CN219807311U

CN219807311U - Self-cleaning structure of tail of flange belt type conveyor

Info

Publication number: CN219807311U
Application number: CN202321176857.XU
Authority: CN
Inventors: 吴得明; 张勇智; 冯权; 周继辉; 桂国栋; 吴锦宗; 吴晓泉
Original assignee: Lanzhou Lulong Jiecheng Belt Conveyor Technology Development Co ltd
Current assignee: Zhong Yuncun
Priority date: 2023-05-16
Filing date: 2023-05-16
Publication date: 2023-10-10
Anticipated expiration: 2033-05-16

Abstract

The utility model discloses a self-cleaning structure of a flange belt conveyor tail, which is characterized in that a groove-shaped receiver is arranged at the lower part of a lifting machine body and positioned at the bottom of a flange conveying belt, corrugated flanges on two sides of the flange conveying belt are positioned in the groove-shaped receiver, the inner bottom surface of the groove-shaped receiver is close to the corrugated flanges, one end of the groove-shaped receiver is provided with an arc section matched with the end part of the flange conveying belt, the end part of the arc section extends to the upper part of the lifting machine body, one end of the groove-shaped receiver far away from the arc section is obliquely upwards arranged, fallen mud can be received through the groove-shaped receiver, and is received and falls down along the groove-shaped receiver until entering between the groove-shaped receiver and the flange conveying belt, and the mud moves along the groove-shaped receiver until moving out of the arc section and returns to the lifting machine body under the pushing of a baffle plate, so that the fallen mud is collected and conveyed back to the lifting machine again, waste can be avoided, and influence of mud accumulated at the bottom of the lifting machine can be avoided.

Description

Self-cleaning structure of tail of flange belt type conveyor

Technical Field

The utility model belongs to the field of flange lifts, and particularly relates to a self-cleaning structure of a flange belt type conveyor tail.

Background

When engineering construction promotes mud or dregs, need to use the flange lifting machine of Z type big inclination, general large-scale flange lifting machine all is not taking the drain pan, in the operation, the mud that remains on the flange conveyer belt of flange lifting machine can fall to pile up in flange lifting machine bottom subaerial, not only cause extravagant, and need regularly clear up, otherwise excessively pile up and can cause the influence to flange lifting machine self operation, current although there is the flange lifting machine of taking the drain pan, but its drain pan can only prevent mud and directly fall on the bottom surface, the drain pan lower extreme generally sets up the opening and is used for discharging, but the material still can pile up in flange lifting machine bottom, but more concentrate, but to wet mud material can remain in the drain pan, the time is also troublesome for the clearance, therefore prior art can't realize collecting the mud that falls and send back the lifting machine to carry again.

Disclosure of Invention

The utility model aims at: the self-cleaning structure of the tail of the flange belt conveyor can collect and send the fallen mud back to the elevator for re-conveying.

The technical scheme adopted by the utility model is as follows:

the utility model provides a flange area formula conveyer tail self-cleaning structure, including the lifting machine body, the lifting machine body has flange conveyer belt, flange conveyer belt both sides have ripple flange, set up a plurality of baffles between two ripple flanges, the position that just is located flange conveyer belt bottom in lifting machine body lower part sets up the slot form and connects the glassware, the ripple flange of flange conveyer belt both sides all is located inside the slot form and connects the glassware, the bottom surface is close the ripple flange in the slot form and connects glassware, slot form is connected glassware one end and is provided with the arc section with flange conveyer belt tip assorted, and the tip of arc section extends to lifting machine body upper portion, the one end that the arc section was kept away from to the slot form is connected the glassware sets up the ascending extension of slope.

A further technical solution consists in that one of the baffles has a height which corresponds to the height of the corrugated rim.

The further technical scheme is that two slag collecting guide plates are symmetrically arranged on the extension section and are of an splayed structure.

The further technical scheme is that scrapers are arranged at two ends of one of the partition boards, and the two scrapers and the partition board form a notch with a V-shaped structure.

The further technical scheme is that the two sides of the inside of the groove-shaped material receiver are respectively provided with a water supply pipe, water spraying parts are arranged on the water supply pipes at intervals, and the water spraying parts face to the corrugated flanges.

The further technical proposal is that the groove-shaped material receiver is made of polyurethane material.

The further technical scheme is that the groove-shaped material receiver is connected with a support, two or more steel wire ropes are arranged at the bottom of the groove-shaped material receiver, two ends of each steel wire rope are connected with the support through two distance-adjusting bolts respectively, a plurality of fixing plates are arranged at the bottom of the part, between the arc-shaped section and the extending section, of the groove-shaped material receiver, and the fixing plates are connected with the steel wire ropes through connecting rings.

The steel wire rope is characterized in that a plurality of cross arms are arranged at the bottom of the steel wire rope, a cross beam is arranged above the cross arms on the support, the cross arms are connected with the cross beam through a pull rod, the lower end of the pull rod is fixed with the cross beam, the upper end of the pull rod penetrates through the cross beam, a pressure spring I is sleeved at the upper end of the pull rod, a nut I is connected to the top end of the pull rod, and the pressure spring I is located between the nut I and the cross beam.

Further technical scheme lies in that arc section both sides of slot form receiver all are provided with to the splint subassembly, to the splint subassembly including splint one and splint two, splint one and splint two are arc structure, and the edge of slot form receiver is located between splint one and the splint two, and splint one and splint two pass through bolted connection, set up the back timber in the top of arc section on the support, the back timber is connected through the lifter with to between the splint subassembly, the lifter lower extreme is fixed with splint one and splint two, the cover of lifter upper end is equipped with the pressure spring two, the pull rod top is connected with the nut two, the pressure spring two is located between nut two and the back timber.

In summary, due to the adoption of the technical scheme, the beneficial effects of the utility model are as follows:

a groove-shaped material receiver is arranged at the lower part of the elevator body and positioned at the bottom of the flange conveyer belt, the corrugated flanges at the two sides of the flange conveyer belt are all positioned in the groove-shaped material receiver, the inner bottom surface of the groove-shaped material receiver is close to the corrugated flanges, one end of the groove-shaped material receiver is provided with an arc section matched with the end part of the flange conveyer belt, the end part of the arc section extends to the upper part of the elevator body, one end of the groove-shaped material receiver far away from the arc section is obliquely upwards arranged, the falling mud can be received through the groove-shaped receiver, the trailing edge groove-shaped receiver falls until entering between the groove-shaped receiver and the flange conveyer belt, and the mud moves along the groove-shaped receiver until moving out of the arc section and returns to the elevator body under the pushing of the partition plate, so that the falling mud is collected and returned to the elevator for re-conveying, waste can be avoided, and the mud can be prevented from being accumulated at the bottom of the elevator to cause influence.

Drawings

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

FIG. 2 is a schematic view of a portion of the structure of FIG. 1;

FIG. 3 is a schematic view of the structure of the flange conveyer belt and the trough-like receiver according to the present utility model;

FIG. 4 is a schematic view of a prior art baffle having a height below the corrugated rim in accordance with the present utility model;

FIG. 5 is a schematic view of a slag collecting guide plate according to the present utility model;

FIG. 6 is a schematic view of the structure of the screed according to the present utility model;

FIG. 7 is a schematic view showing the positional relationship between the trough-like receiver and the elevator body according to the present utility model.

Detailed Description

The present utility model will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present utility model more apparent.

As shown in fig. 1-7. The utility model provides a flange area formula conveyer tail self-cleaning structure, including lifting machine body 1, lifting machine body 1 has flange conveyer belt 2, flange conveyer belt 2 both sides have ripple flange 3, set up a plurality of baffles 4 between two ripple flanges 3, the position that just is located flange conveyer belt 2 bottom in lifting machine body 1 lower part sets up slot form receiver 5, the ripple flange 3 of flange conveyer belt 2 both sides all is located slot form receiver 5 inside, the bottom surface is close ripple flange 3 in the slot form receiver 5, slot form receiver 5 one end is provided with the arc section 6 that matches with flange conveyer belt 2 tip, and the tip of arc section 6 extends to lifting machine body 1 upper portion, slot form receiver 5 is kept away from the one end of arc section 6 and is set up the ascending extension 7 of slope.

When the elevator is used, the groove-shaped material receivers 5 can be made of metal plates, materials identical to the flange conveyer belt 2 or polyurethane materials, the groove-shaped material receivers 5 are directly connected and fixed with the elevator body 1 or are additionally provided with a bracket for fixing, when the elevator body 1 runs, residual slurry can fall on the extension sections 7 of the groove-shaped material receivers 5 when the partition plates 4 rotate to the bottom, the slurry slides downwards along the extension sections 7 until being carried by the partition plates 4, and moves along the groove-shaped material receivers 5 and the arc-shaped sections 6, and the arc-shaped sections 6 can ensure that the slurry returns to the elevator body 1 again.

The lower part of the elevator body 1 and the position at the bottom of the flange conveyer belt 2 are provided with groove-shaped material receivers 5, the corrugated flanges 3 at the two sides of the flange conveyer belt 2 are all positioned inside the groove-shaped material receivers 5, the inner bottom surface of the groove-shaped material receivers 5 is close to the corrugated flanges 3, one end of each groove-shaped material receiver 5 is provided with an arc section 6 matched with the end part of the flange conveyer belt 2, the end part of each arc section 6 extends to the upper part of the elevator body 1, the groove-shaped material receivers 5 are upwards arranged at an inclination away from one end of each arc section 6, fallen mud can be received through the groove-shaped material receivers 5, the received mud falls down along the groove-shaped material receivers 5 until entering between the groove-shaped material receivers 5 and the flange conveyer belt 2, and under the pushing of the partition plate 4, the mud moves along the groove-shaped material receivers 5 until moving out of the arc sections 6 and returns to the elevator body 1, so that the fallen mud is collected and conveyed back to the elevator again, waste can be avoided, and the influence of the mud accumulated at the bottom of the elevator can be avoided.

One of them baffle 4 highly accords with ripple flange 3, because the baffle 4 of current lifting machine body 1 is higher than ripple flange 3, only need one of them baffle 4 highly accord with ripple flange 3, can realize scraping away the mud in the slot-like receiver 5, other baffles 4 also can assist scrape away partial mud.

Two slag collecting guide plates 8 are symmetrically arranged on the extension section 7, the two slag collecting guide plates 8 are of an eight-shaped structure, mud can be collected to the middle position of the groove-shaped receiver 5, and mud scraping by the partition plate 4 is facilitated.

The scraping plates 9 are arranged at two ends of one of the partition plates 4, the two scraping plates 9 and the partition plates 4 form a notch with a V-shaped structure, and the scraping plates 9 are beneficial to furling mud to the middle position of the groove-shaped receiver 5.

The two sides of the inside of the groove-shaped receiver 5 are respectively provided with a water supply pipe 10, water spraying parts are arranged on the water supply pipes 10 at intervals, and the water spraying parts face the corrugated flanges 3. The water supply pipe 10 is used for spraying water to the corrugated flange 3, so that the cleaning effect is achieved, the cleaned sewage can enter the groove-shaped receiver 5 and is scraped along with mud, and lubrication can be achieved between the groove-shaped receiver 5 and the corrugated flange 3, so that temperature rise caused by friction is avoided, and the corrugated flange 3 and the groove-shaped receiver 5 are damaged.

The groove-shaped receiver 5 is made of polyurethane material and has wear-resistant and flame-retardant properties.

The groove-shaped receiver 5 is connected with a bracket 11, two or more steel wire ropes 26 are arranged at the bottom of the groove-shaped receiver 5, two ends of each steel wire rope 26 are respectively connected with the bracket 11 through two distance adjusting bolts 12, a plurality of fixing plates 13 are arranged at the bottoms of the parts, between the arc-shaped sections 6 and the extension sections 7, of the groove-shaped receiver 5, the fixing plates 13 are connected with the steel wire ropes 26 through connecting rings 14, the tightening degree of the steel wire ropes 26 can be adjusted through the distance adjusting bolts 12, the groove-shaped receiver 5 can be further adapted to the existing flange conveyer belt 2, the distance adjusting bolts 12 are connected to the bracket 11 in a penetrating mode, adjusting nuts are connected to the distance adjusting bolts 12 in a threaded mode, and the distance adjusting nuts can be rotated to adjust the distance.

The bottom of the steel wire rope 26 is provided with a plurality of cross arms 15, the cross arms 15 are arranged above the cross arms 15 on the support 11, the cross arms 15 are connected with the cross arms 16 through pull rods 17, the lower ends of the pull rods 17 are fixed with the cross arms, the upper ends of the pull rods 17 penetrate through the cross arms 16, the upper ends of the pull rods 17 are sleeved with compression springs 18, the tops of the pull rods 17 are connected with nuts 19, the compression springs 18 are located between the nuts 19 and the cross arms 16, the cross arms 15 are used for further supporting the groove-shaped material receivers 5, the pull rods 17 are arranged to adapt to tightness of the steel wire rope 26, and the positions of the cross arms 15 can be adjusted by pulling the pull rods 17 through rotating the nuts 19.

The arc section 6 both sides of slot form receiver 5 all are provided with to the splint subassembly, to the splint subassembly including splint one 20 and splint two 21, splint one 20 and splint two 21 are arc structure, and the edge of slot form receiver 5 is located between splint one 20 and splint two 21, and splint one 20 and splint two 21 pass through bolted connection, set up back timber 22 in the top of arc section 6 on the support 11, be connected through the lifter 23 between back timber 22 and the to splint subassembly, the lifter 23 lower extreme is fixed with splint one 20 and splint two 21, the cover of lifter 23 upper end is equipped with pressure spring two 24, the pull rod 17 top is connected with nut two 25, pressure spring two 24 are located between nut two 25 and the back timber 22.

The foregoing is only illustrative of the preferred embodiments of the present utility model.

Claims

1. The utility model provides a flange area formula conveyer tail self-cleaning structure, including lifting machine body (1), lifting machine body (1) has flange conveyer belt (2), flange conveyer belt (2) both sides have ripple flange (3), set up a plurality of baffles (4) between two ripple flange (3), a serial communication port, position in lifting machine body (1) lower part and in flange conveyer belt (2) bottom sets up slot form receiver (5), ripple flange (3) of flange conveyer belt (2) both sides all are located slot form receiver (5) inside, the bottom surface is close ripple flange (3) in slot form receiver (5), slot form receiver (5) one end is provided with arc section (6) that match with flange conveyer belt (2) tip, and the tip of arc section (6) extends to lifting machine body (1) upper portion, the one end that arc section (6) were kept away from in slot form receiver (5) sets up upwards extension section (7) of slope.

2. A trailing edge belt conveyor self-cleaning structure according to claim 1, wherein one of the baffles (4) is of a height corresponding to the height of the corrugated rim (3).

3. The self-cleaning structure of the flange belt conveyor tail according to claim 1, wherein two slag collecting guide plates (8) are symmetrically arranged on the extension section (7), and the two slag collecting guide plates (8) are in an splayed structure.

4. The self-cleaning structure of the conveyor tail of the flange belt conveyor according to claim 1, wherein the two ends of one of the baffle plates (4) are provided with the scraping plates (9), and the two scraping plates (9) and the baffle plates (4) form a notch with a V-shaped structure.

5. The self-cleaning structure of the flange belt conveyor tail according to claim 1, wherein water supply pipes (10) are arranged on two sides of the inside of the groove-shaped receiver (5), water spraying parts are arranged on the water supply pipes (10) at intervals, and the water spraying parts face the corrugated flange (3).

6. A trailing edge belt conveyor self-cleaning structure according to claim 1, characterized in that the trough-like receiver (5) is made of polyurethane material.

7. The self-cleaning structure of the flange belt conveyor tail according to claim 1 or 6, characterized in that the trough-shaped receiver (5) is connected with a bracket (11), two or more steel wire ropes are arranged at the bottom of the trough-shaped receiver (5), two ends of each steel wire rope are respectively connected with the bracket (11) through two distance-adjusting bolts (12), a plurality of fixing plates (13) are arranged at the bottom of the part, between the arc-shaped section (6) and the extension section (7), of the trough-shaped receiver (5), and the fixing plates (13) are connected with the steel wire ropes through connecting rings (14).

8. The self-cleaning structure of the flange belt conveyor tail according to claim 7, characterized in that a plurality of cross arms (15) are arranged at the bottom of the steel wire rope, a cross beam (16) is arranged above the cross arms (15) on the support (11), the cross arms (15) are connected with the cross beam (16) through a pull rod (17), the lower end of the pull rod (17) is fixed with the cross beam, the upper end of the pull rod (17) penetrates through the cross beam (16), a pressure spring I (18) is sleeved at the upper end of the pull rod (17), a nut I (19) is connected to the top end of the pull rod (17), and the pressure spring I (18) is located between the nut I (19) and the cross beam (16).

9. The self-cleaning structure of a flange belt conveyor tail according to claim 8, wherein two sides of an arc section (6) of the groove-shaped receiver (5) are provided with a pair of clamping plate assemblies, each pair of clamping plate assemblies comprises a clamping plate I (20) and a clamping plate II (21), each clamping plate I (20) and each clamping plate II (21) are of an arc structure, the edge of the groove-shaped receiver (5) is located between the clamping plate I (20) and the clamping plate II (21), the clamping plate I (20) and the clamping plate II (21) are connected through bolts, a top beam (22) is arranged above the arc section (6) on the support (11), the top beam (22) is connected with the pair of clamping plate assemblies through a lifting rod (23), the lower end of the lifting rod (23) is fixed with the clamping plate I (20) and the clamping plate II (21), a pressure spring II (24) is sleeved at the upper end of the lifting rod (23), a nut II (25) is connected to the top end of the pull rod (17), and the pressure spring II (24) is located between the nut II (25) and the top beam (22).