CN209975315U - Material conveying system - Google Patents

Abstract

The utility model relates to a material conveying system, which comprises a conveying device, wherein the conveying device is provided with an initiating end and a blanking end; the conveying device is arranged in the constant temperature box, the constant temperature box is provided with a discharging hole, and the discharging hole is arranged on one side corresponding to the starting end and used for placing materials; the material cylinder is arranged corresponding to the discharging end of the conveying device and is used for receiving the materials conveyed by the conveying device; and the conveying device and the thermostat are electrically connected with the controller. Firstly, the material is placed in conveyor's initiating terminal by the drain hole, then, transports the material to the unloading end through conveyor, and when the material reached the unloading end, conveyor further carried to in the material cylinder falls under the action of gravity, controller control conveyor's operation, accomplished transportation process, because conveyor locates in the thermostated container, thereby guaranteed that the material can not lead to rotten or can't carry out subsequent processing because of ambient temperature's influence in transportation process, improved the processing quality.

Description

Material conveying system

Technical Field

The utility model relates to a technical field is carried to the material, especially relates to a material conveying system.

Background

The hot-mix epoxy asphalt concrete is widely applied to paving roads and bridges, especially paving orthotropic steel bridge decks, due to the advantages of the hot-mix epoxy asphalt concrete.

The curing reaction speed of the epoxy resin is easily influenced by temperature, the curing reaction speed is obviously accelerated along with the rise of the temperature, the viscosity is correspondingly increased, and the epoxy asphalt mixture is difficult to mix, so that the construction workability of the epoxy asphalt is influenced. In the existing construction process, an epoxy resin material is generally divided into a main component and a curing agent which are respectively stored and maintained under a certain constant temperature condition, and then the epoxy resin material is manually conveyed to a position near a mixing plant and respectively put into a material cylinder. In the process, the temperature of the material is difficult to control, the temperature of the material during feeding cannot be guaranteed, and a constructor is difficult to judge whether the material is poured out in the feeding process, so that the material is wasted, the doping amount of the epoxy resin is small, and the construction quality is affected. In addition, transport epoxy from the storage point to this in-process near mix building near by the constructor with the trailer and often can pass through the construction passageway that has large-scale haulage vehicle to pass through, brought great potential safety hazard for the constructor.

SUMMERY OF THE UTILITY MODEL

Based on this, it is necessary to provide a material conveying system, and this material conveying system can guarantee that the material can not receive ambient temperature's influence in transportation process, and can guarantee that the material is put in the in-process and is put in completely to guarantee to carry and follow-up processing quality.

The technical scheme is as follows:

a material conveying system comprises a conveying device, wherein the conveying device is used for conveying materials and is provided with a starting end and a discharging end; the conveying device is arranged in the constant temperature box, the constant temperature box is provided with a discharging hole, and the discharging hole is arranged on one side corresponding to the starting end and used for placing materials; the material cylinder is arranged corresponding to the discharging end of the conveying device and is used for receiving the materials conveyed by the conveying device; and the conveying device and the thermostat are electrically connected with the controller.

Above-mentioned material conveying system, at first, the material is placed in conveyor's initiating terminal by the drain hole, then, transport the material to the unloading end through conveyor, when the material reaches the unloading end, conveyor further carries, thereby in the material jar is fallen to the material under the action of gravity, controller control conveyor's operation, accomplish transportation, because conveyor locates in the thermostated container, thereby guaranteed that the material can not lead to rotten or can't carry out follow-up processing because of ambient temperature's influence in transportation, improve the processingquality.

The technical solution is further explained below:

in one embodiment, the materials comprise a first material and a second material, the conveying device comprises a first production line and a second production line, the first production line and the second production line are arranged in parallel, the starting end and the blanking end are respectively located at two ends of the first production line or the starting end and the blanking end are respectively located at two ends of the second production line, the first production line is used for conveying the first material, and the second production line is used for conveying the second material.

In one embodiment, the first material is arranged in a first material box, the second material is arranged in a second material box, the first flow line is provided with a first fixer, the first fixer is used for fixing the first material box, and the first flow line conveys the first material box to the discharging end and further conveys the first material box to incline so that the first material in the first material box can be poured out into the material cylinder;

the second assembly line is provided with a second fixer, the second fixer is used for fixing a second material box, and the second assembly line conveys the second material box to the discharging end and further conveys the second material box to incline so that a second material in the second material box is poured into the material cylinder.

In one embodiment, the first material is enclosed in a first bin and the second material is enclosed in a second bin, and the material conveying system further comprises a box opening device, wherein the box opening device comprises a first box opener and a second box opener, the first box opener is used for opening the first bin, and the second box opener is used for opening the second bin.

In one embodiment, the first box opener comprises a first sensor, a first driver and a first opener, the first sensor and the first driver are both electrically connected with the controller, the first sensor is used for detecting whether the first material box reaches a first preset position, the first driver is electrically connected with the first sensor, and the first driver is used for driving the first opener to open the first material box;

the second box opener comprises a second inductor, a second driver and a second opener, the second inductor and the second driver are both electrically connected with the controller, the second inductor is used for detecting whether the second material box reaches a second preset position or not, the second driver is electrically connected with the second inductor, and the second driver is used for driving the second opener to open the second material box.

In one embodiment, the first assembly line comprises a first conveying driver, at least two first conveying wheels and a first conveying belt, the first conveying driver is electrically connected with the controller and used for driving the first conveying wheels to rotate, the first conveying wheels are arranged around the first conveying wheels, the first conveying belt is horizontally arranged, the material conveying system further comprises a first baffle plate, a third sensor and a third driver, the third sensor and the third driver are both electrically connected with the controller, the third sensor is used for sensing whether the discharged first material box reaches a third preset position, the first baffle plate is arranged below the first conveying belt and is arranged on one side of the discharging end, and the third driver is used for driving the first baffle plate to extend out or retract so as to block or release the discharged first material box;

the second assembly line comprises a second conveying driver, a second conveying wheel and a second conveying belt, the second conveying driver is electrically connected with the controller and used for driving the second conveying wheel to rotate, at least two second conveying wheels are arranged, the second conveying belt is wound on the second conveying wheel, the second conveying belt is horizontally arranged, the material conveying system further comprises a second baffle, a fourth inductor and a fourth driver, the fourth inductor and the fourth driver are both electrically connected with the controller, the fourth inductor is used for inducing whether a second material box after discharging reaches a fourth preset position or not, the second baffle is arranged below the second conveying belt and located on one side of a discharging end, and the fourth driver is used for driving the second baffle to stretch out or retract so as to block or release the second material box after discharging.

In one embodiment, the first holders are arranged at intervals, a first weighing device is correspondingly arranged on each first holder, the material conveying system further comprises a first calculator electrically connected with the controller, the first weighing devices are electrically connected with the first calculator, and the first weighing devices are used for measuring the weight of the first material and the first bin before discharging and the weight of the first bin after discharging;

the second fixer is provided with a plurality of second weighing devices, each second weighing device is correspondingly provided with one second calculator electrically connected with the controller, the second weighing devices are electrically connected with the second calculators, and the second weighing devices are used for measuring the weight of a second material and a second material box before discharging and the weight of the second material box after discharging.

In one embodiment, the material conveying system further comprises a fifth sensor and a first coder, the fifth sensor and the first coder are both electrically connected with the controller, the fifth sensor is used for sensing whether the first bin exists at the starting end, and the first coder is arranged on one side of the starting end and is used for coding on the first bin;

the material conveying system further comprises a sixth inductor and a second code printer, the sixth inductor and the second code printer are electrically connected with the controller, the sixth inductor is used for sensing whether a second material box exists at the starting end or not, and the second code printer is arranged on one side of the starting end and used for printing codes on the second material box.

In one embodiment, the incubator comprises a box body, a temperature detector and a temperature regulator, wherein the temperature detector and the temperature regulator are arranged in the box body and are electrically connected with the controller.

In one embodiment, the box body comprises a climbing section and a horizontal section, one end of the horizontal section is in butt joint with the tail end of the climbing section, the starting end is arranged at the other end of the climbing section, and the blanking end is arranged at the other end of the horizontal section.

Drawings

FIG. 1 is an overall structural view of a material conveying system in an embodiment;

FIG. 2 is a side view of one side of the blanking end of the embodiment of FIG. 1;

fig. 3 is a top view of the material delivery system of the embodiment of fig. 1.

Reference is made to the accompanying drawings in which:

100. the constant temperature box, 110, the climbing section, 120, the horizontal segment, 200, the material jar, 310, first assembly line, 311, first delivery wheel, 312, first conveyer belt, 320, the second assembly line, 410, first fixer, 420, the second fixer, 510, first unpacking ware, 520, the second unpacking ware, 610, first baffle, 620, the second baffle, 710, first coder.

Detailed Description

The embodiments of the present invention will be described in detail below with reference to the accompanying drawings:

it will be understood that when an element is referred to herein as being "secured" to another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. In contrast, when an element is referred to as being "directly on" another element, there are no intervening elements present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

In the embodiment shown in fig. 1, a material conveying system is provided, which includes a conveying device for conveying a material, the conveying device having a start end and a discharge end; the conveying device is arranged in the constant temperature box 100, the constant temperature box 100 is provided with a discharging hole, and the discharging hole is arranged on one side corresponding to the starting end and used for placing materials; the material cylinder 200, the material cylinder 200 is arranged corresponding to the blanking end of the conveying device, the material cylinder 200 is used for receiving the material conveyed by the conveying device; and the controller, the conveying device and the incubator 100 are electrically connected with the controller.

The material conveying system comprises a material discharging port, a conveying device, a controller and a constant temperature box 100, wherein a discharging port is arranged at the starting end of the conveying device, the conveying device conveys materials to the discharging end, and when the materials reach the discharging end, the conveying device further conveys the materials, so that the materials fall into a material cylinder 200 under the action of gravity, the controller controls the operation of the conveying device to finish the conveying process, and the conveying device is arranged in the constant temperature box 100, so that the materials cannot go bad or cannot be subjected to subsequent processing due to the influence of the external temperature in the conveying process, and the processing quality is improved; in addition, compare the mode of artifical input, conveyor carries and automatic input, makes the material put in completely, further guarantees subsequent processing quality.

The controller can be a control system or a control cabinet, and can also be realized by directly adopting a control panel, such as a PLC (programmable logic controller) control panel and the like, which mainly plays a role in controlling the whole material conveying system, can be realized by adopting any existing controller and is not described again.

Materials such as epoxy resin are generally transported in a manual transportation mode, and during the manual transportation process, the materials need to pass through a construction channel through which a large-sized transport vehicle passes, so that the safety of constructors is threatened; meanwhile, in the process of manual transportation, due to open-air transportation, the materials are easily influenced by the external environment temperature, and the production quality cannot be ensured; in addition, manual transportation and dumping of materials can cause damage to people due to corrosion, odor and the like of the materials.

As shown in fig. 2 and fig. 3, the conveying device provided in this embodiment is disposed in the incubator 100, so that the incubator 100 ensures the ambient temperature in the conveying process, and the ambient temperature in the conveying process is prevented from affecting the performance of the material; meanwhile, full-automatic conveying and dumping are realized, and damage to staff is also avoided.

As shown in fig. 3, the materials include a first material and a second material, the conveying device includes a first flow line 310 and a second flow line 320, the first flow line 310 and the second flow line 320 are arranged in parallel, the start end and the blanking end are respectively located at two ends of the first flow line 310, or the start end and the blanking end are respectively located at two ends of the second flow line 320, the first flow line 310 is used for conveying the first material, and the second flow line 320 is used for conveying the second material.

The production of epoxy asphalt needs to be performed through a stirring process, in this embodiment, the first material may be epoxy resin, the second material may be curing agent, so that the epoxy resin is conveyed through the first flow line 310, respectively, and the curing agent is conveyed through the second flow line 320, when conveyed to the discharging end, the epoxy resin and the curing agent are discharged into the material cylinder 200 together, so as to prepare for a subsequent mixing operation, of course, two material cylinders 200 may be provided, corresponding to the first flow line 310 and the second flow line 320, respectively, so that the first material is discharged into one material cylinder 200, the second material is discharged into the other material cylinder 200, and then the two material cylinders 200 are conveyed to a mixing plant for a subsequent mixing operation through the subsequent operation, for example, the first material is discharged into one material cylinder 200, the second material is discharged into the other material cylinder 200, the first material and the second material are pumped into the mixing plant through the pumping system in the material cylinders 200 to perform a mixing operation, and will not be described in detail.

Of course, during actual production, one or more flow lines can be set according to the specific conditions of material conveying and the types of materials to be mixed so as to meet the actual needs, and further description is omitted.

As shown in fig. 3, the first material is loaded in the first material box, the second material is loaded in the second material box, the first flow line 310 is provided with a first fixer 410, the first fixer 410 is used for fixing the first material box, and the first flow line 310 conveys the first material box to the discharging end and further conveys the first material box to incline so that the first material in the first material box is poured out into the material cylinder 200.

The first bin and the second bin can be of a bucket structure, and can also be of other structures capable of containing materials.

A first holder 410 is provided on the first flow line 310, and functions to fix the first bin to the first flow line 310, as shown in fig. 1, when the first flow line 310 is in conveyance, the first bin is moved to the right by the conveyance of the first flow line 310, and when the discharging end is reached, the first flow line 310 is further conveyed, so that the first bin is inclined and gradually inverted, thereby pouring the first material in the first bin into the material cylinder 200.

The first fixer 410 may be a fixing slot, and as long as a structure that can fix the first material box and can be subsequently removed is achieved, the description is omitted.

As shown in fig. 3, the second flow line 320 is provided with a second holder 420, the second holder 420 is used for holding a second material box, and the second flow line 320 conveys the second material box to the discharging end and further conveys the second material box to incline so that the second material in the second material box is poured out to the material cylinder 200.

The arrangement of the second holder 420 is the same as that of the first holder 410, and will not be described again.

As shown in fig. 2, the first material is enclosed in the first bin, the second material is enclosed in the second bin, and the material conveying system further comprises a box opening device, wherein the box opening device comprises a first box opener 510 and a second box opener 520, the first box opener 510 is used for opening the first bin, and the second box opener 520 is used for opening the second bin.

Since the first material is packed in the first bin, when the first bin is transported to the discharging end, the first bin needs to be opened to pour out the first material inside, and therefore, the first box opener 510 is provided to enable the first box opener 510 to open or scratch open the first bin. Accordingly, the first box opener 510 may be any conventional structure capable of opening the first box, and will not be described in detail.

Specifically, as shown in fig. 1, the first box opener 510 may include a first sensor, a first driver, and a first opener, where the first sensor and the first driver are both electrically connected to the controller, the first sensor is configured to detect whether the first material box reaches a first preset position, the first driver is electrically connected to the first sensor, and the first driver is configured to drive the first opener to open the first material box.

The first sensor firstly senses whether the first material box reaches a designated position or not, and the position is close to a material feeding end, and when the first material box reaches the designated position, the first sensor sends a signal to the controller to enable the controller to control the first driver to drive the first cutter to extend out so as to scratch the first material box.

As shown in fig. 2, the second box opener 520 includes a second sensor, a second driver and a second opener, the second sensor and the second driver are both electrically connected to the controller, the second sensor is used to detect whether the second material box reaches a second preset position, the second driver is electrically connected to the second sensor, and the second driver is used to drive the second opener to open the second material box.

The second box opener 520 is similar to the first box opener 510, and is not described in detail.

As shown in fig. 1, the first assembly line 310 includes a first conveying driver, a first conveying wheel 311 and a first conveying belt 312, the first conveying driver is electrically connected to the controller and is used for driving the first conveying wheel 311 to rotate, at least two first conveying wheels 311 are provided, the first conveying belt 312 is wound on the first conveying wheel 311, the first conveying belt 312 is horizontally disposed, the material conveying system further includes a first baffle 610, a third sensor and a third driver, the third sensor and the third driver are both electrically connected to the controller, the third sensor is used for sensing whether the discharged first material box reaches a third preset position, the first baffle 610 is disposed below the first conveying belt 312 and is disposed on one side of the discharging end, and the third driver is used for driving the first baffle 610 to extend or retract so as to block or release the discharged first material box.

The first conveying driver drives the first conveying wheel 311 to rotate under the control of the controller, the first conveying belt 312 conveys first materials under the driving or tensioning or guiding action of the first conveying wheel 311, when the third sensor on the first baffle 610 senses that the first material box reaches the dumping driving position, the third sensor sends a signal to the controller, the controller controls the third driver to drive the first baffle 610 to stretch out, and controls the first conveying driver to stop the first conveying wheel 311 from rotating, so that the further conveying of the first flow line 310 is stopped, at the moment, the first material box is blocked by the first baffle 610 and cannot be further moved, and therefore the first material box stays for a preset time, so that the first materials in the first material box are dumped into the material cylinder 200.

Similarly, the second assembly line 320 includes a second conveying driver, a second conveying wheel and a second conveying belt, the second conveying driver is electrically connected to the controller and is used for driving the second conveying wheel to rotate, the second conveying wheel is provided with at least two conveying belts, the second conveying belt is wound on the second conveying wheel, the second conveying belt is horizontally arranged, the material conveying system further includes a second baffle 620, a fourth inductor and a fourth driver, the fourth inductor and the fourth driver are both electrically connected to the controller, the fourth inductor is used for inducing whether a second material box after discharging reaches a fourth preset position, the second baffle 620 is arranged below the second conveying belt and is arranged on one side of the discharging end, and the fourth driver is used for driving the second baffle 620 to extend or retract so as to block or release the second material box after discharging.

As shown in fig. 1, the first holders 410 are arranged at intervals, each first holder 410 is correspondingly provided with a first weighing device, the material conveying system further comprises a first calculator electrically connected with the controller, the first weighing devices are electrically connected with the first calculator, and the first weighing devices are used for measuring the weight of the first material and the first material box before discharging and the weight of the first material box after discharging.

The first fixing device 410 is provided with a plurality of first material boxes and a plurality of first materials in the first material boxes, so that the technical effect of conveying the first material boxes and the first materials in the first material boxes simultaneously is achieved, and the production efficiency and the utilization rate of the first assembly line 310 are improved.

In the conveying process, the first weigher firstly weighs the unopened first material box and the weight of the first material in the unopened first material box, and after the first material box pours the first material, the first weigher further weighs the weight of the first material box after the first material is poured, and as the first material box possibly has residues, the weighed weight of the first material box at the moment is possibly larger than the weight of the first material box, so that the following formula is provided:

|((w₁-w₂)-w_{sign board})|/w_{Sign board}≤d₁

w₁The first weighing device measures the integral weight w of the first material before the first material is poured and the first material box₂Is the weight of the first bin after pouring the first material, w_{Sign board}Is a nominal scalar on the first bin, d₁And specifically setting according to actual conditions to control the residual quantity of the materials in the first material box after the first materials are poured.

When the first weighing device weighs two w₁And w₂Afterwards, this data automatic transmission to first calculator, first calculator confirms through the company that whether will accomplish to empty after calculating the comparison, if accomplish to empty, send the signal to the controller, make the controller control third driver drive first baffle 610 and retract, and control first driver and make first delivery wheel 311 resume rotating, first assembly line 310 resumes the operation, thereby carry out the transport and follow-up of next first workbin and empty, the first workbin that finishes of empting moves towards the left side in the below of first assembly line 310, and finally move to preset position and take off by the manual work, the circulation is reciprocal and is gone on, no longer repeated here.

It should be noted that, when the first bin is conveyed on the upper portion of the first flow line 310, the first bin generates gravity action on the first weighing device due to gravity action, so that the first weighing device weighs; when the first bin is tilted below the first flow line 310, the weight of the first bin is also downward, and the first weighing device is on the upper side, and the first bin is weighed by the first weighing device, so that the first weighing device can be selected in principle to meet the weighing requirements of the two cases, and is not limited to any prior art to meet the actual requirements, and the detailed description is omitted.

This kind of mode of empting remaining residual behind first material in the first workbin of control compares the artifical mode of empting unable accurate control residual, and not only efficiency is higher, and control accuracy is also higher moreover, and then when improving production efficiency, has also improved material utilization ratio, causes the waste when avoiding the manual work to empty.

In addition, it should be noted that the first retainers 410 are disposed at intervals to ensure that when the first material is not poured into the first material box, the next first material box is not opened by the first box opener 510; in addition, the size of the first holder 410 should also match the size of the first bin.

As shown in fig. 3, the second holders 420 are arranged at intervals, each second holder 420 is correspondingly provided with a second weighing device, the material conveying system further includes a second calculator electrically connected to the controller, the second weighing devices are electrically connected to the second calculator, and the second weighing devices are used for measuring the weight of the second material and the second material box before discharging and the weight of the second material box after discharging. The arrangement of the second weighing device and the second calculator is the same, and the description is omitted here.

Of course, it should be noted that the first calculator and the second calculator may be an entity calculation module, a calculation module integrated on a control board of the controller, or a data analysis module, and are not described again.

As shown in fig. 1, the material conveying system further includes a fifth sensor and a first coder 710, the fifth sensor and the first coder 710 are both electrically connected to the controller, the fifth sensor is used for sensing whether the first bin exists at the start end, and the first coder 710 is disposed on one side of the start end and is used for coding on the first bin.

The starting end of the oven 100 is provided with a discharge opening for placing a first bin or a second bin, a fifth sensor (which may be a laser sensing system) is arranged at a corresponding position, the fifth sensor is used for detecting whether a new first bin is placed, after the first bin is placed, the fifth sensor sends a signal to the first coder 710 (or the fifth sensor sends a signal to the controller, so that the controller sends a signal to the first coder 710 again), the first coder 710 automatically codes and codes on the first bin, so that each first bin to be conveyed can be tracked, and the production dynamics of the first bin can be tracked and controlled in real time.

Certainly, material conveying system still includes sixth inductor and second coder, and sixth inductor and second coder all with controller electric connection, and the sixth inductor is used for the response initiating terminal to have the second workbin, and the second coder is established and is located one side of initiating terminal and be used for beating the sign indicating number on the second workbin.

In one embodiment, incubator 100 includes a housing, a temperature detector and a temperature regulator, both disposed within the housing, both electrically connected to a controller.

Temperature detector is used for the temperature in the detection box, and temperature regulator is used for the temperature in the regulating box, when temperature detector detected the temperature in the box and did not reach predetermined required temperature, then send signal for the controller, made the temperature in controller control temperature regulator regulating box, made it accord with predetermined temperature requirement, and temperature regulator and temperature detector all can adopt arbitrary current technique, and it is no longer repeated here.

As shown in FIG. 1, the box body comprises a climbing section 110 and a horizontal section 120, one end of the horizontal section 120 is in butt joint with the tail end of the climbing section 110, the starting end is arranged at the other end of the climbing section 110, and the blanking end is arranged at the other end of the horizontal section 120.

In fig. 1, the material enters from the left side of the climbing section 110, and is dumped from the right end of the horizontal section 120, and then enters into the material cylinder 200, because the horizontal section 120 is higher than the climbing section 110, a channel can be formed below the horizontal section 120, so that the staff or the transportation equipment in the plant can pass through the channel, and the details are not repeated.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. A material transfer system, comprising:

the conveying device is used for conveying materials and is provided with a starting end and a discharging end;

the conveying device is arranged in the constant temperature box, the constant temperature box is provided with a discharge hole, and the discharge hole is arranged on one side corresponding to the starting end and used for placing the materials;

the material cylinder is arranged corresponding to the discharging end of the conveying device and is used for receiving the material conveyed by the conveying device; and

and the conveying device and the constant temperature box are electrically connected with the controller.

2. The material conveying system according to claim 1, wherein the material comprises a first material and a second material, and the conveying device comprises a first production line and a second production line, the first production line and the second production line are arranged in parallel, the starting end and the blanking end are respectively located at two ends of the first production line or the starting end and the blanking end are respectively located at two ends of the second production line, the first production line is used for conveying the first material, and the second production line is used for conveying the second material.

3. The material conveying system according to claim 2, wherein the first material is loaded into a first bin and the second material is loaded into a second bin, and wherein the first flow line is provided with a first fixture for fixing the first bin, and the first flow line conveys the first bin to the discharge end and further conveys the first bin to tilt so that the first material in the first bin is poured into the vat;

the second assembly line is provided with a second fixer, the second fixer is used for fixing the second material box, and the second assembly line conveys the second material box to the discharging end and further conveys the second material box to incline so that the second material in the second material box is poured out to the material cylinder.

4. The material transfer system of claim 3, wherein the first material is enclosed within the first bin and the second material is enclosed within the second bin, and further comprising a bin opener, wherein the bin opener comprises a first bin opener configured to open the first bin and a second bin opener configured to open the second bin.

5. The material conveying system according to claim 4, wherein the first box opener comprises a first sensor, a first driver and a first opener, the first sensor and the first driver are both electrically connected with the controller, the first sensor is used for detecting whether the first material box reaches a first preset position, the first driver is electrically connected with the first sensor, and the first driver is used for driving the first opener to open the first material box;

the second box opener includes second inductor, second driver and second and opens the sword, the second inductor with the second driver all with controller electric connection, the second inductor is used for detecting whether the second workbin reachs the second and predetermines the position, the second driver with second inductor electric connection, the second driver is used for the drive the second is opened the sword and is opened the second workbin.

6. The material conveying system according to claim 3, wherein the first assembly line comprises a first conveying driver, a first conveying wheel and a first conveying belt, the first conveying driver is electrically connected with the controller and used for driving the first conveying wheel to rotate, at least two first conveying wheels are arranged, the first conveying belt is wound on the first conveying wheel, the first conveying belt is horizontally arranged, the material conveying system further comprises a first baffle, a third sensor and a third driver, the third sensor and the third driver are both electrically connected with the controller, the third sensor is used for sensing whether the first material box reaches a third preset position after discharging, the first baffle is arranged below the first conveying belt and is arranged on one side of the discharging end, and the third driver is used for driving the first baffle to extend or retract, The first material box after discharging is blocked or released;

the second assembly line comprises a second conveying driver, a second conveying wheel and a second conveying belt, the second conveying driver is electrically connected with the controller and is used for driving the second conveying wheel to rotate, the number of the second conveying wheels is at least two, the second conveying belt is wound on the second conveying wheels, the second conveying belt is horizontally arranged, the material conveying system also comprises a second baffle, a fourth inductor and a fourth driver, the fourth inductor and the fourth driver are both electrically connected with the controller, the fourth inductor is used for inducing whether the discharged second material box reaches a fourth preset position or not, the second baffle is arranged below the second conveying belt and at one side of the blanking end, the fourth driver is used for driving the second baffle to extend or retract so as to block or release the discharged second bin.

7. The material conveying system according to claim 6, wherein the first holders are arranged at intervals, each first holder is correspondingly provided with a first weighing device, the material conveying system further comprises a first calculator electrically connected with the controller, the first weighing devices are electrically connected with the first calculator, and the first weighing devices are used for measuring the weight of the first material and the first bin before discharging and the weight of the first bin after discharging;

the second fixing devices are arranged at intervals, each second fixing device is correspondingly provided with a second weighing device, the material conveying system further comprises a second calculator electrically connected with the controller, the second weighing devices are electrically connected with the second calculator, and the second weighing devices are used for measuring the weight of the second material and the second material box before discharging and the weight of the second material box after discharging.

8. The material conveying system according to claim 3, further comprising a fifth sensor and a first coder, wherein the fifth sensor and the first coder are both electrically connected to the controller, the fifth sensor is used for sensing whether the first bin is present at the starting end, and the first coder is arranged on one side of the starting end and is used for coding on the first bin;

the material conveying system further comprises a sixth inductor and a second code printer, the sixth inductor and the second code printer are both electrically connected with the controller, the sixth inductor is used for sensing whether the starting end exists or not, the second code printer is arranged on one side of the starting end and is used for printing codes on the second material box.

9. The material conveying system according to any one of claims 1 to 8, wherein the incubator comprises a box body, a temperature detector and a temperature regulator, the temperature detector and the temperature regulator are both arranged in the box body, and the temperature detector and the temperature regulator are both electrically connected with the controller.

10. The material conveying system of claim 9, wherein the box body comprises a climbing section and a horizontal section, one end of the horizontal section is in butt joint with the tail end of the climbing section, the starting end is arranged at the other end of the climbing section, and the blanking end is arranged at the other end of the horizontal section.

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