CN217043373U - Sieve separator is used in mortar production - Google Patents

Abstract

The utility model discloses a sieve separator is used in mortar production relates to mortar production facility technical field, including the bearing box, the top of bearing box is equipped with drive assembly, one side that the bearing box top is located drive assembly is equipped with the screening subassembly, the inside drive assembly below that is located of bearing box is provided with transmission assembly, bearing box outer wall is seted up and is run through to its inside and transmission assembly assorted first discharge gate. The utility model discloses be convenient for that the staff is quick convenient screens the mortar, screens the whole shape that adopts the drum of subassembly, and makes the mortar more comprehensive of screening the inside screening of subassembly through two direction pivoted power, and the screening effect is more, and the mortar after the screening is transported to the device main part outside from different exports, the operation of the follow-up step of being convenient for, the continuous operation of the device main part of also being convenient for simultaneously.

Description

Sieve separator is used in mortar production

Technical Field

The utility model relates to a mortar production facility technical field specifically is a sieve separator is used in mortar production.

Background

The dry-mixed mortar is a dry-mixed mixture which is prepared by mixing aggregates subjected to drying and screening treatment, cement and various components determined according to performance in a professional production plant according to a certain proportion, is mixed with water or matched liquid at a use place according to a specified proportion, is also called dry-mixed mortar, has different naming modes, is classified by using a storage state, and is classified by using a construction use method.

When the existing screening device is used for screening dry-mixed mortar, the screening efficiency is poor, and the dry-mixed mortar after screening is collected, so that the screening device is troublesome and inconvenient for workers to use.

SUMMERY OF THE UTILITY MODEL

The utility model provides a provide a screening machine is used in mortar production in order to solve the relatively poor problem of screening efficiency of proposing among the above-mentioned background art.

In order to realize the purpose of the utility model, the utility model adopts the following technical scheme:

the utility model provides an utilize a sieve separator for mortar production, including the bearing case, the top of bearing case is equipped with drive assembly, one side that the top of bearing case lies in drive assembly is equipped with the screening subassembly, the bearing incasement is located and is provided with the transmission assembly below the drive assembly, the bearing incasement wall is seted up and run through to its inside first discharge gate that matches with the transmission assembly;

screening subassembly is including the third ring gear that links to each other with drive assembly, the one end of third ring gear is equipped with defeated material roller, defeated material roller outer wall is provided with the second spacing seat of fixed mounting on bearing box top, the one end that third ring gear was kept away from to defeated material roller is equipped with fourth ring gear, fourth ring gear is kept away from third ring gear outer wall and is seted up the second discharge gate that runs through to defeated material roller inside, the inside assembly of fourth ring gear has the second dwang, the inside fixed auger blade that is equipped with that second dwang outer wall is located defeated material roller.

Drive assembly is including fixed mounting in the driving motor on bearing box top, driving motor's output is equipped with first pivot pole, first pivot pole outer wall fixed mounting has first ring gear, first pivot pole outer wall is located first ring gear one side and is equipped with first spacing, the fixed second ring gear that is equipped with of one end that driving motor was kept away from to first pivot pole, the one end that driving motor was kept away from to second ring gear is equipped with first drive chain.

The transmission assembly is including the second drive chain with first transfer line outer wall connection, second drive chain inner wall is located first transfer line below and is equipped with the third dwang, the one end that third dwang outer wall is located second drive chain is equipped with the conveyer belt, one side that the inner wall of conveyer belt is located the third dwang is equipped with the fourth dwang.

One end of the third gear ring, which is far away from the material conveying roller, is provided with a feed inlet which runs through the interior of the material conveying roller, and the second discharge outlet is in a funnel shape with a small inside and a large outside.

The conveying roller comprises two groups of material rotating barrels and a group of material sieving barrels, wherein the material rotating barrels are fixedly connected with the third gear ring, the material rotating barrels are fixedly connected with the fourth gear ring, the material rotating barrels are fixedly connected with the material sieving barrels, and the two ends of the material sieving barrels are connected with sliding grooves formed in the inner wall of the second limiting seat in a sliding mode through pulleys.

The outer wall of the third gear ring is meshed with the latch of the outer wall of the first gear ring through the latch, and the outer wall of the fourth gear ring is meshed with the latch of the outer wall of the second gear ring through the latch.

The one end fixed mounting that driving motor was kept away from to second ring gear has first toothed disc, second dwang outer wall be provided with first drive chain assorted second toothed disc, first dwang outer wall is provided with two sets of third toothed discs, the third toothed disc passes through latch and second drive chain meshing, third dwang outer wall fixed mounting has the fourth toothed disc, the fourth toothed disc passes through the latch meshing with second drive chain and is connected, and is two sets of it is fixed with first gear roller to lie in the third dwang outer wall between the fourth toothed disc, the outer wall of first gear roller passes through latch and conveyer belt outer wall meshing, fourth dwang outer wall be provided with conveyer belt inner wall assorted second gear roller.

Bearing incasement portion be provided with first discharge gate assorted two sets of baffles, two sets of interval length between the baffle is less than the width of conveyer belt.

Compared with the prior art, the beneficial effects of the utility model are that:

the utility model discloses a set up bearing box, drive assembly, screening subassembly, transmission assembly, the staff of being convenient for filters the mortar fast convenient, the whole shape that adopts the drum of screening subassembly, and make the mortar more comprehensive at the inside screening of screening subassembly through two direction pivoted power, the screening effect is more, and the mortar after the screening is transported outside the device main part from different exports, the operation of the follow-up step of being convenient for, the continuous operation of the device main part of also being convenient for simultaneously.

Drawings

The accompanying drawings, which form a part of the specification, are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention and not to constitute a limitation on the invention. In the drawings:

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the overall internal structure of the present invention;

FIG. 3 is a schematic structural view of the screening assembly of the present invention;

FIG. 4 is a schematic structural view of the transmission assembly of the present invention;

fig. 5 is a schematic structural diagram of the transmission assembly of the present invention.

In the figure:

100. a bearing box; 200. a transmission assembly; 300. a screening component; 400. a transmission assembly; 500. A first discharge port;

201. a drive motor; 202. a first rotating lever; 203. a first gear ring; 204. a first limiting seat; 205. a second gear ring; 206. a first drive chain;

301. a third gear ring; 302. a delivery roller; 303. a second limiting seat; 304. a fourth gear ring; 305. a second discharge port; 306. a second rotating rod; 307. a screw blade;

401. a second drive chain; 402. a third rotating rod; 403. a conveyor belt; 404. and a fourth rotating rod.

Detailed Description

In order to make the technical solutions of the present application better understood by those skilled in the art, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only some embodiments of the present application, and not all embodiments. All other embodiments obtained by a person of ordinary skill in the art based on the embodiments in the present application without making any creative effort shall fall within the protection scope of the present application.

It should be noted that the terms "first," "second," and the like in the description and claims of this application and in the accompanying drawings are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It should be understood that the data so used may be interchanged under appropriate circumstances in order to facilitate the description of the embodiments of the application herein. Moreover, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

In this application, the terms "upper", "lower", "left", "right", "front", "rear", "top", "bottom", "inner", "outer", "middle", "vertical", "horizontal", "lateral", "longitudinal", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings. These terms are used primarily to better describe the present application and its embodiments, and are not used to limit the indicated devices, elements or components to a particular orientation or to be constructed and operated in a particular orientation.

Moreover, some of the above terms may be used in other meanings besides orientation or positional relationship, for example, the term "upper" may also be used in some cases to indicate a certain attaching or connecting relationship. The specific meaning of these terms in this application will be understood by those of ordinary skill in the art as the case may be.

Furthermore, the terms "mounted," "disposed," "provided," "connected," and "sleeved" are to be construed broadly. For example, it may be a fixed connection, a removable connection, or a unitary construction; can be a mechanical connection, or an electrical connection; may be directly connected, or indirectly connected through intervening media, or may be in internal communication between two devices, elements or components. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art as appropriate.

As shown in fig. 1 to 5, a screening machine for mortar production includes a bearing box 100, a transmission assembly 200 is assembled at the top end of the bearing box 100, a screening assembly 300 is assembled at one side of the transmission assembly 200 at the top end of the bearing box 100, a transmission assembly 400 is arranged below the transmission assembly 200 inside the bearing box 100, and a first discharge hole 500 which is matched with the transmission assembly 400 and penetrates through the outer wall of the bearing box 100 is formed in the outer wall of the bearing box 100;

foretell structure is convenient for the mortar that the staff will need to filter to put into screening subassembly 300 inside, start drive assembly 200's switch, drive assembly 200 drives screening subassembly 300 and transmission assembly 400 operation, screen to the inside comparatively tiny mortar of mortar through screening subassembly 300 to transmission assembly 400 on, through transmission assembly 400 and first discharge gate with tiny mortar eduction gear main part, with this screening subassembly 300 drives the mortar after being screened and continues to remove simultaneously, until the mortar eduction gear main part after being screened.

The screening component 300 comprises a third gear ring 301 connected with the transmission component 200, one end of the third gear ring 301 is provided with a material delivery roller 302, the outer wall of the material delivery roller 302 is provided with a second limit seat 303 fixedly assembled at the top end of the bearing box 100, one end of the material delivery roller 302 far away from the third gear ring 301 is provided with a fourth gear ring 304, the outer wall of the fourth gear ring 304 far away from the third gear ring 301 is provided with a second discharge hole 305 penetrating into the material delivery roller 302, the inside of the fourth gear ring 304 is provided with a second rotating rod 306, and the outer wall of the second rotating rod 306 positioned inside the material delivery roller 302 is fixedly provided with auger blades 307;

the aforesaid structural design is convenient for third ring gear 301 to rotate and is driven defeated material roller 302 and rotate, defeated material roller 302 rotates and drives the mortar longitudinal movement who gets into its inside, the mortar is after the inside longitudinal movement certain distance of defeated material roller 302, reset through its self gravity, drive assembly 200 drives second dwang 306 and rotates here simultaneously, second dwang 306 drives auger blade 307 and rotates, auger blade 307 rotates and drives the inside mortar lateral shifting of defeated material roller 302, thereby make the mortar lateral shifting in defeated material roller 302 longitudinal movement, make mortar and defeated material roller 302's inner wall area of contact increase when increasing the mortar translation rate, be convenient for to the quick high-efficient screening of mortar.

Please refer to fig. 1, fig. 2 and fig. 4, the transmission assembly 200 includes a driving motor 201 fixedly mounted at the top end of the bearing box 100, an output end of the driving motor 201 is mounted with a first rotating rod 202, an outer wall of the first rotating rod 202 is fixedly mounted with a first gear ring 203, an outer wall of the first rotating rod 202 is mounted on one side of the first gear ring 203 with a first limit seat 204, one end of the first rotating rod 202 far away from the driving motor 201 is fixedly mounted with a second gear ring 205, and one end of the second gear ring 205 far away from the driving motor 201 is mounted with a first transmission chain 206;

the above structural design is convenient for a worker to start the driving motor 201 when the worker needs to use the device main body, the driving motor 201 drives the first rotating rod 202 to rotate, the first rotating rod 202 drives the first gear ring 203 and the second gear ring 205 to synchronously rotate, the first gear ring 203 and the second gear ring 205 rotate to drive the third gear ring 301 and the fourth gear ring 304 to synchronously rotate, and the third gear ring 301 and the fourth gear ring 304 synchronously rotate to drive the material conveying roller 302 to rotate;

meanwhile, the second gear ring 205 rotates to drive the first transmission chain 206 to rotate, the first transmission chain 206 rotates to drive the second rotating rod 306 to rotate, and the rotating direction of the second rotating rod 306 is opposite to that of the material conveying roller 302, so that the mortar screening efficiency of the screening assembly 300 is increased;

meanwhile, the first rotating rod 202 rotates to drive the second transmission chain 401 to rotate, and the second transmission chain 401 rotates to provide driving force for the transmission assembly 400.

Referring to fig. 2 and 5 again, the transmission assembly 400 includes a second transmission chain 401 connected to an outer wall of the first transmission chain 202, a third transmission chain 402 is mounted on an inner wall of the second transmission chain 401 below the first transmission chain 202, a conveyor belt 403 is mounted on an outer wall of the third transmission chain 402 at one end of the second transmission chain 401, and a fourth transmission chain 404 is mounted on an inner wall of the conveyor belt 403 at one side of the third transmission chain 402;

the third rotating rod 402 is rotatably connected with two ends of the inner wall of the bearing box 100 through bearings, the fourth rotating rod 404 is rotatably connected with two ends of the inner wall of the bearing box 100 through bearings, and the bearing box 100 supports the third rotating rod 402 and the fourth rotating rod 404 and simultaneously reduces friction of the third rotating rod 402 and the fourth rotating rod 404 through the bearings;

the above-mentioned structural design is convenient for the first rotating rod 202 to drive the second transmission chain 401 to rotate, thereby driving the third rotating rod 402 to rotate, the third rotating rod 402 rotates to drive the conveying belt 403 to rotate, and the conveying belt 403 rotates to drive the fourth rotating rod 404 to rotate.

Please refer to fig. 1, one end of the third gear ring 301 away from the feed roller 302 is provided with a feed inlet penetrating into the feed roller 302, and the second feed outlet 305 is in a funnel shape with a small inside and a large outside;

the above-mentioned structural design is convenient for the staff to put into screening subassembly 300 inside the back with the mortar, through second discharge gate 305 eduction gear main part.

Please refer to fig. 1 and fig. 3, the feeding roller 302 includes two sets of material-rotating cylinders and one set of material-sieving cylinder, one set of material-rotating cylinders is fixedly connected with the third gear ring 301, the other set of material-rotating cylinders is fixedly connected with the fourth gear ring 304, the two sets of material-rotating cylinders are fixedly connected with the material-sieving cylinder, and two ends of the material-sieving cylinder are connected with the sliding chute arranged on the inner wall of the second limiting seat 303 through pulleys in a sliding manner;

foretell structural design is convenient for when the mortar removes from the rotary feed cylinder that is close to feed inlet one end to sieve feed cylinder, screens the mortar through sieve feed cylinder, and the mortar through sieve feed cylinder falls on the top of conveyer belt 403 simultaneously.

Please refer to fig. 1 and fig. 2, the outer wall of the third gear ring 301 is engaged with the outer wall of the first gear ring 203 via the latch, and the outer wall of the fourth gear ring 304 is engaged with the outer wall of the second gear ring 205 via the latch;

the above structure facilitates the first gear ring 203 to drive the third gear ring 301 to rotate through the outer wall latch thereof, and the second gear ring 205 to drive the fourth gear ring 304 to rotate through the outer wall latch thereof.

Please refer to fig. 2 and fig. 4, a first gear plate is fixedly assembled at one end of the second gear ring 205 far away from the driving motor 201, a second gear plate matched with the first transmission chain 206 is arranged on the outer wall of the second rotating rod 306, two groups of third gear plates are arranged on the outer wall of the first rotating rod 202, the third gear plates are engaged with the second transmission chain 401 through teeth, a fourth gear plate is fixedly assembled on the outer wall of the third rotating rod 402, and the fourth gear plate is engaged and connected with the second transmission chain 401 through teeth;

the structural design is convenient for the first gear disc to drive the first transmission chain 206 to rotate when rotating, the first transmission chain 206 rotates to drive the second gear disc to rotate, and the second gear disc rotates to drive the second rotating rod 306 to rotate;

the two groups of third gear discs rotate to drive the two groups of second transmission chains 401 to rotate, the two groups of second transmission chains 401 rotate to drive the two groups of fourth gear discs to rotate, and the two groups of fourth gear discs rotate to drive the third rotating rod 402 to rotate;

a first gear roller is fixed between the two groups of fourth gear discs and positioned on the outer wall of the third rotating rod 402, the outer wall of the first gear roller is meshed with the outer wall of the conveying belt 403 through clamping teeth, and a second gear roller matched with the inner wall of the conveying belt 403 is arranged on the outer wall of the fourth rotating rod 404;

the third rotating rod 402 rotates to drive the first gear roller to rotate, the first gear roller rotates to drive the conveying belt 403 to rotate, the conveying belt 403 rotates to drive the second gear roller to rotate, and the second gear roller rotates to drive the fourth rotating rod 404 to rotate.

Please refer to fig. 1, two sets of partition boards matching with the first discharging opening 500 are disposed inside the bearing box 100, and the interval length between the two sets of partition boards is smaller than the width of the conveyor belt 403;

foretell structural design is convenient for the baffle and is kept apart the mortar that falls from the material section of thick bamboo of sieving, prevents that the mortar that falls on conveyer belt 403 from falling into bearing box 100 inside, leads to having an influence to bearing box 100 inside mechanical structure life-span.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made to the present invention by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. The utility model provides a sieve separator is used in mortar production, includes bearing box (100), its characterized in that: the top end of the bearing box (100) is provided with a transmission assembly (200), one side, located at the transmission assembly (200), of the top end of the bearing box (100) is provided with a screening assembly (300), a transmission assembly (400) is arranged inside the bearing box (100) and located below the transmission assembly (200), and the outer wall of the bearing box (100) is provided with a first discharge hole (500) which penetrates through the bearing box and is matched with the transmission assembly (400);

screening subassembly (300) is including third ring gear (301) that link to each other with drive assembly (200), the one end of third ring gear (301) is equipped with defeated material roller (302), defeated material roller (302) outer wall is provided with fixed mounting in spacing seat (303) of second on bearing box (100) top, the one end that third ring gear (301) was kept away from in defeated material roller (302) is equipped with fourth ring gear (304), fourth ring gear (304) are kept away from third ring gear (301) outer wall and are seted up and run through to defeated material roller (302) inside second discharge gate (305), the internal assembly of fourth ring gear (304) has second dwang (306), the inside fixed auger blade (307) that second dwang (306) outer wall is located defeated material roller (302) is equipped with.

2. The screening machine for mortar production according to claim 1, characterized in that: drive assembly (200) is including fixed driving motor (201) of assembling on bearing box (100) top, the output of driving motor (201) is equipped with first rotation pole (202), first rotation pole (202) outer wall fixed assembly has first ring gear (203), first rotation pole (202) outer wall is located first ring gear (203) one side and is equipped with first spacing seat (204), the one end fixed assembly that driving motor (201) were kept away from in first rotation pole (202) has second ring gear (205), the one end that driving motor (201) were kept away from in second ring gear (205) is equipped with first drive chain (206).

3. The screening machine for mortar production according to claim 2, wherein: transmission assembly (400) is including second drive chain (401) with first dwang (202) outer wall connection, second drive chain (401) inner wall is located first dwang (202) below and is equipped with third dwang (402), the one end that third dwang (402) outer wall is located second drive chain (401) is equipped with conveyer belt (403), one side that the inner wall of conveyer belt (403) is located third dwang (402) is equipped with fourth dwang (404).

4. The screening machine for mortar production according to claim 1, wherein: one end of the third gear ring (301) far away from the material conveying roller (302) is provided with a feed inlet penetrating through the interior of the material conveying roller (302), and the second discharge port (305) is small in interior and large in exterior and is funnel-shaped.

5. The screening machine for mortar production according to claim 1, wherein: defeated material roller (302) are including two sets of feed cylinders and a set of sieve feed cylinder of changeing, and is a set of change feed cylinder and third ring gear (301) fixed connection, another group change feed cylinder and fourth ring gear (304) fixed connection, it is two sets of change feed cylinder and sieve feed cylinder fixed connection, the spout sliding connection that pulley and spacing seat of second (303) inner wall were seted up is passed through at the both ends of sieve feed cylinder.

6. The screening machine for mortar production according to claim 2, characterized in that: the outer wall of the third gear ring (301) is meshed with the outer wall of the first gear ring (203) through a latch, and the outer wall of the fourth gear ring (304) is meshed with the outer wall of the second gear ring (205) through a latch.

7. The screening machine for mortar production according to claim 3, characterized in that: one end of the second gear ring (205) far away from the driving motor (201) is fixedly provided with a first gear disc, the outer wall of the second rotating rod (306) is provided with a second gear disc matched with the first transmission chain (206), two groups of third gear discs are arranged on the outer wall of the first rotating rod (202), the third gear discs are meshed with the second transmission chain (401) through clamping teeth, a fourth gear disc is fixedly assembled on the outer wall of the third rotating rod (402), the fourth gear disc is connected with the second transmission chain (401) through a latch in a meshing way, a first gear roller is fixed on the outer wall of the third rotating rod (402) between the two groups of the fourth gear discs, the outer wall of first gear roller passes through latch and conveyer belt (403) outer wall meshing, fourth dwang (404) outer wall be provided with conveyer belt (403) inner wall assorted second gear roller.

8. The screening machine for mortar production according to claim 1, wherein: bearing case (100) inside be provided with first discharge gate (500) assorted two sets of baffles, two sets of interval length between the baffle is less than the width of conveyer belt (403).

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