CN115621803A

CN115621803A - Slot cleaning tool and method for electronic equipment

Info

Publication number: CN115621803A
Application number: CN202210055654.9A
Authority: CN
Inventors: 邓阳平
Original assignee: Honor Device Co Ltd
Current assignee: Honor Device Co Ltd
Priority date: 2022-01-18
Filing date: 2022-01-18
Publication date: 2023-01-17
Anticipated expiration: 2042-01-18
Also published as: CN115621803B

Abstract

The embodiment of the application discloses a slot cleaning tool and a slot cleaning method for electronic equipment. The electronic equipment of the embodiment of the application can be a terminal product provided with a screen, such as a mobile phone, a tablet personal computer, a handheld computer, an interphone, a POS machine, a vehicle traveling data recorder, wearable equipment, virtual reality equipment, a vehicle-mounted front-mount device and the like. The slot cleaning tool comprises a glue accommodating body, an inserting body and a glue guiding body; the glue containing body is provided with a containing cavity for containing cleaning glue, the inserting body is provided with an inner cavity, and the glue guiding body is provided with a glue guiding passage capable of communicating the containing cavity with the inner cavity; the plug-in body is used for being plugged in a slot of the adaptive electronic equipment; the side wall part of the insertion body is provided with a glue passing channel which is communicated with the inside and the outside. This scheme of adoption can the clean up electronic equipment's slot, and can not cause mechanical damage to the conductive element in the slot to can not influence electronic equipment's life-span.

Description

Slot cleaning tool and method for electronic equipment

Technical Field

The present disclosure relates to cleaning tools for electronic products, and particularly to a cleaning tool for a slot of an electronic device and a method for cleaning a slot of an electronic device.

Background

The electronic equipment can be provided with a slot for plugging a charger, an earphone, a USB flash disk and other electric devices. The slots are easy to accumulate dust, the dust accumulated in the slots is cleaned regularly, and the problem that the electronic equipment is in poor contact with an external electric device due to serious dust accumulation can be avoided.

At present, sharp objects such as toothpicks or cotton swabs are usually inserted into slots of electronic equipment for cleaning, and the slots are difficult to clean and easily cause mechanical damage to conductive elements in the slots by the cleaning mode, so that the service life of the electronic equipment is influenced.

Disclosure of Invention

An embodiment of the application provides a slot cleaning tool for electronic equipment, which can clean up slots of the electronic equipment and can not cause mechanical damage to conductive elements in the slots, thereby not affecting the service life of the electronic equipment.

In a first aspect, the slot cleaning tool comprises a body, wherein the body comprises a glue accommodating body, an inserting body and a glue guiding body; the glue containing body is provided with a containing cavity for containing cleaning glue, the inserting body is provided with an inner cavity, and the glue guiding body is provided with a glue guiding passage capable of communicating the containing cavity with the inner cavity; the plug-in body is used for being plugged in a slot of the adaptive electronic equipment; the side wall part of the insertion body is provided with a glue passing channel which is communicated with the inside and the outside.

During cleaning, the inserting body is inserted into the slot of the adaptive to be cleaned, after insertion, a gap is ensured between the side wall part of the inserting body and the side slot wall of the adaptive slot, and the glue passing channel is communicated with the inner cavity of the inserting body and the gap. The clearance that holds in the colloid flows to the inner chamber of the inserted body through leading gluey passageway, then the clearance is glued from the inner chamber of the inserted body and is flowed to the clearance between inserted body and the slot through gluey passageway, is full of this clearance gradually, and the deposition in the slot can the adhesion on the clearance is glued, later waits to pull out slot clearance instrument together with clearance glue from the slot after the clearance glue solidifies to bring out the deposition that adheres on the clearance glue together, reach the clearance purpose from this. The slot cleaning tool can clean the slot of the electronic equipment, and cannot cause mechanical damage to the conductive element in the slot, so that the service life of the electronic equipment cannot be influenced.

In an embodiment of the first aspect, based on the first aspect, a through hole is formed in a side wall portion of the insert and/or a notch is formed in an edge of the side wall portion of the insert, and the through hole and/or the notch form the glue passing channel. It solidifies the back and forms the bridge to cross the clearance glue in the gluey passageway, and this bridge will insert internal clearance glue and insert the body and the clearance between the slot is glued and is linked into the monoblock, and when adopting the through-hole to form gluey passageway, a part of lateral wall portion is located the bridge bottom, when pulling out the slot clearance instrument outward, and the lateral wall portion that is located the bridge bottom can exert outside thrust to gluing the skeleton, makes gluey whole and slot break away from, can avoid the clearance glue to remain in the slot like this.

A second aspect according to the first aspect or an embodiment of the first aspect, the insertion body is provided with a projection portion that projects outward from the side wall portion; and under the state that the insertion body is inserted into the adaptive slot, the bulge part is contacted with the side slot wall of the slot. Due to the design, after the insertion body is inserted into the slot, under the contact and stop action of the convex part and the side slot wall of the slot, the side wall part of the insertion body can keep a certain distance with the side slot wall of the slot, so that a gap can be ensured between the side wall part of the insertion body and the side slot wall of the slot.

In a first embodiment of the second aspect, based on the second aspect, the side wall portion of the insert body is a flat tubular side wall portion, and the convex portions are provided on both large-area sides of the flat tubular side wall portion. Due to the design, after the insertion body is inserted into the slot, a gap is reserved between the insertion body and two side faces with larger areas of the side slot wall of the slot (the two side faces are easy to accumulate dust), and therefore the two side faces with larger areas can be effectively cleaned.

A second embodiment of the second aspect is based on the second aspect or the first embodiment of the second aspect, wherein the outer surface of the protrusion is an arc-shaped surface, so that the protrusion makes point contact with the side groove wall of the insertion groove. By the design, the contact area between the convex part and the side groove wall of the slot is small, so that the problem that the accumulated ash on the side groove wall of the slot is pushed to the bottom of the slot in the process that the inserting body is inserted into the slot is avoided, and the cleaning effect is influenced if the accumulated ash on the side groove wall of the slot is pushed to the bottom of the slot.

In a third aspect, based on the first aspect, or various embodiments of the second aspect, or the second aspect, the glue container is an open glue container provided with a glue filling opening; or the colloid container is a closed colloid container pre-filled with cleaning glue. And an open glue containing body is adopted, and during cleaning, the cleaning glue is poured into the glue containing body through a glue pouring port. The sealed glue containing body is adopted, and the glue outlet is opened during cleaning, so that cleaning glue in the sealed glue containing body flows out through the glue outlet.

In a fourth aspect, based on the first aspect or various embodiments of the second aspect or the third aspect, the glue container body is provided with an annular side wall portion, the annular side wall portion includes a tapered section, an inner diameter of the tapered section is tapered from a top end to a bottom end, the glue guiding body is connected to the bottom end of the tapered section, and a diameter of a glue guiding passage of the glue guiding body is not greater than a minimum inner diameter of the tapered section. Design like this, the convergent section of holding the colloid can play the water conservancy diversion effect, and the clearance that the guide held the intracavity is glued and is flowed into and lead gluey route, leads gluey route and plays the throttling action, makes the clearance glue slowly steadily get into the inner chamber of the inserted body, avoids the too big emergence overflow of flow.

In a fifth aspect, based on the first aspect, the various embodiments of the first aspect, the second aspect, the various embodiments of the second aspect, the third aspect, or the fourth aspect, the top end of the insert body is connected to the conductive adhesive body, the bottom end of the insert body is provided with a socket, and the charging terminal in the slot of the adapted electronic device can extend into the inner cavity of the insert body through the socket. By the design, when the cleaning tool is used for cleaning the charging slot, the interference between the insert and the charging terminal in the charging slot can be avoided.

In a sixth aspect, based on the first aspect or various embodiments of the first aspect or the second aspect or various embodiments of the second aspect or the third aspect or the fourth aspect or the fifth aspect, the body is of unitary construction; or the inserting body and the conductive colloid are detachably connected; or the conductive colloid and the colloid containing body are detachably connected. With the inserted body with lead the colloid or lead the colloid and hold the colloid and design into releasable connection, like this, can be for same holding the colloid configuration multiple inserted body to the different of slot according to treating the clearance comes the nimble inserted body of changing.

In a seventh aspect, based on the first aspect, the various embodiments of the first aspect, the second aspect, the various embodiments of the second aspect, the third aspect, the fourth aspect, the fifth aspect, the sixth aspect, or the seventh aspect, the socket cleaning tool further includes a positioning body, the positioning body is connected with the body, and the body is positioned on the electronic device through the positioning body. By the design, during cleaning, the relative position of the cleaning tool and the electronic equipment is fixed, so that the cleaning effect is guaranteed, and the cleaning operation is simplified.

In a first mode of the seventh aspect, according to the seventh aspect, the body is integrally formed with the positioning body; or the body and the positioning body are formed in a split mode and assembled together.

A second implementation manner of the seventh aspect is based on the seventh aspect or the first implementation manner of the seventh aspect, wherein the positioning body includes two sets of clamping arms, and the two sets of clamping arms clamp the electronic device by using their own elastic force and/or a fastening force of a fastener. The design can adapt to electronic equipment with different sizes.

A third aspect of the seventh aspect is the second aspect of the seventh aspect, wherein the clip arm includes a clamping portion that clamps the electronic device, and a first arm portion connected between one end of the clamping portion and the body, the first arm portion is a flexible bending arm portion, and the first arm portions of the two sets of clip arms are bent toward each other. With this arrangement, the elasticity of the bent first arm portion enables the clamping portion to clamp the electronic apparatus more tightly.

A fourth embodiment of the seventh aspect is based on the third embodiment of the seventh aspect, wherein the clip arms include second arms connected to the other end of the clamping portion, the second arms are inclined arms, the second arms of the two sets of clip arms are spaced apart from each other, and a distance between the second arms of the two sets of clip arms is gradually reduced in a direction approaching the clamping portion. By the design, the inclined second wall part can guide the electronic equipment to enter between the clamping parts of the two clamping arms.

Another embodiment of the present application provides a slot cleaning method for an electronic device, where the cleaning method includes: and injecting cleaning glue into the slot of the electronic equipment, and taking out the cleaning glue from the slot of the electronic equipment after the cleaning glue is solidified. The cleaning method can clean the slot of the electronic equipment, and does not cause mechanical damage to the electrical elements in the slot, thereby not influencing the service life of the electronic equipment.

Drawings

FIG. 1 is a front view of a first embodiment of a slot cleaning tool of an electronic device provided herein;

FIG. 2 is a side view of FIG. 1;

FIG. 3 is a top view of FIG. 1;

FIG. 4 is a front view of the socket cleaning tool of FIG. 1 cleaning a socket of an electronic device;

FIG. 5 is a side view of the socket cleaning tool of FIG. 1 cleaning a socket of an electronic device;

FIG. 6 is a cross-sectional view of the socket cleaning tool of FIG. 1 cleaning a socket of an electronic device;

FIG. 7 isbase:Sub>A cross-sectional view A-A of FIG. 6;

FIG. 8 is a front view of a second embodiment of a slot cleaning tool of an electronic device provided herein;

FIG. 9 is a front view of a second embodiment of a slot cleaning tool of the electronic device provided in the application;

fig. 10 is a side view of fig. 9.

Description of reference numerals:

100 a body, 101 colloid accommodating holes, 101a colloid filling port, 101b colloid outlet, 101c tapered section, 101d equal-diameter section, 102 insert, 102a side wall part, 102b through hole, 102c bulge part, 102d gap and 103 conductive colloid;

200 positioning body, 201 clamping arm, 201a clamping part, 201b first arm section, 201c second arm section and 202 fastener;

300 electronic device, 301 slot, 302 charging terminal;

and (A) a gap.

Detailed Description

First embodiment

Referring to fig. 1-7, fig. 1 is a front view of a first embodiment of a slot cleaning tool of an electronic device provided in the present application; FIG. 2 is a side view of FIG. 1; FIG. 3 is a top view of FIG. 1; FIG. 4 is a front view of the socket cleaning tool of FIG. 1 cleaning a socket of an electronic device; FIG. 5 is a side view of the socket cleaning tool of FIG. 1 cleaning a socket of an electronic device; FIG. 6 is a cross-sectional view of the socket cleaning tool of FIG. 1 cleaning a socket of an electronic device; fig. 7 isbase:Sub>A sectional viewbase:Sub>A-base:Sub>A of fig. 6.

In this embodiment, the socket cleaning tool includes a body 100 and a positioning body 200. When cleaning, the cleaning glue is injected into the slot 301 of the electronic device 300 to be cleaned through the body 100, and the body 100 plays a role in assisting the injection of the cleaning glue. The positioning body 200 fixes the relative position of the main body 100 and the electronic device, and the positioning body 200 plays a role in positioning the main body 100.

In this embodiment, the body 100 includes a gel receiving body 101, an insert body 102, and a gel guiding body 103. Appearance colloid 101 is equipped with and holds the chamber for hold the clearance and glue. The cleaning glue is preferably low-viscosity high-tensile-strength glue capable of being rapidly solidified at normal temperature. The insert 102 is provided with an inner cavity. The glue-guiding body 103 is provided with a glue-guiding passage capable of communicating the accommodating cavity of the glue-accommodating body 101 with the inner cavity of the insertion body 102. The cleaning gel in the receiving cavity can flow into the inner cavity of the insert 102 through the gel-guiding passage. The side wall 102a of the insertion body 102 is provided with a glue passage (102 b in fig. 7) penetrating inside and outside.

When cleaning is performed, the insertion body 102 is inserted into the slot 301 of the adaptive electronic device, as shown in fig. 7, a gap a is formed between the side wall portion 102a of the insertion body 102 and the side wall of the adaptive slot 301, the glue passing channel communicates the inner cavity of the insertion body 102 with the gap a, cleaning glue flows from the inner cavity of the insertion body 102 to the gap a between the insertion body 102 and the slot 301 through the glue passing channel, the gap a between the insertion body 102 and the slot 301 is gradually filled, dust in the slot 301 adheres to the cleaning glue, and then the slot cleaning tool and the cleaning glue are pulled out from the slot 301 after the cleaning glue is solidified, so that the dust adhering to the cleaning glue is taken out together, and the cleaning purpose is achieved. The slot cleaning tool can clean the slot 301 of the electronic equipment, and does not cause mechanical damage to the electrical element in the slot 301, so that the service life of the electronic equipment is not influenced.

In this embodiment, the via hole 102b provided on the side wall portion 102a of the insertion body 102 is used to form a via. Design like this, the clearance glue in the through-hole 102b solidifies the back and forms the bridge, and this bridge will insert the clearance glue in the body 102 and insert the body 102 and the clearance between the slot 301 is glued and is connected into monoblock and glue, and partly position in this bridge bottom of lateral wall portion 102a is when pulling out the slot clearance instrument outward, and the lateral wall portion 102a that is located the bridge bottom can exert outside thrust to the bridge, impels monoblock glue and slot 301 to break away from, can avoid gluing like this to remain in slot 301.

In this embodiment, the insertion body 102 is provided with a projection 102c, and the projection 102c projects outward from the side wall portion 102a of the insertion body 102. As shown in fig. 7, the protruding portion 102c contacts with the side wall of the slot 301 when the inserting body 102 is inserted into the slot 301 of the electronic device, so that after the inserting body 102 is inserted into the slot 301, the side wall 102a of the inserting body 102 can keep a certain distance from the side wall of the slot 301 under the contact stop action of the protruding portion 102c and the side wall of the slot 301, thereby ensuring that a gap a is formed between the side wall 102a of the inserting body 102 and the side wall of the slot 301.

In this embodiment, as shown in fig. 6 and 7, the side wall portion 102a of the insert 102 is a flat tubular side wall portion, two side surfaces of the flat tubular side wall portion have a large area (one side surface of the flat tubular side wall portion having a large area is seen in fig. 6), the other two side surfaces have a small area, and the cross section of the flat tubular side wall portion is substantially elliptical. Correspondingly, the same applies to the slot 301 of the electronic device adapted to the flat tubular sidewall portion, two of which have larger areas and the other two of which have smaller areas and have a substantially oval cross section.

In this embodiment, the two large-area sides of the flat tubular sidewall portion are both provided with the protrusions 102c, and when the insertion body 102 is inserted into the slot 301 of the electronic device, the protrusions 102c of the two large-area sides respectively contact with the two large-area sides of the sidewall of the slot 301, so that a gap a is ensured between the insertion body 102 and the two large-area sides of the sidewall of the slot 301, which are prone to dust deposition, and thus the two sides of the sidewall of the slot 301, which are prone to dust deposition, can be cleaned.

In this embodiment, the protrusions 102c are not provided on both small-area sides of the flat tubular side wall portion, and in a state where the insertion body 102 is inserted into the slot 301 of the electronic device to be fitted, there is substantially no gap between both small-area sides of the flat tubular side wall portion and both small-area sides of the side slot wall of the slot 301. Of course, the protrusions 102c may be provided on both small-area sides of the flat tubular side wall portion.

In this embodiment, the outer surface of the protruding portion 102c is an arc-shaped surface, and the protruding portion 102c is in point contact with the side wall of the slot 301. With such a design, in the process of inserting the insertion body 102 into the insertion slot 301, the contact area between the protrusion 102c and the side slot wall of the insertion slot 301 is small, so that the problem that much dust on the side slot wall of the insertion slot 301 is pushed to the bottom of the insertion slot 301 is not caused, and if the much dust on the side slot wall of the insertion slot 301 is pushed to the bottom of the insertion slot 301, the cleaning effect is affected.

In this embodiment, the glue containing body 101 is an open glue containing body provided with a glue filling port 101a (see fig. 3), and when cleaning, the cleaning glue is filled into the accommodating cavity of the glue containing body 101 through the glue filling port 101 a. Alternatively, the glue container 101 may be a sealed glue container pre-filled with cleaning glue, the glue outlet 101b of the sealed glue container is sealed before use, and the glue outlet 101b of the sealed glue container is opened when cleaning is to be performed.

In this embodiment, as shown in fig. 2, the colloid container 101 has an annular sidewall portion, the annular sidewall portion includes a tapered section 101c and an equal-diameter section 101d, and the equal-diameter section 101d is located at the top of the tapered section 101 c. The inner diameter of the tapered section 101c is tapered from the top end to the bottom end, the glue guiding body 103 is connected to the bottom end of the tapered section 101c, and the diameter of the glue guiding passage of the glue guiding body 103 is not larger than the minimum inner diameter of the tapered section 101 c. By the design, the tapered section 101c of the colloid 101 can play a role in guiding, the cleaning glue is guided to enter the glue guiding passage of the colloid 103, and the glue guiding passage of the colloid 103 can play a role in throttling, so that the cleaning glue slowly enters the inner cavity of the insert 102, and overflow caused by overlarge flow is avoided.

In this embodiment, the top end of the insertion body 102 is connected to the conductive adhesive body 103, and the bottom end of the insertion body 102 is provided with a socket (see fig. 7), so that when the cleaning tool is used for cleaning the adaptive charging socket, the charging terminal 302 in the socket 301 can pass through the socket and extend into the inner cavity of the insertion body 102 without interfering with the insertion body 102. Here, the slot 301 of the electronic device adapted to the insertion body 102 is not limited to a charging slot, and may be, for example, an earphone slot, a USB slot, or the like.

In this embodiment, the body 100 is an integral injection molding structure, which is low in production cost. Or, the inserting body 102 of the body and the colloid guiding body 103 can be detachably connected, and/or the colloid guiding body 103 and the colloid accommodating body 101 can be detachably connected, so that a plurality of inserting bodies 102 can be configured for the same colloid accommodating body 101, so that the inserting body 102 can be flexibly replaced according to different slots 301 to be cleaned without replacing the colloid accommodating body 101.

In this embodiment, the body 100 and the positioning body 200 are integrally formed, in other words, they are integrally formed, so that the production cost is low. Alternatively, the body 100 and the positioning body 200 may be formed separately, in other words, they may be formed separately and assembled together.

In this embodiment, the positioning body 200 includes two sets of clamping arms 201, and the two sets of clamping arms 201 clamp the electronic device by their own elastic force.

In this embodiment, the clamping arm 201 includes a clamping portion 201a for clamping the electronic device, and a first arm section 201b connected between one end of the clamping portion 201a and the body 100, the first arm section 201b is a flexible bending arm, and the first arm sections 201b of the two clamping arms 201 are bent towards each other. So designed, the elasticity of the bent first arm segment 201b enables the clamping portion 201a to clamp the electronic device more tightly.

In this embodiment, the clamping arm 201 further includes a second arm section 201c connected to the other end of the clamping portion 201a, the second arm section 201c is an inclined arm portion, the second arm sections 201c of the two sets of clamping arms 201 are spaced apart from each other, and a distance between the second arm sections 201c of the two sets of clamping arms 201 is gradually reduced along a direction gradually approaching the clamping portion 201 a. The inclined second wall portion is designed to guide the electronic device into the space between the clamping portions 201a of the two clamping arms 201.

Second embodiment

This embodiment is added with a notch 102d on the bottom edge of the sidewall 102a of the insertion body 102, and the notch 102d also forms the above-mentioned glue passing channel. With such a design, the fluidity of the cleaning paste reaching the bottom end of the insertion body 102 can be improved, and the cleaning paste can more sufficiently fill the gap a between the insertion body 102 and the insertion groove 301.

Third embodiment

This embodiment is different from the first embodiment in that the two sets of clamp arms 201 in this embodiment not only clamp the electronic device by their own elastic force but also clamp the electronic device by the fastening force of the fastening member 202.

In this embodiment, the fasteners 202 are threaded fasteners that are threaded through the two sets of clamping arms 201. Of course, the fastener 202 is not limited to a threaded fastener, and may be a snap-in type fastener integral with the chuck wall, for example.

Another embodiment of the present application provides a slot cleaning method for an electronic device, where the slot cleaning method includes: and injecting cleaning glue into the slot of the electronic equipment, and taking out the cleaning glue from the slot of the electronic equipment after the cleaning glue is solidified. The cleaning method can clean the slot of the electronic equipment, and can not cause mechanical damage to the electrical element in the slot, thereby not influencing the service life of the electronic equipment.

The electronic equipment of the embodiment of the application can be a terminal product provided with a screen, such as a mobile phone, a tablet personal computer, a handheld computer, an interphone, a POS machine, a vehicle traveling data recorder, wearable equipment, virtual reality equipment, a vehicle-mounted front-mount device and the like.

The principles and embodiments of the present application have been described above using specific examples, and features in the examples may be combined without conflict. The above description of the embodiments is only intended to help understand the method of the present application and its core ideas. It should be noted that, for those skilled in the art, it is possible to make several improvements and modifications to the present application without departing from the principle of the present application, and such improvements and modifications also fall within the scope of the claims of the present application.

Claims

1. The slot cleaning tool of the electronic equipment is characterized by comprising a body (100), wherein the body (100) comprises a glue accommodating body (101), an inserting body (102) and a glue guiding body (103); the glue containing body (101) is provided with a containing cavity for containing cleaning glue, the inserting body (102) is provided with an inner cavity, and the glue guiding body (103) is provided with a glue guiding passage capable of communicating the containing cavity with the inner cavity; the insertion body (102) is used for being inserted into a slot (301) of the adaptive electronic equipment, and a glue passing channel which penetrates through the inside and the outside is arranged on the side wall part (102 a) of the insertion body (102).

2. The slot cleaning tool for the electronic equipment according to claim 1, wherein a side wall portion (102 a) of the insertion body (102) is provided with a through hole (102 b) and/or an edge of the side wall portion (102 a) of the insertion body (102) is provided with a notch (102 d), and the through hole (102 b) and/or the notch (102 d) form the glue passing channel.

3. The slot cleaning tool for electronic equipment according to claim 2, wherein said insertion body (102) is provided with a protruding portion (102 c), said protruding portion (102 c) protruding outward from said side wall portion (102 a); under the state that the insertion body (102) is inserted into the matched insertion groove (301), the bulge part (102 c) is in contact with the side groove wall of the insertion groove (301), a gap (A) is formed between the side wall part (102 a) of the insertion body (102) and the side groove wall of the insertion groove (301), and the glue passing channel is communicated with the inner cavity of the insertion body (102) and the gap (A).

4. The socket cleaning tool for electronic equipment according to claim 3, wherein the side wall portion (102 a) of the insertion body (102) is a flat tubular side wall portion, and both large-area sides of the flat tubular side wall portion are provided with the protrusions (102 c).

5. The socket cleaning tool for electronic equipment according to claim 3, wherein the outer surface of the protrusion (102 c) is an arc-shaped surface, so that the protrusion (102 c) is in point contact with the side wall of the socket (301).

6. The slot cleaning tool of the electronic device according to claim 1, wherein the glue container (101) is an open glue container with a glue filling opening (101 a); or the colloid container (101) is a closed colloid container pre-filled with cleaning glue.

7. The socket cleaning tool for electronic equipment according to claim 1, wherein the glue receiving body (101) has an annular sidewall portion, the annular sidewall portion includes a tapered section (101 c), an inner diameter of the tapered section (101 c) tapers from a top end to a bottom end, the glue guiding body (103) is connected to the bottom end of the tapered section (101 c), and a diameter of a glue guiding path of the glue guiding body (103) is not greater than a minimum inner diameter of the tapered section (101 c).

8. The slot cleaning tool for the electronic equipment according to claim 1, wherein the top end of the insert body (102) is connected with the conductive adhesive body (103), the bottom end of the insert body (102) is provided with a socket, and a charging terminal (302) in a slot (301) matched with the insert body (102) can penetrate through the socket and extend into the inner cavity of the insert body (102).

9. The socket cleaning tool of the electronic device according to claim 1, wherein the body (100) is a unitary structure; or the insertion body (102) and the colloid guide body (103) can be detachably connected; or the conductive colloid (103) and the colloid containing body (101) can be detachably connected.

10. The socket cleaning tool for electronic equipment according to any one of claims 1-9, wherein the socket cleaning tool further comprises a positioning body (200), the positioning body (200) is connected with the body (100), and the body (100) is positioned on the electronic equipment to be cleaned through the positioning body (200).

11. The socket cleaning tool for electronic equipment according to claim 10, wherein the body (100) is integrally formed with the positioning body (200); or the body (100) and the positioning body (200) are formed in a split mode and assembled together.

12. The socket cleaning tool for electronic equipment according to claim 10, wherein the positioning body (200) comprises two sets of clamping arms (201), and the two sets of clamping arms (201) clamp the electronic equipment by using self-elasticity and/or fastening force of the fastening member (202).

13. The socket cleaning tool for electronic equipment according to claim 12, wherein the clamping arms (201) comprise a clamping portion (201 a) for clamping electronic equipment, and a first arm section (201 b) connected between one end of the clamping portion (201 a) and the body (100), the first arm section (201 b) is a flexible bending arm portion, and the first arm sections (201 b) of the two clamping arms (201) are bent towards each other.

14. The socket cleaning tool for electronic equipment according to claim 13, wherein said clip arm (201) further comprises a second arm section (201 c) connected to the other end of said clamping portion (201 a), said second arm section (201 c) is an inclined arm portion, the second arm sections (201 c) of two sets of said clip arms (201) are spaced apart from each other, and the distance between the second arm sections (201 c) of two sets of said clip arms (201) is gradually reduced in a direction approaching the clamping portion (201 a).

15. The slot cleaning method of the electronic equipment is characterized in that cleaning glue is injected into a slot (301) of the electronic equipment, and after the cleaning glue is solidified, the cleaning glue is taken out of the slot (301) of the electronic equipment.