CN210499848U - Make-up machine and net piece inspection conveyor thereof - Google Patents

Abstract

The utility model discloses a mesh sheet checking and conveying device, wherein a mesh sheet is adhered to a mesh sheet dividing component, and the adhered mesh sheet is transferred to a transmission component by a first transfer component; the conveying assembly comprises a conveying belt, the detection assembly comprises a reference plate, a vernier, a power piece for driving the vernier to move up and down and a sensor for detecting the height of the vernier, the vernier of the detection assembly is pressed down, the thickness of the transferred mesh sheet is measured, and whether a plurality of mesh sheets or mesh sheets are transferred unsuccessfully is analyzed; the second transfer component transfers the mesh on the conveying belt to the assembly line conveying device/or the rotary table. The detection assembly can detect the total thickness of the added meshes transmitted by the conveyor belt, judge whether a single mesh exists or not, and avoid that the grinding wheel is placed with too many meshes or is placed in the meshes in a missing way at the corresponding position; the mesh conveying and detecting are realized in a mechanical automation mode, and the problems that the strength of the grinding wheel is insufficient and/or the grinding wheel is easy to crack and the like are solved. A molding machine comprises the mesh sheet inspection and conveying device.

Description

Make-up machine and net piece inspection conveyor thereof

Technical Field

The utility model relates to a net piece inspection conveyor.

Background

In the prior art, a mesh (reinforcing rib mesh of a grinding wheel) is manually added to a grinding wheel forming jig, or a transfer device performs simple mesh transfer without mesh detection. When the device fails to suck the meshes or multiple meshes standing together are added manually or manually, the meshes cannot be added into the grinding wheel or multiple meshes which are overlapped in the grinding wheel, so that the strength of the grinding wheel is insufficient and/or the grinding wheel is easy to crack.

SUMMERY OF THE UTILITY MODEL

For overcoming prior art's not enough, too much or not having problem when avoiding the net piece to add the transport, the utility model discloses a technical scheme be:

a mesh checking and conveying device comprises a conveying assembly and a detection assembly, wherein the conveying assembly comprises a conveying belt and a belt pulley, and the detection assembly comprises a reference plate, a vernier, a third lifting power piece for driving the vernier to move up and down and a sensor for detecting the height of the vernier; the transmission belt wound above the belt pulley is arranged above the reference plate; the vernier is pressed and abutted against the mesh on the conveying belt and used for detecting the thickness of the conveying belt and the mesh.

According to another embodiment of the present invention, further, the apparatus further comprises a first transfer assembly for driving the mesh to be transferred to the conveyor.

According to another embodiment of the present invention, the stacking device further comprises a stacking assembly, the stacking assembly comprises a stacking rod, a material plate penetrating through the stacking rod, and a fourth lifting power member for driving the material plate to lift, the stacking rod is used for penetrating through the mesh sheet to stack the mesh sheet on the material plate; the first transfer assembly comprises a first sliding power part and a first suction nozzle connected with the first sliding power part; the first suction nozzle is used for driving the mesh to transfer to the conveying belt.

According to another embodiment of the present invention, the apparatus further comprises a stacking assembly and a net separating assembly, wherein the net separating assembly comprises an adhesive tape, an original tape roller and a recovery roller; the stacking assembly comprises a stacking rod, a material plate penetrating through the stacking rod and a screw nut pair for driving the material plate to lift, and the stacking rod is used for penetrating through a mesh sheet to enable the mesh sheet to be stacked on the material plate; when the material plate drives the net sheets to rise, the net sheets at the uppermost end on the material plate can be adhered to the adhesive tape; the clamping device comprises a first sliding power part, a clamping cylinder body connected with the first sliding power part and a clamping jaw connected with the clamping cylinder body, wherein the clamping cylinder body is used for driving the clamping jaw to open and close.

According to the utility model discloses a another embodiment, it is further that, still including being used for shifting the outside second that shifts the net piece on the transmission band, the second shifts the subassembly and includes that the second slides power spare, connects the second lift power spare on the second slides power spare and connect the second suction nozzle on the second lift power spare.

A molding machine includes a mesh inspection conveying device; the hydraulic forming machine also comprises a production line transmission device, a first feeding device, a first material spreading device, a second feeding device, a second material spreading device and a hydraulic forming device;

the assembly line transmission device is used for transmitting the grinding wheel piece forming jig; the first feeding device and the second feeding device are used for placing grinding wheel powder into the grinding wheel piece forming jig; the hydraulic forming device is used for driving material punch forming in the grinding wheel piece forming jig;

the first feeding device, the first material spreading device, the mesh sheet checking and conveying device, the second feeding device, the second material spreading device and the hydraulic forming device are sequentially arranged along the transmission direction of the assembly line transmission device.

A molding machine includes a mesh inspection conveying device; the hydraulic forming machine also comprises a turntable, a first feeding device, a first material spreading device, a second feeding device, a second material spreading device and a hydraulic forming device;

the turntable is provided with a plurality of clamping holes for clamping the grinding wheel forming jig; the first feeding device and the second feeding device are used for placing grinding wheel powder into the grinding wheel piece forming jig; the hydraulic forming device is used for driving material punch forming in the grinding wheel piece forming jig;

the first feeding device, the first material spreading device, the mesh sheet checking and conveying device, the second feeding device, the second material spreading device and the hydraulic forming device are sequentially arranged along the rotating direction of the rotary table.

The utility model discloses a pair of net piece inspection conveyor, following beneficial effect has: the detection assembly can detect the total thickness of the added meshes transmitted by the conveyor belt, judge whether a single mesh exists or not, and avoid that the grinding wheel is placed with too many meshes or is placed in the meshes in a missing way at the corresponding position; the mesh conveying and detecting are realized in a mechanical automation mode, and the problems that the strength of the grinding wheel is insufficient and/or the grinding wheel is easy to crack and the like are solved.

Drawings

Fig. 1 is a schematic structural diagram of a molding machine of the present invention;

fig. 2 is a schematic structural view of the molding machine of the present invention;

fig. 3 is a schematic structural view of the mesh sheet inspecting and conveying device of the present invention.

Detailed Description

The following detailed description of the embodiments of the present invention will be made with reference to the accompanying drawings.

As shown in fig. 3, the mesh inspecting and conveying device 100 comprises a conveying assembly 1 and a detecting assembly 2, wherein the conveying assembly 1 comprises a conveying belt 12 and a belt pulley 11, and the detecting assembly 2 comprises a reference plate 21, a cursor 22, a third lifting power member for driving the cursor 22 to move up and down, and a sensor for detecting the height value of the cursor 22; the transmission belt 12 wound over the pulley 11 is disposed over the reference plate 21; the vernier 22 is pressed against the mesh sheet on the conveyor belt 12 to detect the thickness of the conveyor belt 12 and the mesh sheet. The stacking device is characterized by further comprising a controller (an industrial personal computer/PLC, a single chip microcomputer, a DSP, an FPGA, a personal computer and the like), wherein the transmission assembly 1, the detection assembly 2, the stacking assembly, the network dividing assembly, the first transfer assembly and the second transfer assembly are electrically connected with the controller.

When the cursor 22 is pressed down and only the conveying belt 12 is between the cursor 22 and the reference plate 21, the detecting assembly 2 tests a zero-thickness mesh (reinforcing rib mesh of the grinding wheel), that is, the detecting assembly 2 is set to zero scale (like removing net weight) when only the conveying belt 12 is between the cursor 22 and the reference plate 21. When the cursor 22 is pressed down and one or more meshes are located between the cursor 22 and the reference plate 21, the detecting unit 2 measures the total thickness of the meshes. Therefore, the detection assembly 2 can detect the total thickness of the meshes which are transmitted and added by the conveyor belt, and judge whether a single mesh exists or not, so that the situation that too many meshes are put into the corresponding positions of the grinding wheel or the meshes are not missed is avoided.

In the detection assembly 2, the third lifting power part can be an air cylinder or a hydraulic cylinder; or a screw nut pair, a motor structure and the like. The sensors may be arranged to: the detection component 2 also comprises a graduated scale and a CCD camera as a sensor; the current scale of the cursor 22 and the thickness of the mesh are obtained through camera imaging and controller processing analysis. The sensors may also be arranged to: the sensor comprises a grating strip, a light emitting diode and a photosensitive triode; the grating strips are connected to the cursor 22, and the light transmitting regions and the light blocking regions are arranged on the grating strips at intervals along the lifting direction of the cursor 22; the light-emitting diode and the photosensitive triode are arranged on the shell (or a bracket and the like) of the detection component 2; when the cursor 22 drives the grating strip to lift, the phototriode can measure an optical pulse sequence; the light-transmitting area and the light-blocking area have certain widths, and the detection assembly 2 can measure the lifting and sliding height of the cursor 22 and feed back the height to the controller.

Also included is a first transfer assembly for driving the web to be transferred to the conveyor 12 from the stock storage location.

The transfer of the web from the stack to the conveyor belt 12 may be arranged as: the stacking device comprises a stacking rod 41, a material plate 42 penetrating through the stacking rod 41 and a fourth lifting power part 43 used for driving the material plate 42 to lift, wherein the stacking rod 41 is used for penetrating through a net sheet to enable the net sheet to be stacked on the material plate 42; the first transfer component comprises a first sliding power part 31, a first lifting power part 32 connected to the first sliding power part 31, and a first suction nozzle connected to the first lifting power part 32; the first nozzle is used to drive the web to be transferred to the conveyor belt 12. The fourth lifting power part 43 can be a screw-nut pair, an air cylinder or a hydraulic cylinder. The stacking assembly can drive the net to lift, the first lifting power piece can be omitted, and the first suction nozzle is not required to be connected with the first sliding power piece 31 through the first lifting power piece.

The stacked net sheets are transferred away one by one through the suction nozzle, and the suction nozzle and the net sheets need to be abutted to each other to some extent at the moment of adsorption, so that the stacked net sheets are easy to adhere and coincide and are difficult to separate. Therefore, the transfer of the web from the stack to the conveyor belt 12 can also be arranged: the net separating component comprises an adhesive tape, an original tape roller and a recovery roller; the stacking assembly comprises a stacking rod 41, a material plate 42 penetrating through the stacking rod 41 and a screw nut pair for driving the material plate 42 to ascend and descend, wherein the stacking rod 41 is used for penetrating through a mesh to enable the mesh to be stacked on the material plate 42; when the material plate 42 drives the net sheets to rise, the net sheets at the uppermost end on the material plate 42 can be adhered to the adhesive tape; the material clamping device comprises a first sliding power part 31, a first lifting power part 32 connected to the first sliding power part 31, a material clamping cylinder body connected to the first lifting power part 32, and a clamping jaw 33 connected to the material clamping cylinder body, wherein the material clamping cylinder body is used for driving the clamping jaw 33 to open and close. The screw rod drives the net sheet to rise to the right position, and the adhesive tape adheres to the net sheet; the gripper 33 can then grip the edge of the web and transfer the web to the conveyor 12. The problem of the suction nozzle adsorb lead to net piece looks extrusion adhesion easily in the net piece is solved. The stacking assembly can drive the mesh to lift, the first lifting power part can be omitted, and the material clamping cylinder body is not required to be connected with the first sliding power part 31 through the first lifting power part.

The original belt roller is wound with adhesive tape which is not adhered with the mesh sheet, and the adhesive tape adhered with the mesh sheet or the local section for a long time in the stagnant air can be wound into the recovery roller.

The mesh conveying device further comprises a second transfer assembly for transferring the mesh on the conveying belt 12 outwards, wherein the second transfer assembly comprises a second sliding power piece 51, a second lifting power piece 52 connected to the second sliding power piece 51, and a second suction nozzle 53 connected to the second lifting power piece 52.

The grinding wheel piece at least comprises bottom layer grinding wheel powder, a net piece and top layer grinding wheel powder. As shown in fig. 1, the grinding wheel forming machine may be configured to: the forming machine comprises an assembly line transmission device, and further comprises a first feeding device 300, a first material spreading device 400, a mesh sheet checking and conveying device 100, a second feeding device 500, a second material spreading device 600 and a hydraulic forming device 700 which are sequentially arranged along the transmission direction of the assembly line transmission device. The assembly line transmission device is used for transmitting the grinding wheel piece forming jig 200; the first feeding device 300 and the second feeding device 500 are used for placing grinding wheel powder into the grinding wheel forming jig 200; the first material spreading device 400 and the second material spreading device 600 are used for driving grinding wheel powder in the grinding wheel forming jig 200 to be spread evenly; the mesh inspecting and conveying device 100 is used for placing meshes into the grinding wheel forming jig 200, and the hydraulic forming device 700 is used for driving material punch forming in the grinding wheel forming jig 200.

As shown in fig. 2, the grinding wheel forming machine may be configured to: the forming machine comprises a turntable, and further comprises a first feeding device 300, a first material spreading device 400, a mesh checking and conveying device 100, a second feeding device 500, a second material spreading device 600 and a hydraulic forming device 700 which are sequentially arranged along the rotation direction of the turntable. The turntable is provided with a plurality of clamping holes for clamping the grinding wheel forming jig 200; the first feeding device 300 and the second feeding device 500 are used for placing grinding wheel powder into the grinding wheel forming jig 200; the first material spreading device 400 and the second material spreading device 600 are used for driving grinding wheel powder in the grinding wheel forming jig 200 to be spread evenly; the mesh inspecting and conveying device 100 is used for placing meshes into the grinding wheel forming jig 200, and the hydraulic forming device 700 is used for driving material punch forming in the grinding wheel forming jig 200. Of course, the grinding wheel piece output station is also included.

Products, materials and the like, which are not the structure of the utility model; the introduction of products, materials, etc. in the claims is intended to be illustrative of structure and/or function.

The motor, the cylinder, the hydraulic cylinder, the pump body, the air pipe and other objects may not be available in the actual sale, namely, are not sold together, and need to be purchased and assembled by a buyer; such components are those known to those skilled in the art to be required to perform the corresponding function.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", "axial", "radial", "circumferential", and the like, indicate the orientation or positional relationship indicated based on the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In the description of the present invention, "a plurality" means at least two, e.g., two, three, etc., unless specifically limited otherwise.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally formed; may be mechanically coupled, may be electrically coupled or may be in communication with each other; they may be directly connected or indirectly connected through intervening media, or they may be connected internally or in any other suitable relationship, unless expressly stated otherwise. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

In the present application, unless expressly stated or limited otherwise, the first feature may be directly on or directly under the second feature or indirectly via intermediate members. Also, a first feature "on," "over," and "above" a second feature may be directly or diagonally above the second feature, or may simply indicate that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature may be directly under or obliquely under the first feature, or may simply mean that the first feature is at a lesser elevation than the second feature.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above are not necessarily intended to refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, various embodiments or examples and features of different embodiments or examples described in this specification can be combined and combined by one skilled in the art without contradiction.

The above embodiments are only used for illustrating the technical solutions of the present invention and are not limited thereto, and any modification or equivalent replacement that does not depart from the spirit and scope of the present invention should be covered by the scope of the technical solutions of the present invention.

Claims (7)

1. A mesh inspection conveyor which characterized in that: the device comprises a transmission assembly (1) and a detection assembly (2), wherein the transmission assembly (1) comprises a transmission belt (12) and a belt pulley (11), and the detection assembly (2) comprises a reference plate (21), a vernier (22), a third lifting power part for driving the vernier (22) to move up and down and a sensor for detecting the height of the vernier (22); a transmission belt (12) wound above the belt pulley (11) is arranged above the reference plate (21); the vernier (22) is pressed and abutted against the mesh on the conveying belt (12) and used for detecting the thickness of the conveying belt (12) and the mesh.

2. The mesh inspection delivery device of claim 1, wherein: also includes a first transfer assembly for driving the web to transfer to the conveyor belt (12).

3. The mesh inspection delivery device of claim 2, wherein: the stacking device comprises a stacking rod (41), a material plate (42) connected with the stacking rod (41) in a penetrating mode and a fourth lifting power piece (43) used for driving the material plate (42) to lift, wherein the stacking rod (41) is used for connecting a net piece in a penetrating mode so that the net piece is stacked on the material plate (42); the first transfer component comprises a first sliding power part (31) and a first suction nozzle connected with the first sliding power part (31); the first suction nozzle is used for driving the mesh to be transferred to the conveying belt (12).

4. The mesh inspection delivery device of claim 2, wherein: the net separating component comprises an adhesive tape, an original tape roller and a recovery roller; the stacking assembly comprises a stacking rod (41), a material plate (42) penetrating through the stacking rod (41) and a screw nut pair for driving the material plate (42) to ascend and descend, wherein the stacking rod (41) is used for penetrating through a net sheet to enable the net sheet to be stacked on the material plate (42); when the material plate (42) drives the meshes to rise, the meshes at the uppermost end on the material plate (42) can be adhered to the adhesive tape; the material clamping device comprises a first sliding power piece (31), a material clamping cylinder body connected with the first sliding power piece (31), and a clamping jaw (33) connected with the material clamping cylinder body, wherein the material clamping cylinder body is used for driving the clamping jaw (33) to open and close.

5. The mesh inspection delivery device according to any one of claims 1 to 4, wherein: the mesh conveying device further comprises a second transfer assembly used for transferring the mesh on the conveying belt (12) outwards, and the second transfer assembly comprises a second sliding power piece (51), a second lifting power piece (52) connected to the second sliding power piece (51), and a second suction nozzle (53) connected to the second lifting power piece (52).

6. A molding machine, characterized by: comprising the mesh inspection delivery device (100) of claim 5; the hydraulic forming machine also comprises an assembly line transmission device, a first feeding device (300), a first material spreading device (400), a second feeding device (500), a second material spreading device (600) and a hydraulic forming device (700);

the assembly line transmission device is used for transmitting the grinding wheel piece forming jig (200); the first feeding device (300) and the second feeding device (500) are used for placing grinding wheel powder into the grinding wheel forming jig (200); the hydraulic forming device (700) is used for driving material punch forming in the grinding wheel piece forming jig (200);

the first feeding device (300), the first material spreading device (400), the mesh checking and conveying device (100), the second feeding device (500), the second material spreading device (600) and the hydraulic forming device (700) are sequentially arranged along the conveying direction of the assembly line conveying device.

7. A molding machine, characterized by: comprising the mesh inspection delivery device (100) of claim 5; the hydraulic forming machine also comprises a turntable, a first feeding device (300), a first material spreading device (400), a second feeding device (500), a second material spreading device (600) and a hydraulic forming device (700);

the turntable is provided with a plurality of clamping holes for clamping the grinding wheel forming jig (200); the first feeding device (300) and the second feeding device (500) are used for placing grinding wheel powder into the grinding wheel forming jig (200); the hydraulic forming device (700) is used for driving material punch forming in the grinding wheel piece forming jig (200);

the first feeding device (300), the first material spreading device (400), the mesh checking and conveying device (100), the second feeding device (500), the second material spreading device (600) and the hydraulic forming device (700) are sequentially arranged along the rotating direction of the turntable.

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