CN103922113A

CN103922113A - Ore sand conveying device

Info

Publication number: CN103922113A
Application number: CN201410146431.9A
Authority: CN
Inventors: 胡刘满
Original assignee: Individual
Current assignee: Jiangsu Optical Valley Industry Investment Development Co ltd
Priority date: 2014-04-13
Filing date: 2014-04-13
Publication date: 2014-07-16
Anticipated expiration: 2034-04-13
Also published as: CN105173620B; CN105173620A; CN105151719B; CN103922113B; CN105151753A; CN105151753B; CN105151719A

Abstract

The invention discloses an ore sand conveying device which comprises a first conveying belt and a second conveying belt. A scraping mechanism is arranged between the first conveying belt and the second conveying belt and comprises two swing arms, the middle portions of the swing arms are fixed on a support in a hinged manner, an elastic drawing member is arranged between one end, away from the first conveying belt, of each swing arm and the support, a scraping plate is arranged at one end, close to the first conveying belt, of each swing arm and formed by an obliquely-arranged plate member, the scraping plates are arranged at least along belt width range of the conveying belts, each elastic drawing member pulls the corresponding swing arm to rotate around a hinging shaft to enable one lateral side portion of the corresponding scraping plate to be in tension contact with the belt surface of an end-portion conveying belt at a discharging end of the first conveying belt, the scraping plates are arranged obliquely, and one side, close to the first conveying belt, of each scraping plate is higher than one side, away from the first conveying belt, of the same. By adopting the ore sand conveying device to convey ore sand, the problem that the ore sand cannot be completely transferred between each two conveying belts can be effectively solved, scattering of the ore sand can be prevented, and convenience of various kinds can be avoided.

Description

Ore in sand form feedway

Technical field

The present invention relates to winning equipment field, be specifically related to a kind of ore in sand form feedway.

Background technology

In mining process, often use load-transfer device to carry materials such as ore in sand form, little ore or sands, so that it is delivered to destination.Due to the requirement in ore in sand form delivery head and orientation, destination, often a load-transfer device can not make ore in sand form be delivered to destination, so just need to jointly carry by interconnective many load-transfer devices of head and the tail.But use many load-transfer devices jointly to carry, ore in sand form carries out in transport process between adjacent two load-transfer devices, ore deposit is husky easily in the surface of load-transfer device bonding, particularly, for the ore in sand form with certain humidity, ore in sand form cannot be transported completely, causes mineral aggregate unrestrained, cause all inconvenience, be difficult to collect cleaning.

Summary of the invention

The object of the present invention is to provide a kind of ore in sand form feedway, it can effectively address the above problem, and improves the Transport Rate of ore in sand form between conveyor belt, prevents from that ore in sand form is unrestrained to cause all inconvenience.

For achieving the above object, the present invention adopts following technical scheme to implement:

A kind of ore in sand form feedway, it is characterized in that: comprise for delivery of first of ore in sand form, two load-transfer devices, the corresponding layout of feed end of the discharge end of the first load-transfer device and the second load-transfer device, first, between two load-transfer devices, be provided with the scraping mechanism for striking off the ore in sand form adhering on the first conveyer belt surface, scraping mechanism comprises the two corresponding swing arms that are in tilted layout, the middle part of swing arm is hingedly fixed on support and forms the jointed shaft being articulated and connected and parallels layout with the bandwidth direction of the first load-transfer device, swing arm is away from being provided with elastic stretching part between one end of the first load-transfer device and support, swing arm is provided with scraper plate near the one end between the first load-transfer device, scraper plate is that a plate being in tilted layout forms, scraper plate is at least along the bandwidth range setting of load-transfer device, elastic stretching part pulls swing arm to rotate a side portion of scraper plate and the end conveyer belt surface phase tensioning of the first conveyer belt discharging end are contacted around jointed shaft, inclination is arranged and scraper plate is greater than away from the first load-transfer device height on one side near the first load-transfer device height on one side.

When concrete operations, can adopt following three kinds of scheme implementations:

One is: elastic stretching part is that a rubber bar in extended state forms, and the two ends of rubber bar are connected mutually with swing arm and support respectively, and the draw direction of rubber bar is crossing with the length direction of swing arm or vertical.

It two is: elastic stretching part is that a spring in extended state forms, and the two ends of spring are connected mutually with swing arm and support respectively, and the draw direction of spring is crossing with the length direction of swing arm or vertical.

It three is: elastic stretching part is that a cylinder forms, the piston rod of cylinder and cylinder body are respectively with swing arm and being configured to be articulated and connected and to form the jointed shaft being articulated and connected and arranging perpendicular to the length direction of swing arm respectively, and the flexible direction of cylinder piston rod is crossing or vertical with the length direction of swing arm.

More specifically scheme is:

First and second load-transfer device comprises respectively belt body and the deflector roll or the rotating shaft that drive belt body to turn round, belt body comprises the upper and lower layer belt body of arranging up and down, and connecting upper and lower layer belt body and be coated on the transition belt body on deflector roll or rotating shaft surface, scraper plate contacts with lower floor's belt body of the first load-transfer device and the junction phase tensioning of transition belt body.

Belt body is that elastomeric material forms, upper strata belt body is shallow slot shape, upper strata belt body arranges it is carried out on moulding of moulding zone face, moulding of zone face comprises the U-shaped rod member consistent with epipelagic zone shape, the middle part bar section of U-shaped rod member and the bar section at two ends are rotated respectively and are provided with deflector roll, and the roll surface of each deflector roll rolls and contacts and carry out moulding to upper strata belt body with the lower surface of upper strata belt body respectively.

Scraper plate is that elastomeric material forms.

Scraper plate is detachable to be fixed in swing arm, and scraper plate arranges respectively mounting hole along the both sides portion of pendulum arm length direction, and mounting hole is put interval along pendulum arm length and arranged.

This ore in sand form feedway also comprises a streamlined reefer housing, streamlined reefer housing be positioned at the second load-transfer device top and with the corresponding layout of the first conveyer belt discharging end, streamlined reefer housing is that a upper and lower uncovered box body forms, streamlined reefer housing is provided with baffle plate near limit, the lower end portion of the second load-transfer device initiating terminal one side, baffle plate extends setting to the vallecular cavity of the moulding rear formation of upper strata belt body of the second load-transfer device, the plate face of baffle plate is consistent with the vallecular cavity shape of the moulding rear formation of upper strata belt body, and scraper plate is positioned at streamlined reefer housing.

By adopting above-mentioned feedway to carry out the conveying of ore in sand form, it can effectively solve the problem that ore in sand form can not be transported completely between adjacent two load-transfer devices, prevents that ore in sand form is unrestrained and avoids occurring all inconvenience.

Brief description of the drawings

Fig. 1 is structural representation of the present invention;

Fig. 2 is the structural representation of first and second load-transfer device;

Fig. 3 be moulding with the structural representation of upper strata belt body.

Detailed description of the invention

In order to make objects and advantages of the present invention clearer, below in conjunction with embodiment, the present invention is further elaborated.Should be appreciated that specific embodiment described herein, only in order to explain the present invention, is not intended to limit the present invention.

The technical scheme that the present invention takes is, as Fig. 1, shown in 2, a kind of ore in sand form feedway, comprise for delivery of first of ore in sand form, two load-transfer devices 11, 12, the corresponding layout of feed end of the discharge end of the first load-transfer device 11 and the second load-transfer device 12, first, two load-transfer devices 11, between 12, be provided with the scraping mechanism for striking off the ore in sand form adhering on the first load-transfer device 11 zone faces, scraping mechanism comprises the two corresponding swing arms that are in tilted layout 14, the middle part of swing arm 14 is hingedly fixed on support 17 and forms the jointed shaft being articulated and connected and parallels layout with the bandwidth direction of the first load-transfer device 11, swing arm 14 is away from being provided with elastic stretching part 16 between one end of the first load-transfer device 11 and support 17, swing arm 14 is provided with scraper plate 13 near the one end between the first load-transfer device 11, scraper plate 13 is that a plate being in tilted layout forms, scraper plate 13 is at least along the bandwidth range setting of load-transfer device, elastic stretching part 16 pulls swing arm 14 to rotate a side portion of scraper plate 13 is contacted with the end conveyer belt surface phase tensioning of the first load-transfer device 11 discharge ends around jointed shaft, scraper plate 13 is in tilted layout and scraper plate 13 is greater than away from the first load-transfer device 11 height on one side near the first load-transfer device 11 height on one side.By a scraper plate 13 is set, scraper plate 13 strikes off the zone face of the first load-transfer device 11 discharge ends, thereby prevent that the first load-transfer device 11 zone faces from adhering to ore in sand form, prevent that ore in sand form from can not shift completely between first and second load-transfer device 11,12, prevent that ore in sand form is unrestrained and avoid occurring all inconvenience.

In concrete enforcement, can carry out concrete operations by following three kinds of modes, one is, elastic stretching part 16 is that a rubber bar in extended state forms, the two ends of rubber bar are connected mutually with swing arm 14 and support 17 respectively, and the draw direction of rubber bar is crossing or vertical with the length direction of swing arm 14, as shown in Figure 1, by the rubber bar scraper plate 13 that furthers, one side of scraper plate 13 and the zone face of the first load-transfer device 11 are fitted.

It two is: elastic stretching part 16 is that a spring in extended state forms, and the two ends of spring are connected mutually with swing arm 14 and support 17 respectively, and the draw direction of spring is crossing or vertical with the length direction of swing arm 14, and the principle of which is identical with first kind of way.

Certainly also can adopt the third mode to implement, that is elastic stretching part 16 is that a cylinder forms, the piston rod of cylinder and cylinder body form to be articulated and connected and to form the jointed shaft being articulated and connected with swing arm 14 and support 17 respectively to be arranged perpendicular to the length direction of swing arm 14 respectively, and the flexible direction of cylinder piston rod is crossing or vertical with the length direction of swing arm 14.

The principle of above-mentioned three kinds of embodiments is similar.

For the setting of scraper plate 13 positions, preferably implement in the following manner, that is, as shown in Figure 1, first and second load-transfer device 11,12 comprises respectively belt body and the deflector roll or the rotating shaft that drive belt body to turn round, belt body comprises up and down the upper and lower layer belt body 10a, the 10b that arrange, and connects upper and lower layer belt body 10a, 10b and be coated on the transition belt body 10c on deflector roll or rotating shaft surface, and scraper plate 13 contacts with the junction phase tensioning of transition belt body 10c with the belt body 10b of lower floor of the first load-transfer device 11.The best results of striking off to 11 upper ores in sand form that adhere to of the first load-transfer device like this.

Adopt rubber conveyer belt to carry ore in sand form, need prevent ore in sand form on load-transfer device because vibrations are scattered, therefore, in the present invention, upper strata belt body 10a is shallow slot shape, upper strata belt body 10a arranges it is carried out on moulding moulding, moulding comprises the U-shaped rod member 19 consistent with upper strata belt body 10a shape, the middle part bar section of U-shaped rod member 19 and the bar section at two ends are rotated respectively and are provided with short-range missile roller 191, the roll surface of each short-range missile roller 191 respectively with the lower surface of upper strata belt body 10a roll contact and upper strata belt body 10a is carried out moulding, as shown in Figure 2,3.Moulding by moulding, makes upper strata belt body 10a distortion grooving shape, thereby ore in sand form is carried out to stable conveying, and the moulding of the indication is here exactly that constraint makes upper strata belt body 10a present shallow slot shape.Scraper plate 13 also adopts elastomeric material to form, and the zone face of scraper plate 13 and the first load-transfer device 11 is set to smooth shape, and the friction between scraper plate 13 and the first load-transfer device 11 drops to minimum like this.Due to, scraper plate 13 still can be subject to frictionally damage, and after damage to a certain degree, elastic stretching part 16 just cannot stretch scraper plate 13 is contacted with the first load-transfer device 11 phase tensionings.Therefore, scraper plate 13 is detachable to be fixed in swing arm 14, and scraper plate 13 arranges respectively mounting hole along the both sides portion of swing arm 14 length directions, and mounting hole is put interval along swing arm 14 length and arranged.Rub impaired serious after, scraper plate 13 can be dismantled, move along swing arm 14 length directions, scraper plate 13 is regulated, scraper plate 13 can contact again, the degree of utilization of raising scraper plate 13 with the first load-transfer device 11 zone face phase tensionings.

More specifically scheme is: this ore in sand form feedway also comprises a streamlined reefer housing 18, streamlined reefer housing 18 be positioned at the second load-transfer device top and with the corresponding layout of the first load-transfer device 11 discharge end, streamlined reefer housing 18 is that a upper and lower uncovered box body forms, streamlined reefer housing 18 is provided with baffle plate 192 near limit, the lower end portion of the second load-transfer device initiating terminal one side, baffle plate 192 extends setting to the vallecular cavity of the moulding rear formation of upper strata belt body 10a of the second load-transfer device, the plate face of baffle plate 192 is consistent with the vallecular cavity shape of the moulding rear formation of upper strata belt body 10a, and scraper plate 13 is positioned at streamlined reefer housing 18.The setting of streamlined reefer housing 18 and baffle plate 192, be mainly prevent from may coming down in torrents after ore in sand form is sent on the second load-transfer device unrestrained.

In a word, the present invention can actv. realizes the Transport Rate that improves ore in sand form between conveyor belt, prevents from that ore in sand form is unrestrained to cause all inconvenience.

The above is only the preferred embodiment of the present invention; it should be pointed out that for those skilled in the art, under the premise without departing from the principles of the invention; can also make some improvements and modifications, these improvements and modifications also should be considered as protection scope of the present invention.

Claims

1. an ore in sand form feedway, it is characterized in that: comprise for delivery of first of ore in sand form, two load-transfer devices, the corresponding layout of feed end of the discharge end of the first load-transfer device and the second load-transfer device, first, between two load-transfer devices, be provided with the scraping mechanism for striking off the ore in sand form adhering on the first conveyer belt surface, scraping mechanism comprises the two corresponding swing arms that are in tilted layout, the middle part of swing arm is hingedly fixed on support and forms the jointed shaft being articulated and connected and parallels layout with the bandwidth direction of the first load-transfer device, swing arm is away from being provided with elastic stretching part between one end of the first load-transfer device and support, swing arm is provided with scraper plate near the one end between the first load-transfer device, scraper plate is that a plate being in tilted layout forms, scraper plate is at least along the bandwidth range setting of load-transfer device, elastic stretching part pulls swing arm to rotate a side portion of scraper plate and the end conveyer belt surface phase tensioning of the first conveyer belt discharging end are contacted around jointed shaft, inclination is arranged and scraper plate is greater than away from the first load-transfer device height on one side near the first load-transfer device height on one side.

2. ore in sand form feedway as claimed in claim 1, it is characterized in that: elastic stretching part is that a rubber bar in extended state forms, the two ends of rubber bar are connected mutually with swing arm and support respectively, and the draw direction of rubber bar is crossing with the length direction of swing arm or vertical.

3. ore in sand form feedway as claimed in claim 1, is characterized in that: elastic stretching part is that a spring in extended state forms, and the two ends of spring are connected mutually with swing arm and support respectively, and the draw direction of spring is crossing with the length direction of swing arm or vertical.

4. ore in sand form feedway as claimed in claim 1, it is characterized in that: elastic stretching part is that a cylinder forms, the piston rod of cylinder and cylinder body are respectively with swing arm and being configured to be articulated and connected and to form the jointed shaft being articulated and connected and arranging perpendicular to the length direction of swing arm respectively, and the flexible direction of cylinder piston rod is crossing or vertical with the length direction of swing arm.

5. ore in sand form feedway as claimed in claim 1 or 2 or 3 or 4, it is characterized in that: first and second load-transfer device comprises respectively belt body and the deflector roll or the rotating shaft that drive belt body to turn round, belt body comprises the upper and lower layer belt body of arranging up and down, and connecting upper and lower layer belt body and be coated on the transition belt body on deflector roll or rotating shaft surface, scraper plate contacts with lower floor's belt body of the first load-transfer device and the junction phase tensioning of transition belt body.

6. ore in sand form feedway as claimed in claim 5, it is characterized in that: belt body is that elastomeric material forms, upper strata belt body is shallow slot shape, upper strata belt body arranges it is carried out on moulding moulding, moulding comprises the U-shaped rod member consistent with epipelagic zone shape, the middle part bar section of U-shaped rod member and the bar section at two ends are rotated respectively and are provided with short-range missile roller, and the roll surface of each short-range missile roller rolls and contacts and carry out moulding to upper strata belt body with the lower surface of upper strata belt body respectively.

7. ore in sand form feedway as claimed in claim 5, is characterized in that: scraper plate is that elastomeric material forms.

8. ore in sand form feedway as claimed in claim 5, is characterized in that: scraper plate is detachable to be fixed in swing arm, and scraper plate arranges respectively mounting hole along the both sides portion of pendulum arm length direction, and mounting hole is put interval along pendulum arm length and arranged.

9. ore in sand form feedway as claimed in claim 5, it is characterized in that: this ore in sand form feedway also comprises a streamlined reefer housing, streamlined reefer housing be positioned at the second load-transfer device top and with the corresponding layout of the first conveyer belt discharging end, streamlined reefer housing is that a upper and lower uncovered box body forms, streamlined reefer housing is provided with baffle plate near limit, the lower end portion of the second load-transfer device initiating terminal one side, baffle plate extends setting to the vallecular cavity of the moulding rear formation of upper strata belt body of the second load-transfer device, the plate face of baffle plate is consistent with the vallecular cavity shape of the moulding rear formation of upper strata belt body, and scraper plate is positioned at streamlined reefer housing.