CN220041116U - Traceable shell member - Google Patents

Abstract

The utility model discloses a traceable shell member, which comprises a shell body, a chip and a fixing assembly, wherein the shell body is provided with an installation space and a picking and placing port, the fixing assembly comprises at least one pair of fixing pieces and at least one abutting structure, the two fixing pieces in each pair are respectively arranged on two sides of the chip and respectively abutted against two opposite sides of the chip through the abutting structure so as to fix the chip in the installation space, and when the fixing pieces are staggered with one side surface of the chip far away from the abutting structure, the chip can be moved out of the installation space through the picking and placing port. Compared with the traditional tracing mode, the electronic tracing method can effectively save resources and can quickly know all corresponding information. The chip in the utility model adopts a disassembly design, so that the condition that the material factor and the environmental factor of the shell body interfere with the reading and writing of the chip is effectively avoided, and the information acquisition and updating operation can be normally carried out.

Description

Traceable shell member

Technical Field

The utility model relates to the technical field of product management traceability, in particular to a traceable shell member.

Background

The product management traceability refers to the whole life cycle information record traceability of products, such as commodity production and processing, packaging and storage, channel logistics, terminal sales, authenticity inquiry, data analysis and the like, and relates to the processes of product coding, traceability acquisition, information inspection, data management and control and the like. The traditional tracing mode is to scan the two-dimensional code or the bar code with the related information stored on the product shell, but when the product is required to be maintained in the subsequent use process, the corresponding maintenance record and maintenance information need to be additionally stored and managed, so that resources are consumed, and the additional stored and managed information needs to be called in the subsequent rescanning process, so that the quick understanding of all the information of the product is not facilitated.

In addition, a part of product shells are provided with non-detachable RFID chips, and data of the RFID chips are read out through an RFID reader-writer so as to realize electronic tracing, and the RFID reader-writer can execute writing operation on the RFID chips and update information in time. Because the metal has reflectivity and shielding property on radio frequency signals of the RFID technology and the liquid has disturbance on radio frequency signals of the RFID technology, the RFID reader-writer is difficult to work normally in a liquid environment and when facing an object made of the metal, so that the RFID chip cannot be read and written effectively, and information acquisition and update are affected.

Disclosure of Invention

One advantage of the utility model is that the traceable shell member is provided, the utility model can be traced by electrons, compared with the traditional tracing mode, the utility model effectively saves resources, and can quickly understand all corresponding information.

The utility model has the advantages that the traceable shell member is provided, and the chip in the utility model adopts a disassembly design, so that the condition that the material factors and the environmental factors of the shell body interfere with the reading and writing of the chip is effectively avoided, and the information acquisition and updating operation can be normally performed.

To achieve at least one of the above advantages, the present utility model provides a traceable shell member comprising:

the shell body is provided with an installation space and a taking and placing opening communicated with the installation space;

the chip can be moved out of or into the installation space through the pick-and-place opening;

the fixing assembly comprises at least one pair of fixing pieces and at least one abutting structure, the abutting structure is formed in the installation space and opposite to the picking and placing opening, two fixing pieces in each pair are arranged at opposite intervals and are connected with the shell body, the two fixing pieces in each pair are respectively abutted to two opposite faces of the chip through the abutting structure so as to fix the chip in the installation space, and when the fixing pieces and the chip are far away from one side face of the abutting structure and staggered, the chip can be moved out of the installation space through the picking and placing opening.

According to an embodiment of the present utility model, the fixing member includes a connecting portion and a limiting portion, the connecting portion is mounted on an inner wall of the mounting space, the limiting portion is formed by extending an end portion of the connecting portion away from the inner wall of the mounting space, the limiting portion has a free end portion, the free end portion is located at a position where the limiting portion is away from the connecting portion, the limiting portions of the two fixing members in each pair are spaced apart from each other by a predetermined distance, a portion of the limiting portions are located on a track where the chip moves toward the abutting structure through the pick-and-place opening, the limiting portions of the two fixing members in each pair can be elastically deformed in a manner that the free end portions approach each other by being pressed by the chip moving toward the abutting structure through the pick-and-place opening, and the limiting portions can be elastically reset by themselves without being pressed by the chip and respectively abut against two opposite faces of the chip with the abutting structure.

According to an embodiment of the present utility model, the limiting portion further has a limiting structure, the limiting structure is formed at the free end, the limiting structure is located on a track of the chip moving toward the abutting structure through the pick-and-place opening, the limiting structures of the limiting portions of the two fixing members in each pair can move together with the free end to be away from each other when the limiting portion is pressed by the chip to elastically deform, and the chip can be fixed in the mounting space in a manner that two opposite surfaces of the chip abut against the abutting structure and the limiting structure respectively.

According to an embodiment of the present utility model, the free end portion faces the abutting structure, and the distance between the limiting portions of the two fixing members in each pair is gradually reduced with reference to the direction of the pick-and-place opening facing the mounting space, and the chip can be fixed in the mounting space in a manner that two opposite surfaces thereof abut against the abutting structure and the end surface of the free end portion, respectively.

According to an embodiment of the present utility model, the chip fixed to the mounting space by the fixing member is spaced apart from an inner wall of the mounting space on the chip peripheral side by a predetermined distance.

According to an embodiment of the present utility model, the fixing member includes a connecting portion and a limiting portion, the connecting portion is in threaded connection with an inner wall of the mounting space, the limiting portion is formed by extending the connecting portion, when the chip is kept in abutment with the abutment structure, the connecting portion is in threaded connection with an outside of the chip, and the limiting portion abuts against the chip in a direction of the mounting space toward the pick-and-place opening.

According to an embodiment of the present utility model, the traceable housing member further includes a sealing member, and the sealing member is mounted to the housing body so as to cover the access opening, and is used for separating the chip located in the mounting space from the outside.

According to an embodiment of the present utility model, the traceable shell member further includes at least one sealing member, and when the closure member covers the access opening, the sealing member is located between the closure member and the shell body and surrounds a peripheral side of the access opening, and the sealing member is used for sealing and connecting the closure member and the shell body.

According to one embodiment of the utility model, the sealing member is arranged on the sealing member, the shell body is provided with at least one circle of grooves, each circle of grooves corresponds to one sealing member, and when the sealing member covers the picking and placing opening, the sealing member is pressed against the circle of grooves.

According to an embodiment of the present utility model, two sealing elements are provided, and after the sealing element covers the picking and placing opening, the two sealing elements encircle the peripheral side of the picking and placing opening, wherein the closer to the picking and placing opening, the smaller the corresponding dimension of the sealing element is.

Drawings

Fig. 1 shows a schematic structural view of a traceable shell member according to the present utility model.

Fig. 2 shows a schematic partial structure of a traceable shell member according to the utility model.

Fig. 3 shows a structural cross-section of the traceable shell member of the present utility model.

Fig. 4 shows a structural cross-section of an embodiment of the traceable shell member of the present utility model.

Fig. 5 shows a structural cross-section of another embodiment of the traceable shell member of the present utility model.

Fig. 6 shows another partial schematic structural view of the traceable shell member of the present utility model.

Detailed Description

The following description is presented to enable one of ordinary skill in the art to make and use the utility model. The preferred embodiments in the following description are by way of example only and other obvious variations will occur to those skilled in the art. The basic principles of the utility model defined in the following description may be applied to other embodiments, variations, modifications, equivalents, and other technical solutions without departing from the spirit and scope of the utility model.

It will be appreciated by those skilled in the art that in the present disclosure, the terms "longitudinal," "transverse," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," etc. refer to an orientation or positional relationship based on that shown in the drawings, which is merely for convenience of description and to simplify the description, and do not indicate or imply that the apparatus or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore the above terms should not be construed as limiting the present utility model.

It will be understood that the terms "a" and "an" should be interpreted as referring to "at least one" or "one or more," i.e., in one embodiment, the number of elements may be one, while in another embodiment, the number of elements may be plural, and the term "a" should not be interpreted as limiting the number.

Referring to fig. 1 to 2, a traceable case member according to a preferred embodiment of the present utility model will be described in detail below, the traceable case member including a case body 10 and a chip 20, the case body 10 having a mounting space 101 and a pick-and-place port 102 communicating with the mounting space 101. The chip 20 can be moved out of or into the installation space 101 through the pick-and-place opening 102.

Referring to fig. 1 to 3, the traceable shell member further includes a fixing assembly 30, the fixing assembly 30 includes at least one pair of fixing members 31 and at least one abutting structure 32, the abutting structure 32 is formed in the installation space 101 and opposite to the pick-and-place opening 102, and two fixing members 31 of each pair are disposed at opposite intervals and are connected to the shell body 10. The two fixing members 31 in each pair are respectively abutted to two opposite sides of the chip 20 by the abutting structures 32 respectively so as to fix the chip 20 in the mounting space 101, thereby ensuring that the chip 20 is stably assembled and simultaneously effectively preventing the chip 20 from being swayed in the mounting space 101 to be collided and damaged.

When the fixing member 31 and a side surface of the chip 20, which is far away from the abutting structure 32, are staggered, the chip 20 can be moved out of the mounting space 101 through the pick-and-place opening 102. Therefore, the traceable shell member can be traced by electrons, resources are effectively saved compared with the traditional tracing mode, and all corresponding information can be quickly known. In addition, the chip 20 adopts a disassembly design, so that the condition that the material factor and the environmental factor of the shell body 10 interfere with the reading and writing of the chip 20 is effectively avoided, and the information acquisition and updating operation can be normally performed.

The fixing member 31 includes a connecting portion 311 and a limiting portion 312, the connecting portion 311 is mounted on the inner wall of the mounting space 101, and the limiting portion 312 is formed by extending an end portion of the connecting portion 311 away from the inner wall of the mounting space 101. The limiting portion 312 has a free end 3121, and the free end 3121 is located at a position of the limiting portion 312 away from the connecting portion 311. The limiting portions 312 of the two fixing members 31 in each pair are spaced apart by a predetermined distance, and a part of the limiting portions 312 are located on a track of the chip 20 moving toward the abutting structure 32 through the pick-and-place opening 102. The limiting portions 312 of the two fixing members 31 in each pair can be pressed by the chips 20 moving through the pick-and-place openings 102 and toward the abutting structure 32 to elastically deform in such a manner that the free end portions 3121 approach each other, thereby avoiding a sufficient space for the movement of the chips 20. The limiting portion 312 can elastically reset itself without being pressed by the chip 20 and respectively contact the contact structure 32 with the opposite surfaces of the chip 20, thereby fixing the chip 20 in the mounting space 101.

Preferably, the fixing members 31 are provided with two pairs, and the two pairs of fixing members 31 are spaced apart, and the two pairs of fixing members 31 can fix the chip 20 in the mounting space 101 together with the abutting structure 32, so as to increase the placement stability of the chip 20.

Referring to fig. 3 to 4, preferably, the limiting portion 312 further has a limiting structure 3122, the limiting structure 3122 is formed on the free end 3121, and the limiting structure 3122 is located on a track of the chip 20 moving toward the abutting structure 32 through the pick-and-place opening 102. The stopper structures 3122 of the stopper portions 312 of the two holders 31 in each pair can move together with the free end portions 3121 to be apart from each other when the stopper portions 312 are elastically deformed by the chip 20. The chip 20 can be fixed to the mounting space 101 in such a manner that its opposite surfaces respectively abut against the abutment structure 32 and the stopper structure 3122.

Referring to fig. 3, the limiting structure 3122 is preferably implemented as a protrusion formed at the free end 3121. During the movement of the chip 20 through the pick-and-place opening 102 past the stopper 312 and toward the abutment structure 32, the protrusions of the stopper 312 of the two fixing members 31 in each pair are pressed by the chip 20 to separate the two free end portions 3121 from each other. The protrusion can be reset by the elastic action of the limiting portion 312 to be abutted against the two opposite surfaces of the chip 20 together with the abutting structure 32.

Referring to fig. 4, as a deformable manner, the free end 3121 faces the pick-and-place port 102, and the limiting structure 3122 is implemented as a recess formed in the free end 3121. During the movement of the chips 20 through the pick-and-place openings 102 past the limiting portions 312 and toward the abutting structure 32, the free end portions 3121 of the limiting portions 312 of the two fixing members 31 in each pair are pressed away from each other by the chips 20. When the chip 20 is held in abutment with the abutment structure 32, the chip 20 is engaged in the recess of the free end 3121 that is reset by its own elasticity, and a side surface of the chip 20 away from the abutment structure 32 is held in abutment with an inner wall of the recess.

In an embodiment, the free end 3121 faces the abutting structure 32, and the distance between the limiting portions 312 of the two fixing members 31 in each pair is gradually reduced with reference to the direction in which the pick-and-place opening 102 faces the installation space 101. The chip 20 may be fixed to the mounting space 101 with its opposite surfaces abutting against the abutting structure 32 and the end surface of the free end 3121, respectively, and the limiting structure 3122 is not provided at this time.

It should be noted that the chip 20 fixed to the mounting space 101 by the fixing member 30 is spaced apart from the inner wall of the mounting space 101 on the peripheral side of the chip 20 by a predetermined distance so as to take the chip 20.

Referring to fig. 3 to 5, the abutting structure 32 is preferably implemented as a boss formed on an inner wall of the installation space 101 opposite to the pick-and-place port 102, the boss extending a predetermined length from the inner wall corresponding to the installation space 101 toward the pick-and-place port 102. The boss is used for separating the chip 20 from the inner wall corresponding to the mounting space 101 so as to take the chip 20.

Referring to fig. 5, as a deformable matter, the fixing member 31A includes a connecting portion 311A and a limiting portion 312A, the connecting portion 311A is screwed with the inner wall of the installation space 101, and the limiting portion 312A is formed by extending the connecting portion 311A. When the chip 20 is held in contact with the contact structure 32, the connection portion 311A is screwed to the outside of the chip 20, and the stopper portion 312A contacts the chip 20 in the direction of the mounting space 101 toward the pick-and-place port 102, thereby fixing the chip 20 to the mounting space 101.

Referring to fig. 1, 3 and 6, the traceable case member further includes a sealing member 40, the sealing member 40 is mounted on the case body 10 so as to cover the access opening 102, and the sealing member 40 is used for separating the chip 20 located in the mounting space 101 from the outside, so as to prevent the chip 20 from being damaged by external force.

Referring to fig. 3 and 6, the traceable shell member further comprises at least one sealing member 50, wherein when the closure member 40 covers the access opening 102, the sealing member 50 is located between the closure member 40 and the shell body 10 and surrounds the perimeter of the access opening 102. The sealing member 50 is used for sealing and connecting the sealing member 40 with the housing body 10, so as to seal the access opening 102 and prevent the chip 20 from being corroded by moisture due to the penetration of liquid into the installation space 101.

Preferably, the seal 50 is embodied as a rubber ring.

Preferably, the sealing member 50 is disposed on the closing member 40, and the case body 10 has at least one turn of grooves 103, each turn of groove 103 corresponding to one sealing member 50. When the closing member 40 covers the access opening 102, the sealing member 50 is pressed against the ring groove 103 to close the access opening 102.

Preferably, the sealing member 50 is provided with two. After the closing member 40 covers the pick-and-place opening 102, both sealing members 50 encircle the periphery of the pick-and-place opening 102, wherein the closer to the pick-and-place opening 102, the smaller the corresponding dimension of the sealing member 50. Both of the seals 50 are capable of sealingly connecting the closure 40 with the housing body 10 to achieve a double seal.

The method for installing the traceable shell member is provided, and comprises the following steps:

the chip 20 enters the mounting space 101 through the pick-and-place opening 102 of the shell body 10 and abuts against the abutting structure 32, and the limiting part 312 of the fixing member 31 abuts against one side surface of the chip 20 away from the abutting structure 32 so as to fix the chip 20 in the mounting space 101 together with the abutting structure 32.

It will be appreciated by persons skilled in the art that the embodiments of the utility model described above and shown in the drawings are by way of example only and are not limiting. The advantages of the present utility model have been fully and effectively realized. The functional and structural principles of the present utility model have been shown and described in the examples and embodiments of the utility model may be modified or practiced without departing from the principles described.

Claims (10)

1. Traceable shell member, its characterized in that, traceable shell member includes:

the shell body is provided with an installation space and a taking and placing opening communicated with the installation space;

the chip can be moved out of or into the installation space through the pick-and-place opening;

the fixing assembly comprises at least one pair of fixing pieces and at least one abutting structure, the abutting structure is formed in the installation space and opposite to the picking and placing opening, two fixing pieces in each pair are arranged at opposite intervals and are connected with the shell body, the two fixing pieces in each pair are respectively abutted to two opposite faces of the chip through the abutting structure so as to fix the chip in the installation space, and when the fixing pieces and the chip are far away from one side face of the abutting structure and staggered, the chip can be moved out of the installation space through the picking and placing opening.

2. The traceable shell component according to claim 1, wherein said fixing members comprise a connecting portion and a limiting portion, said connecting portion being mounted on an inner wall of said mounting space, said limiting portion being formed by said connecting portion extending away from an end of said inner wall of said mounting space, said limiting portion having a free end portion located at a position where said limiting portion is away from said connecting portion, said limiting portions of two of said fixing members of each pair being spaced apart from each other by a predetermined distance, a portion of said limiting portions being located on a locus of movement of said chip toward said abutting structure through said pick-and-place opening, said limiting portions of two of said fixing members of each pair being elastically deformable in a manner that said free end portions are adjacent to each other by said chip being pressed toward said abutting structure by said chip, said limiting portions being elastically reset by themselves without being pressed by said chip and abutting against two opposite faces of said chip, respectively.

3. The traceable shell component according to claim 2, wherein the limiting portion further comprises a limiting structure formed on the free end portion, the limiting structure is located on a track of the chip moving toward the abutting structure through the pick-and-place opening, the limiting structures of the limiting portions of the two fixing pieces in each pair can move together with the free end portion to be away from each other when the limiting portion is elastically deformed by the chip, and the chip can be fixed in the mounting space in a manner that two opposite faces of the chip abut against the abutting structure and the limiting structure respectively.

4. The traceable shell component according to claim 2, wherein the free end portion faces the abutting structure, the distance between the limiting portions of the two fixing pieces in each pair is gradually reduced with reference to the direction of the pick-and-place opening toward the installation space, and the chip can be fixed to the installation space in a manner that two opposite faces of the chip abut against the abutting structure and the end face of the free end portion respectively.

5. The traceable shell component according to claim 1, wherein said chip secured to said mounting space by said securing assembly is spaced a predetermined distance from an inner wall of said mounting space on a peripheral side of said chip.

6. The traceable shell component according to claim 1, wherein the fixing member comprises a connecting portion and a limiting portion, the connecting portion is in threaded connection with an inner wall of the mounting space, the limiting portion is formed by extending the connecting portion, when the chip is kept in contact with the abutting structure, the connecting portion is in threaded connection with the outside of the chip, and the limiting portion abuts against the chip in a direction of the mounting space toward the pick-and-place opening.

7. The traceable casing component according to any one of claims 1-6, further comprising a closure mounted to said casing body so as to cover said access opening, said closure being adapted to isolate said chip located in said mounting space from the outside.

8. The traceable shell component according to claim 7, further comprising at least one seal positioned between said closure and said shell body and surrounding a perimeter of said access opening when said closure is closed over said access opening, said seal being configured to sealingly connect said closure to said shell body.

9. The traceable shell component according to claim 8, wherein said seal is disposed on said closure, said shell body having at least one ring of grooves, each of said ring of grooves corresponding to one of said seals, said seal being crimped to said ring of grooves when said closure is closed over said access opening.

10. The traceable shell component according to claim 9, wherein there are two of said seals, both of said seals surrounding a perimeter of said access opening after said closure has been closed over said access opening, wherein the closer to said access opening the corresponding seal is of smaller size.