CN111039035A - Waste material conveying system - Google Patents

Abstract

The invention provides a waste conveying system which comprises a wheel component transmission device, a conveying belt mechanism and a waste guiding part, wherein the wheel component transmission device is used for bearing and conveying wheel components along a preset path; the conveying belt mechanism is positioned below the wheel part transmission device and arranged along a preset path so as to collect and convey waste materials falling from the wheel parts; the waste material guide part is arranged between the wheel component transmission device and the conveying belt mechanism, the waste material guide part is provided with a guide cavity, and a containing opening and a blanking opening which are communicated with the guide cavity, wherein the containing opening is arranged opposite to the wheel component transmission device, the blanking opening is arranged opposite to the conveying belt mechanism, and the cross section area of the guide cavity is gradually reduced from the containing opening to the direction of the blanking opening. The invention solves the problem that the waste material conveying system in the prior art has unreasonable structure and the possibility that the waste material on the wheel part falls onto the ground of a wheel machining workshop.

Description

Waste material conveying system

Technical Field

The invention relates to the technical field of wheel processing, in particular to a waste conveying system.

Background

In the process of conveying the wheel parts by the wheel part transmission device, because a large amount of waste materials such as scrap iron or oxide skin exist on the wheel parts, the waste materials fall onto a waste material conveying belt located at the bottom of the wheel part transmission device in the conveying process of the wheel parts, the waste materials are convenient to convey and are centralized to treat, however, the structure of the conventional waste material conveying system is unreasonable, the possibility that the waste materials on the wheel parts fall onto the ground of a wheel machining workshop is caused in the process of conveying the wheel parts by the wheel part transmission device, the wheel machining workshop is polluted, and after the wheel part transmission device finishes the conveying operation of the wheel parts, an operator is required to clean the wheel machining workshop, so that the working intensity of the operator is increased.

Disclosure of Invention

The invention mainly aims to provide a waste conveying system to solve the problem that the waste on a wheel component can fall onto the ground of a wheel machining workshop due to unreasonable structure of the waste conveying system in the prior art.

In order to achieve the above object, the present invention provides a scrap conveying system comprising a wheel-member transmission, a conveyor belt mechanism, and a scrap guide, wherein the wheel-member transmission is adapted to carry and convey a wheel member along a predetermined path; the conveying belt mechanism is positioned below the wheel part transmission device and arranged along a preset path so as to collect and convey waste materials falling from the wheel parts; the waste material guide part is arranged between the wheel component transmission device and the conveying belt mechanism, the waste material guide part is provided with a guide cavity, and a containing opening and a blanking opening which are communicated with the guide cavity, wherein the containing opening is arranged opposite to the wheel component transmission device, the blanking opening is arranged opposite to the conveying belt mechanism, and the cross section area of the guide cavity is gradually reduced from the containing opening to the direction of the blanking opening.

Further, wheel unit transmission includes mounting bracket and a plurality of guide roll, and a plurality of guide roll set up on the mounting bracket along predetermineeing the route with interval in proper order, and the waste material guide part is including two blocks of direction swash plates that set up relatively, and the top of two blocks of direction swash plates all is connected with the mounting bracket, and the bottom of two blocks of direction swash plates forms the blanking mouth.

Further, the width of the receiving opening is greater than or equal to the axial length of the guide roller.

Further, the conveying belt mechanism comprises a plurality of driving rollers, a driving part and a conveying belt, wherein the driving rollers are arranged at intervals along a preset path, and the driving part is in driving connection with at least one of the plurality of driving rollers; the conveying belt is wound on the plurality of driving rollers and is driven by the plurality of driving rollers to roll.

Further, waste material conveying system still includes the mechanism of washing by water, and the mechanism of washing by water includes the storage water tank, erodees the pipeline and gets the water pump, and wherein, the first end and the storage water tank intercommunication that erode the pipeline, the second end that erodees the pipeline extend to the top of direction swash plate to form the end of dashing by water, the water pump setting of getting is on the pipeline of washing by water.

Furthermore, the flushing mechanism also comprises a storage water tank, a return pipeline and a water suction pump, wherein the storage water tank is arranged below the mounting frame, and at least one part of the conveying belt mechanism is positioned in the storage water tank; the water tank and the storage water tank are accomodate in the return line intercommunication, and the suction pump sets up on the return line.

Furthermore, the waste conveying device also comprises a water level control mechanism, wherein the water level control mechanism comprises a water level detection probe, a processor and an alarm, the water level detection probe is arranged in the storage water tank, and the detection end of the water level detection probe is lower than the bottom end surface of the conveying belt; the water level detection probe is in signal connection with the alarm through the processor; when the detection end detects that the water level in the storage water tank reaches the preset water level, the water level detection probe sends a water level signal to the processor, and the processor receives and processes the water level signal and then controls the alarm to work.

Further, the conveyor belt comprises a bearing main body section and a stopping filter section which are connected in the width direction of the conveyor belt, wherein two sides of the bearing main body section in the width direction are respectively connected with one stopping filter section, and the stopping filter sections extend outwards in an inclined mode relative to the bearing main body section.

Further, the scrap conveying system further includes a scrap receiving bucket displaceably provided at a downstream end of the conveyor belt mechanism along the preset path.

By applying the technical scheme provided by the invention, the waste conveying system with the waste guide part is provided, so that the waste falling from the wheel part can be ensured to completely fall into the conveying belt mechanism, and the cleanness of a wheel machining workshop is ensured.

Specifically, the waste guiding part is arranged between the wheel component transmission device and the conveying belt mechanism, so that in the process that the wheel component transmission device conveys the wheel components along a preset path, waste materials falling on the wheel components fall into the guiding cavity from the accommodating port of the waste guiding part and fall onto the conveying belt mechanism from the discharging port of the waste guiding part; in addition, because the cross-sectional area of direction chamber is reduced gradually by the direction of receiving the mouth to the blanking mouth, ensure that the waste material can concentrate and fall into conveyer belt mechanism on, avoid the waste material dispersion to fall into conveyer belt mechanism's border department.

The application provides a waste material conveying system can ensure that the waste material that drops on the wheel part concentrates completely and falls into to conveyer belt mechanism on, ensures that wheel part transmission is at the delivery wagon wheel part in-process, and the wheel machining workshop can remain clean throughout, and in addition, operating personnel need not to clear up the ground in wheel machining workshop after wheel part transmission accomplishes the wheel part and carries the operation, greatly reduced operating personnel's working strength.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this application, illustrate embodiments of the invention and, together with the description, serve to explain the invention and not to limit the invention. In the drawings:

FIG. 1 shows a schematic internal structural view of a waste transport system according to an alternative embodiment of the present invention;

FIG. 2 is a schematic illustration of the positional relationship of the wheel assembly transmission, conveyor belt mechanism and waste collection bin of the waste delivery system of FIG. 1;

figure 3 shows a schematic diagram of the wheel assembly drive, waste guide and part of the conveyor belt mechanism of the waste conveyor system of figure 2.

Wherein the figures include the following reference numerals:

10. a wheel component transmission; 20. a conveyor belt mechanism; 30. a scrap guide section; 31. a guide cavity; 32. a receiving opening; 33. a blanking port; 11. a mounting frame; 12. a guide roller; 34. a guide sloping plate; 21. a conveyor belt; 40. a flushing mechanism; 41. a water storage tank; 42. flushing the pipeline; 43. a water taking pump; 44. a storage water tank; 45. a return line; 46. a water pump; 50. a water level control mechanism; 51. a water level detection probe; 52. an alarm; 211. a load bearing main body section; 212. a stop filter section; 60. a waste storage barrel; 100. and (4) waste materials.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. The following description of at least one exemplary embodiment is merely illustrative in nature and is in no way intended to limit the invention, its application, or uses. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In order to solve the problem that the structure of the waste conveying system in the prior art is unreasonable, and the waste on the wheel parts may fall onto the ground of the wheel processing workshop, the invention provides a waste conveying system, as shown in fig. 1, which comprises a wheel part transmission device 10, a conveyor belt mechanism 20 and a waste guide part 30, wherein the wheel part transmission device 10 is used for bearing and conveying the wheel parts along a preset path; the conveyor belt mechanism 20 is located below the wheel unit transmission 10, and the conveyor belt mechanism 20 is disposed along a predetermined path to collect and convey the waste 100 dropped from the wheel unit; the waste material guide portion 30 is disposed between the wheel component transmission device 10 and the conveyor belt mechanism 20, the waste material guide portion 30 has a guide cavity 31, and a receiving opening 32 and a blanking opening 33 which are communicated with the guide cavity 31, wherein the receiving opening 32 is disposed opposite to the wheel component transmission device 10, the blanking opening 33 is disposed opposite to the conveyor belt mechanism 20, and the cross-sectional area of the guide cavity 31 is gradually reduced from the receiving opening 32 to the blanking opening 33.

The present application provides a scrap conveying system having a scrap guide 30 that ensures that scrap 100 falling from wheel assemblies can fall completely onto the conveyor belt mechanism 20, thereby ensuring cleanliness of the wheel processing plant.

Specifically, the waste guiding portion 30 is disposed between the wheel component transmission device 10 and the conveyor belt mechanism 20, so that the waste 100 falling from the wheel component falls into the guiding cavity 31 from the receiving opening 32 of the waste guiding portion 30 and falls onto the conveyor belt mechanism 20 from the discharging opening 33 of the waste guiding portion 30 in the process that the wheel component transmission device 10 conveys the wheel component along the preset path, and in the process that the waste 100 is collected, the guiding cavity 31 plays a role in guiding the waste 100, so that the waste 100 can fall onto the conveyor belt mechanism 20 along the cavity wall surface of the guiding cavity 31, and the waste 100 is prevented from falling onto the ground of the wheel machining workshop; in addition, because the cross-sectional area of the guide cavity 31 is gradually reduced from the receiving opening 32 to the blanking opening 33, the scraps 100 can be ensured to fall onto the conveying belt mechanism 20 in a concentrated manner, and the scraps 100 are prevented from falling onto the edge of the conveying belt mechanism 20 in a scattered manner.

The application provides a waste material conveying system can ensure that the waste material 100 that drops on the wheel part concentrates completely and falls into to conveyer belt mechanism 20 on, ensures that wheel part transmission device 10 is at the transport wheel part in-process, and the wheel machining workshop can remain clean throughout, and in addition, operating personnel need not to clear up the ground of wheel machining workshop after wheel part transmission operation is accomplished to wheel part transmission device 10, greatly reduced operating personnel's working strength.

As shown in fig. 3, the wheel component transmission device 10 includes a mounting frame 11 and a plurality of guide rollers 12, the plurality of guide rollers 12 are sequentially disposed on the mounting frame 11 at intervals along a preset path, the waste material guide portion 30 includes two opposite guide inclined plates 34, the top ends of the two guide inclined plates 34 are connected to the mounting frame 11, and the bottom ends of the two guide inclined plates 34 form a blanking port 33. In this way, by providing the wheel component transmission device 10 with a structural form including the mounting frame 11 and the plurality of guide rollers 12, it is ensured that the waste 100 dropped on the wheel component can drop onto the guide swash plate 34 of the waste guide portion 30 through the gap between two adjacent guide rollers 12, and the guide swash plate 34 plays a role of blocking the waste 100, ensuring that the waste 100 can drop on the conveyor belt mechanism 20 along the guide swash plate 34 under the action of its own gravity.

In the present application, the width of the receiving opening 32 is equal to or greater than the axial length of the guide roller 12. In this way, the receiving opening 32 of the scrap guide 30 is ensured to collect the scrap 100 falling from the wheel member as much as possible, and the scrap collecting reliability of the scrap guide 30 is ensured.

Optionally, the conveying belt mechanism 20 includes a plurality of driving rollers arranged at intervals along the preset path, a driving portion and a conveying belt 21, wherein the driving portion is in driving connection with at least one of the plurality of driving rollers; the conveyor belt 21 is wound around the plurality of drive rollers and is driven by the plurality of drive rollers to roll. In this way, the transmission stability of the conveyor belt 21 of the conveyor belt mechanism 20 is ensured, thereby ensuring that the conveyor belt 21 can smoothly convey the scrap 100 dropped on the wheel parts to the preset position.

As shown in fig. 1, the waste material conveying system further includes a flushing mechanism 40, the flushing mechanism 40 includes a water storage tank 41, a flushing line 42 and a water intake pump 43, wherein a first end of the flushing line 42 is communicated with the water storage tank 41, a second end of the flushing line 42 extends to the top of the inclined guide plate 34 to form a flushing end, and the water intake pump 43 is disposed on the flushing line 42. Thus, because the flushing end of the flushing pipeline 42 is positioned at the top of the guide inclined plate 34 of the waste guide part 30, the flushing end of the flushing pipeline 42 is ensured to spray water onto the outer surface of the guide inclined plate 34, when the waste 100 is accumulated on the outer surface of the guide inclined plate 34, the water taking pump 43 is started, the water in the water storage tank 41 is sprayed onto the outer surface of the guide inclined plate 34 through the flushing pipeline 42, the waste 100 accumulated on the guide inclined plate 34 is ensured to flow onto the conveying belt 21 of the conveying belt mechanism 20 along with the water flow under the action of the water impulsive force, and the waste 100 cannot be conveyed to the preset position in time due to the fact that a large amount of waste 100 is accumulated on the guide inclined plate.

As shown in fig. 1, the flushing mechanism 40 further includes a storage water tank 44, a return line 45 and a water pump 46, wherein the storage water tank 44 is disposed below the mounting frame 11, and at least a portion of the conveyor belt mechanism 20 is located in the storage water tank 44; the return line 45 communicates the storage tank 44 with the storage tank 41, and the suction pump 46 is provided on the return line 45. Thus, after the flushing pipeline 42 sprays water to the guide inclined plate 34, the storage water tank 44 collects the water flowing down from the guide inclined plate 34 and recovers the water into the water storage tank 41 through the return pipeline 45, so that the flushing water can be recycled, and the waste of water resources is avoided.

As shown in fig. 1, the waste conveying device further comprises a water level control mechanism 50, wherein the water level control mechanism 50 comprises a water level detection probe 51, a processor and an alarm 52, wherein the water level detection probe 51 is arranged in the storage water tank 44, the detection end of the water level detection probe 51 is lower than the bottom end surface of the conveying belt 21, and the water level detection probe 51 is in signal connection with the alarm 52 through the processor; when the detection end detects that the water level in the storage water tank 44 reaches the preset water level, the water level detection probe 51 sends a water level signal to the processor, and the processor receives and processes the water level signal and then controls the alarm 52 to work. In this way, it is ensured that the water level in the storage water tank 44 can be always lower than the bottom end face of the conveyor belt 21, thereby ensuring the conveying reliability of the conveyor belt mechanism 20.

As shown in fig. 1, the conveyor belt 21 includes a carrier body segment 211 and a stopper filter segment 212 connected in the width direction, wherein one stopper filter segment 212 is connected to each of the two sides of the carrier body segment 211 in the width direction, and the stopper filter segment 212 extends obliquely outward relative to the carrier body segment 211. Like this, set up conveyer belt 21 to including the main part section 211 and the backstop filter segment 212 of bearing that are connected, wherein, bear the main part section 211 and be used for bearing the waste material 100 that waste material guide portion 30 was collected, backstop filter segment 212 plays the backstop effect to waste material 100, avoid waste material 100 to enter into with the rivers and accomodate water tank 44 under the impulsive force effect of flushing water, thereby guarantee the cleanness of the flushing water in accomodating water tank 44, in addition, have latticed hollow out construction on the backstop filter segment 212, guarantee that the flushing water can be in time flowed into in accomodating water tank 44 on the conveyer belt 21, avoid the flushing water gathering on conveyer belt 21 and can't guarantee the normal transport function of conveyer belt mechanism 20, guarantee the transport reliability of conveyer belt mechanism 20.

As shown in fig. 2, the scrap conveying system further includes a scrap receptacle 60, and the scrap receptacle 60 is displaceably disposed at a downstream end of the conveyor belt mechanism 20 along a predetermined path. In this way, the conveyor belt 21 of the conveyor belt mechanism 20 is ensured to convey the scrap 100 into the scrap storage barrel 60, so that the scrap 100 can be conveniently and collectively treated.

It is noted that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of example embodiments according to the present application. As used herein, the singular forms "a", "an" and "the" are intended to include the plural forms as well, and it should be understood that when the terms "comprises" and/or "comprising" are used in this specification, they specify the presence of stated features, steps, operations, devices, components, and/or combinations thereof, unless the context clearly indicates otherwise.

The relative arrangement of the components and steps, the numerical expressions and numerical values set forth in these embodiments do not limit the scope of the present invention unless specifically stated otherwise. Meanwhile, it should be understood that the sizes of the respective portions shown in the drawings are not drawn in an actual proportional relationship for the convenience of description. Techniques, methods, and apparatus known to those of ordinary skill in the relevant art may not be discussed in detail but are intended to be part of the specification where appropriate. In all examples shown and discussed herein, any particular value should be construed as merely illustrative, and not limiting. Thus, other examples of the exemplary embodiments may have different values. It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, further discussion thereof is not required in subsequent figures.

Spatially relative terms, such as "above … …," "above … …," "above … …," "above," and the like, may be used herein for ease of description to describe one device or feature's spatial relationship to another device or feature as illustrated in the figures. It will be understood that the spatially relative terms are intended to encompass different orientations of the device in use or operation in addition to the orientation depicted in the figures. For example, if a device in the figures is turned over, devices described as "above" or "on" other devices or configurations would then be oriented "below" or "under" the other devices or configurations. Thus, the exemplary term "above … …" can include both an orientation of "above … …" and "below … …". The device may be otherwise variously oriented (rotated 90 degrees or at other orientations) and the spatially relative descriptors used herein interpreted accordingly.

It is noted that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of example embodiments according to the present application. As used herein, the singular is intended to include the plural unless the context clearly dictates otherwise, and it should be further understood that the terms "comprises" and/or "comprising," when used in this specification, specify the presence of features, steps, operations, devices, components, and/or combinations thereof.

It should be noted that the terms "first," "second," and the like in the description and claims of this application and in the drawings described above are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the application described herein are capable of operation in sequences other than those illustrated or described herein.

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 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 (9)

1. A waste material conveying system, comprising:

a wheel assembly transmission (10) for carrying and transporting the wheel assembly along a predetermined path;

the conveyor belt mechanism (20), the conveyor belt mechanism (20) is positioned below the wheel part transmission device (10), and the conveyor belt mechanism (20) is arranged along the preset path so as to collect and convey the waste materials (100) falling from the wheel parts;

waste material guide part (30), waste material guide part (30) set up wheel part transmission (10) with between conveyer belt mechanism (20), waste material guide part (30) have direction chamber (31) and with accomodate mouth (32) and blanking mouth (33) of direction chamber (31) intercommunication, wherein, accomodate mouth (32) with wheel part transmission (10) set up relatively, blanking mouth (33) with conveyer belt mechanism (20) set up relatively, just the cross-sectional area of direction chamber (31) by accomodate mouth (32) to the direction of blanking mouth (33) reduces gradually.

2. The scrap conveying system according to claim 1, wherein the wheel assembly drive (10) comprises a mounting frame (11) and a plurality of guide rollers (12), the plurality of guide rollers (12) being arranged on the mounting frame (11) at intervals in sequence along the predetermined path, the scrap guide (30) comprising two oppositely arranged inclined guide plates (34), the top ends of the two inclined guide plates (34) being connected to the mounting frame (11), and the bottom ends of the two inclined guide plates (34) forming the blanking opening (33).

3. The scrap conveying system according to claim 2, wherein the width of the receiving opening (32) is greater than or equal to the axial length of the guide roll (12).

4. The scrap conveying system according to claim 2, wherein the conveyor belt mechanism (20) comprises:

the driving device comprises a plurality of driving rollers and a driving part, wherein the plurality of driving rollers are arranged at intervals along the preset path, and the driving part is in driving connection with at least one of the plurality of driving rollers;

the conveying belt (21) is wound on the plurality of driving rollers, and is driven by the plurality of driving rollers to roll.

5. The waste delivery system of claim 4, further comprising a flush mechanism (40), the flush mechanism (40) comprising:

a water storage tank (41);

wash away pipeline (42) and water intaking pump (43), wash away the first end of pipeline (42) with storage water tank (41) intercommunication, the second end of washing away pipeline (42) extends to the top of direction swash plate (34) to form the end of washing away water, water intaking pump (43) set up wash away on the pipeline (42).

6. The waste delivery system of claim 5, wherein the flush mechanism (40) further comprises:

a storage water tank (44), wherein the storage water tank (44) is arranged below the mounting frame (11), and at least one part of the conveying belt mechanism (20) is positioned in the storage water tank (44);

return line (45) and suction pump (46), return line (45) intercommunication take in water tank (44) with storage water tank (41), suction pump (46) set up on return line (45).

7. The waste conveyor system of claim 6, further comprising a water level control mechanism (50), the water level control mechanism (50) comprising:

the water level detection probe (51), the water level detection probe (51) is arranged in the storage water tank (44), and the detection end of the water level detection probe (51) is lower than the bottom end face of the conveying belt (21);

the processor and the alarm (52), wherein the water level detection probe (51) is in signal connection with the alarm (52) through the processor;

when the detection end detects that the water level in the storage water tank (44) reaches a preset water level, the water level detection probe (51) sends a water level signal to the processor, and the processor receives and processes the water level signal and then controls the alarm (52) to work.

8. The scrap conveying system according to claim 5, wherein the conveyor belt (21) comprises a carrier body section (211) and a stopper filter section (212) connected in the width direction thereof, wherein one stopper filter section (212) is connected to each of both width-direction sides of the carrier body section (211), and the stopper filter section (212) extends obliquely outward with respect to the carrier body section (211).

9. The scrap conveying system in accordance with claim 1 further including a scrap receptacle bin (60), the scrap receptacle bin (60) being displaceably disposed at a downstream terminal end of the conveyor belt mechanism (20) along the predetermined path.

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