CN112845900A - Equipment packing apparatus - Google Patents

Abstract

The invention discloses an assembly and wrapping device which comprises a support, a forming die, a first forming claw, a second forming claw, a first telescopic piece and a second telescopic piece, wherein the forming die is arranged on the support and is provided with a forming groove matched with the periphery of an engine oil filter valve; the first forming claw and the second forming claw are hinged on the forming die and are positioned on two sides of the forming groove, the first forming claw is provided with a first forming curved surface wrapping the periphery of the engine oil filter valve, and the second forming claw is provided with a second forming curved surface wrapping the periphery of the engine oil filter valve; the first telescopic piece is hinged on the support; the second telescopic piece is hinged on the support. Compared with the prior art, the assembly and wrapping device does not need manual operation in the wrapping process, so that the production efficiency of the engine oil filter valve is improved, and the labor intensity is reduced.

Description

Equipment packing apparatus

Technical Field

The invention relates to the technical field of machining of engine oil filter valves, in particular to an assembling and wrapping device.

Background

Filter screen pieces on automobile OCV and VVT engine oil filter valves are produced in a welding mode of spot welding after the filter screen pieces are placed and a valve body is assembled for a long time in the industry, manual operation is adopted in the process, the production efficiency is low, the operation labor intensity is high, and the requirement of mass production cannot be met.

Therefore, how to improve the production efficiency of the engine oil filter valve and reduce the labor intensity becomes a technical problem to be solved urgently by the technical personnel in the field.

Disclosure of Invention

The invention aims to provide an assembling and wrapping device, which is used for improving the production efficiency of an engine oil filter valve and reducing the labor intensity.

To achieve the above object, the present invention provides an assembly wrapping apparatus comprising:

a support;

the forming die is arranged on the support and is provided with a forming groove matched with the periphery of the engine oil filter valve;

the first forming claw and the second forming claw are hinged to the forming die, the first forming claw and the second forming claw are arranged on two sides of the forming groove, the first forming claw is provided with a first forming curved surface wrapping the periphery of the engine oil filter valve, and the second forming claw is provided with a second forming curved surface wrapping the periphery of the engine oil filter valve;

the first telescopic piece is hinged to the support, the extending end of the first telescopic piece is hinged to the first forming claw, and when the first telescopic piece is located in a first state, the first forming claw rotates towards the direction close to the forming groove; when the first telescopic piece is in the second state, the first forming claw rotates towards the direction far away from the forming groove; and

the second telescopic piece is hinged to the support, the extending end of the second telescopic piece is hinged to the second forming claw, and when the second telescopic piece is located in a third state, the second forming claw rotates towards the direction close to the forming groove; when the second telescopic piece is located at the fourth state, the second forming claw rotates towards the direction far away from the forming groove.

In one embodiment of the invention, the edge of the forming groove is provided with a positioning groove for positioning the filter screen sheet, and the wall of the positioning groove can be abutted against two side edges of the filter screen sheet.

In one embodiment of the invention, the number of the positioning grooves is two, and the two positioning grooves are respectively positioned at two edges of the forming groove.

In one embodiment of the present invention, the molding die is further provided with a pressing assembly, and the pressing assembly can abut against the peripheral surface of the oil filter valve in the molding groove.

In one embodiment of the invention, the pressing assembly comprises a mounting seat and an elastic ejector rod, the mounting seat is mounted on the support, and the elastic ejector rod is arranged on the mounting seat and can extend out of the forming groove.

In one embodiment of the invention, the elastic ejector rod comprises an ejector rod arranged on the mounting seat and an elastic part, and the elastic part is positioned between the ejector rod and the mounting seat.

In one embodiment of the invention, the number of the elastic ejector rods is three, and the elastic ejector rods are uniformly arranged in the forming groove.

In one embodiment of the present invention, the first forming claw and the second forming claw are disposed on the forming die through a rotating shaft.

In one embodiment of the invention, the first forming claw comprises a first connecting part and a first wrapping part, wherein the first forming curved surface is arranged at the first wrapping part, the first connecting part is in shaft connection with the support, and the first telescopic part is hinged with the middle part of the first connecting part;

the second forming claw comprises a second connecting portion and a second wrapping portion, wherein the second forming curved surface is arranged on the second wrapping portion, the second connecting portion is in shaft connection with the support, and the second telescopic piece is hinged to the middle of the second connecting portion.

In one embodiment of the present invention, the first and second telescopic members are cylinders.

In one embodiment of the present invention, the apparatus further comprises a controller for controlling the operation of the first and second telescoping members.

The equipment parcel device during operation places filter screen piece on the shaping groove earlier, then puts the machine oil filter valve as for on the filter screen piece, first extensible member is located the first state, first shaping claw is rotatory to the direction that is close to the shaping groove, until first shaping claw parcel machine oil filter valve, the second extensible member is located the third state, second shaping claw is rotatory to the direction that is close to the shaping groove, until second shaping claw parcel machine oil filter valve, thereby make one side overlap joint of filter screen piece accomplish filter screen piece parcel on the other side on the machine oil filter valve. When the next engine oil filter valve needs to be wrapped, the second telescopic piece is located in the fourth state, and the second forming claw rotates towards the direction far away from the forming groove; the first telescopic piece is located in the second state, the first forming claw rotates towards the direction far away from the forming groove, and the assembling and wrapping device is enabled to be in the unfolding state. Compared with the prior art, the assembly and wrapping device does not need manual operation in the wrapping process, so that the production efficiency of the engine oil filter valve is improved, and the labor intensity is reduced.

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 an exploded view of an assembled packaging device according to an embodiment of the present invention;

fig. 2 is a schematic perspective view of an assembled packaging device provided in fig. 1;

fig. 3 is a front view of the packaging device of fig. 1;

fig. 4 is a schematic cross-sectional view of an assembled packaging device provided in fig. 1;

wherein: 100 is an assembly and wrapping device, 200 is a filter screen sheet, 300 is an engine oil filter valve, 101 is a support, 102 is a forming die, 103 is a first forming claw, 104 is a second forming claw, 105 is a first telescopic piece, 106 is a second telescopic piece, 107 is a pressing assembly, 1021 is a forming groove, 1022 is a positioning groove, 1031 is a first forming curved surface, and 1041 is a second forming curved surface.

Detailed Description

The invention provides an assembling and wrapping device, which aims to improve the production efficiency of an engine oil filter valve and reduce the labor intensity.

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.

Referring to fig. 1 to 4, the assembly and wrapping apparatus 100 disclosed in the present invention includes a support 101, a forming mold 102, a first forming claw 103, a second forming claw 104, a first telescopic member 105 and a second telescopic member 106, wherein the forming mold 102 is disposed on the support 101, and the forming mold 102 has a forming groove 1021 matching with an outer periphery of the oil filter valve 300; the first forming claw 103 and the second forming claw 104 are hinged on the forming die 102 and located at two sides of the forming groove 1021, the first forming claw 103 has a first forming curved surface 1031 wrapping the periphery of the oil filter valve 300, and the second forming claw 104 has a second forming curved surface 1041 wrapping the periphery of the oil filter valve 300; the first telescopic piece 105 is hinged on the support 101, the extending end of the first telescopic piece 105 is hinged with the first forming claw 103, and when the first telescopic piece 105 is in the first state, the first forming claw 103 rotates towards the direction close to the forming groove 1021; when the first extensible member 105 is in the second state, the first forming claw 103 rotates in a direction away from the forming groove 1021; the second telescopic member 106 is hinged on the support 101, the extending end of the second telescopic member 106 is hinged with the second forming claw 104, and when the second telescopic member 106 is in the third state, the second forming claw 104 rotates towards the direction close to the forming groove 1021; when the second extensible member 106 is in the fourth state, the second forming claw 104 rotates in a direction away from the forming groove 1021.

When the assembly and wrapping device 100 works, the filter screen sheet 200 is placed on the forming groove 1021, then the engine oil filter valve 300 is placed on the filter screen sheet 200, the first telescopic piece 105 is located at the first state, the first forming claw 103 rotates towards the direction close to the forming groove 1021 until the first forming claw 103 wraps the engine oil filter valve 300, the second telescopic piece 106 is located at the third state, the second forming claw 104 rotates towards the direction close to the forming groove 1021 until the second forming claw 104 wraps the engine oil filter valve 300, and one side of the filter screen sheet 200 is lapped at the other side to complete the wrapping of the filter screen sheet 200 on the engine oil filter valve 300. When the next engine oil filter valve 300 needs to be wrapped, the second telescopic piece 106 is in the fourth state, and the second forming claw 104 rotates towards the direction far away from the forming groove 1021; when the first telescopic member 105 is in the second state, the first forming claw 103 rotates away from the forming groove 1021, and the assembled packaging device 100 is in the unfolded state. Compared with the prior art, the assembly and wrapping device 100 does not need manual operation in the wrapping process, so that the production efficiency of the engine oil filter valve 300 is improved, and the labor intensity is reduced.

It should be noted that the forming groove 1021 is used for supporting the oil filter valve 300 and the filter screen sheet 200, and cooperates with the first forming claw 103 and the second forming claw 104 to wrap the filter screen sheet 200 on the peripheral surface of the oil filter valve 300. The edge of the forming groove 1021 is provided with a positioning groove 1022 for positioning the filter screen sheet 200, and the wall of the positioning groove 1022 can abut against two side edges of the filter screen sheet 200. That is, positioning grooves 1022 can restrict axial movement of filter mesh sheet 200 relative to oil filter valve 300, thereby ensuring accuracy of the wrapping position of filter mesh sheet 200. The number of the positioning grooves 1022 is one or two, and when there are two positioning grooves 1022, the two positioning grooves 1022 are located at two edges of the forming groove 1021, respectively.

In a further scheme, in order to ensure that the filter screen sheet 200 moves circumferentially during the wrapping process, a pressing assembly 107 is further arranged on the forming die 102, and the pressing assembly 107 can abut against the peripheral surface of the oil filter valve 300 in the forming groove 1021. By providing the compression assembly 107, the filter screen sheet 200 can be clamped between the oil filter valve 300 and the compression assembly 107, and circumferential movement of the filter screen sheet 200 can be limited during the wrapping process.

As long as the structure capable of pressing the filter screen sheet 200 against the circumferential surface of the oil filter valve 300 can be understood as the pressing assembly 107, in one embodiment of the present invention, the pressing assembly 107 includes a mounting seat 1071 and an elastic push rod 1072, the mounting seat 1071 is mounted on the support 101, and the elastic push rod 1072 is disposed on the mounting seat 1071 and can extend out of the forming groove 1021. When the oil strainer valve 300 is moved in a direction to approach the bottom of the forming groove 1021 by the first forming claw 103 and the second forming claw 104, the oil strainer valve 300 can abut against the elastic push rod 1072, and the filter mesh sheet 200 is clamped between the oil strainer valve 300 and the filter mesh sheet 200.

Specifically, the elastic push rod 1072 includes a push rod and an elastic member provided at the mount 1071, and the elastic member is located between the push rod and the mount 1071. The elastic member is in a normal state, when the oil filter valve 300 enters the forming groove 1021, the elastic member is in a compressed state, and the elastic member in the compressed state pushes the push rod to move towards a direction close to the oil filter valve 300, so that the purpose of clamping the filter screen sheet 200 is achieved.

The number of the elastic push rods 1072 is one, two or three, and preferably, the number of the elastic push rods 1072 of the present invention is three, and the elastic push rods 1072 are uniformly arranged in the forming groove 1021.

The first molding claw 103 and the second molding claw 104 are provided on the molding die 102 through a rotating shaft. The first forming claw 103, the second forming claw 104 and the forming die 102 are provided with rotating holes at corresponding positions, and the rotating shaft sequentially penetrates through the first forming claw 103 and the forming die 102 to realize the shaft connection of the first forming claw 103 and the forming die 102; the rotating shaft sequentially passes through the second forming claw 104 and the forming die 102 to realize the shaft connection of the second forming claw 104 and the forming die 102.

The first forming claw 103 and the second forming claw 104 function to wrap the filter screen sheet 200 on the oil filter valve 300. The first forming claw 103 includes a first connecting portion and a first wrapping portion, wherein the first forming curved surface 1031 is disposed in the first wrapping portion, the first connecting portion is coupled to the support 101, and the first telescopic member 105 is hinged to a middle portion of the first connecting portion. When the first telescopic member 105 is in the first state, the first connecting portion and the first wrapping portion are pushed to rotate in a direction close to the oil filter valve 300 until the first forming curved surface 1031 on the first wrapping portion pushes the filter screen sheet 200 to wrap a part of the periphery of the oil filter valve 300.

The second forming claw 104 includes a second connecting portion and a second wrapping portion, wherein the second forming curved surface 1041 is disposed in the second wrapping portion, the second connecting portion is coupled to the support 101, and the second telescopic member 106 is hinged to the middle of the second connecting portion. When the second telescopic member 106 is in the second state, the second connecting portion and the second wrapping portion are pushed to rotate in the direction close to the oil filter valve 300 until the second forming curved surface 1041 on the second wrapping portion pushes the filter screen sheet 200 to wrap a part of the periphery of the oil filter valve 300.

The forming groove 1021, the first forming curved surface 1031 and the second forming curved surface 1041 are substantially enclosed into a cylindrical curved surface, so that the filter screen sheet 200 can be wrapped on the periphery of the oil filter valve 300.

In one embodiment of the present invention, the first telescopic member 105 and the second telescopic member 106 are structures having telescopic functions, such as a cylinder, a hydraulic cylinder, and the like. In the case of an air cylinder, the cylinder body of the air cylinder serves as a fixed end of the first telescopic member 105, the piston rod of the air cylinder serves as a telescopic end of the first telescopic member 105, the fixed end is hinged to the support 101, and the telescopic end is hinged to the first forming jaw 103, so that the first forming jaw 103 can perform a rotational movement around the groove 1021. In the case of an air cylinder, the cylinder body of the air cylinder serves as the fixed end of the second telescopic member 106, the piston rod of the air cylinder serves as the telescopic end of the second telescopic member 106, the fixed end is hinged to the support 101, and the telescopic end is hinged to the second forming jaw 104, so that the second forming jaw 104 can perform a rotational movement around the forming groove 1021

In order to further improve the production efficiency and reduce the labor intensity, a controller for controlling the operation of the first telescopic member 105 and the second telescopic member 106 is further included. The controller drives the first telescopic piece 105 to be located in the first state according to requirements, the first forming claw 103 rotates towards the direction close to the forming groove 1021 until the first forming claw 103 wraps the engine oil filter valve 300, the second telescopic piece 106 is located in the third state, and the second forming claw 104 rotates towards the direction close to the forming groove 1021 until the second forming claw 104 wraps the engine oil filter valve 300, so that one side of the filter screen piece 200 is overlapped on the other side, and the filter screen piece 200 is wrapped on the engine oil filter valve 300. When the next engine oil filter valve 300 needs to be wrapped, the second telescopic piece 106 is in the fourth state, and the second forming claw 104 rotates towards the direction far away from the forming groove 1021; when the first telescopic member 105 is in the second state, the first forming claw 103 rotates away from the forming groove 1021, and the assembled packaging device 100 is in the unfolded state. Because the operation of the first telescopic part 105 and the second telescopic part 106 is controlled by the controller, the operation of operators is reduced, the labor intensity of the operators is reduced, and the production efficiency is improved.

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.

Claims (11)

1. An assembly wrap device, comprising:

a support;

the forming die is arranged on the support and is provided with a forming groove matched with the periphery of the engine oil filter valve;

the first forming claw and the second forming claw are hinged to the forming die, the first forming claw and the second forming claw are arranged on two sides of the forming groove, the first forming claw is provided with a first forming curved surface wrapping the periphery of the engine oil filter valve, and the second forming claw is provided with a second forming curved surface wrapping the periphery of the engine oil filter valve;

the first telescopic piece is hinged to the support, the extending end of the first telescopic piece is hinged to the first forming claw, and when the first telescopic piece is located in a first state, the first forming claw rotates towards the direction close to the forming groove; when the first telescopic piece is in the second state, the first forming claw rotates towards the direction far away from the forming groove; and

the second telescopic piece is hinged to the support, the extending end of the second telescopic piece is hinged to the second forming claw, and when the second telescopic piece is located in a third state, the second forming claw rotates towards the direction close to the forming groove; when the second telescopic piece is located at the fourth state, the second forming claw rotates towards the direction far away from the forming groove.

2. The assembly wrap device of claim 1, wherein the edge of the forming groove is provided with a positioning groove for positioning a screen sheet, and wherein a wall of the positioning groove is capable of abutting against both side edges of the screen sheet.

3. The assembly wrap device of claim 2 wherein the number of positioning slots is two, one at each edge of the shaped slot.

4. The assembly and wrapping device according to claim 3, wherein a pressing member is further provided on the molding die, and the pressing member is capable of abutting against a peripheral surface of the oil filter valve disposed in the molding groove.

5. The assembly wrap device of claim 4, wherein the hold down assembly includes a mounting block mounted on the support base and a resilient ram disposed on the mounting block and capable of extending out of the forming groove.

6. The assembly wrap device of claim 5, wherein the resilient ram comprises a ram disposed at the mount and a resilient member, the resilient member being located between the ram and the mount.

7. The assembly and wrapping device of claim 6 wherein said number of said resilient stems is three and is uniformly disposed in said forming channel.

8. The assembly packaging apparatus according to any one of claims 1 to 7, wherein the first molding claw and the second molding claw are provided on the molding die by a rotating shaft.

9. The assembly and packaging apparatus of any one of claims 1 to 7, wherein the first forming claw comprises a first connecting portion and a first packaging portion, wherein the first forming curved surface is disposed at the first packaging portion, the first connecting portion is coupled to the support shaft, and the first telescopic member is hinged to a middle portion of the first connecting portion;

the second forming claw comprises a second connecting portion and a second wrapping portion, wherein the second forming curved surface is arranged on the second wrapping portion, the second connecting portion is in shaft connection with the support, and the second telescopic piece is hinged to the middle of the second connecting portion.

10. The assembly wrap device of any one of claims 1 to 7, wherein said first and second telescoping members are pneumatic cylinders.

11. The assembly wrap device of any one of claims 1 to 7, further comprising a controller that controls operation of the first and second telescoping members.

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