阅读说明：本技术 供卸料装置 (Material supplying and discharging device ) 是由 五间岩和彦 尹春梅 闫玉涛 杨柳 田良 于 2020-05-25 设计创作，主要内容包括：本发明公开了一种供卸料装置,包括送料装置和推料装置,送料装置包括输送带组件及安装在输送带组件的输送带上的工件放置组件,工件放置组件为多个,多个工件放置组件沿输送带运动方向依次布置,工件放置组件上设有与工件一一对应的料槽。推料装置用于推送料槽内工件。本申请中送料装置的料槽设置对应工件,当需要输送工件时,将需要输出工件对应的工件放置组件推送至推料装置位置,接着通过推料装置将工件推出。在本申请提供的供卸料装置中,通过设置送料装置,且在送料装置上设置于工件一一对应的工件放置组件,使得每次推送装置仅推送位置料槽内的工件,避免对无需推送的工件产生干扰,本申请提供的供卸料装置有效地提高了工件移动的安全性。(The invention discloses a material supplying and discharging device which comprises a feeding device and a material pushing device, wherein the feeding device comprises a conveyor belt assembly and a plurality of workpiece placing assemblies arranged on a conveyor belt of the conveyor belt assembly, the workpiece placing assemblies are sequentially arranged along the movement direction of the conveyor belt, and material troughs corresponding to workpieces one by one are arranged on the workpiece placing assemblies. The material pushing device is used for pushing the workpiece in the material groove. The material groove of the feeding device corresponds to the workpiece, when the workpiece needs to be conveyed, the workpiece placing assembly corresponding to the workpiece needing to be output is pushed to the position of the material pushing device, and then the workpiece is pushed out through the material pushing device. In the supply discharge apparatus that this application provided, through setting up material feeding unit, and set up on material feeding unit in the work piece of work piece one-to-one places the subassembly for at every turn, pusher only pushes away the work piece in the position silo, avoids producing the interference to the work piece that need not the propelling movement, and the supply discharge apparatus that this application provided has improved the security that the work piece removed effectively.)

1. A material supply and discharge apparatus, comprising:

the feeding device comprises a conveyor belt assembly (3) and a plurality of workpiece placing assemblies (4) arranged on a conveyor belt of the conveyor belt assembly (3), the workpiece placing assemblies (4) are sequentially arranged along the movement direction of the conveyor belt, and material troughs (4-1) corresponding to the workpieces one by one are arranged on the workpiece placing assemblies (4);

and the pushing device (5) is used for pushing the workpieces in the material groove (4-1).

2. The material feeding and discharging device according to claim 1, wherein the conveyor belt assembly (3) further comprises two timing belts (3-2) and a feeding driving device (3-1) for driving the timing belts (3-2) to move, the two timing belts (3-2) are arranged at two opposite ends of the workpiece placing assembly (4), and the workpiece placing assembly (4) is mounted on the timing belts (3-2).

3. The material supply and discharge device according to claim 2, wherein the conveyor belt assembly (3) is used for driving the workpiece placement assembly (4) to lift and lower;

the workpiece placing assembly (4) comprises a trough (4-1), two connecting plates (4-3) and two bearings (4-2), the two ends of the trough (4-1) are connected with the two connecting plates (4-3), the two connecting plates (4-3) are in one-to-one correspondence with the two synchronous toothed belts (3-2) through the bearings (4-2), and the trough (4-1) is a U-shaped groove with an upward opening.

4. The material feeding and discharging device according to claim 3, further comprising a clamping device (6) for clamping the trough (4-1), wherein the clamping device (6) comprises a clamping claw (6-2) and a clamping lifting device (6-1) for driving the clamping claw (6-2) to lift, and the clamping claw (6-2) is used for clamping and fixing the top trough (4-1) to enable the opening direction of the trough (4-1) to be positive.

5. The material feeding and discharging device according to claim 4, characterized in that the clamping jaw (6-2) is of a flexible sheet metal structure, the clamping jaw (6-2) is of a U-shaped groove structure with a narrow middle part and wide upper and lower sides in a natural state, the clamping jaw (6-2) is opened upwards, and the bottom end of the trough (4-1) is provided with a clamping piece (4-4) matched with the clamping jaw (6-2).

6. The material feeding and discharging device according to claim 1, wherein the material pushing device (5) comprises a material pushing plate (5-1) for pushing the workpiece, a horizontal pushing device (5-3) for driving the material pushing plate (5-1) to move horizontally, and a lifting device (5-2) for driving the material pushing plate (5-1) to lift.

7. The material feeding and discharging device according to claim 6, wherein the horizontal pushing device (5-3) comprises a supporting plate, a guide rail and a horizontal driving device for pushing the lifting device (5-2) to move along the guide rail, the material pushing plate (5-1) is installed at the lifting end of the lifting device (5-2), and the guide rail is one or at least two arranged in parallel.

8. The material supplying and discharging device according to claim 1, further comprising a material warehouse support frame (2), wherein the material warehouse support frame (2) comprises frame bodies (2-3) and material pushing brackets (2-2) installed on the frame bodies (2-3), and the material feeding device is installed on the frame bodies (2-3).

9. The material supplying and discharging device according to claim 8, further comprising a supporting body (1), wherein the supporting body (1) comprises a supporting bottom plate (1-1) and a top end supporting frame (1-2) installed on the supporting bottom plate (1-1), the material pushing device (5) is installed on the top end supporting frame (1-2), the material warehouse supporting frame (2) is installed on the supporting bottom plate (1-1), and at least two material feeding devices are arranged along the length direction of the material pushing frame (2-2);

one of the bottom ends of the supporting bottom plate (1-1) and the material warehouse supporting frame (2) is provided with a sliding groove, the other bottom end of the supporting bottom plate is provided with a sliding rail (2-1) which slides along the sliding groove, and the material warehouse supporting frame (2) can move along the arrangement direction of the feeding devices.

10. The material supply and discharge device according to claim 9, characterized by further comprising a material pushing driving device for pushing the magazine support frame (2) to move.

11. The material supplying and discharging device of claim 10, further comprising a control device for controlling the movement of the feeding device, the material pushing device and the material pushing driving device;

after the last feeding device finishes feeding, the control device controls the material pushing driving device to drive the next feeding device to be pushed to move towards the direction close to the material pushing device.

12. The material feeding and discharging device according to claim 11, further comprising a photoelectric sensor (7) for detecting whether the material is in the trough (4-1), wherein the polished rod sensor (7) is connected with the control device, and when the photoelectric sensor (7) does not detect the workpiece in the trough (4-1), the feeding device finishes feeding.

Technical Field

The invention relates to the technical field of workpiece moving tools, in particular to a material supplying and discharging device.

Background

When the workpieces are pushed and transported, the workpieces are usually stacked at a preset position, wherein the workpieces are sequentially attached and stacked from top to bottom, and when the workpieces need to be conveyed singly, the workpiece at the topmost end is firstly pushed out by the material pushing device and then is sequentially pushed downwards to push the materials.

However, due to the fact that adjacent workpieces are stacked up and down and friction force exists between the workpieces, when the pushing device pushes the upper-end workpiece, the pushed workpiece may not move along a preset path, and the bottom-end workpiece which is not pushed may be driven to move, and even the stacked workpieces fall off, so that the moving safety of the workpieces is low.

Therefore, how to improve the moving safety of the workpiece is a technical problem to be solved urgently by those skilled in the art.

Disclosure of Invention

The invention aims to provide a material supplying and discharging device to improve the moving safety of a workpiece.

In order to achieve the above object, the present invention provides a material supplying and discharging device, comprising:

the feeding device comprises a conveyor belt assembly and a plurality of workpiece placing assemblies arranged on a conveyor belt of the conveyor belt assembly, the workpiece placing assemblies are sequentially arranged along the movement direction of the conveyor belt, and the workpiece placing assemblies are provided with material grooves corresponding to workpieces one by one;

and the material pushing device is used for pushing the workpieces in the material groove.

Preferably, the conveyor belt assembly further comprises two synchronous toothed belts and a feeding driving device for driving the synchronous toothed belts to move, the two synchronous toothed belts are arranged at two opposite ends of the workpiece placing assembly, and the workpiece placing assembly is mounted on the synchronous toothed belts.

Preferably, the conveyor belt assembly is used for driving the workpiece placing assembly to lift and lower;

the workpiece placing assembly comprises a trough, two connecting plates and two bearings, the two ends of the trough are connected with the two connecting plates, the two connecting plates are in one-to-one correspondence with the two synchronous toothed belts through the bearings, and the trough is a U-shaped groove with an upward opening.

Preferably, the material storage device further comprises a clamping device for clamping the material storage tank, the clamping device comprises a clamping claw and a clamping lifting device for driving the clamping claw to lift, and the clamping claw is used for clamping and fixing the top end of the material storage tank to enable the opening direction of the material storage tank to be positive upward.

Preferably, the pushing device comprises a pushing plate for pushing the workpiece, a horizontal pushing device for driving the pushing plate to move horizontally, and a lifting device for driving the pushing plate to lift.

Preferably, the horizontal pushing device comprises a supporting plate, a guide rail and a horizontal driving device for pushing the lifting device to move along the guide rail, the material pushing plate is mounted at the lifting end of the lifting device, and the number of the guide rails is one or at least two in parallel arrangement.

Preferably, still include the feed bin support frame, the feed bin support frame includes the support body and installs push away the material support on the support body, material feeding unit installs on the support body.

Preferably, the material warehouse is characterized by further comprising a supporting main body, the supporting main body comprises a supporting bottom plate and a top end supporting frame arranged on the supporting bottom plate, the material pushing device is arranged on the top end supporting frame, the material warehouse supporting frame is arranged on the supporting bottom plate, and at least two feeding devices are arranged along the length direction of the material pushing support;

one of the bottom ends of the supporting bottom plate and the material warehouse supporting frame is provided with a sliding groove, the other bottom end of the supporting bottom plate and the bottom end of the material warehouse supporting frame is provided with a sliding rail sliding along the sliding groove, and the material warehouse supporting frame can move along the arrangement direction of the feeding devices.

Preferably, the material pushing driving device is used for pushing the material warehouse support frame to move.

Preferably, the device also comprises a control device for controlling the feeding device, the material pushing device and the material pushing driving device to move;

after the last feeding device finishes feeding, the control device controls the material pushing driving device to drive the next feeding device to be pushed to move towards the direction close to the material pushing device.

In the technical scheme, the material supplying and discharging device comprises a feeding device and a material pushing device, wherein the feeding device comprises a conveyor belt assembly and a plurality of workpiece placing assemblies arranged on a conveyor belt of the conveyor belt assembly, the workpiece placing assemblies are sequentially arranged along the movement direction of the conveyor belt, and the workpiece placing assemblies are provided with material grooves corresponding to the workpieces one by one. The material pushing device is used for pushing the workpiece in the material groove. The material groove of the feeding device corresponds to the workpiece, when the workpiece needs to be conveyed, the workpiece placing assembly corresponding to the workpiece needing to be output is pushed to the position of the material pushing device, and then the workpiece is pushed out through the material pushing device.

According to the above description, in the material supplying and discharging device provided by the application, the feeding device is arranged, and the workpiece placing assemblies which are in one-to-one correspondence to the workpieces are arranged on the feeding device, so that the pushing device only pushes the workpieces in the material grooves at the positions at each time, and the workpieces which do not need to be pushed are prevented from being interfered, and therefore the material supplying and discharging device provided by the application effectively improves the safety of workpiece movement.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a material supplying and discharging device provided in an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of a material pushing apparatus according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a feeding device according to an embodiment of the present invention;

FIG. 4 is a schematic diagram of a workpiece placement assembly according to an embodiment of the present invention;

fig. 5 is a schematic structural view of a support frame for a storage according to an embodiment of the present invention;

FIG. 6 is a schematic structural diagram of a support body according to an embodiment of the present invention;

FIG. 7 is a block diagram of a clamping device and workpiece placement assembly according to an embodiment of the present invention;

FIG. 8 is an enlarged view of portion A of FIG. 7;

fig. 9 is a schematic structural diagram of a photosensor provided in an embodiment of the present invention.

Wherein in FIGS. 1-9:

1. a support body; 1-1, supporting a bottom plate; 1-2, a top end support frame; 1-3, footing;

2. a stock bin supporting frame; 2-1, a slide rail; 2-2, pushing a material bracket; 2-3, a frame body;

3. a conveyor belt assembly; 3-1, a feeding driving device; 3-2, synchronous toothed belts;

4. a workpiece placement assembly; 4-1, a trough; 4-2, a bearing; 4-3, connecting plates; 4-4, a clamping piece;

5. a material pushing device; 5-1, a material pushing plate; 5-2, a lifting device; 5-3, a horizontal pushing device;

6. a clamping device; 6-1, clamping a lifting device; 6-2, clamping jaws; 6-3 parts of guide shaft, 6-4 parts of limiting plate;

7. a photoelectric sensor.

Detailed Description

The core of the invention is to provide a material supplying and discharging device to improve the moving safety of workpieces.

In order to make the technical solutions of the present invention better understood by those skilled in the art, the present invention will be further described in detail with reference to the accompanying drawings and embodiments.

Please refer to fig. 1 to fig. 9.

In a specific implementation manner, the material supplying and discharging device provided by the specific embodiment of the invention comprises a feeding device and a material pushing device 5, the feeding device comprises a conveying belt assembly 3 and a plurality of workpiece placing assemblies 4 arranged on the conveying belt of the conveying belt assembly 3, the plurality of workpiece placing assemblies 4 are sequentially arranged along the moving direction of the conveying belt, and the workpiece placing assemblies 4 are provided with material troughs 4-1 which are in one-to-one correspondence with the workpieces. Specifically, the plurality of workpiece placing assemblies 4 may be arranged on the conveyor belt in order in the horizontal direction.

The pushing device 5 is used for pushing the workpiece in the material groove 4-1. Specifically, the pushing device 5 may be a baffle structure driven by a telescopic rod to move.

The feeding device is characterized in that a workpiece is arranged in a trough 4-1 of the feeding device, when the workpiece needs to be conveyed, a workpiece placing component 4 corresponding to the workpiece needing to be output is pushed to the position of a material pushing device 5, and then the workpiece is pushed out through the material pushing device 5.

As can be seen from the above description, in the material supplying and discharging device provided in the embodiment of the present application, by providing the feeding device and setting the workpiece placing assemblies 4 on the feeding device in one-to-one correspondence to the workpieces, the pushing device only pushes the workpieces in the position bin 4-1 at each time, and interference on the workpieces which do not need to be pushed is avoided, so that the material supplying and discharging device provided in the present application effectively improves the safety of workpiece movement.

In the application, the workpieces are in one-to-one correspondence with the material grooves 4-1, namely, the workpiece is arranged to be placed independently, the deformation and the surface shape of the workpiece do not influence the conveying of the workpiece any more, and meanwhile, the product quality problem caused by friction between the workpiece and the workpiece is avoided.

By corresponding the material tanks 4-1 to the workpieces one by one, the situation that workpieces of various types, various shapes and various sizes are overlapped for supply and are missed to be sent can be avoided, and the possibility of accurately supplying the workpieces to the secondary position setting is realized.

In a specific embodiment, the conveying belt assembly 3 further comprises two synchronous toothed belts 3-2 and a feeding driving device 3-1 for driving the synchronous toothed belts 3-2 to move, the two synchronous toothed belts 3-2 are arranged at two opposite ends of the workpiece placing assembly 4, and the workpiece placing assembly 4 is mounted on the synchronous toothed belts 3-2.

Specifically, the conveying belt assembly 3 is used for driving the workpiece placing assembly 4 to ascend and descend.

The workpiece placing assembly 4 comprises a trough 4-1, two connecting plates 4-3 and two bearings 4-2, wherein the two connecting plates 4-3 are arranged, the two ends of the trough 4-1 are connected with the two connecting plates 4-3, the two connecting plates 4-3 are in one-to-one correspondence with the two synchronous toothed belts 3-2 through the bearings 4-2, and the trough 4-1 is a U-shaped groove with an upward opening. Can prevent the workpiece from sliding and being damaged in the lifting process. Specifically, the trough 4-1 can be formed by bending a plate, a U-shaped aluminum trough can be directly purchased, other materials can be adopted, and the specific size of the U-shaped trough is determined according to actual needs. The connecting plate 4-3 is fixedly connected with the trough 4-1, and particularly, the end part of the trough 4-1 can be welded with the connecting plate 4-3 or fastened through screws. Specifically, the gravity center of the structure formed by the trough 4-1 and the connecting plate 4-3 and the axis of the bearing 4-2 can be located on the same vertical plane as required, and the workpiece placing assembly 4 and the dead weight of the workpiece are rotated by the bearing 4-2, so that the opening direction of the trough 4-1 is always kept upward, and the automatic rotation function is realized.

Specifically, as shown in fig. 1 and 3, the synchronous cog belt 3-2 drives the workpiece to rotate up and down. The feeding driving device 3-1 supplies materials in a workpiece rotating mode, the number of the feeding driving devices 3-1 can be two, the synchronous toothed belts 3-2 correspond to the feeding driving devices 3-1 in a one-to-one correspondence mode, the feeding driving device 3-1 comprises a driving wheel and a driven wheel, and the feeding driving device 3-1 can drive the driving wheel to rotate through a stepping motor. Because the workpieces are longitudinally arranged integrally, the miniaturization characteristic of the feeding and discharging device to the maximum extent is realized. Through the arrangement of the two synchronous toothed belts 3-2, the feeding and discharging device has the characteristic of preventing the workpiece from being inclined or sliding off in the rotating process due to the fact that the feeding driving devices 3-1 on the front side and the rear side are mechanically synchronous. Of course, the feeding driving device 3-1 can perform a mechanical synchronous operation function through one motor, can accurately convey workpieces one by one to the highest output position, and realize safe, convenient and orderly conveying.

Specifically, the material pushing device 5 can be replaced by other material pushing devices 5 according to the type of the workpiece and the requirement of the supply condition (for example, changing speed and the like).

Specifically, the trough 4-1 can supply a workpiece which is easily deformed in the longitudinal direction or has an irregular cross section, and preferably can continuously supply a special workpiece having a maximum width of 25mm, a maximum width of 2500mm, and a maximum thickness of 40 mm. In the actual use process, the device can be designed into different lengths according to the requirements of the material supplying and discharging device, and can also be stopped at any position in the pushing range, so that the device has the characteristic of accurate conveying function.

Specifically, the trough 4-1 is a trough body with openings at the left end and the right end, the connecting plate 4-3 is an L-shaped plate, the top end of the L-shaped plate is connected with the bearing 4-2, and the bottom end of the L-shaped plate is connected with the trough 4-1.

In a specific embodiment, the material supplying and discharging device further comprises a clamping device 6 for clamping the material groove 4-1, the clamping device 6 comprises a clamping claw 6-2 and a clamping lifting device 6-1 for driving the clamping claw 6-3 to lift, and the clamping claw 6-2 is used for clamping and fixing the material groove 4-1 at the top end, so that the opening direction of the material groove 4-1 is positive upward. In order to facilitate the clamping lifting device 6-1 to lift along a preset path, the clamping lifting device 6 further comprises a guide shaft 6-3 for guiding the clamping lifting device 6-3, the number of the guide shafts 6-3 is at least one, and specifically, the number of the guide shafts 6-3 can be two, three, and the like.

In order to improve the clamping stability of the trough 4-1, preferably, the clamping devices 6 are multiple, the multiple clamping devices 6 are sequentially arranged along the length direction of the trough 4-1, and preferably, the adjacent clamping devices 6 are arranged at equal intervals.

In order to limit the ascending position of the clamping jaw 6-2, the top end of the guide shaft 6-3 is preferably provided with a limit plate 6-4 for limiting the moving top end of the clamping and ascending device 6-1. Specifically, when the clamping lifting device 6-1 is in contact with the lower surface of the limiting plate 6-4, the clamping lifting device 6-1 stops lifting, and at the moment, the clamping claw 6-2 just clamps the trough 4-1.

Specifically, the clamping and lifting device 6-1 may be a telescopic cylinder or a telescopic rod.

In a specific embodiment, the clamping jaw 6-2 is a flexible sheet metal structure, specifically, in a natural state, the clamping jaw 6-2 is a U-shaped groove structure with a narrow middle part and wide upper and lower sides, the opening of the clamping jaw 6-2 is upward, and the width of the narrow middle part is smaller than the width of the trough 4-1, so that the clamping jaw 6-2 deforms to clamp the trough 4-1. In order to facilitate clamping of the trough 4-1, the bottom end of the trough is preferably provided with a clamping piece 4-4 matched with the clamping jaw 6-2, the clamping jaw 6-2 clamps the clamping piece 4-4, and particularly, the clamping piece 4-4 is preferably of a sheet metal structure. Preferably, the clamping pieces 4-4 correspond to the clamping catches 6-1 one to one.

In one embodiment, the pushing device 5 comprises a pushing plate 5-1 for pushing the workpiece, a horizontal pushing device 5-3 for driving the pushing plate 5-1 to move horizontally, and a lifting device 5-2 for driving the pushing plate 5-1 to lift. Specifically, the pushing device can convey the workpieces one by one in the designated direction according to the information transmitted by the control system, and can be converted into the discharging device to convey the target workpieces one by one to the designated position. Specifically, the lifting device 5-2 may be a telescopic cylinder or a telescopic rod.

According to the characteristic that the lifting function is added at the pushing device 5, the device realizes the functions of feeding and discharging on one machine. The material pushing plate 5-1 is matched with the feeding device for use, and can realize the pushing of any workpiece. The automatic lifting of the material pushing plate 5-1 can realize the sending and receiving of the workpieces, and achieve the functions of feeding and discharging. The horizontal pushing device 5-3 can stop the workpiece at any position through a driving mechanism, so that the function of accurate feeding is realized.

In one embodiment, the horizontal pushing device 5-3 comprises a supporting plate, a guide shaft and a horizontal driving device for pushing the lifting device to move along the guide shaft, and the material pushing plate 5-1 is arranged at the lifting end of the lifting device 5-2. Specifically, the horizontal pushing device 5-3 includes at least two guide shafts to realize the movement along the preset position, and the guide shafts are preferably arranged in parallel.

On the basis of the schemes, the material supplying and discharging device further comprises a material warehouse support frame 2, the material warehouse support frame 2 comprises a frame body 2-3 and a material pushing support 2-2 installed on the frame body 2-3, and the feeding device is installed on the frame body 2-3.

The material supplying and discharging device further comprises a supporting main body 1, wherein the supporting main body 1 comprises a supporting bottom plate 1-1 and a top end supporting frame 1-2 arranged on the supporting bottom plate 1-1, a material pushing device 5 is arranged on the top end supporting frame 1-2, and a material warehouse supporting frame 2 is arranged on the supporting bottom plate 1-1. As shown in figure 1, at least two feeding devices are arranged along the length direction of the pushing support 2-2.

One of the bottom ends of the supporting bottom plate 1-1 and the material warehouse supporting frame 2 is provided with a sliding groove, the other one is provided with a sliding rail 2-1 sliding along the sliding groove, and the material warehouse supporting frame 2 can move along the arrangement direction of the feeding device. Specifically, a slide rail 2-1 is provided in fig. 5, and specifically, the slide rail 2-1 may be a linear guide rail. Specifically, the slide rails 2-1 correspond to the slide grooves one by one, specifically, at least two slide rails 2-1 are provided, and the slide rails 2-1 are arranged in parallel.

Preferably, the bottom of the supporting bottom plate 1-1 is provided with a bottom foot 1-3, wherein the height of the bottom foot 1-3 is adjustable. The number of the feet 1-3 can be four, and the four feet 1-3 are respectively positioned below the bending angle position of the support floor. Of course, the number and position of the feet 1-3 can be changed according to actual needs, and the application is not limited in particular.

In a specific embodiment, the material supplying and discharging device further comprises a material pushing driving device for pushing the material warehouse support frame 2 to move. The automatic production line has the advantages that one supply device can correspond to various automatic production lines. The miniaturization of the device is realized. The beat adjustment is facilitated. The device can be used for placing a plurality of feeding devices at the same time, and the feeding devices can be automatically switched, thereby realizing the characteristic of continuous production. Specifically, the linear motor or the telescopic cylinder can drive the material warehouse support frame 2 to move, so that the function of automatically replacing the feeding device to be fed is realized. The telescopic cylinder can be a pneumatic cylinder or a hydraulic cylinder and the like.

In order to facilitate maintenance, the feeding driving device 3-1, the pushing driving device and parts needing maintenance are designed outside the material supplying and discharging device, so that production changing and adjusting operations are facilitated, and after the material supplying and discharging device stops, each workpiece can be taken out randomly, so that convenience and safety of maintenance and servicing are improved.

In order to realize automatic control, the material supplying and discharging device preferably further comprises a control device for controlling the movement of the feeding device, the material pushing device and the material pushing driving device. The control device can control the movement of one structure, and can also control the movement of each structure at the same time.

After the last feeding device finishes feeding, the control device controls the material pushing driving device to drive the next feeding device to move towards the direction close to the material pushing device.

The feeding and discharging device further comprises a photoelectric sensor 7 used for detecting whether materials exist in the trough 4-1 or not, the photoelectric sensor 7 is connected with the control device, and when the photoelectric sensor 7 does not detect the workpieces in the trough 4-1, feeding of the feeding device is completed. And the control device controls the material pushing driving device to drive the next feeding device to move towards the direction close to the material pushing device. Specifically, the polished rod sensor 7 is installed at the lifting end of the clamping lifting device 6-1, the bottom end of the trough 4-1 is provided with a hole body structure which is matched with the polished rod sensor 7, when a workpiece is arranged in the trough 4-1, the clamping device 6 clamps the trough 4-1, light of the polished rod sensor 7 is shielded by the workpiece, the control device receives a workpiece existence signal, and the control device drives the material pushing device to work. When the light of the polished rod sensor 7 is not shielded, the control device receives a signal that no workpiece exists.

The operation characteristics of the material supplying and discharging device are described below with reference to the accompanying drawings:

first, the workpiece placing module 4 shown in fig. 4 needs to place the supply workpieces in the magazine 4-1 in accordance with the rule. The above is the preparation of the discharging device before the start of the automatic operation and before the automatic supply. After the preparation work is done before the machine is started, a startup key can be started on a control panel of the machine.

Secondly, after the power supply of the feeding device is pneumatic, the pushing device 5, the clamping device and other devices are reset. The synchronous toothed belt 3-2 starts to rotate, after a first workpiece rotates to the top, a trough 4-1 of the first workpiece is fixed by a clamping device, a telescopic end of a lifting device 5-2 extends out to lower a material pushing plate 5-1, then the material pushing plate 5-1 is conveyed to a specified position (the next process) by a horizontal pushing device 5-3 along a guide shaft to complete the supply of the workpiece, then the telescopic end of the lifting device 5-2 retracts, and the material pushing plate 5-1 returns to the initial position along the guide shaft under the action of the horizontal pushing device 5-3.

The material pushing plate 5-1 can return, and the synchronous toothed belt 3-2 starts to rotate the second workpiece to the top, and the process is repeated, and the subsequent feeding mode is completely the same as the feeding starting mode until the last workpiece of the same feeding device is output; then, under the action of the pushing driving device, the supporting frame 2 of the material warehouse is pushed to move the first feeding device to the pushing device 5 along the sliding rail 2-1 in fig. 5, the feeding mode of the previous feeding device is repeated again to feed, and meanwhile, a workpiece to be fed can be loaded into the previous feeding device again, so that repeated replacement of the two feeding devices without stopping is realized (the device is designed into two feeding devices, and certainly, the device can be designed into a mode of a plurality of feeding devices to realize feeding in order to save the starting time).

The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.