CN218967898U - Conveying mechanism for ore processing - Google Patents

Abstract

The utility model discloses a conveying mechanism for ore processing, which belongs to the technical field of ore processing and comprises the following components: bottom plate, width adjustment subassembly, actuating assembly, altitude mixture control subassembly, drive belt and flexible carrier bar, width adjustment electricity jar sets up on the mounting panel, altitude mixture control subassembly sets up in the limiting plate, altitude mixture control subassembly is connected with the drive mounting panel drive, actuating assembly sets up on the drive mounting panel, actuating assembly is connected with the drive belt transmission, with the help of actuating assembly, can provide power for the motion of drive belt, with the help of width adjustment subassembly, under the effect of width adjustment electricity jar in the width adjustment subassembly, can adjust the distance between two drive belts, can bear the weight of the ore of transportation with the help of flexible carrier bar, two can adjust the drive belt of each other distance and can carry out the adaptation to the ore of equidimension, thereby improved transport mechanism's application range, need not to prepare different specification transport mechanism, reduce cost expenditure.

Description

Conveying mechanism for ore processing

Technical Field

The utility model relates to the technical field of ore processing, in particular to a conveying mechanism for ore processing.

Background

The ore is a mineral aggregate from which useful components can be extracted or which has a property which can be utilized, and can be divided into metal minerals and non-metal minerals, wherein the unit content of useful component elements or minerals in the ore is called ore grade, precious metal ores such as gold, platinum and the like are expressed in terms of gram ton, other ores are expressed in terms of common percentages, metallurgy is a process and a process for extracting metals or metal compounds from the minerals and preparing the metals into metal materials with certain properties by various processing methods, the metallurgy has a long development history, the development history of the metallurgy is from stone age to subsequent bronze age, the large-scale development of modern iron and steel smelting is further realized, and the development history of human development is integrated with the development history of the metallurgy.

When ore is processed, because different processing equipment places the position different, consequently need use transport mechanism in order to conveniently carry the ore, when transporting the ore, generally use the conveyer belt to go on, however current transport mechanism is usually fixed in size, need change corresponding transport mechanism when transporting the ore of different size and size, consequently need prepare transport mechanism of different specifications, cause transport mechanism suitability relatively poor lead to the cost to increase, consequently need to design a transport mechanism for ore processing in order to solve above-mentioned problem.

Disclosure of Invention

The utility model aims to solve the technical problems that: in order to adjust ores with different sizes, the applicability of the conveying mechanism is ensured, and the cost expenditure of ore processing is reduced.

The technical scheme adopted to solve the technical problems is as follows: a transport mechanism for ore processing, comprising: the device comprises a bottom plate, a width adjusting assembly, a driving assembly, a height adjusting assembly, a transmission belt and a telescopic bearing rod;

a chute is formed in the bottom plate, and a mounting plate is arranged in the chute;

the width adjusting assembly comprises a width adjusting electric cylinder, the output end of the width adjusting electric cylinder is connected with a width adjusting push rod, the width adjusting push rod is connected with a balance connecting plate, the balance connecting plate is slidably connected in the chute, a limiting plate is arranged on the balance connecting plate, and a driving mounting plate is slidably connected in the limiting plate;

the width adjustment electricity jar sets up on the mounting panel, altitude mixture control subassembly sets up in the limiting plate, altitude mixture control subassembly is connected with the drive mounting panel drive, drive subassembly sets up on the drive mounting panel, drive subassembly is connected with the drive belt transmission, the quantity of drive belt is two, two be connected with a plurality of flexible carrier bars between the drive belt, flexible carrier bar place straight line is parallel with spout place straight line.

As a preferable technical scheme of the utility model, the number of the sliding grooves is two, the mounting plates are arranged at the middle positions of the sliding grooves, one mounting plate corresponds to two width-adjusting electric cylinders, and the two width-adjusting electric cylinders are symmetrically arranged on the mounting plates.

Through adopting above-mentioned technical scheme, owing to set up two spouts, the mounting panel sets up in the intermediate position of spout simultaneously to under the effect of two width modulation cylinders that the symmetry set up, start width modulation cylinder simultaneously can make balanced connecting plate synchronous be close to each other or keep away from, thereby can conveniently adjust the distance between two drive belts, and then can conveniently carry out the adaptation to not unidimensional ore.

As a preferable technical scheme of the utility model, the height adjusting assembly comprises a height adjusting electric cylinder, wherein the output end of the height adjusting electric cylinder is connected with a height adjusting push rod, and the height adjusting push rod is connected with a driving mounting plate.

Through adopting above-mentioned technical scheme, with the help of altitude mixture control jar, altitude mixture control jar can drive altitude mixture control push rod and remove, under altitude mixture control push rod's effect, along with the removal of altitude mixture control push rod, the position of drive mounting panel can be adjusted to the height of convenient control drive mounting panel, and then the height of convenient control drive belt carries out the adaptation adjustment to different transport heights.

As a preferable technical scheme of the utility model, the driving assembly comprises a driving motor, the output end of the driving motor is connected with a driving rotating shaft, the driving rotating shaft is connected with a driving wheel, the driving wheel is in transmission connection with a transmission belt, and the driving motor is arranged on a driving mounting plate.

Through adopting above-mentioned technical scheme, with the help of driving motor, driving motor can drive the drive pivot and rotate, and the drive pivot rotates and can drive the drive wheel and rotate, along with the rotation of drive wheel, can provide power for the motion of drive belt.

As a preferable technical scheme of the utility model, the telescopic bearing rod comprises a bearing rod, a sliding cavity is formed in the bearing rod, and a connecting rod is connected in the sliding cavity in a sliding mode.

Through adopting above-mentioned technical scheme, with the help of the sliding connection mode between connecting rod and the carrier bar to can adjust the length of flexible carrier bar.

As a preferable technical scheme of the utility model, one bearing rod corresponds to two connecting rods, the two connecting rods are symmetrically distributed and are in sliding connection with the bearing rod, and the telescopic bearing rod is connected with the transmission belt by virtue of the connecting rods.

Through adopting above-mentioned technical scheme, because a carrier bar corresponds two connecting rods to when carrying the bearing to the ore with the help of flexible carrier bar, the connecting rod that two symmetries set up can play the purpose of sharing the weight to the carrier bar, thereby can ensure the life of flexible carrier bar.

The beneficial effects of the utility model are as follows:

1. by means of the driving assembly, under the action of the driving motor in the driving assembly, power can be provided for the movement of the driving belt, by means of the width adjusting assembly, the distance between the two driving belts can be adjusted under the action of the width adjusting electric cylinder in the width adjusting assembly, the conveyed ores can be borne by means of the telescopic bearing rod, the two driving belts capable of adjusting the distance between the two driving belts can adapt to ores with different sizes, therefore the application range of the conveying mechanism is improved, the conveying mechanism with different specifications is not required, cost expenditure is reduced, due to the fact that the balance connecting plate is arranged, the gravity centers of the driving belt and the telescopic bearing rod can be balanced under the action of the balance connecting plate when the ores are conveyed, and by means of the height adjusting assembly, the height of the driving belt can be adjusted under the action of the height adjusting electric cylinder in the height adjusting assembly, and accordingly the application range of the conveying mechanism can be further improved.

Drawings

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

FIG. 2 is a schematic top view of the utility model with the telescoping support rods removed;

FIG. 3 is a schematic elevational view of the telescopic carrier bar of the present utility model;

FIG. 4 is a schematic side elevational view of the telescopic carrier bar of the present utility model;

fig. 5 is a schematic cross-sectional view of a telescoping boom of the present utility model.

In the figure: 1. a bottom plate; 2. a chute; 3. a mounting plate; 4. a width-adjusting electric cylinder; 5. a width adjusting push rod; 6. a balance connecting plate; 7. a limiting plate; 8. a height adjusting electric cylinder; 9. a height adjusting push rod; 10. a drive mounting plate; 11. a driving motor; 12. driving the rotating shaft; 13. a driving wheel; 14. a transmission belt; 15. a telescopic carrying rod; 151. a carrier bar; 152. a sliding chamber; 153. and (5) connecting a rod.

Detailed Description

According to research and analysis of the applicant, when ores are processed, due to different placing positions of different processing equipment, a conveying mechanism is needed to be used so as to conveniently convey the ores, when the ores are conveyed, a conveying belt is usually used, however, the conventional conveying mechanism is usually fixed in size, and when ores with different sizes are conveyed, the corresponding conveying mechanism needs to be replaced, so that the conveying mechanism with different specifications needs to be prepared, the cost is increased due to poor applicability of the conveying mechanism, and therefore, the design of the conveying mechanism for ore processing is needed to be designed so as to be capable of adjusting ores with different sizes, the applicability of the conveying mechanism is ensured, and the cost expenditure of ore processing is reduced.

The present utility model will now be described in further detail with reference to the accompanying drawings.

Referring to fig. 1 to 5, a transport mechanism for ore processing includes a base plate 1, a chute 2, a mounting plate 3, a width-adjusting cylinder 4, a width-adjusting push rod 5, a balance connecting plate 6, a limiting plate 7, a height-adjusting cylinder 8, a height-adjusting push rod 9, a drive mounting plate 10, a drive motor 11, a drive shaft 12, a drive wheel 13, a drive belt 14, a telescopic carrying rod 15, a carrying rod 151, a sliding chamber 152, and a connecting rod 153.

1-5, a transport mechanism for ore processing, comprising: the base plate 1, width adjusting component, actuating assembly, height adjusting component, drive belt 14 and flexible carrier bar 15, spout 2 has been seted up on the base plate 1, be provided with mounting panel 3 in the spout 2, preferably, the quantity of spout 2 is two, mounting panel 3 sets up in spout 2 intermediate position department, width adjusting component includes width adjusting cylinder 4, width adjusting cylinder 4 output is connected with width adjusting push rod 5, width adjusting push rod 5 is connected with balanced connecting plate 6, balanced connecting plate 6 sliding connection is in spout 2, be provided with limiting plate 7 on the balanced connecting plate 6, sliding connection has drive mounting panel 10 in the limiting plate 7, width adjusting cylinder 4 sets up on mounting panel 3, preferably, one mounting panel 3 corresponds two width adjusting cylinder 4, two width adjusting cylinder 4 symmetry sets up on mounting panel 3, height adjusting component sets up in limiting plate 7, height adjusting component is connected with drive 10, wherein, height adjusting component includes height adjusting push rod 5 is connected with balanced connecting plate 6, balanced connecting plate 6 sliding connection is in spout 2, be provided with drive wheel 14, drive wheel assembly, height adjusting motor 8 is connected with drive wheel 11, drive wheel 14 is connected with drive shaft 10, drive wheel assembly, drive wheel 11 is connected with drive 11 height adjusting motor, drive wheel assembly is connected with drive wheel 11, wherein, drive wheel 13 is connected with high adjusting cylinder 10, preferably, the number of the driving belts 14 is two, a plurality of telescopic carrying rods 15 are connected between the two driving belts 14, the straight line where the telescopic carrying rods 15 are positioned is parallel to the straight line where the sliding grooves 2 are positioned, the telescopic carrying rods 15 comprise carrying rods 151, sliding cavities 152 are formed in the carrying rods 151, connecting rods 153 are slidably connected in the sliding cavities 152, preferably, one carrying rod 151 corresponds to two connecting rods 153, the two connecting rods 153 are symmetrically distributed and slidably connected with the carrying rods 151, the telescopic carrying rods 15 are connected with the driving belts 14 by virtue of the connecting rods 153, under the action of a driving motor 11 in a driving assembly, the driving motor 11 can drive a driving shaft 12 to rotate, the driving shaft 12 can drive a driving wheel 13 to rotate, along with the rotation of the driving wheel 13, power can be provided for the movement of the driving belts 14, by means of the width adjusting component, under the action of the width adjusting electric cylinder 4 in the width adjusting component, the width adjusting electric cylinder 4 drives the width adjusting push rod 5 to move, the balance connecting plate 6 is driven to move along with the movement of the width adjusting push rod 5, the distance between the two driving belts 14 can be adjusted under the action of the limiting plate 7 and the driving mounting plate 10, the transported ore can be carried by means of the telescopic carrying rod 15, the length of the telescopic carrying rod 15 can be adjusted by means of the sliding connection mode between the connecting rod 153 and the carrying rod 151, because one carrying rod 151 corresponds to the two connecting rods 153, when the ore is carried by means of the telescopic carrying rod 15, the two symmetrically arranged connecting rods 153 can play a role of sharing weight to the carrying rod 151, thereby ensuring the service life of the telescopic carrying rod 15, the ore that can transport with the help of flexible carrier bar 15 bears, two drive belts 14 that can adjust each other the distance can carry out the adaptation to the ore of equidimension, thereby transport mechanism's application range has been improved, need not to prepare transport mechanism of different specifications, reduce the cost expenditure, owing to set up two spouts 2, the mounting panel 3 sets up in the intermediate position of spout 2 simultaneously, thereby under the effect of two width adjustment cylinders 4 of symmetry setting, start width adjustment cylinder 4 simultaneously and can make balanced connecting plate 6 synchronous each other be close to or keep away from, thereby can conveniently adjust the distance between two drive belts 14, and then can more convenient carry out the adaptation to the ore of equidimension, owing to set up balanced connecting plate 6, thereby under the effect of balanced connecting plate 6, when transporting the ore, can carry out the transport belt 14 and flexible carrier bar 15, through setting up altitude mixture control subassembly, under the effect of altitude mixture control cylinder 8 in altitude mixture control assembly, can drive altitude mixture control cylinder 8, altitude mixture control cylinder 9 can drive altitude mixture control, thereby the height adjustment cylinder 8 can drive the altitude mixture control 9, thereby the installation panel is convenient to carry out the adaptation, the transport mechanism is further carried out the height adjustment along with the height adjustment 9, the height is convenient to carry out, the height adjustment of the push rod is adjusted, thereby the height is adjusted 10.

Working principle: when the device is used, firstly, the height of the conveying mechanism is adjusted according to the working requirement, the height adjusting electric cylinder 8 is started, the driving belt 14 is driven to carry out height adjustment under the action of the height adjusting push rod 9, after the height adjustment is finished, the width adjusting electric cylinder 4 is started according to the size specification of ore to be conveyed in the working process, under the action of the width adjusting push rod 5, the balance connecting plate 6 is matched, so that the distance between the two driving belts 14 is adjusted, in the process, the telescopic carrying rod 15 is changed along with the change of the distance between the two driving belts 14 due to the sliding connection relation of the carrying rod 151 and the connecting rod 153 in the telescopic carrying rod 15, after the width adjustment is finished, the driving motor 11 is started, the driving wheel 13 is driven to rotate under the action of the driving rotary shaft 12, and power is provided for the movement of the driving belts 14, so that the conveying work is smoothly completed.

The foregoing has shown and described the basic principles, principal features and advantages of the utility model. It will be understood by those skilled in the art that the present utility model is not limited to the above-described embodiments, and that the above-described embodiments and descriptions are only preferred embodiments of the present utility model, and are not intended to limit the utility model, and that various changes and modifications may be made therein without departing from the spirit and scope of the utility model as claimed. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (6)

1. A transport mechanism for ore processing, comprising: bottom plate (1), width adjustment subassembly, drive assembly, altitude mixture control subassembly, drive belt (14) and flexible carrier bar (15), its characterized in that:

a chute (2) is formed in the bottom plate (1), and a mounting plate (3) is arranged in the chute (2);

the width adjusting assembly comprises a width adjusting electric cylinder (4), the output end of the width adjusting electric cylinder (4) is connected with a width adjusting push rod (5), the width adjusting push rod (5) is connected with a balance connecting plate (6), the balance connecting plate (6) is slidably connected in the chute (2), a limiting plate (7) is arranged on the balance connecting plate (6), and a driving mounting plate (10) is slidably connected in the limiting plate (7);

the width adjustment cylinder (4) is arranged on the mounting plate (3), the height adjustment assembly is arranged in the limiting plate (7), the height adjustment assembly is in driving connection with the driving mounting plate (10), the driving assembly is arranged on the driving mounting plate (10), the driving assembly is in transmission connection with the transmission belts (14), the number of the transmission belts (14) is two, a plurality of telescopic bearing rods (15) are connected between the transmission belts (14), and the straight line where the telescopic bearing rods (15) are arranged is parallel to the straight line where the sliding grooves (2) are arranged.

2. A transport mechanism for ore processing as claimed in claim 1, wherein: the number of the sliding grooves (2) is two, the mounting plates (3) are arranged at the middle positions of the sliding grooves (2), one mounting plate (3) corresponds to two width-adjusting electric cylinders (4), and the two width-adjusting electric cylinders (4) are symmetrically arranged on the mounting plates (3).

3. A transport mechanism for ore processing according to claim 2, wherein: the height adjusting assembly comprises a height adjusting electric cylinder (8), the output end of the height adjusting electric cylinder (8) is connected with a height adjusting push rod (9), and the height adjusting push rod (9) is connected with a driving mounting plate (10).

4. A transport mechanism for ore processing according to claim 2, wherein: the driving assembly comprises a driving motor (11), the output end of the driving motor (11) is connected with a driving rotating shaft (12), the driving rotating shaft (12) is connected with a driving wheel (13), the driving wheel (13) is in transmission connection with a transmission belt (14), and the driving motor (11) is arranged on a driving mounting plate (10).

5. A transport mechanism for ore processing according to claim 2, wherein: the telescopic bearing rod (15) comprises a bearing rod (151), a sliding cavity (152) is formed in the bearing rod (151), and a connecting rod (153) is connected in the sliding cavity (152) in a sliding mode.

6. A transport mechanism for ore processing as defined in claim 5 wherein: one bearing rod (151) corresponds to two connecting rods (153), two connecting rods (153) are symmetrically distributed and are in sliding connection with the bearing rod (151), and the telescopic bearing rod (15) is connected with the driving belt (14) by means of the connecting rods (153).

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