CN214133949U - Manufacturing device of fuse tube capable of dissipating heat - Google Patents

Abstract

The utility model belongs to the technical field of manufacturing, concretely relates to fuse section of thick bamboo manufacturing installation can dispel heat, it includes: the device comprises a support frame, a control module, an upper die, a lower die, and an injection mechanism and a lifting mechanism which are electrically connected with the control module; the lifting mechanism is arranged on the support frame and is arranged above the lower die; the lifting mechanism is connected with the upper die; the material injection mechanism is arranged on the support frame; the control module is suitable for controlling the lifting mechanism to drive the upper die to move, so that the upper die and the lower die are matched to form a material injection cavity; the control module is suitable for controlling the material injection mechanism to inject raw materials into the material injection cavity so as to form the heat dissipation fuse cylinder, so that the heat dissipation fuse cylinder is integrally formed and manufactured, and the service life of the heat dissipation fuse cylinder is prolonged.

Description

Manufacturing device of fuse tube capable of dissipating heat

Technical Field

The utility model belongs to the technical field of manufacturing, concretely relates to fuse section of thick bamboo manufacturing installation can dispel heat.

Background

At present, a fuse tube with a through hole can dispel the heat, but the fuse tube that dispels the heat need make earlier a fuse tube in the manufacturing process, punches to a fuse tube again to finally make a heat dissipation fuse tube, it is comparatively complicated in the process, and need consume a large amount of human costs.

Therefore, in view of the above technical problems, it is desirable to design a new heat-dissipating fuse tube manufacturing apparatus.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a fuse section of thick bamboo manufacturing installation can dispel heat to solve the technical problem of integrated into one piece preparation heat dissipation fuse section of thick bamboo.

In order to solve the technical problem, the utility model provides a fuse section of thick bamboo manufacturing installation can dispel heat, include:

the device comprises a support frame, a control module, an upper die, a lower die, and an injection mechanism and a lifting mechanism which are electrically connected with the control module;

the lifting mechanism is arranged on the support frame and is arranged above the lower die;

the lifting mechanism is connected with the upper die;

the material injection mechanism is arranged on the support frame;

the control module is suitable for controlling the lifting mechanism to drive the upper die to move, so that the upper die and the lower die are matched to form a material injection cavity;

the control module is suitable for controlling the material injection mechanism to inject raw materials into the material injection cavity so as to form the heat dissipation fuse cylinder.

Further, an upper groove is formed in the first end face of the upper die;

a plurality of upper columns are arranged on the bottom surface of the upper groove;

the second end surface of the upper die is connected with the lifting mechanism, and the second end surface of the upper die is provided with a material injection hole communicated with the groove;

the second end surface of the upper die is also provided with a material injection groove matched with the material injection hole;

and the second end surface of the upper die is also provided with a plurality of connecting pieces.

Further, a lower groove is formed in the first end face of the lower die, and a core die matched with the heat dissipation fuse tube in shape is arranged in the lower groove;

a plurality of lower column bodies are arranged on the bottom surface of the lower groove, and each lower column body is tightly contacted with the core mold;

a connecting groove matched with the connecting piece is formed in the first end face of the lower die;

the control module is suitable for controlling the lifting mechanism to drive the upper die to move towards the lower die, so that the connecting piece is matched with the corresponding connecting groove, the upper groove and the lower groove are matched to form a material injection cavity, and the upper column body is in close contact with the core die.

Further, the lifting mechanism includes: a push rod motor and a connecting block;

the telescopic end of the push rod motor is connected with the second end surface of the upper die through the connecting block;

the control module is suitable for controlling the push rod motor to stretch and drive the connecting block to lift so as to enable the upper die to move.

Further, the material injection mechanism comprises: the device comprises a storage bin, a cylinder and a connecting column;

one end of the connecting column is fixedly connected with the supporting frame, and the other end of the connecting column is hinged with the storage bin through a hinge;

the cylinder is arranged on the supporting frame and is connected with the stock bin;

a material nozzle is arranged on the outer wall of the storage bin;

the control module is suitable for controlling the cylinder to contract to drive the storage bin to incline, so that raw materials in the storage bin are injected into the material injection groove through the material nozzle, and the raw materials flow into the material injection cavity through the material injection hole.

Further, annotate material mechanism still includes: the electric heating wire is electrically connected with the control module;

the heating wire is arranged on the outer wall of the storage bin;

the control module is suitable for controlling the electric heating wires to heat the raw materials in the storage bin so as to enable the raw materials to be kept in a molten state.

The utility model has the advantages that the utility model is provided with the support frame, the control module, the upper die, the lower die, the material injection mechanism and the lifting mechanism which are electrically connected with the control module; the lifting mechanism is arranged on the support frame and is arranged above the lower die; the lifting mechanism is connected with the upper die; the material injection mechanism is arranged on the support frame; the control module is suitable for controlling the lifting mechanism to drive the upper die to move, so that the upper die and the lower die are matched to form a material injection cavity; the control module is suitable for controlling the material injection mechanism to inject raw materials into the material injection cavity so as to form the fuse cylinder, so that the integrally formed manufacturing of the fuse cylinder is realized, and the service life and the heat dissipation effect of the fuse cylinder are improved.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and claims hereof as well as the appended drawings.

In order to make the aforementioned and other objects, features and advantages of the present invention comprehensible, preferred embodiments accompanied with figures are described in detail below.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the technical solutions in the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural view of a device for manufacturing a heat-dissipating fuse tube according to the present invention;

fig. 2 is a schematic block diagram of a device for manufacturing a heat-dissipating fuse tube according to the present invention.

In the figure:

1 is a supporting frame;

2, an upper die, 21, 22, 23, 24 and 25 are respectively an upper groove, an upper material injection hole, an upper material injection groove, a connecting piece and an upper column;

3 is a lower die, 31 is a lower groove, 32 is a core die, 33 is a connecting groove, and 34 is a lower column body;

4, a lifting mechanism, 41, a push rod motor and 42, a connecting block;

5 is an injection mechanism, 51 is a storage bin, 52 is an air cylinder, 53 is a connecting column, 54 is a hinge, 55 is a material nozzle, and 56 is an electric heating wire.

Detailed Description

To make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and obviously, the described embodiments are some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Example 1

Fig. 1 is a schematic structural view of a device for manufacturing a heat-dissipating fuse tube according to the present invention;

fig. 2 is a schematic block diagram of a device for manufacturing a heat-dissipating fuse tube according to the present invention.

As shown in fig. 1 and 2, the present embodiment 1 provides a heat-dissipatable fuse tube manufacturing apparatus including: the device comprises a support frame 1, a control module, an upper die 2, a lower die 3, and a material injection mechanism 5 and a lifting mechanism 4 which are electrically connected with the control module; the control module can adopt but is not limited to ohm dragon CPM1A-V1 series PLC; the lifting mechanism 4 is arranged on the support frame 1, and the lifting mechanism 4 is arranged above the lower die 3; the lifting mechanism 4 is connected with the upper die 2; the material injection mechanism 5 is arranged on the support frame 1; the control module is suitable for controlling the lifting mechanism 4 to drive the upper die 2 to move, so that the upper die 2 is matched with the lower die 3 to form a material injection cavity; the control module is suitable for controlling the material injection mechanism 5 to inject raw materials (the raw materials are in a molten state and can be selected according to actual production requirements, such as iron and aluminum) into the material injection cavity so as to form a heat dissipation fuse cylinder (the fuse cylinder with a through hole in the cylinder wall enables the fuse cylinder to have a heat dissipation function), so that the integrally formed manufacturing of the heat dissipation fuse cylinder is realized, the service life of the fuse cylinder is prolonged, the labor cost is reduced, and the cost of the heat dissipation fuse cylinder is reduced.

In this embodiment, the first end surface of the upper mold 2 is provided with an upper groove 21 (end surface facing the lower mold 3); a plurality of upper columns 25 are arranged on the bottom surface of the upper groove 21 (the upper columns 25 are suitable for being in close contact with a core mold 32 in the lower mold 3 after the upper mold 2 and the lower mold 3 are matched so as to form through holes on the wall of the fuse cylinder after raw materials are injected, so that the fuse cylinder has a heat dissipation function); the second end surface of the upper die 2 is connected with the lifting mechanism 4, and the second end surface of the upper die 2 is provided with a material injection hole 22 communicated with the groove; a material injection groove 23 matched with the material injection hole 22 is also formed in the second end face of the upper die 2; a plurality of connecting pieces 24 are also arranged on the second end surface of the upper die 2; the speed of injecting the raw material can be increased by the injection groove 23 to improve the efficiency of injecting the raw material.

In this embodiment, a lower groove 31 is formed on the first end surface of the lower mold 3, and a core mold 32 adapted to the shape of the heat dissipation fuse tube is disposed in the lower groove 31 (the core mold 32 is detachable, for example, two ends of the core mold 32 can be connected to the side wall of the lower groove 31 in an insertion manner, so as to take out the formed heat dissipation fuse tube); the shape of the heat dissipation fuse tube can be determined by the core die 32; a plurality of lower columns 34 are arranged on the bottom surface of the lower groove 31, and each lower column 34 is tightly contacted with the core mold 32 (when raw materials are injected, the lower columns 34 form through holes on the wall of the fuse cylinder, so that the fuse cylinder has a heat dissipation function); a connecting groove 33 matched with the connecting piece 24 is formed in the first end face of the lower die 3; the control module is suitable for controlling the lifting mechanism 4 to drive the upper mold 2 to move towards the lower mold 3, so that the connecting piece 24 is matched with the corresponding connecting groove 33, and the upper groove 21 is matched with the lower groove 31 to form a material injection cavity; the upper mold 2 and the lower mold 3 can be more tightly fitted by the coupling of the coupling groove 33 and the coupling piece 24.

In the present embodiment, the lifting mechanism 4 includes: a push rod motor 41 and a connecting block 42; the push rod motor 41 can be but is not limited to a servo push rod; the telescopic end of the push rod motor 41 is connected with the second end surface of the upper die 2 through the connecting block 42; the upper die 2 can be driven to lift more stably through the connecting block 42; the control module is suitable for controlling the push rod motor 41 to stretch and drive the connecting block 42 to lift so as to enable the upper die 2 to move; can adopt prior art to control push rod motor 41, for example, set up the distance that push rod motor 41 extends according to the distance between last mould 2 and the bed die 3, when control module control push rod motor 41 extends to preset length, control module judges that mould 2 closely cooperates with bed die 3, and upper groove 21 cooperates with lower groove 31 at this moment and forms the notes material chamber.

In this embodiment, the material injection mechanism 5 includes: a storage bin 51, an air cylinder 52 and a connecting column 53; the storage bin 51 can be made of high-temperature-resistant alloy; the storage bin 51 is suitable for storing raw materials, and feeding is performed after each injection, so that the raw materials in the storage bin 51 are maintained in a preset amount before each injection; one end of the connecting column 53 is fixedly connected with the support frame 1, and the other end of the connecting column 53 is hinged with the storage bin 51 through a hinge 54; the air cylinder 52 is arranged on the support frame 1, and the air cylinder 52 is connected with the stock bin 51; a material nozzle 55 is arranged on the outer wall of the storage bin 51, and the size of the material nozzle 55 is fixed, so that the discharging speed of the material nozzle 55 is fixed, and the discharging amount is judged according to the inclination time of the storage bin 51; the control module is suitable for controlling the cylinder 52 to contract to drive the storage bin 51 to incline, so that raw materials in the storage bin 51 are injected into the material injection groove 23 through the material nozzle 55, and the raw materials flow into the material injection cavity through the material injection hole 22; when the control module judges that the upper die 2 is tightly matched with the lower die 3, the control module controls the cylinder 52 to contract to enable the storage bin 51 to incline around the hinge 54, at the moment, the material nozzle 55 inclines towards the material injection groove 23, so that the raw material in the storage bin 51 is injected into the material injection groove 23 and flows into the material injection cavity through the material injection hole 22, after the material injection is completed (for example, when the cylinder 52 contracts to the minimum, the discharging speed of the material nozzle 55 is the maximum, the preset time is maintained, the material injection amount is obtained, the material injection amount is slightly smaller than the required raw material amount, the material nozzle 55 also discharges materials during the contraction or extension process of the cylinder 52, and finally the required raw material amount is met), the control module controls the cylinder 52 to extend to enable the bin 51 to recover the horizontal state, and the control module controls the push rod motor 41 to maintain the extending state for a period of time, so that the raw materials are cooled and shaped, and the forming of the heat-dissipating fuse tube is completed.

Example 2

On the basis of embodiment 1, in this embodiment 2, the injection mechanism 5 further includes: a heating wire 56 electrically connected to the control module; the heating wire 56 may be, but is not limited to, a resistance heating wire, nickel-cadmium alloy, 60% nickel/16% chromium; the heating wire 56 is arranged on the outer wall of the storage bin 51; the control module is adapted to control the heating wire 56 to heat the raw material in the bin 51, so as to maintain the raw material in a molten state, to prevent the raw material from being coagulated in the bin 51, and to facilitate the material injection.

To sum up, the utility model is composed of a support frame 1, a control module, an upper die 2, a lower die 3, and a material injection mechanism 5 and a lifting mechanism 4 which are electrically connected with the control module; the lifting mechanism 4 is arranged on the support frame 1, and the lifting mechanism 4 is arranged above the lower die 3; the lifting mechanism 4 is connected with the upper die 2; the material injection mechanism 5 is arranged on the support frame 1; the control module is suitable for controlling the lifting mechanism 4 to drive the upper die 2 to move, so that the upper die 2 is matched with the lower die 3 to form a material injection cavity; the control module is suitable for controlling the material injection mechanism 5 to inject raw materials into the material injection cavity so as to form the heat dissipation fuse cylinder, so that the integrated forming manufacturing of the heat dissipation fuse cylinder is realized, and the service life of the heat dissipation fuse cylinder is prolonged.

The components selected for use in the present application (components not illustrated for specific structures) are all common standard components or components known to those skilled in the art, and the structure and principle thereof can be known to those skilled in the art through technical manuals or through routine experimentation.

In the description of the embodiments of the present invention, unless explicitly stated or limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; 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 meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, 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 several embodiments provided in the present application, it should be understood that the disclosed system, apparatus and method may be implemented in other ways. The above-described embodiments of the apparatus are merely illustrative, and for example, the division of the units is only one logical division, and there may be other divisions when actually implemented, and for example, a plurality of units or components may be combined or integrated into another system, or some features may be omitted, or not executed. In addition, the shown or discussed mutual coupling or direct coupling or communication connection may be an indirect coupling or communication connection of devices or units through some communication interfaces, and may be in an electrical, mechanical or other form.

The units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the units can be selected according to actual needs to achieve the purpose of the solution of the embodiment.

In addition, functional units in the embodiments of the present invention may be integrated into one processing unit, or each unit may exist alone physically, or two or more units are integrated into one unit.

In light of the foregoing, it will be apparent to those skilled in the art from this disclosure that various changes and modifications can be made without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (6)

1. A device for manufacturing a fuse tube capable of dissipating heat, comprising:

the device comprises a support frame, a control module, an upper die, a lower die, and an injection mechanism and a lifting mechanism which are electrically connected with the control module;

the lifting mechanism is arranged on the support frame and is arranged above the lower die;

the lifting mechanism is connected with the upper die;

the material injection mechanism is arranged on the support frame;

the control module is suitable for controlling the lifting mechanism to drive the upper die to move, so that the upper die and the lower die are matched to form a material injection cavity;

the control module is suitable for controlling the material injection mechanism to inject raw materials into the material injection cavity so as to form the heat dissipation fuse cylinder.

2. The heat dissipatable fuse tube manufacturing apparatus according to claim 1,

an upper groove is formed in the first end face of the upper die;

a plurality of upper columns are arranged on the bottom surface of the upper groove;

the second end surface of the upper die is connected with the lifting mechanism, and the second end surface of the upper die is provided with a material injection hole communicated with the groove;

the second end surface of the upper die is also provided with a material injection groove matched with the material injection hole;

and the second end surface of the upper die is also provided with a plurality of connecting pieces.

3. The heat dissipatable fuse tube manufacturing apparatus according to claim 2,

a lower groove is formed in the first end face of the lower die, and a core die matched with the heat dissipation fuse tube in shape is arranged in the lower groove;

a plurality of lower column bodies are arranged on the bottom surface of the lower groove, and each lower column body is tightly contacted with the core mold;

a connecting groove matched with the connecting piece is formed in the first end face of the lower die;

the control module is suitable for controlling the lifting mechanism to drive the upper die to move towards the lower die, so that the connecting piece is matched with the corresponding connecting groove, the upper groove and the lower groove are matched to form a material injection cavity, and the upper column body is in close contact with the core die.

4. The apparatus for manufacturing a heat-dissipatable fuse tube according to claim 3,

the lifting mechanism comprises: a push rod motor and a connecting block;

the telescopic end of the push rod motor is connected with the second end surface of the upper die through the connecting block;

the control module is suitable for controlling the push rod motor to stretch and drive the connecting block to lift so as to enable the upper die to move.

5. The apparatus for manufacturing a heat-dissipatable fuse tube according to claim 4,

annotate material mechanism includes: the device comprises a storage bin, a cylinder and a connecting column;

one end of the connecting column is fixedly connected with the supporting frame, and the other end of the connecting column is hinged with the storage bin through a hinge;

the cylinder is arranged on the supporting frame and is connected with the stock bin;

a material nozzle is arranged on the outer wall of the storage bin;

the control module is suitable for controlling the cylinder to contract to drive the storage bin to incline, so that raw materials in the storage bin are injected into the material injection groove through the material nozzle, and the raw materials flow into the material injection cavity through the material injection hole.

6. The apparatus for manufacturing a heat-dissipatable fuse tube according to claim 5,

annotate material mechanism still includes: the electric heating wire is electrically connected with the control module;

the heating wire is arranged on the outer wall of the storage bin;

the control module is suitable for controlling the electric heating wires to heat the raw materials in the storage bin so as to enable the raw materials to be kept in a molten state.

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