CN218111551U - Communication optical fiber box mould convenient to get material - Google Patents

Abstract

The utility model discloses a communication fiber box mould convenient to get material, including base, storage water tank, roof and last module, the storage water tank is installed through the mounting groove in the base top, the base top is close to the welding of storage water tank both ends department has the riser, the welding has lower module between the riser top inboard, the module upper end is provided with the roof down, the roof bottom is provided with the module, it has all seted up the installation cavity to be close to both ends department in the last module, there is servo electric jar bottom in the installation cavity through the mounting screw, go up the direction chamber that link up with the installation cavity all seted up at module both ends, servo electric jar's power take off end is connected with lug and is located the direction intracavity. This novel at the in-process of drawing of patterns, need not servo motor and continuously provide power, need not to lay transmission structure, cost greatly reduced is favorable to energy-conservation, is fit for extensively using widely.

Description

Communication optical fiber box mould convenient to get material

Technical Field

The utility model relates to an optical fiber box production technical field, in particular to communication optical fiber box mould convenient to get material.

Background

In communication, in order to protect the optical fiber transition, an optical fiber box is necessary, and the optical fiber box is usually produced by injection molding through an injection mold.

Patent number CN214521596U discloses an optical fiber terminal box quick demoulding mould, this optical fiber terminal box quick demoulding mould, the on-line screen storage device comprises a base, one side fixed mounting of base has the box, one side fixed mounting of box has the chamber door, one side fixed mounting of chamber door has the motor box that is located the box inside, one side fixed mounting of motor box has last module, go up module one side fixed mounting and have module down, one side fixed mounting of module has shedder down. This optical fiber terminal box fast demoulding mould, through the purpose of servo motor realization last module and lower module separation, the fly leaf drives the lifter plate upward movement through the support column, and the lifter plate is quick to be released in the lower module of following of the product in the lower module to play the effect of fast demoulding, solved current optical fiber terminal box fast demoulding mould reduction production efficiency, increased cost of labor's problem.

The demolding die has the following defects: 1. in the demolding process, the servo motor is required to continuously provide power, and a transmission structure is also required between the servo motor and the upper mold, so that the cost is high, and the energy conservation is not facilitated. Therefore, the communication optical fiber box mold convenient for material taking is provided.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a main aim at provides a communication fiber box mould convenient to get material can effectively solve the problem in the background art.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides a communication fiber optic box mould convenient to get material, includes base, storage water tank, roof and last module, the storage water tank is installed through the mounting groove in the base top, the base top is close to the welding of storage water tank both ends department has the riser, the welding has lower module between the inboard riser top, the module upper end is provided with the roof down, the roof bottom is provided with the module, be close to both ends department in the last module and all seted up the installation cavity, there is servo electric jar bottom the installation cavity through the mounting screw in the installation cavity, go up the direction chamber that link up with the installation cavity all seted up at module both ends, the power take off end of servo electric jar is connected with lug and is located the direction intracavity.

Further, direction intracavity wall and lug junction are provided with the sealing washer, the sleeve is all installed through the fixed slot at base top both ends, the sleeve endotheca is equipped with the loop bar, the loop bar top respectively with roof bottom both ends welded connection, the handle is installed through the fixed slot respectively at roof top both ends, through the sealing washer, can effectively promote the sealed effect between direction intracavity wall and the lug, through the handle, conveniently drives the roof as required and reciprocates.

Further, roof bottom both ends are close to module outside department all installs the riser through the preformed groove down, the welding of storage water tank top has the backup pad, the backup pad top is connected with the second fixed plate, the temperature probe is all installed through the screw in riser inboard and second fixed plate top.

Further, a fixing cavity is formed in the lower module and is close to the bottom of the lower module, a first fixing plate is arranged in the fixing cavity, a heat conduction pipe is pre-buried in the first fixing plate, two ends of the heat conduction pipe are connected with first pipelines, and the first pipelines penetrate through two ends of the bottom of the lower module.

Further, water storage tank top both ends all are provided with the second pipeline, one of them is a set of be provided with electronic suction pump on the second pipeline, the peripheral all cover of electronic suction pump tip is equipped with the hose, connecting rod fixedly connected with PLC controller is passed through to storage tank one end, through the PLC controller, and the convenient temperature signal who records according to temperature probe controls driving motor's slew velocity in the electronic suction pump to the convenient circulation speed to water is controlled.

Further, roof and last module bottom one end run through and have seted up the runner of moulding plastics, the roof top corresponds the position with the runner of moulding plastics and is provided with the mouth of moulding plastics, the base bottom is close to the corner and all is fixed with the rubber foot pad through glue, through the rubber foot pad, conveniently promotes this mould stability at the during operation, through last module and the runner of moulding plastics, conveniently makes progress and annotates the material in the die cavity that forms between module and the lower module.

Compared with the prior art, the utility model discloses following beneficial effect has:

1. the utility model relates to a communication fiber box mould convenient to get material, open servo electric jar, the during operation drives lug horizontal migration, make the lug stretch out from last module tip, when the drawing of patterns, personnel exert ascending power to the handle, because lug tip department card this moment is established at fiber box injection molding inner wall, when making the handle lift up, can drive the roof smoothly, last module and fiber box injection molding rebound, accomplish getting of fiber box injection molding, this mould only needs to utilize servo electric jar to promote when the shaping in the drawing of patterns, and return back after the shaping, the stroke is shorter, need not to constantly provide power, need not to lay the transmission structure, the cost is lower, be favorable to energy-conservation.

2. The utility model relates to a communication fiber box mould convenient to get material, through the PLC controller, the convenient temperature signal who records according to temperature probe controls driving motor's slew velocity in the electronic suction pump to the circulation speed to water is controlled to the convenience, thereby realizes good radiating effect under can energy-conserving prerequisite.

Drawings

Fig. 1 is the utility model relates to a communication fiber box mould's overall structure schematic diagram convenient to get material.

Fig. 2 is the utility model relates to a communication fiber box mould's a department detail structure schematic diagram convenient to get material.

Fig. 3 is the utility model relates to a base and storage water tank of communication fiber box mould structure sketch map look up convenient to get material.

In the figure: 1. a base; 2. a water storage tank; 3. a rubber foot pad; 4. a sleeve; 5. a loop bar; 6. a top plate; 7. an injection molding port; 8. an upper module; 9. a mounting cavity; 10. a servo electric cylinder; 11. a guide cavity; 12. a seal ring; 13. a bump; 14. injection molding a runner; 15. a lower module; 16. a fixed cavity; 17. a first fixing plate; 18. a heat conducting pipe; 19. a first conduit; 20. a second conduit; 21. adjusting a valve; 22. a PLC controller; 23. a hose; 24. a vertical plate; 25. a support plate; 26. a second fixing plate; 27. a temperature measuring probe; 28. a handle.

Detailed Description

In order to make the utility model realize, the technical means, the creation characteristics, the achievement purpose and the efficacy are easy to understand and understand, the utility model is further explained by combining the specific implementation mode.

As shown in fig. 1, a communication fiber box mould convenient to get material, including base 1, storage water tank 2, roof 6 and last module 8, storage water tank 2 is installed through the mounting groove in base 1 top, base 1 top is close to 2 both ends department welding of storage water tank have the riser, the welding has lower module 15 between the inboard riser top, module 15 upper end is provided with roof 6 down, 6 bottoms of roof are provided with module 8, it all has seted up installation cavity 9 to be close to both ends department in the module 8 to go up, there is servo electric jar 10 bottom in installation cavity 9 through the screw mounting, go up module 8 both ends and all set up the direction chamber 11 that link up with installation cavity 9, the power take off end of servo electric jar 10 is connected with lug 13 and lug 13 is located direction chamber 11.

Wherein, the department of leading 11 inner walls in chamber and 13 junctures of lug is provided with sealing washer 12, sleeve 4 is all installed through the fixed slot at base 1 top both ends, sleeve 4 endotheca is equipped with loop bar 5, loop bar 5 top respectively with 6 bottom both ends welded connection of roof, handle 28 is installed through the fixed slot respectively at 6 top both ends of roof.

In this embodiment, as shown in fig. 1 and 2, the sealing effect between the inner wall of the guide cavity 11 and the protrusion 13 can be effectively improved by the sealing ring 12, and the top plate 6 is conveniently driven to move up and down as required by the handle 28.

Wherein, 6 bottom both ends of roof are close to the outside department of lower module 15 all installs riser 24 through the preformed groove, 2 top welding of storage water tank have backup pad 25, backup pad 25 top is connected with second fixed plate 26, temperature probe 27 is all installed through the screw in riser 24 inboard and second fixed plate 26 top.

In this embodiment, as shown in fig. 1, the temperature measuring probe 27 is used to facilitate the detection of the heat emitted from the two ends and the bottom of the lower mold block 15 during the injection molding process.

A fixed cavity 16 is formed in the lower module 15 and is close to the bottom, a first fixed plate 17 is arranged in the fixed cavity 16, a heat conduction pipe 18 is embedded in the first fixed plate 17, two ends of the heat conduction pipe 18 are connected with first pipelines 19, and the first pipelines 19 penetrate through two ends of the bottom of the lower module 15.

In this embodiment, as shown in fig. 1, the heat pipe 18 facilitates uniform heat dissipation from the bottom of the lower module 15 when water is introduced.

Wherein, 2 top both ends of storage water tank all are provided with second pipeline 20, one of them is a set of be provided with electronic suction pump 21 on the second pipeline 20, electronic suction pump 21 tip periphery all is equipped with hose 23, 2 one ends of storage water tank are through connecting rod fixedly connected with PLC controller 22.

In this embodiment, as shown in fig. 1, the PLC controller 22 is used to control the rotation speed of the driving motor in the electric water pump 21 according to the temperature signal detected by the temperature probe 27, so as to control the circulation speed of water.

Wherein, roof 6 and 8 bottom one ends of last module run through and have seted up the runner 14 of moulding plastics, roof 6 top and the runner 14 corresponding position of moulding plastics are provided with the mouth 7 of moulding plastics, 1 bottom of base is close to the corner and all is fixed with rubber callus on the sole 3 through glue.

As shown in figures 1 and 3 in this embodiment, through rubber foot pad 3, conveniently promote this mould stability at the during operation, through last module 8 and runner 14 of moulding plastics, conveniently annotate the material in the die cavity that forms between module 8 and lower module 15 that makes progress.

It should be noted that the utility model is a communication optical fiber box mould which is convenient for taking materials, when in use, through the upper module 8 and the injection runner 14, the material is conveniently injected into the die cavity formed between the upper module 8 and the lower module 15, the servo electric cylinder 10 is opened, the lug 13 is driven to horizontally move during operation, so that the lug 13 extends out of the end part of the upper module 8, when demoulding, the person applies an upward force to the handle 28, and when the handle 28 is lifted upwards due to the end of the projection 13 which is now stuck against the inner wall of the injection moulded part of the optical fiber box, the top plate 6, the upper module 8 and the optical fiber box injection molding piece can be smoothly driven to move upwards to finish the material taking of the optical fiber box injection molding piece, after the material is taken, the servo electric cylinder 10 retracts again to drive the projection 13 to retract, so that the optical fiber box injection molding machine part is separated from the upper module 8, the mold is pushed only by utilizing the servo electric cylinder 10 during the molding process during the demolding process, and the water pipe is retracted after molding, the stroke is short, power is not required to be continuously provided, a transmission structure is not required to be arranged, the cost is low, energy conservation is facilitated, the end part of the hose 23 is respectively connected with the bottom end of the corresponding first pipeline 19, a water path is formed among the water storage tank 2, the second pipeline 20, the hose 23, the first pipeline 19 and the heat conduction pipe 18, the heat conduction pipe 18 is convenient to be introduced with water, the bottom of the lower module 15 is uniformly radiated, the water in the water channel provides power for circular flow under the work of the electric water pump 21, the temperature measuring probe 27 is convenient for detecting the heat emitted by the two ends and the bottom of the lower module 15 during the injection molding, the PLC 22 is used for conveniently controlling the rotation speed of the driving motor in the electric water pump 21 according to the temperature signal measured by the temperature measuring probe 27, therefore, the circulation speed of water can be conveniently controlled, and a good heat dissipation effect can be realized on the premise of saving energy.

The basic principles and the main features of the invention and the advantages of the invention have been shown and described above. It should be understood by those skilled in the art that the present invention is not limited to the above embodiments, and the above embodiments and descriptions are only illustrative of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the present invention, and all such changes and modifications fall within the scope of the present invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (6)

1. The utility model provides a communication fiber box mould convenient to get material, includes base (1), storage water tank (2), roof (6) and last module (8), its characterized in that: storage water tank (2) are installed through the mounting groove in base (1) top, base (1) top is close to storage water tank (2) both ends department welding has the riser, the welding has lower module (15) between the riser top inboard, module (15) upper end is provided with roof (6) down, roof (6) bottom is provided with module (8), go up in module (8) and be close to both ends department and all seted up installation cavity (9), servo electric jar (10) are installed through the screw to the bottom in installation cavity (9), go up guide cavity (11) that link up with installation cavity (9) all to set up at module (8) both ends, the power take off end of servo electric jar (10) is connected with lug (13) and is located guide cavity (11).

2. A telecommunications fiber optic enclosure module as claimed in claim 1, wherein said module includes: guide chamber (11) inner wall and lug (13) junction are provided with sealing washer (12), sleeve (4) are all installed through the fixed slot at base (1) top both ends, loop bar (5) are equipped with to sleeve (4) endotheca, loop bar (5) top respectively with roof (6) bottom both ends welded connection, handle (28) are installed through the fixed slot respectively at roof (6) top both ends.

3. A telecommunications fiber optic enclosure module as claimed in claim 1, wherein said module includes: roof (6) bottom both ends are close to module (15) outside department all installs riser (24) through the preformed groove down, storage water tank (2) top welding has backup pad (25), backup pad (25) top is connected with second fixed plate (26), riser (24) inboard and second fixed plate (26) top all install temperature probe (27) through the screw.

4. A telecommunications fiber optic enclosure module as claimed in claim 1, wherein said module includes: the heat pipe fixing device is characterized in that a fixing cavity (16) is formed in the lower module (15) and is close to the bottom, a first fixing plate (17) is arranged in the fixing cavity (16), a heat pipe (18) is embedded in the first fixing plate (17), two ends of the heat pipe (18) are connected with first pipelines (19), and the first pipelines (19) penetrate through two ends of the bottom of the lower module (15).

5. A telecommunications fiber optic enclosure module as claimed in claim 1, wherein said module includes: storage water tank (2) top both ends all are provided with second pipeline (20), and wherein a set of be provided with electronic suction pump (21) on second pipeline (20), electronic suction pump (21) tip periphery all is overlapped and is equipped with hose (23), connecting rod fixedly connected with PLC controller (22) is passed through to storage water tank (2) one end.

6. A telecommunications fiber optic enclosure module as claimed in claim 1, wherein said module includes: roof (6) and last module (8) bottom one end run through and have seted up the runner (14) of moulding plastics, roof (6) top corresponds the position with the runner (14) of moulding plastics and is provided with the mouth (7) of moulding plastics, base (1) bottom is close to the corner and all is fixed with rubber foot pad (3) through glue.

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