CN221216295U

CN221216295U - Material wide range loading device

Info

Publication number: CN221216295U
Application number: CN202322832805.XU
Authority: CN
Inventors: 褚孔建; 周建锋; 郑斌; 吴秉桦
Original assignee: Wuxuan Baofeng Mining Co ltd
Current assignee: Wuxuan Baofeng Mining Co ltd
Priority date: 2023-10-23
Filing date: 2023-10-23
Publication date: 2024-06-25
Anticipated expiration: 2033-10-23

Abstract

The utility model provides a wide-range material loading device which comprises a supporting component, a buffer component, a lifting component, a material collecting component and a movable adapting component, wherein the supporting component comprises a supporting main frame and a supporting guide rail; the movable adapting assembly comprises a movable bracket and a feeding belt connected to the upper end of the movable bracket, the feeding belt is positioned below the buffer assembly, and one end, far away from the lifting assembly, of the upper end of the movable bracket is in a pointed cone shape; the movable adapting assembly is connected to the support rail, and the movable adapting assembly can move longitudinally along the support rail. According to the movable adaptive assembly of the material wide-range loading device, disclosed by the utility model, the output point of the material can be conveniently and rapidly adjusted, the material loading speed and efficiency of a van are improved, and the tedious operation of a van driver is reduced.

Description

Material wide range loading device

Technical Field

The utility model relates to the technical field of material conveying, loading and unloading, in particular to a wide-range material loading device.

Background

A belt conveyor is a friction-driven machine that transports materials in a continuous manner. Mainly comprises a frame, a conveyer belt, a carrier roller, a tensioning device, a transmission device and the like. The conveyer belt moves according to the friction transmission principle, and is suitable for conveying powdery, granular, small-block and low-polished materials and bagged materials which are easy to pick, such as coal, broken stone, sand, cement, chemical fertilizer, grain and the like. The material conveying process can be formed between an initial feeding point and a final discharging point on a certain conveying line. It can not only transport broken materials, but also transport finished articles. If a large amount of belt conveying equipment is used in the production and loading and unloading processes of a mining factory at present, but the belts of the conventional belt conveyor are relatively fixed, and the conveying points of materials are relatively fixed, the belt conveyor is inconvenient in the material loading and unloading process applied to a van truck, namely, the positions of a truck carriage and the belts are required to be continuously adjusted in the material loading and unloading process to ensure the balance of material loading and unloading, so that the whole loading and unloading operation is troublesome, a truck driver is required to be at a higher level, and a plurality of cooperation devices are required to ensure the efficient performance of material loading and unloading.

Disclosure of utility model

In order to solve the problem that the fixed and non-adjustable material output points of the belt conveyor in the prior art cause inconvenience of a van device.

The technical scheme of the utility model is as follows:

the utility model provides a material wide range loading device, including supporting component, buffer module, lifting unit, subassembly that gathers materials and remove adaptation subassembly, the supporting component includes support body frame and supporting guide rail, the support body frame is frame construction, the supporting guide rail is connected in the support body frame lower extreme;

The buffer assembly is connected to the upper end of the supporting main frame and comprises a buffer conveying belt with a strip-shaped structure, and the length direction of the buffer conveying belt is in the same direction as the length direction of the supporting guide rail;

the lifting assembly is arranged on one side of the supporting main frame and comprises a lifting belt, and the upper end of the lifting belt is close to the upper part of one end of the buffering assembly;

the aggregate assembly is connected above the lower end of the lifting belt;

The movable adapting assembly comprises a movable bracket and a feeding belt connected to the upper end of the movable bracket, the feeding belt is positioned below the buffer assembly, and one end of the upper end of the movable bracket, which is far away from the lifting assembly, is in a pointed cone shape; the movable adapting assembly is connected to the support rail and is movable longitudinally along the support rail.

Furthermore, the material wide-range loading device comprises a material collecting bracket and a material collecting hopper fixedly connected to the upper end of the material collecting bracket, wherein the material collecting bracket adopts steel welding to form a frame structure.

Furthermore, the material wide-range loading device is characterized in that the collecting hopper is of a hopper-shaped structure, and the lower end of the collecting hopper is connected with a discharging control plate for controlling the opening of the lower end of the collecting hopper.

Furthermore, the utility model relates to a material wide-range loading device, the movable adapting assembly further comprises a guide wheel and a movable driving motor, the guide wheel comprises two groups of guide wheels which are respectively connected to the lower end of the support bracket, and the movable driving motor is used for driving the guide wheel to rotate so as to drive the movable adapting assembly to move on the support guide rail.

Furthermore, the wide-range loading device for the materials is characterized in that the movable support is formed by welding square steel.

Furthermore, according to the wide-range material loading device disclosed by the utility model, the feeding belts are all positioned below one end, far away from the material collecting assembly, of the buffer assembly when the movable adapting assembly moves relative to the supporting guide rail.

Further, according to the wide-range loading device for the materials, the movable adapting assembly is of a T-shaped structure, the upper end of the movable support extends out from the middle to the two ends, the length of the upper end of the movable support extending out from one end far away from the lifting assembly is larger than the length of the upper end of the movable support extending out from one end close to the lifting assembly, and the balancing weight is fixed at the lower end of the movable support.

The utility model has the beneficial effects that:

1. According to the movable adaptive assembly of the material wide-range loading device, disclosed by the utility model, the output point of the material can be conveniently and rapidly adjusted, the material loading speed and efficiency of a van are improved, and the tedious operation of a van driver is reduced.

2. The special aggregate component is arranged, so that the hopper car can be conveniently used for carrying out loading operation on materials, and meanwhile, the stability of material conveying in the device process is facilitated.

3. The support of each whole assembly is formed by welding cheap and practical steel materials, and the mechanical strength of the equipment can be well ensured while the production and manufacturing cost of the device is controlled.

Drawings

FIG. 1 is a schematic diagram of a wide-range loading device for materials according to the present utility model;

FIG. 2 is a schematic side perspective view of a wide-range loading device for materials according to the present utility model;

FIG. 3 is a schematic side view of a wide-range loading device for materials according to the present utility model;

FIG. 4 is a schematic perspective view of a mobile adapter assembly of a wide-range material loading device according to the present utility model;

FIG. 5 is a schematic view showing the structural position of a wide-range loading device for loading materials according to the present utility model;

FIG. 6 is a schematic view of the structural position of a wide-range loading device of the present utility model while the device is in operation;

Name and number in the figure: 11. a support main; 12. a support rail; 2. a buffer assembly; 3. a lifting assembly; 41. an aggregate support; 42. a collecting hopper; 51. a movable support; 52. a guide wheel; 53. a feeding belt; 54. a feeding driving motor; 55. and a moving driving motor.

Detailed Description

In order to enable those skilled in the art to better understand the technical scheme of the present utility model, the present utility model is described in detail below with reference to the accompanying drawings.

As shown in fig. 1 to 4, the present utility model provides a wide-range loading device for materials, comprising a supporting component, a buffer component 2, a lifting component 3, a collecting component and a moving adapting component; the supporting component comprises a supporting main frame 11 and a supporting guide rail 12, the supporting main frame 11 is in a frame structure, square steel is welded to ensure the structural strength of the supporting main frame 11, meanwhile, the production and manufacturing cost of the supporting main frame is controlled, the supporting guide rail 12 is connected to the lower end of the supporting main frame 11, and in practical application, the supporting main frame 11 can be attached to the ground and fixed to the ground, so that the supporting guide rail 12 can be fixed to the ground while being connected with the supporting main frame 11, and the supportable strength of the supporting guide rail 12 is used for ensuring the reliability and stability of the mutual matching among the components of the device. The buffer component 2 is connected to the upper end of the main support 11, the buffer component 2 comprises a buffer conveying belt with a strip-shaped structure, and the length direction of the buffer conveying belt is in the same direction with the length direction of the support rail 12, namely, the material conveying direction of the buffer conveying belt on the buffer component 2 is in the same direction with the direction of the support rail 12 as shown in the figure, so that the normal operation of other subsequent components can be ensured during operation. The lifting assembly 3 is disposed on one side of the main support 11, the lifting assembly 3 includes a lifting belt, the upper end of the lifting belt is abutted to the upper side of one end of the buffer assembly 2, that is, the lifting assembly 3 is obliquely disposed to realize the upper end of the material collection at the lower end for conveying as shown in the figure, and the upper end of the lifting belt is abutted to the upper side of the buffer conveying belt, so that the material lifted by the lifting belt can directly enter the buffer conveying belt. The subassembly that gathers materials connects in the top that promotes the belt lower extreme, sets up promptly and gathers materials the subassembly so that this device can have a better buffering effect when receiving the material, can play better material buffering effect when adopting hopper car or forklift to collect the material promptly, even this device is connected is that last level band conveyer also can play a better buffering and collection effect to the material owing to having set up the subassembly that gathers materials promptly. The movable adapting assembly comprises a movable bracket 51 and a feeding belt 53 connected to the upper end of the movable bracket 51, the feeding belt 53 is positioned below the buffer assembly 2 and is provided with a feeding driving motor 54 for driving, the feeding belt 53 positioned below the buffer assembly 2 can receive materials transmitted from the buffer assembly 2 in real time, and the upper end of the movable bracket 51 far away from the lifting assembly 3 is in a pointed cone shape; the mobile adapter assembly is connected to the support rail 12, the mobile adapter assembly being longitudinally movable along the support rail 12.

When the wide-range loading device for the material is used for loading the truck, as shown in fig. 5, the truck can be firstly opened to be close to one end of the device, one end of the movable adapting assembly can be enabled to penetrate into a carriage of the truck in the moving process, namely, when one end of the movable adapting assembly stretches into the carriage as shown in fig. 6, the device can be opened for loading the material into the carriage, and the truck does not need to be moved in the loading operation process by using the device, namely, the loading operation can be carried out on the whole carriage in the process of slowly moving out the end of the movable adapting assembly relative to the inner side of the carriage in the loading process, so that a truck driver does not need to adjust the position of the truck in the material loading process, and the efficiency of the whole device can be greatly improved. And each main body or part of the frame structure of the device can be formed by welding square steel or angle steel materials, so that the production and manufacturing cost of the device can be reduced to a great extent, and the device is also favorable for being popularized and used in a large scale.

As shown in fig. 1 to 6, further, the wide-range loading device for materials according to the present utility model is provided to ensure the structural strength of an aggregate assembly and to better control the manufacturing cost thereof, wherein the aggregate assembly comprises an aggregate support 41 and an aggregate hopper 42 fixedly connected to the upper end of the aggregate support 41, and the aggregate support 41 is in a frame structure by steel welding. In the practical application process, since the supporting component is installed or fixed on the ground, the lower end of the aggregate bracket 41 can also be directly and fixedly installed on the ground, so that the reliability and stability of the aggregate component in the operation process are ensured. Further, the collecting hopper 42 is in a hopper-shaped structure, and a discharging control board is connected to the lower end of the collecting hopper 42 for controlling the opening of the lower end of the collecting hopper 42. The speed that the material loading was realized to this device is used for controlling through the mode that sets up ejection of compact control panel promptly to can make this device can be applicable to different grade type's material and carry out the loading operation, thereby use this device to have better suitability.

As shown in fig. 1 to 6, further, in order to ensure the reliability and stability of the moving adapting assembly in the operation process, the moving adapting assembly further includes a guide wheel 52 and a moving driving motor 55, the guide wheel 52 includes two groups connected to the lower end of the support bracket, and the moving driving motor 55 is used for driving the guide wheel 52 to rotate so as to drive the moving adapting assembly to move on the support rail 12. The parallel mode of the double guide wheels 52 is adopted, and meanwhile, the guide rail adopts a solid iron wheel mode due to the fact that the weight of the whole movable adapting assembly is large, so that the supporting and moving effects of the guide wheels 52 can be better enhanced. Further, in order to better control the manufacturing cost of the movable bracket 51, the movable bracket 51 is welded by square steel. The movable bracket 51 can also be welded by adopting a combination mode of square steel and angle steel, so that the manufacturing cost of the movable bracket can be reduced while the structural strength is ensured. Further, in the wide-range loading device for materials according to the present utility model, the feeding belts 53 are all located below the end of the buffer assembly 2 away from the aggregate assembly when the moving adapting assembly moves relative to the supporting rail 12. That is, in order to ensure that the movable adapting assembly can stably and reliably receive the material transmitted from the buffer assembly 2 in the moving process, the feeding belt 53 is arranged below one end of the buffer assembly 2 away from the aggregate assembly, so that the movable adapting assembly can be ensured to receive the material from the buffer assembly 2 in the moving process, and the reliable and stable operation of the device is ensured.

As shown in fig. 1 to 4, in the wide-range loading device for materials, the movable adapting assembly is in a T-shaped structure, the upper end of the movable support 51 extends from the middle to the two ends, the length of the upper end of the movable support 51 extending outwards away from the lifting assembly 3 is greater than the length of the upper end of the movable support 51 extending outwards close to the lifting assembly 3, and the balancing weight is fixed at the lower end of the movable support 51. That is, the length of the upper end of the movable support 51 extending outwards from one end of the lifting assembly 3 is larger than the length of the upper end of the movable support 51 extending outwards from one end of the lifting assembly 3, which is close to the upper end of the movable support 51, so that more avoidance space can be provided when the upper end of the movable support 51 extends into a carriage from one end of the lifting assembly 3, and the movable support can be better adapted to loading operation of a truck with a larger carriage length.

The principles and embodiments of the present utility model have been described herein with reference to specific examples, the description of which is intended only to facilitate an understanding of the method of the present utility model and its core ideas. The foregoing is merely a preferred embodiment of the utility model, and it should be noted that, due to the limited text expressions, there is objectively no limit to the specific structure, and that, for a person skilled in the art, modifications, adaptations or variations may be made without departing from the principles of the present utility model, and the above technical features may be combined in any suitable manner; such modifications, variations and combinations, or the direct application of the inventive concepts and aspects to other applications without modification, are contemplated as falling within the scope of the present utility model.

Claims

1. A wide-range material loading device, comprising:

The support assembly comprises a support main frame (11) and a support guide rail (12), wherein the support main frame (11) is of a frame structure, and the support guide rail (12) is connected to the lower end of the support main frame (11);

the buffer assembly (2) is connected to the upper end of the supporting main frame (11), the buffer assembly (2) comprises a buffer conveying belt with a strip-shaped structure, and the length direction of the buffer conveying belt is in the same direction as the length direction of the supporting guide rail (12);

The lifting assembly (3) is arranged on one side of the supporting main frame (11), the lifting assembly (3) comprises a lifting belt, and the upper end of the lifting belt is close to the upper side of one end of the buffer assembly (2);

the aggregate assembly is connected above the lower end of the lifting belt;

The movable adapting assembly comprises a movable bracket (51) and a feeding belt (53) connected to the upper end of the movable bracket (51), the feeding belt (53) is positioned below the buffer assembly (2), and one end, far away from the lifting assembly (3), of the upper end of the movable bracket (51) is in a pointed cone shape; the mobile adapter assembly is connected to the support rail (12), and the mobile adapter assembly is longitudinally movable along the support rail (12).

2. The wide-range material loading device according to claim 1, wherein the material collecting assembly comprises a material collecting bracket (41) and a material collecting hopper (42) fixedly connected to the upper end of the material collecting bracket (41), and the material collecting bracket (41) adopts a frame structure by steel welding.

3. The wide-range loading device for materials according to claim 2, wherein the collecting hopper (42) is of a hopper-shaped structure, and a discharging control board is connected to the lower end of the collecting hopper (42) for controlling the opening of the lower end of the collecting hopper (42).

4. The wide-range loading device for materials according to claim 1, wherein the moving adapting assembly further comprises a guide wheel (52) and a moving driving motor (55), the guide wheel (52) comprises two groups which are respectively connected to the lower ends of the supporting brackets, and the moving driving motor (55) is used for driving the guide wheel (52) to rotate so as to drive the moving adapting assembly to move on the supporting guide rail (12).

5. A wide range loading device according to claim 1, characterized in that the moving support (51) is welded from square steel.

6. A wide range loading device according to claim 1, characterized in that the feeding belts (53) are located under the end of the buffer assembly (2) remote from the aggregate assembly when the movement adapting assembly moves relative to the support rail (12).

7. The wide-range loading device for materials according to claim 1, wherein the movable adapting assembly is of a T-shaped structure, the upper end of the movable support (51) extends from the middle to the two ends, the length of the upper end of the movable support (51) extending outwards from one end far away from the lifting assembly (3) is larger than the length of the upper end of the movable support (51) extending outwards from one end, close to the lifting assembly (3), of the upper end of the movable support (51), and a balancing weight is fixed at the lower end of the movable support (51).