CN217888283U - Metal particle collecting and removing device and oil groove - Google Patents

Abstract

The utility model discloses a clearing device and oil groove are collected to metal particle, this metal particle collects clearing device includes: the outer layer sleeve is a pipeline with two open ends, and an accommodating space is formed inside the outer layer sleeve; the strong magnetic bar is movably arranged in the accommodating space of the outer layer sleeve; and the handheld carrying handle is connected with one end of the strong magnetic rod through a connecting piece. In this way, clearing device and oil groove are collected to metal particle of this application has magnetic property through strong bar magnet and adsorbs metal particle, come the specific metal impurity that removes in the oil, metal particle impurity edulcoration effect is better, the direct contact of strong bar magnet and metal has been avoided to outer cover simultaneously, metal particle can adsorb on outer cover surface, after the device finishes using, take out strong bar magnet from outer cover, the metal particle on outer cover surface can directly drop, be convenient for collect the metal debris of cleaing away out fast, it is more convenient that the device clears up.

Description

Metal particle collecting and removing device and oil groove

Technical Field

The utility model relates to a metal particles clears away technical field in the oil, especially relates to a metal particles collects clearing device and oil groove.

Background

The existing method for removing impurities from oil generally uses a filtering method, a filter screen is easy to deform during filtering, a system filter has short filtering service life, the filtering effect cannot meet the requirement, the impurity removing effect can be influenced, the oil has poor fluidity under the low-temperature condition, the viscosity is high, the oil is not easy to filter, and metal impurities in the oil cannot be specifically removed.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the main technical problem who solves provides a clearing device and an oil groove are collected to metal particle, can effectively improve the ability of cleaing away to metal particle in the oil, and the convenient flexibility of on-the-spot installation can repeatedly use.

In order to solve the technical problem, one technical solution adopted by the present invention is to provide a metal particle collecting and removing device, which comprises an outer layer sleeve, a strong magnetic rod and a handheld carrying handle, wherein the outer layer sleeve is a pipeline with openings at two ends, and an accommodating space is formed inside the outer layer sleeve; the strong magnetic bar is movably arranged in the accommodating space of the outer layer sleeve; the handheld carrying handle is connected with one end of the strong magnetic rod through a connecting piece.

The strong magnetic rod is a cylinder, the accommodating space is a cylinder space, and the diameter of the accommodating space is not smaller than that of the strong magnetic rod.

Wherein, one end of the outer layer sleeve is connected with the handheld carrying handle through the end plate.

Wherein, still include: and the gasket is positioned between the outer layer sleeve and the end plate.

Wherein, another strong bar magnet is connected through the connecting piece to the strong bar magnet other end, prolongs strong bar magnet length.

The connecting piece is a wafer and bolts extending towards the two bottom surfaces of the wafer, and the two bolts are screwed into screw holes preset at the ports of the two strong magnetic rods respectively.

Wherein, the other end of the outer layer sleeve is connected with the other outer layer sleeve through a through hole, and the length of the outer layer sleeve is prolonged.

Wherein, still include: the end face sealing cover is connected with the other end of the outer layer sleeve connected with the handheld carrying handle.

Wherein, the length of the outer layer sleeve is longer than that of the strong magnetic rod.

In order to solve the above technical problem, the present application adopts another technical solution: the utility model provides an oil groove, collects clearing device including cell body and metal particle, the cell body forms an accommodation space, and metal particle collects clearing device and cell body swing joint, and at least part is arranged in the accommodation space.

The utility model has the advantages that: different from the situation of the prior art, the metal particle collecting and removing device comprises an outer layer sleeve, a strong magnetic rod and a handheld carrying handle, wherein the outer layer sleeve is a pipeline with openings at two ends, and an accommodating space is formed inside the outer layer sleeve; the strong magnetic bar is movably arranged in the accommodating space of the outer layer sleeve; the handheld carrying handle is connected with one end of the strong magnetic rod through a connecting piece and is designed in a rectangular shape. The utility model provides a metal particle collects clearing device sets up outer cover outside strong magnetic rod, when putting into the oil groove with the device, strong magnetic rod can adsorb metal particle on outer cover, and is stronger to the specific impurity metal particle scavenging capacity in the oil, finishes the back when the device uses, takes out strong magnetic rod from outer cover.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts. Wherein:

FIG. 1 is a schematic view of an embodiment of a metal particle collecting and removing apparatus according to the present application;

fig. 2 is an exploded view of another embodiment of the metal particle collecting and removing apparatus of the present application.

Reference numerals: 100. a metal particle collecting and removing device; 10. an outer layer is sleeved; 11. a strong magnetic bar; 12. a handle is held by hand; 13. a gasket; 14. a connecting member; 15. end face capping; 16. an end plate; 17. Straight-through; 18. a wafer; 19. and (4) bolts.

Detailed Description

In order to make the technical problems solved, the technical solutions adopted, and the technical effects achieved by the present application clearer, the technical solutions of the embodiments of the present application will be further described in detail below with reference to the accompanying drawings.

Reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment can be included in at least one embodiment of the application. The appearances of the phrase in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. It is explicitly and implicitly understood by one skilled in the art that the embodiments described herein can be combined with other embodiments.

In order to be able to specifically filter the metal particles in the oil, the filter device is made more durable. The application provides a clearing device is collected to metal particle, and this clearing device is collected to metal particle is provided with strong bar magnet, adsorbs the metal particle in the oil on outer sheathe through strong bar magnet, and the device is stronger to metal particle's edulcoration ability, can dismantle moreover, is convenient for collect the metal debris of cleaing away out fast, and the convenient flexibility of on-the-spot installation is convenient, and it is more convenient to be convenient to maintain and use.

The following describes a metal particle collecting and removing device provided by the present invention in detail with reference to the following embodiments.

Referring to fig. 1, fig. 1 is a schematic structural diagram of a metal particle collecting and removing apparatus 100 according to an embodiment of the present disclosure. The metal particle collecting and removing device 100 comprises an outer layer sleeve 10, a strong magnetic rod 11 and a handheld carrying handle 12.

In this embodiment, the outer layer sleeve 10 is a pipe with two open ends, and a receiving space is formed inside the pipe. Specifically, outer cover 10 is non-metallic material, and what this device utilized to the edulcoration principle of the metal particle of oil is that magnetic force forms inter attraction with the structure that the device has magnetism, leads to the device to be difficult to install and dismantle with non-metallic material can avoid by outer cover 10 adoption non-metallic material.

Further, in some embodiments, the outer layer sleeve 10 can further be made of an oleophobic material, such as teflon, and the outer layer sleeve 10 can be made of an oleophobic material so that the surface of the device does not adsorb oil, and the cleaning of the metal particle collecting and removing device 100 is easier after the device is used.

In this embodiment, the ferromagnetic rod 11 is movably disposed in the accommodating space of the outer layer sleeve 10. Specifically, the ferromagnetic rod 11 has high magnetism, and a magnetic material can adsorb magnetic metals such as iron, cobalt, and nickel. When the device is inserted into the oil to be cleaned, the strong magnetic rod 11 provides magnetic force to adsorb metal particles in the oil, so that the effect of cleaning the metal particles in the oil is achieved. Wherein, the strong magnetic bar 11 is arranged in the outer layer sleeve 10. The outer layer sleeve 10 can protect the strong magnetic rod 11 and can prevent the strong magnetic rod 11 from directly contacting with metal particles. After the device is used, the strong magnetic rod 11 is drawn out from the outer layer sleeve 10, so that the metal particles adsorbed by the outer layer sleeve 10 can fall off, and the metal particles are more convenient to clean.

In this embodiment, the handle 12 is connected to one end of the bar 11 by a connector 14 and is rectangular. Specifically, the handle 12 is convenient for the user to hold the device, in this embodiment, the handle 12 is rectangular, in other embodiments, the handle 12 can be round, T-shaped, triangular, etc., which should also be included in the protection scope of the metal particle collecting and removing device 100 of the present application, and is not limited thereto.

Be different from prior art, this application provides a clearing device is collected to metal particle, and this metal particle collects clearing device includes outer cover, strong magnetic rod and handheld carrying handle. The outer layer sleeve is a pipeline with two open ends. The strong magnetic bar is movably arranged in the accommodating space of the outer layer sleeve. The handheld carrying handle is connected with one end of the strong magnetic rod through a connecting piece and is designed in a rectangular shape. The utility model provides a metal particle collects clearing device sets up outer cover outside strong magnetic rod, when putting into the oil groove with the device, with the help of the magnetism of strong magnetic rod, adsorbs the metal particle in the oil, compares in other edulcoration devices such as filtration, and is better to the edulcoration effect of specific metal particle debris, and the device is more durable, the convenient flexibility of on-the-spot installation.

Referring to fig. 2, fig. 2 is an exploded view of another embodiment of the metal particle collecting and removing apparatus 100 according to the present application.

In this embodiment, the ferromagnetic rod 11 is a cylinder, the accommodating space is a cylindrical space, and the diameter of the accommodating space is not smaller than that of the ferromagnetic rod 11. Specifically, the metal particle collecting device is wholly represented as a cylinder, and the device surface does not have edges and corners, and the security is better, and is milder pleasing to the eye in the vision. However, in other embodiments, the strong magnetic rod 11 and the accommodating space in the metal particle collecting and removing device 100 may be other shapes, such as a rectangular parallelepiped, a triangular prism, etc., which should also be included in the protection scope of the metal particle collecting and removing device 100 of the present application, and are not limited in this application.

In this embodiment, the other end of the strong magnetic bar 11 is connected to another strong magnetic bar 11 through a connecting member 14, so as to extend the length of the strong magnetic bar 11. Specifically, 11 both ends of strong bar magnet are all preset with connecting piece 14 assorted hole groove, 11 one end of strong bar magnet is connected for handheld carrying handle 12, another strong bar magnet 11 can be connected through connecting piece 14 to the other end, in this embodiment, the structure that provides magnetism in the clearing device 100 is collected to the metal granule comprises 11 end to end connections of two strong bar magnets, in other embodiments, the structure that provides magnetism also can be by one, or three 11 end to end connections of strong bar magnet constitute, the high flexibility adjustment of the oil groove of clearing device 100 matching is collected by and to the metal granule to specific length, no matter how many strong bar magnets 11 of structure that clearing device 100 provided magnetism are collected by the metal granule and are formed, it all should contain the scope that clearing device 100 will be protected in this application metal granule.

In this embodiment, the connecting members 14 are a disk 18 and bolts 19 extending toward two bottom surfaces of the disk 18, and the two bolts 19 are screwed into the screw holes preset at the ports of the two strong magnetic rods 11. Specifically, in the present embodiment, the handheld handle 12 is connected to the strong magnetic rod 11 in the metal particle collecting and removing device 100, the connection between the strong magnetic rod 11 and the strong magnetic rod 11 is performed through the connecting piece 14, each connection port of the strong magnetic rod 11 and the handheld handle 12 is preset with a threaded hole matching with the bolt 19 of the connecting piece 14, in the present embodiment, the metal particle collecting and removing device 100 is connected to the corresponding component through the wafer 18 and the connecting pieces 14 with the bolts 19 on both bottom surfaces, in other embodiments, the corresponding component may also be connected through other structures, for example, a threaded hole is arranged at one end of the strong magnetic rod 11, a thread matching with the threaded hole is arranged on an outer surface of one end, two strong magnetic rods 11 are directly connected with the thread rotating screw through the arranged threaded hole, the connecting piece 14 is eliminated, and the handheld handle 12 and the strong magnetic rod 11 may also be connected through the arrangement, wherein changes of the relevant connection methods should be included in the scope to be protected by the metal particle collecting and removing device 100, and are not specifically limited herein.

In this embodiment, the other end of the outer layer sleeve 10 is connected to the other outer layer sleeve 10 through the through hole 17, so as to extend the length of the outer layer sleeve 10. Specifically, the outer layer sleeve 10 may be connected to another outer layer sleeve 10 to extend the length, like the ferromagnetic rod 11. The through 17 is a through pipe, the inner diameter of the through 17 is the same as the outer diameter of the outer layer sleeve 10, threads (not shown) are preset on the inner sides of two ports of the through 17, matched threads are arranged on the outer sides of the connecting ends of the outer layer sleeve 10 and the through 17, and the connecting ends of the two outer layer sleeves 10 are screwed into the through 17 to realize the connection of the two outer layer sleeves 10. The connection between the outer layer sleeve 10 and the outer layer sleeve 10 can be not only through 17, but in other embodiments, the connection between the outer layer sleeve 10 and the outer layer sleeve 10 can also be directly connected by providing a threaded hole at one end of the outer sleeve 10 and a matching threaded screw-free connector 14 at the outer surface of the one end. In this embodiment, the structure for providing magnetism in the metal particle collecting and removing device 100 is formed by connecting two strong magnetic rods 11 end to end, and the outer wrapping layer is formed by connecting two outer sleeves 10 end to end. In other embodiments, when the structure for providing magnetism in the metal particle collecting and removing device 100 is composed of three or other numbers of strong magnetic rods 11 connected end to end, the outer wrapping layer is correspondingly composed of three or other numbers of outer sleeves 10 connected end to end. The specific number of the outer layer sleeve 10 is flexibly adjusted by the number of the strong magnetic rods 11, which should be included in the protection scope of the metal particle collecting and removing device 100 of the present application, and is not limited in detail herein.

In this embodiment, the length of the outer sheath 10 is greater than the length of the ferromagnetic rods 11. Specifically, the outer layer sleeve 10 is used to protect the ferromagnetic rods 11 and prevent the ferromagnetic rods 11 from directly contacting with the metal particles, so the outer layer sleeve 10 needs to completely wrap the ferromagnetic rods 11, the length of the two connected outer layer sleeves 10 is greater than the length of the two connected ferromagnetic rods 11 in this embodiment, and in other embodiments, the total length of the plurality of outer layer sleeves 10 connected should be greater than the total length of the plurality of ferromagnetic rods 11 connected.

In this embodiment, the outer layer sleeve 10 is connected at one end to the hand-held handle 12 by an end plate 16. Specifically, the handle 12 is connected to one end of the bar magnet 11 through a connecting member 14, and the connecting member 14 is a circular plate 18 and bolts 19 extending toward two bottom surfaces of the circular plate 18. The end plate 16 is provided with a central hole (not shown) with a diameter larger than the diameter of the bolt 19 and smaller than the diameter of the disc 18, when the hand-held handle 12 is connected with the strong magnetic rod 11 through the connecting piece 14, the connecting piece 14 penetrates through the end plate 16, the disc 18 is used for clamping the end plate 16, and the end plate 16 is clamped between the hand-held handle 12 and the strong magnetic rod 11. Meanwhile, the end plate 16 is also provided with a through 17 which can be connected with the outer layer sleeve 10 and faces the strong magnetic rod 11, and the end plate is connected with the outer layer sleeve 10 through the through 17.

It should be noted that the present embodiment only shows a connection manner among the handheld handle 12, the strong magnetic rod 11 and the outer layer sleeve 10, and other connection manner changes without changing the connection relationship of the device should be included in the protection scope of the metal particle collecting and removing device 100 of the present application.

In this embodiment, a gasket 13 is further included, and the gasket 13 is located between the outer sleeve 10 and the end plate 16. In particular, the gasket 13 acts as a sealing means, preventing the device from leaking, the oil entering the inner face of the device making it difficult to clean and even affecting its service life.

In this embodiment, the hand-held carrying handle further comprises an end cover 15, and the end cover 15 is connected with the other end of the outer layer sleeve 10 connected with the hand-held carrying handle 12. Specifically, the end cover 15 and the gasket 13 also function as a sealing device, a thread (not shown) is arranged on the inner surface of the end cover 15, a matching thread (not shown) is arranged on the outer surface of one end of the outer layer sleeve connected with the end cover, and the end cover 15 and the outer layer sleeve 10 are in threaded matching rotation connection. The connection manner is not limited to the connection by a screw thread, and may be connected by other manners such as a bolt, and is not particularly limited herein.

Be different from prior art, this application provides a clearing device is collected to metal particle, and this metal particle collects clearing device and sets up outer cover outside strong magnetic rod, when putting into the oil groove with the device, with the help of the granule in the magnetic adsorption oil of strong magnetic rod. Wherein, strong bar magnet all adopts the extensible connection setting with outer cover, through a plurality of strong bar magnet end to end connections, a plurality of outer cover end to end connections make the device main part elongated and be applicable to the oil container of more different models, and wherein metal particles collects clearing device and still is provided with gasket and terminal surface closing cap, effective sealing device of ability, prevents in the oil infiltration device. The use experience of the metal particle collecting and removing device is better.

The present application also proposes an oil sump (not shown) comprising a sump body and a metal particle collection and removal device 100.

Specifically, be provided with a plurality of metal particle on the cell body and collect clearing device 100 male trompil, after metal particle collection clearing device 100 inserts the trompil, collect clearing device through standard bolt fastening cell body and metal particle, wherein. The number and position of the openings on the tank body and the depth of the tank body are not fixed, so long as the openings can contain oil and provide the openings matched and fixed with the metal particle collecting and removing device, and the openings are not particularly limited.

In a specific embodiment, assemble clearing device 100 is collected to metal granule, collect clearing device 100 with metal granule and insert in the predetermined trompil of oil groove, the oil that the metallic impurity that remains to be clear away is filled in the oil groove, the metal particulate matter adsorbs the surface at the outer cover 10 of clearing device 100 is collected to metal granule under strong magnetic action, after the adsorption process, collect clearing device 100 with metal granule and take out from the cell body, after taking out strong magnetic rod 11 from outer cover 10, the metal particulate matter that adsorbs on outer cover 10 surface loses magnetic force and will drop naturally, reach the mesh of clearing away the metal particulate matter in the oil, the debris of clearing away can be collected fast simultaneously.

The above description is only an embodiment of the present application, and not intended to limit the scope of the present application, and all modifications that can be made by using equivalent structures or equivalent principles in the contents of the specification and the drawings or directly or indirectly applied to other related technical fields are also included in the scope of the present application.

Claims (8)

1. A metal particle collecting and removing device, comprising:

the outer layer sleeve is a pipeline with two open ends, and an accommodating space is formed inside the outer layer sleeve;

the strong magnetic bar is movably arranged in the accommodating space of the outer layer sleeve;

the handheld carrying handle is connected with one end of the strong magnetic rod through a connecting piece;

the other end of the strong magnetic rod is connected with the other strong magnetic rod through a connecting piece, so that the length of the strong magnetic rod is prolonged;

the other end of the outer layer sleeve is connected with the other outer layer sleeve through a through hole, so that the length of the outer layer sleeve is prolonged.

2. The metal particle collecting and removing device according to claim 1,

the strong magnetic rod is a cylinder, the accommodating space is a cylinder space, and the diameter of the accommodating space is not smaller than that of the strong magnetic rod.

3. The metal particle collecting and removing apparatus according to claim 1,

one end of the outer layer sleeve is connected with the handheld carrying handle through an end plate.

4. The metal particle collecting and removing apparatus as set forth in claim 3, further comprising:

a gasket positioned between the outer layer sleeve and the end plate.

5. The metal particle collecting and removing device according to claim 1,

the connecting piece is a wafer and bolts extending towards the two bottom surfaces of the wafer, and the two bolts are screwed into screw holes preset in the ports of the two strong magnetic rods respectively.

6. The metal particle collecting and removing apparatus as claimed in claim 1, further comprising:

and the end face sealing cover is connected with the other end of the outer layer sleeve connected with the handheld carrying handle.

7. The metal particle collecting and removing device according to claim 1,

the length of the outer layer sleeve is greater than that of the strong magnetic rod.

8. An oil tank, which is characterized by comprising a tank body and a metal particle collecting and removing device, wherein the metal particle collecting and removing device is the metal particle collecting and removing device as claimed in any one of claims 1 to 7;

the groove body forms an accommodating space, and the metal particle collecting and removing device is movably connected with the groove body and at least partially positioned in the accommodating space.

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