CN113054601A - Combined cable pipe socket interface die - Google Patents

Abstract

The invention discloses a combined cable pipe socket interface die, belonging to the technical field of dies, which can realize combined butt joint by embedding a combined adhesive ball at one end of a formed cable pipe in a die in advance in the forming process of the cable pipe, forming a plurality of corresponding combined grooves at the other end, directly extruding two cable pipes in the actual use process to realize combined butt joint, wherein when the combined adhesive ball enters a smaller combined groove, the combined adhesive ball is uniformly extruded and then deforms and shrinks, a quick-drying capsule is punctured by a magnetic pressure needle tube to trigger the release action of quick-drying adhesive liquid, the quick-drying adhesive liquid is rapidly distributed at the inner side and the outer side of the combined adhesive ball, so that the bonding between the combined adhesive ball and the combined grooves is realized, the deformed combined adhesive ball is simultaneously solidified, and the combined butt joint between the two cable pipes is indirectly completed by the adaptive bonding of the combined adhesive ball, compared with the existing cable pipe, the invention is more convenient and efficient in combination and has higher combination quality.

Description

Combined cable pipe socket interface die

Technical Field

The invention relates to the technical field of dies, in particular to a socket and spigot die for a combined cable pipe.

Background

A cable is a power or signal transmission device, and is generally composed of several wires or groups of wires.

Definition 1: the cable is made of one or more conductors insulated from each other and an outer insulating protective layer, and is used for transmitting power or information from one place to another.

Definition 2: typically a rope-like cable made up of several or groups of conductors (at least two in each group) twisted together, with the conductors of each group being insulated from one another and often twisted around a center, the entire outer surface being coated with a highly insulating coating. The cable has the characteristics of internal electrification and external insulation.

The cable protection pipe is a metal protection pipe which is laid on the outer layer of the cable and has certain mechanical strength in order to prevent the cable from being damaged. The cable protection pipe is mainly installed in a section where the communication cable and the power line are crossed, so that the short circuit accident caused by the disconnection of the power line is prevented, the communication cable and the steel wire rope are electrified, the cable, the switch and the machine core board are protected, the whole machine is not burnt out, and a certain isolation effect is achieved on the magnetic field interference of the power line.

In the actual use process, the cable pipes are often required to be combined for use, but the existing cable pipes can be combined for use only after secondary processing after being molded in a mold, and under a special use environment, the combination of the cable pipes is greatly limited, for example, in a narrow low environment, the conventional combination means is difficult to be effectively applied.

Disclosure of Invention

1. Technical problem to be solved

Aiming at the problems in the prior art, the invention aims to provide a combined cable pipe socket and spigot joint die which can realize combined butt joint by embedding a combined adhesive ball at one end of a formed cable pipe in a die in advance in the forming process of the cable pipe and forming a plurality of corresponding combined grooves at the other end, in the practical use process, two cable pipes are directly extruded to realize combined butt joint, the combined adhesive ball is uniformly extruded and then deforms and shrinks when entering a smaller combined groove, a quick-drying capsule is punctured by a magnetic pressure needle tube to trigger the release action of quick-drying adhesive liquid, the quick-drying adhesive liquid is rapidly distributed at the inner side and the outer side of the combined adhesive ball, the bonding between the combined adhesive ball and the combined grooves is realized, the deformed combined adhesive ball is simultaneously solidified, the combined butt joint between the two cable pipes is indirectly completed by the adaptive bonding of the combined adhesive ball, compared with the existing cable pipe, the invention is more convenient and efficient in combination and has higher combination quality.

2. Technical scheme

In order to solve the above problems, the present invention adopts the following technical solutions.

A combined cable tube bearing interface die comprises a main die and an auxiliary die which are symmetrically installed, wherein the inner end of the main die is connected with a matched core, a plurality of magnetic attraction layers which are uniformly distributed are embedded and connected on the inner bottom wall of the main die, the magnetic attraction layers are movably connected with matched combined adhesive balls, a plurality of combined bulges corresponding to the magnetic attraction layers are connected on the inner bottom wall of the auxiliary die, the outer diameters of the combined bulges are smaller than the outer diameter of the combined adhesive balls, each combined adhesive ball comprises an embedded hemisphere, a combined hemisphere and a trigger inner core, the embedded hemisphere and the combined hemisphere are symmetrically connected, the trigger inner core is connected with the inner end of the embedded hemisphere, one end of the trigger inner core, which is close to the combined hemisphere, is provided with a plurality of uniformly distributed magnetic control grooves, the bottom wall of the embedded magnetic control grooves is embedded and connected with a quick-drying capsule, and the inner end of the hemisphere is, the opening of the magnetic control groove is connected with a magnetic shielding flower film, and the magnetic pressure needle tube penetrates through the magnetic shielding flower film and extends to the inner side of the magnetic control groove.

Furthermore, the magnetic shielding flower film comprises a plurality of magnetic shielding sheets distributed in an annular array, the magnetic shielding sheets are connected with the opening of the magnetic control groove and are in mutual contact, and the magnetic shielding sheets are mutually combined to shield most of magnetic field effects of the magnetic pressure needle tube in a normal state, so that the interference of the magnetic pressure needle tube on the quick-drying capsule is reduced.

Further, the magnetism pressure needle tubing includes the magnetism parent tube, extends the needle tubing and many expands the magnetism and acts as go-between, extend the needle tubing and pass through the magnetism parent tube and be connected with embedded hemisphere inner wall, expand magnetism and act as go-between evenly to extend between needle tubing and magnetic screen piece, receive the extrusion of combination hemisphere at the magnetism pressure needle tubing and remove the back, act as go-between through expanding the magnetism and draw tractive magnetic screen piece and expand, the most magnetic field of magnetism parent tube can penetrate and act on the rapid-curing cutback capsule in the past to at the extension needle tubing puncture the rapid-curing cutback capsule after release action with higher.

Furthermore, the rapid-curing cutback capsule includes capsule coat, magnetic sheet and rapid-curing cutback glue solution with higher speed, the magnetic sheet cover is connected in the capsule coat one end of keeping away from the magnetic pressure needle tubing with higher speed, the rapid-curing cutback glue solution is filled in the capsule coat, the capsule coat keeps the intercommunication rather than after being punctured by the magnetic pressure needle tubing, and the magnetism parent tube acts on the magnetic sheet with higher speed simultaneously, and the magnetic sheet fully extrudees the capsule coat and releases the rapid-curing cutback glue solution with higher speed, and on the one hand carries out the speed-raising to the release of rapid-curing cutback glue solution, and on the other.

Furthermore, the outer surface of the trigger inner core is inlaid with a plurality of uniformly distributed feedback clearance removing balls, an adhesion promoting ejector rod is connected between the feedback clearance removing balls and one end, far away from the magnetic pressure needle tube, of the quick-drying capsule, the feedback clearance removing balls can be pushed to move outwards through the adhesion promoting ejector rod when the quick-drying capsule is compressed independently, and therefore the trigger inner core is pulled to deform and expand better to be attached to the combined hemisphere, and the bonding strength between the trigger inner core and the combined hemisphere is improved.

Further, the feedback clearance removing ball comprises a fixed ball, a feedback column and a plurality of elastic wires, a containing hole matched with the feedback column is formed in the fixed ball, the feedback column is inserted into the containing hole, the elastic wires are uniformly connected between the fixed ball and the feedback column, when the adhesion promoting ejector rod pushes the feedback column to move, the feedback column can migrate to the outer side through the containing hole and is in contact with the combined hemisphere, and good connection is established with the feedback column under the adhesion effect of the quick-drying glue solution.

Further, the feedback column comprises a material storage ball, a sticking pipe, an internal pressure film, a release pull wire and a sticking catalyst, the sticking pipe is inserted in the accommodating hole, the storage ball is connected between the sticking pipe and the sticking promoting ejector rod and is positioned outside the fixed ball, the inner pressure membrane is connected with the inner end of the storage ball, the adhesive accelerant is movably embedded at one end of the sticking pipe far away from the storage ball, the release pull wire is connected between the inner pressure membrane and the adhesive accelerant, after the adhesive catalyst is adhered to the combined hemisphere, the inner pressing film is pulled by releasing the pull wire to deform and compress, thereby release inside material suggestion technical staff's bonding condition, can also borrow the tractive effect to the storage ball in addition, transmit the rapid-curing cutback capsule by means of promoting the gluey ejector pin, further guarantee the release sufficiency of the rapid-curing cutback glue solution in the rapid-curing cutback capsule, be difficult for appearing because of the bonding strength that the rapid-curing cutback glue solution remains and lead to not enough.

Further, the storage ball adopts the material of keeping away light to make, it has phosphor powder or fluorescent liquid to fill between interior pressure membrane and the storage ball, when combination hemisphere and sticky catalyst guarantee to bond, just can stimulate the release and act as go-between the extrusion and release phosphor powder or fluorescent liquid, and the technical staff can judge the bonding effect of combination hemisphere through the phosphor powder or the fluorescent liquid of release.

Furthermore, the length of the sticking pipe is consistent with the depth of the accommodating hole, the outer diameter of the storage ball is larger than the aperture of the accommodating hole, and the quick-drying capsule pushes the sticking pipe to move out of the accommodating hole to be in contact with the combined hemisphere through the adhesion promoting ejector rod after compression and release.

Furthermore, the embedded hemisphere is made of hard heat insulation materials, the combined hemisphere is made of elastic porous materials, and quick-drying glue released by the magnetic pressure needle tube can be distributed on the inner surface and the outer surface of the combined hemisphere to be well bonded with the combined groove and the trigger inner core.

3. Advantageous effects

Compared with the prior art, the invention has the advantages that:

(1) the scheme can realize the combined butt joint by embedding the combined adhesive ball in the mould in advance in the forming process of the cable pipe and forming a plurality of corresponding combined grooves at the other end, in the actual use process, two cable pipes can be directly extruded to realize the combined butt joint, when the combined adhesive ball enters into a smaller combined groove, the combined adhesive ball can be uniformly extruded and then deformed and shrunk, the quick-drying capsule is punctured by the magnetic pressure needle tube to trigger the release action of the quick-drying adhesive liquid, the quick-drying adhesive liquid is rapidly distributed at the inner side and the outer side of the combined adhesive ball, the bonding between the combined adhesive ball and the combined grooves is realized, the deformed combined adhesive ball is simultaneously solidified, the combined butt joint between the two cable pipes is indirectly completed by the adaptive bonding of the combined adhesive ball, compared with the existing cable pipe, the combined butt joint is more convenient and efficient in combination, and the combination quality is higher.

(2) The magnetic shielding flower film comprises a plurality of magnetic shielding sheets distributed in an annular array, the magnetic shielding sheets are connected with the opening of the magnetic control groove and are in mutual contact, and the magnetic shielding sheets are combined with each other to shield most of magnetic field effects of the magnetic pressure needle tube under a normal state, so that the interference of the magnetic pressure needle tube on the quick-drying capsule is reduced.

(3) The magnetic pressure needle tube comprises a magnetic base tube, an extension needle tube and a plurality of magnetic expansion pull wires, the extension needle tube is connected with the inner wall of the embedded hemisphere through the magnetic base tube, the magnetic expansion pull wires are uniformly connected between the extension needle tube and the magnetic shielding sheet, after the magnetic pressure needle tube is extruded and moved by the combined hemisphere, the magnetic shielding sheet is stretched by the magnetic expansion pull wires, most of magnetic fields of the magnetic base tube can penetrate through the magnetic pressure needle tube to act on the quick-drying capsule, and the magnetic pressure needle tube penetrates through the quick-drying capsule to accelerate release actions after the quick-.

(4) The quick-drying capsule comprises a capsule coat, an accelerating magnetic sheet and a quick-drying glue solution, wherein the accelerating magnetic sheet is connected to one end, far away from the magnetic pressure needle tube, of the capsule coat in a covering mode, the quick-drying glue solution is filled in the capsule coat, the capsule coat is punctured by the magnetic pressure needle tube and then keeps communicated with the magnetic pressure needle tube, meanwhile, the magnetic base tube acts on the accelerating magnetic sheet, the accelerating magnetic sheet fully extrudes the capsule coat to release the quick-drying glue solution, speed is increased for releasing the quick-drying glue solution on one hand, and on the other hand, the quick-drying glue solution.

(5) The outer surface of the trigger inner core is inlaid with a plurality of uniformly distributed feedback gap removing balls, the feedback gap removing balls and one end of the quick-drying capsule, which is far away from the magnetic pressure needle tube, are connected with an adhesion promoting ejector rod, the quick-drying capsule can push the feedback gap removing balls to move outwards through the adhesion promoting ejector rod when being compressed independently, and therefore the trigger inner core is pulled to deform and expand to better fit with the combined hemisphere, and the bonding strength between the trigger inner core and the combined hemisphere is improved.

(6) The feedback clearance removing ball comprises a fixed ball, a feedback column and a plurality of elastic wires, wherein the fixed ball is provided with a containing hole matched with the feedback column, the feedback column is inserted into the containing hole, the elastic wires are uniformly connected between the fixed ball and the feedback column, when the adhesion promoting ejector rod pushes the feedback column to move, the feedback column can move to the outer side through the containing hole and is in contact with the combined hemisphere, and good connection is established with the feedback column under the adhesion effect of the quick-drying glue solution.

(7) The feedback post includes the storage ball, stretch the bonding tube, interior pressure membrane, release is acted as go-between and sticky catalyst, stretch the bonding tube and insert and locate the accommodation hole, the storage ball is connected and is stretched between the bonding tube and urge to glue the ejector pin and be located the fixed ball outside, interior pressure membrane is connected in storage ball inner, sticky catalyst activity is inlayed in stretching the one end that the storage ball was kept away from to the bonding tube, and the release is acted as go-between and is connected between interior pressure membrane and sticky catalyst, can be acted as go-between through the release pulling interior pressure membrane of acting as go-between and carry out the deformation compression after sticky catalyst is stained by the combination hemisphere, thereby release inside material suggestion technical staff's the bonding condition, in addition can also be through the tractive effect to the storage ball, transmit to the rapid-curing cutback capsule by urging the adhesion ejector pin, further guarantee the release sufficiency of the rapid-curing cutback glue.

(8) The storage ball is made of a light-resistant material, fluorescent powder or fluorescent liquid is filled between the internal pressure film and the storage ball, when the combined hemisphere and the adhesive catalyst are bonded, the release pull wire is pulled to extrude and release the fluorescent powder or the fluorescent liquid, and a technician can judge the bonding effect of the combined hemisphere through the released fluorescent powder or the released fluorescent liquid.

(9) The length of the sticking pipe is consistent with the depth of the containing hole, the outer diameter of the storage ball is larger than the aperture of the containing hole, and the quick-drying capsule pushes the sticking pipe to move out of the containing hole to be contacted with the combined hemisphere through the sticking promoting ejector rod after compression and release.

(10) The embedded hemisphere is made of hard heat insulation materials, the combined hemisphere is made of elastic porous materials, and quick-drying glue released by the magnetic pressure needle tube can be distributed on the inner surface and the outer surface of the combined hemisphere to be well bonded with the combined groove and the trigger inner core.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the structure at A in FIG. 1;

FIG. 3 is a schematic structural view of the combined adhesive ball of the present invention;

FIG. 4 is a schematic view of the structure at B in FIG. 3;

FIG. 5 is a schematic view of the structure of the magnetic pressure syringe of the present invention;

FIG. 6 is a schematic structural diagram of a feedback backlash eliminating ball according to the present invention;

FIG. 7 is a schematic diagram of the structure of the feedback column of the present invention;

fig. 8 is a schematic view of the structure of the cable tube assembly of the present invention.

The reference numbers in the figures illustrate:

the device comprises a main die 1, a secondary die 2, a combined bulge 3, a magnetic absorption layer 4, a combined adhesive ball 5, an embedded hemisphere 51, a combined hemisphere 52, a trigger inner core 53, a magnetic shielding flower film 6, a magnetic pressure needle tube 7, a magnetic base tube 71, an extension needle tube 72, a magnetic expansion pull wire 73, a quick-drying capsule 8, a capsule coat 81, an acceleration magnetic sheet 82, quick-drying adhesive liquid 83, a feedback gap-removing ball 9, a fixed ball 91, a feedback column 92, a material storage ball 921, a material extension tube 922, an internal pressure film 923, a release pull wire 924, an adhesive catalyst 925 and an adhesion-promoting ejector rod 10.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention; it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and all other embodiments obtained by those skilled in the art without any inventive work are within the scope of the present invention.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "top/bottom", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," "sleeved/connected," "connected," and the like are to be construed broadly, e.g., "connected," which may be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example 1:

referring to fig. 1-3, a combined cable tube socket and spigot mold comprises a main mold 1 and a secondary mold 2 which are symmetrically installed, wherein the inner end of the main mold 1 is connected with a matched core, a plurality of magnetic attraction layers 4 which are uniformly distributed are embedded and connected on the inner bottom wall of the main mold 1, a matched combined adhesive ball 5 is movably connected in the magnetic attraction layers 4, a plurality of combined protrusions 3 corresponding to the magnetic attraction layers 4 are connected on the inner bottom wall of the secondary mold 2, the outer diameter of the combined protrusions 3 is smaller than the outer diameter of the combined adhesive ball 5, the combined adhesive ball 5 comprises an embedded hemisphere 51, a combined hemisphere 52 and a trigger inner core 53, the embedded hemisphere 51 and the combined hemisphere 52 are symmetrically connected, the trigger inner core 53 is connected to the inner end of the embedded hemisphere 51, one end of the trigger inner core 53, which is close to the combined hemisphere 52, is provided with a plurality of uniformly distributed magnetic control grooves, the bottom wall of the magnetic control grooves is embedded and connected with a quick drying capsule 8, the inner end, the opening of the magnetic control groove is connected with a magnetic shielding flower film 6, and a magnetic pressure needle tube 7 penetrates through the magnetic shielding flower film 6 and extends to the inner side of the magnetic control groove.

Magnetic shielding flower membrane 6 includes the magnetic shielding piece that the multi-disc annular array distributes, and magnetic shielding piece is connected with accuse magnetic slot opening part, and contacts each other between the magnetic shielding piece, and the most magnetic field effect of mutually supporting under the normal condition between the magnetic shielding piece to magnetic pressure needle tubing 7 shields to reduce the interference of magnetic pressure needle tubing 7 to rapid-curing cutback capsule 8.

Referring to fig. 5, the magnetic pressure needle tube 7 includes a magnetic base tube 71, an extension needle tube 72 and a plurality of magnetic diffusion pull wires 73, the extension needle tube 72 is connected with the inner wall of the embedded hemisphere 51 through the magnetic base tube 71, the magnetic diffusion pull wires 73 are uniformly connected between the extension needle tube 72 and the magnetic shielding sheets, after the magnetic pressure needle tube 7 is squeezed and moved by the combined hemisphere 52, the magnetic shielding sheets are pulled to be unfolded through the magnetic diffusion pull wires 73, most of the magnetic field of the magnetic base tube 71 can penetrate through the quick drying capsule 8 and accelerate the releasing action after the extension needle tube 72 pierces the quick drying capsule 8.

Referring to fig. 4, the quick-drying capsule 8 includes a capsule coat 81, an accelerating magnetic sheet 82 and a quick-drying glue 83, the accelerating magnetic sheet 82 covers and is connected to one end of the capsule coat 81 far from the magnetic pressure needle tube 7, the quick-drying glue 83 is filled in the capsule coat 81, the capsule coat 81 is communicated with the accelerating magnetic tube 7 after being pierced by the magnetic pressure needle tube 7, meanwhile, the magnetic base tube 71 acts on the accelerating magnetic sheet 82, the accelerating magnetic sheet 82 fully extrudes the capsule coat 81 to release the quick-drying glue 83, on one hand, the speed of the quick-drying glue 83 is accelerated, and on the other hand, the quick-drying glue 83 is ensured to be fully released to improve the bonding.

The outer surface of the trigger inner core 53 is connected with a plurality of uniformly distributed feedback gap removing balls 9 in an embedded mode, an adhesion promoting ejector rod 10 is connected between the feedback gap removing balls 9 and one end, far away from the magnetic pressure needle tube 7, of the quick-drying capsule 8, the feedback gap removing balls 9 can be pushed to move outwards through the adhesion promoting ejector rod 10 when the quick-drying capsule 8 is compressed automatically, and therefore the trigger inner core 53 is pulled to be better attached to the combined hemisphere 52 in a deformation expansion mode, and the bonding strength between the trigger inner core 53 and the combined hemisphere is improved.

Referring to fig. 6, the feedback gap removing ball 9 includes a fixing ball 91, a feedback column 92 and a plurality of elastic wires 93, the fixing ball 91 is provided with an accommodating hole matching with the feedback column 92, the feedback column 92 is inserted into the accommodating hole, the elastic wires 93 are uniformly connected between the fixing ball 91 and the feedback column 92, when the adhesion promoting rod 10 pushes the feedback column 92 to move, the feedback column 92 will migrate to the outside through the accommodating hole and contact with the combined hemisphere 52, and a good connection is established with the feedback column 92 under the adhesion effect of the quick drying glue 83.

Referring to fig. 7, the feedback column 92 includes a storage ball 921, a sticking tube 922, an internal pressure membrane 923, a release string 924, and a glue catalyst 925, the sticking tube 922 is inserted into the receiving hole, the storage ball 921 is connected between the sticking pipe 922 and the sticking promoting mandril 10 and is positioned outside the fixed ball 91, the internal pressure membrane 923 is connected with the inner end of the storage ball 921, the adhesive accelerant 925 is movably embedded at one end of the sticking pipe 922 far away from the storage ball 921, and the release pull wire 924 is connected between the internal pressure membrane 923 and the adhesive accelerant 925, after the adhesive catalyst 925 is adhered by the combined hemisphere 52, the inner pressing film 923 is pulled by the release wire 924 to be deformed and compressed, thereby release inside material suggestion technical staff's bonding condition, can also borrow the tractive effect through to the storage ball 921 in addition, transfer to the rapid-curing cutback capsule 8 by promoting to glue ejector pin 10, further guarantee the release sufficiency of the rapid-curing cutback glue solution 83 in the rapid-curing cutback capsule 8, be difficult for appearing because of the bonding strength that the rapid-curing cutback glue solution 83 remains and lead to is not enough.

The storage ball 921 is made of a light-resistant material, fluorescent powder or fluorescent liquid is filled between the internal pressure film 923 and the storage ball 921, when the combined hemisphere 52 and the adhesive catalyst 925 ensure adhesion, the release pull wire 924 is pulled to extrude and release the fluorescent powder or the fluorescent liquid, and a technician can judge the adhesion effect of the combined hemisphere 52 through the released fluorescent powder or the released fluorescent liquid.

The length of the sticking pipe 922 is consistent with the depth of the accommodating hole, the outer diameter of the storage ball 921 is larger than the hole diameter of the accommodating hole, and the quick-drying capsule 8 pushes the sticking pipe 922 to move out of the accommodating hole to be in contact with the combined hemisphere 52 through the adhesion promoting mandril 10 after compression and release.

The embedded hemisphere 51 is made of hard heat insulation materials, the combined hemisphere 52 is made of elastic porous materials, and quick-drying glue 83 released by the magnetic pressure needle tube 7 can be distributed on the inner surface and the outer surface through the combined hemisphere 52 and further well adhered with the combined groove and the trigger inner core 53.

The material of the cable tube is preferably a transparent resin material, and the requirement for a fluorescence detection means is higher when a metal material is used.

The invention can realize the combination and butt joint by embedding the combination adhesive ball 5 into one end of the formed cable pipe in a mould and forming a plurality of corresponding combination grooves at the other end in the forming process of the cable pipe, directly extruding two cable pipes in the actual use process, and when the combination adhesive ball 5 enters into a smaller combination groove, the combination adhesive ball 5 can be uniformly extruded and then deformed and shrunk, the quick-drying capsule 8 is punctured by the magnetic pressure needle tube 7 to trigger the release action of the quick-drying adhesive liquid 83, and the quick-drying adhesive liquid 83 is rapidly distributed at the inner side and the outer side of the combination adhesive ball 5, thereby not only realizing the adhesion between the combination adhesive ball 5 and the combination grooves, but also simultaneously fixing the deformed combination adhesive ball 5, indirectly finishing the combination and butt joint between the two cable pipes by the adaptive adhesion of the combination adhesive ball 5, compared with the existing cable pipe, the invention is more convenient and efficient when being combined and has higher combination quality.

The above are merely preferred embodiments of the present invention; the scope of the invention is not limited thereto. Any person skilled in the art should be able to cover the technical scope of the present invention by equivalent or modified solutions and modifications within the technical scope of the present invention.

Claims (10)

1. The utility model provides a combination cable pipe socket interface mould, includes main mould (1) and vice mould (2) of symmetry installation, its characterized in that: the inner end of the main die (1) is connected with a matched core, the inner bottom wall of the main die (1) is embedded and connected with a plurality of uniformly distributed magnetic absorption layers (4), the magnetic absorption layers (4) are movably connected with matched combined adhesive balls (5), the inner bottom wall of the auxiliary die (2) is connected with a plurality of combined protrusions (3) corresponding to the magnetic absorption layers (4), the outer diameters of the combined protrusions (3) are smaller than the outer diameter of the combined adhesive balls (5), each combined adhesive ball (5) comprises an embedded hemisphere (51), a combined hemisphere (52) and a trigger inner core (53), the embedded hemispheres (51) and the combined hemispheres (52) are symmetrically connected, the trigger inner core (53) is connected with the inner end of the embedded hemisphere (51), one end, close to the combined hemisphere (52), of the trigger inner core (53) is provided with a plurality of uniformly distributed magnetic control grooves, the bottom wall of the magnetic control grooves is connected with an embedded quick-drying capsule (8), the interior of embedded hemisphere (51) is connected with a plurality of magnetic pressure needle tubing (7) corresponding with rapid-curing cutback capsule (8), accuse magnetic slot opening part is connected with magnetic screen flower membrane (6), and magnetic pressure needle tubing (7) run through magnetic screen flower membrane (6) and extend to accuse magnetic slot inboard.

2. The combination cable tube socket interface mold of claim 1, wherein: the magnetic shielding flower film (6) comprises a plurality of magnetic shielding sheets distributed in an annular array, the magnetic shielding sheets are connected with the opening of the magnetic control groove, and the magnetic shielding sheets are in mutual contact.

3. A combination cable tube socket interface mold according to claim 2, wherein: magnetic pressure needle tubing (7) include magnetism base tube (71), extend needle tubing (72) and many expand magnetism and act as go-between (73), extend needle tubing (72) and embedded hemisphere (51) inner wall connection through magnetism base tube (71), expand magnetism and act as go-between (73) evenly connected in extending needle tubing (72) and magnetism shielding piece.

4. The combination cable tube socket interface mold of claim 1, wherein: the quick-drying capsule (8) comprises a capsule coat (81), an accelerating magnetic sheet (82) and a quick-drying glue solution (83), the accelerating magnetic sheet (82) is connected to one end, far away from the magnetic pressure needle tube (7), of the capsule coat (81) in a covering mode, and the quick-drying glue solution (83) is filled in the capsule coat (81).

5. The combination cable tube socket interface mold of claim 1, wherein: the outer surface of the trigger inner core (53) is connected with a plurality of feedback gap removing balls (9) which are uniformly distributed in an embedded mode, and an adhesion promoting ejector rod (10) is connected between the feedback gap removing balls (9) and one end, far away from the magnetic pressure needle tube (7), of the quick drying capsule (8).

6. A combination cable pipe socket interface mould according to claim 5, characterized in that: feedback removes clearance ball (9) and includes fixed ball (91), feedback post (92) and many stretch yarns (93), set up on fixed ball (91) with feedback post (92) assorted accommodation hole, and in feedback post (92) were inserted and are located the accommodation hole, stretch yarn (93) evenly connect between fixed ball (91) and feedback post (92).

7. The combination cable tube socket interface mold of claim 6, wherein: feedback post (92) draw line (924) and sticky catalyst (925) including storage ball (921), stretch and glue pipe (922), interior pressure membrane (923), release, stretch and glue pipe (922) and insert and locate the accommodation hole, storage ball (921) is connected and is stretched and glue between pipe (922) and the promotion ejector pin (10) and be located fixed ball (91) outside, interior pressure membrane (923) are connected in storage ball (921) the inner, sticky catalyst (925) activity is inlayed in stretching and is glued one end that pipe (922) kept away from storage ball (921), and releases to draw line (924) and connect between interior pressure membrane (923) and sticky catalyst (925).

8. The combination cable tube socket interface mold of claim 7, wherein: the storage ball (921) is made of a light-resistant material, and fluorescent powder or fluorescent liquid is filled between the internal pressure film (923) and the storage ball (921).

9. The combination cable tube socket interface mold of claim 7, wherein: the length of the sticking pipe (922) is consistent with the depth of the accommodating hole, and the outer diameter of the storage ball (921) is larger than the hole diameter of the accommodating hole.

10. The combination cable tube socket interface mold of claim 1, wherein: the embedded hemisphere (51) is made of hard heat insulation materials, and the combined hemisphere (52) is made of elastic porous materials.

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