixedly connected with broken flabellum.
As preferred version of the present utility model, described Special-shaped Plates sidepiece is provided with two the first arc notch be oppositely arranged, the second arc notch is relatively set with two, a hinged otic placode is provided with in each first arc notch and the second arc notch, described broken flabellum comprises the first flabellum and the second flabellum, first flabellum is arranged in the first arc notch by connecting rod, and the second flabellum is arranged in the second arc notch by connecting rod; The radian of the first arc notch is greater than the radian of the second arc notch, and the area of the first flabellum is greater than the area of the second flabellum.
As preferred version of the present utility model, described driving mechanism comprises drive motors, the first belt wheel, the second belt wheel and driving-belt, first belt wheel is arranged on the output shaft of drive motors, and the second belt wheel is arranged on main shaft lower end, and driving-belt is wrapped on the first belt wheel and the second belt wheel.
The advantage of the utility model high-efficiency sand making machine for building is, crushing effect is good, crushing efficiency is high, and broken rotor has diverter function, and can carry out subregion fragmentation by different level to the material of shunting, thus improve broken uniformity, make the material particular diameter after fragmentation even.
Accompanying drawing explanation
Fig. 1 is the front view of the utility model high-efficiency sand making machine for building.
Fig. 2 is the front view of the broken rotor of the utility model high-efficiency sand making machine for building.
Fig. 3 is the tapered shunting portion top view of the utility model high-efficiency sand making machine broken rotor for building.
Fig. 4 is the broken leaf wheel assembly front view of the broken rotor of the utility model high-efficiency sand making machine for building.
Detailed description of the invention
As shown in drawings, the utility model high-efficiency sand making machine for building, comprises workbench 1, driving mechanism and crushing mechanism, and driving mechanism and crushing mechanism are arranged on workbench 1, and driving mechanism is connected with crushing mechanism.Workbench 1 is for supporting driving mechanism and crushing mechanism, and driving mechanism is used for providing crushing power for crushing mechanism, thus carries out fragmentation by crushing mechanism to material.
Described driving mechanism comprises drive motors 6, first belt wheel, the second belt wheel and driving-belt 7, first belt wheel and is arranged on the output shaft of drive motors 6, and the second belt wheel is arranged on main shaft 7 lower end, and driving-belt 7 is wrapped on the first belt wheel and the second belt wheel.When drive motors 6 starts, the first belt wheel is driven to rotate, driving-belt 7 synchronous axial system is driven while first belt wheel rotates, thus drive the second belt wheel to rotate by driving-belt 7, because the second belt wheel is arranged on main shaft 5, therefore the second belt wheel drives main shaft 5 to rotate in rotation process, thus drives broken rotor to rotate by main shaft 5.
Crushing mechanism comprises feed hopper 2, feed pipe 3, broken case 4, main shaft 5, broken rotor and several week backplate, feed pipe 3 is arranged on broken case 4 top, feed hopper 2 is arranged on feed pipe 3 upper end, broken rotor, main shaft 5 and all backplates are all arranged in broken case 4, and broken rotor is arranged in the middle part of broken case 4, main shaft 5 is fixedly installed on broken rotor bottom, and within several week, backplate uniform pitch is arranged on broken case 4 sidewall, and driving mechanism is connected with main shaft 4.Material flow in feed pipe 3 from feed hopper, enter in broken case 4 again, because broken rotor is positioned at below feed pipe 3, the material entering broken case 4 carries out fragmentation by broken rotor High Rotation Speed, and breaks up broken by material impacting to all backplates carries out secondary counter.Broken rotor is driven by main shaft 5, and main shaft 5 is driven by driving mechanism and rotates.
Broken rotor comprises tapered shunting portion and rotates broken portion, tapered shunting portion is arranged on and rotates top, broken portion, described tapered shunting portion comprises taper platform 8, the outer wall of taper platform is evenly provided with some the chutes arranged in the shape of a spiral 9, be provided with in chute lower end and grow hopper 10 or short discharge bucket 11, the broken portion of described rotation comprises countershaft 12, shaft coupling, several tube sealings 13 and some groups of broken leaf wheel assemblies, countershaft 12 is connected with main shaft 4 by shaft coupling, tube sealing 13 and broken leaf wheel assembly are all nested with on countershaft 12, and spaced setting between tube sealing and broken leaf wheel assembly.
Described broken leaf wheel assembly of often organizing includes Special-shaped Plates 14, hinged otic placode 15, broken flabellum and connecting rod 16, hinged otic placode 15 is arranged on Special-shaped Plates 14 edge, connecting rod 16 one end and hinged otic placode are articulated and connected, and connecting rod 16 other end is fixedly connected with broken flabellum; Described Special-shaped Plates 14 sidepiece is provided with two the first arc notch 17 be oppositely arranged, and two are relatively set with the second arc notch 18, in each first arc notch 17 and the second arc notch 18, be provided with a hinged otic placode 15.
Described broken flabellum comprises the first flabellum 19 and the second flabellum 20, first flabellum 19 is arranged in the first arc notch 17 by connecting rod 16, and the second flabellum 20 is arranged in the second arc notch 18 by connecting rod 16; The radian of the first arc notch is greater than the radian of the second arc notch, and the area of the first flabellum is greater than the area of the second flabellum.
By broken rotor being arranged to the version comprising tapered shunting portion and rotate broken portion, tapered shunting portion is fixedly connected with the broken portion of rotation, when rotating broken portion and rotating, drives tapered shunting portion synchronous axial system.
By arranging tapered shunting portion, when material falls from feed pipe 2, by tapered shunting, portion shunts material, by material diversion to rotation broken portion on, then by rotation broken portion fragmentation is carried out to material, make fragmentation like this evenly.By tapered shunting portion being arranged to the version comprising taper platform, the chute 9 arranged in the shape of a spiral and length/short discharge bucket, material to be dispersed to circumference place from middle part by taper platform 8 and is carried out drainage by chute 9 again, and by growing hopper 10 or short discharge bucket 11 controls and rotates the distance between broken portion, the material shunted that causes to fall and break has far and near level, can improve crushing efficiency further.
By the broken portion of rotation is arranged to the version comprising countershaft 12, shaft coupling, several tube sealings 13 and some groups of broken leaf wheel assemblies, countershaft 12 is connected with main shaft 4 by shaft coupling, make countershaft 12 can with main shaft 4 synchronous axial system, it is broken that broken leaf wheel assembly is used for getting rid of material to material, tube sealing 13 is arranged between two adjacent groups broken leaf wheel assembly and provides broken space for being separated by upper and lower two groups of broken leaf wheel assemblies on the one hand, can prevent material from snapping onto in broken leaf wheel assembly on the other hand, affect crushing operation.
By will often organize broken leaf wheel assembly and be arranged to comprise the version of Special-shaped Plates 14, hinged otic placode 15, broken flabellum and connecting rod 16, Special-shaped Plates 14 is fixedly connected with countershaft 12, when countershaft 12 rotates, drive Special-shaped Plates 14 synchronous axial system, and drive broken flabellum to rotate to carry out rotation by connecting rod 16 and get rid of material.
The version of the second arc notch 18 is relatively set with by Special-shaped Plates sidepiece being provided with two the first arc notch 17 be oppositely arranged and two, first arc notch 17 and the second arc notch 18 are for providing activity space for the first flabellum 19 and the second flabellum 20, and because the first flabellum 19 is different with the area of the second flabellum 20, its quality and get rid of material dynamics and be also not quite similar, therefore good fragmentation can be provided to material, and can obtain good fragmentation to the far and near material dropping to broken rotor, improve broken uniformity.
Below by reference to the accompanying drawings preferred embodiment of the present utility model is elaborated, but the utility model is not limited to above-mentioned embodiment, in the ken that art technical staff possesses, various change can also be made under the prerequisite not departing from the utility model aim.

Claims (5)

1. a high-efficiency sand making machine for building, comprise workbench (1), driving mechanism and crushing mechanism, driving mechanism and crushing mechanism are arranged on workbench (1), driving mechanism is connected with crushing mechanism, it is characterized in that: described crushing mechanism comprises feed hopper (2), feed pipe (3), broken case (4), main shaft (5), broken rotor and several week backplate, feed pipe (3) is arranged on broken case (4) top, feed hopper (2) is arranged on feed pipe (3) upper end, broken rotor, main shaft (5) and all backplates are all arranged in broken case (4), and broken rotor is arranged on broken case (4) middle part, main shaft (5) is fixedly installed on broken rotor bottom, within several week, backplate uniform pitch is arranged on broken case (4) sidewall, driving mechanism is connected with main shaft (4), described broken rotor comprises tapered shunting portion and rotates broken portion, tapered shunting portion is arranged on and rotates top, broken portion, described tapered shunting portion comprises taper platform (8), the outer wall of taper platform is evenly provided with some the chutes arranged in the shape of a spiral (9), is provided with in chute lower end and grows hopper (10) or short discharge bucket (11).
2. high-efficiency sand making machine for building according to claim 1, it is characterized in that: the broken portion of described rotation comprises countershaft (12), shaft coupling, several tube sealings (13) and some groups of broken leaf wheel assemblies, countershaft (12) is connected with main shaft (4) by shaft coupling, tube sealing (13) and broken leaf wheel assembly are all nested with on countershaft (12), and spaced setting between tube sealing and broken leaf wheel assembly.
3. high-efficiency sand making machine for building according to claim 2, it is characterized in that: described broken leaf wheel assembly of often organizing includes Special-shaped Plates (14), hinged otic placode (15), broken flabellum and connecting rod (16), hinged otic placode (15) is arranged on Special-shaped Plates (14) edge, connecting rod (16) one end and hinged otic placode are articulated and connected, and connecting rod (16) other end is fixedly connected with broken flabellum.
4. high-efficiency sand making machine for building according to claim 3, it is characterized in that: described Special-shaped Plates (14) sidepiece is provided with two the first arc notch (17) be oppositely arranged, the second arc notch (18) is relatively set with two, a hinged otic placode (15) is provided with in each first arc notch (17) and the second arc notch (18), described broken flabellum comprises the first flabellum (19) and the second flabellum (20), first flabellum (19) is arranged in the first arc notch (17) by connecting rod (16), second flabellum (20) is arranged in the second arc notch (18) by connecting rod (16), the radian of the first arc notch is greater than the radian of the second arc notch, and the area of the first flabellum is greater than the area of the second flabellum.
5. high-efficiency sand making machine for building according to claim 1, it is characterized in that: described driving mechanism comprises drive motors (6), the first belt wheel, the second belt wheel and driving-belt (7), first belt wheel is arranged on the output shaft of drive motors (6), second belt wheel is arranged on main shaft (7) lower end, and driving-belt (7) is wrapped on the first belt wheel and the second belt wheel.
CN201520527778.8U 2015-07-21 2015-07-21 High -efficient system sand machine for building Expired - Fee Related CN204768926U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201520527778.8U CN204768926U (en) 2015-07-21 2015-07-21 High -efficient system sand machine for building

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201520527778.8U CN204768926U (en) 2015-07-21 2015-07-21 High -efficient system sand machine for building

Publications (1)

Publication Number Publication Date
CN204768926U true CN204768926U (en) 2015-11-18

Family

ID=54509055

Family Applications (1)

Application Number Title Priority Date Filing Date
CN201520527778.8U Expired - Fee Related CN204768926U (en) 2015-07-21 2015-07-21 High -efficient system sand machine for building

Country Status (1)

Country Link
CN (1) CN204768926U (en)

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Legal Events

Date Code Title Description
C14 Grant of patent or utility model
GR01 Patent grant
C41 Transfer of patent application or patent right or utility model
TR01 Transfer of patent right

Effective date of registration: 20160907

Address after: 635000, Heping Street, 42 Heping Town, Dazhou, Sichuan, Quxian County

Patentee after: Sichuan Zhongtian Construction Engineering Co., Ltd.

Address before: 635000, No. 75, South Main Street, canal river, Dazhou, Sichuan, Quxian County

Patentee before: Chen Manchun

Patentee before: Chen Tong

Effective date of registration: 20160907

Address after: 635000, No. 75, South Main Street, canal river, Dazhou, Sichuan, Quxian County

Patentee after: Chen Manchun

Patentee after: Chen Tong

Address before: The brick village temple town of Anxi County, Quanzhou City, Chengxiang province after the 362000 Fujian No. 182

Patentee before: Xie Zhangqin

CF01 Termination of patent right due to non-payment of annual fee
CF01 Termination of patent right due to non-payment of annual fee

Granted publication date: 20151118

Termination date: 20170721