CN212446094U - Needle cylinder production is with injection mold who has cooling structure - Google Patents

Abstract

The invention discloses an injection mold with a cooling structure for needle cylinder production, which relates to the technical field of needle cylinder production and comprises a mold seat, a water cooling mechanism and a waste material cutting mechanism, wherein a mold base station is integrally fixed above the mold seat, support columns are arranged on two sides below the die holder, a base is arranged below the support columns, fixing columns are connected with two sides above the die base platform, a top plate is fixed above the fixed column, a hydraulic rod is arranged below the middle part of the top plate, a lifting plate is fixed below the hydraulic rod, air cooling mechanisms are arranged on the front side and the rear side below the lifting plate, and the middle part below the lifting plate is fixed with a die inner tube, the middle part inside the die holder is provided with a die outer tube, and the two sides of the outer pipe of the mould are provided with injection molding openings, and the water cooling mechanism is arranged on the outer side of the outer pipe of the mould, the invention has the beneficial effects that: the device can excise the waste material outside the upper part of the forming die through the arrangement of the waste material excising mechanism, and reduces subsequent processing procedures.

Description

Needle cylinder production is with injection mold who has cooling structure

Technical Field

The invention relates to the technical field of needle cylinder production, in particular to an injection mold with a cooling structure for needle cylinder production.

Background

The syringe is made of special PP material, the piston is made of PE material, each box has syringes and matching pistons of the same quantity, the transparent syringe is suitable for most fluids; the amber needle cylinder is suitable for UV curing glue and light curing glue; the opaque black syringe can shield all light, and a syringe injection mold is needed in the syringe production process, and the mold is a tool for manufacturing molded articles.

The existing injection mold for the needle cylinder is generally low in cooling speed and production efficiency, ejection, heat dissipation and material taking of a molded product are inconvenient to achieve in the using process of the mold, redundant overflowing waste materials possibly exist after injection molding, and the waste materials are inconvenient to cut.

Disclosure of Invention

The invention aims to provide an injection mold with a cooling structure for needle cylinder production, and aims to solve the problems that the existing needle cylinder injection mold in the background art is generally low in cooling speed and production efficiency, ejection, heat dissipation and material taking of a formed product are inconvenient to carry out in the using process of the mold, and excessive waste materials overflow possibly after injection molding and are inconvenient to cut off the waste materials.

In order to achieve the purpose, the invention provides the following technical scheme: an injection mold with a cooling structure for needle cylinder production comprises a mold base, a water cooling mechanism and a waste cutting mechanism, wherein a mold base platform is integrally fixed above the mold base, support columns are installed on two sides below the mold base, a base is installed below the support columns, fixed columns are connected on two sides above the mold base platform, a top plate is fixed above the fixed columns, a hydraulic rod is installed below the middle of the top plate, a lifting plate is fixed below the hydraulic rod, air cooling mechanisms are installed on the front side and the rear side of the lower portion of the lifting plate, a mold inner tube is fixed in the middle of the lower portion of the lifting plate, a mold outer tube is installed in the middle of the inner portion of the mold base, injection molding ports are formed in two sides of the mold outer tube, the water cooling mechanism is installed on the outer side of the mold outer tube, an ejection mechanism is fixed below the mold outer tube, and the waste cutting mechanism is installed, and the waste material cutting mechanism is positioned outside the upper part of the outer pipe of the die.

Preferably, air-cooling mechanism is including fixed plate, fan housing, micro motor, rotation axis and flabellum, the fixed plate is all installed to both sides around the below of lifter plate, and the fan housing is installed to the below of fixed plate, fan housing's inside is fixed with micro motor, and micro motor's the place ahead is provided with the rotation axis, the outside of rotation axis is fixed with the flabellum.

Preferably, the symmetry center of the inner pipe of the die coincides with the symmetry center of the outer pipe of the die, and the inner pipe of the die and the lifting plate form a lifting structure through a hydraulic rod.

Preferably, the water cooling mechanism comprises a water cooling groove, a connecting water pipe, heat dissipation fins, a heat dissipation air channel and a ventilation opening, the water cooling groove is located outside the outer pipe of the mold, the connecting water pipe is fixed on two sides of the water cooling groove, the heat dissipation fins are installed on the front side and the rear side of the water cooling groove, the outer side of each heat dissipation fin is arranged as the heat dissipation air channel, and the ventilation opening is formed in the outer side of the heat dissipation air channel.

Preferably, the section of the water cooling groove is in an annular structure, the center line of the water cooling groove is superposed with the center line of the outer pipe of the mold, and the outer side of the water cooling groove is symmetrically provided with the radiating fins.

Preferably, ejection mechanism is including miniature electric putter, push pedal and hollow groove, the hollow groove has been seted up to the inside below of die holder, miniature electric putter is installed to the top of base, and miniature electric putter's top is fixed with the push pedal.

Preferably, the bottom of the outer pipe of the die is fixedly connected with the upper side face of the push plate, and the push plate forms a lifting structure through a miniature electric push rod.

Preferably, the waste material excision mechanism is including frame, movable block, cutter, slider and spout, the movable block is installed to the inboard of frame, and the inboard of movable block is fixed with the cutter, the spout has been seted up to the inner wall of frame, one side that the movable block is close to the spout is fixed with the slider.

Preferably, the movable block and the cutter form a sliding structure with the outer frame through the sliding block and the sliding groove, the outer frame is in a circular structure, and the symmetric center of the outer frame coincides with the symmetric center of the outer tube of the mold.

The invention provides an injection mold with a cooling structure for needle cylinder production, which has the following beneficial effects:

1. the inner die tube and the outer die tube are arranged to form a needle cylinder forming cavity conveniently, and the hydraulic rod is used for driving the lifting plate and the inner die tube to move up and down conveniently, so that the inner die tube can be matched with the outer die tube to form the forming cavity of the needle cylinder between the inner die tube and the outer die tube, and the injection molding of the needle cylinder is facilitated.

2. The air cooling mechanism is arranged to accelerate the cooling speed of the forming die, the micro motor and the rotating shaft are used to drive the fan blades to rotate so as to generate wind power, so that the heat of the outer pipe of the ejected die can be dissipated, and cold air can enter the heat dissipation air duct through the ventilation opening to cool the water cooling mechanism.

3. The water cooling mechanism is arranged to uniformly cool the outer side of the outer pipe of the mold, the section of the water cooling groove is in a ring-shaped structure to facilitate surrounding of the outer side of the outer pipe of the mold to dissipate heat of a forming mold inside the water cooling groove, the connecting water pipe facilitates inlet and outlet of cooling water inside the water cooling groove, and the arrangement of the heat dissipation fins facilitates acceleration of a heat dissipation process inside the water cooling groove.

4. The ejection mechanism is convenient for flexible lifting movement of the outer tube of the die, and the micro electric push rod is convenient for driving the push plate to lift, so that the outer tube of the die is convenient to push out from the inside of the die holder, the forming die is convenient to take materials, and the outer tube of the die can be conveniently pushed out to carry out direct air cooling heat dissipation on the outside of the outer tube of the die.

5. According to the invention, the waste on the outer side above the forming die can be cut off by arranging the waste cutting mechanism, so that the subsequent processing procedures are reduced, and the movable block and the cutter can be conveniently slid on the inner side of the outer frame through the mutual matching between the sliding block and the sliding groove, so that the movable cutter can cut off the waste on the outer side of the die forming position on the outer part above the die outer tube.

Drawings

FIG. 1 is a schematic front view of an injection mold with a cooling structure for producing a cylinder according to the present invention;

FIG. 2 is a schematic view of a partial structure of an air cooling mechanism of an injection mold with a cooling structure for producing a syringe according to the present invention;

FIG. 3 is a schematic sectional front view of an injection mold with a cooling structure for producing a cylinder according to the present invention;

FIG. 4 is a schematic view of a top view of an internal cross-sectional structure of a mold base of an injection mold with a cooling structure for producing a syringe according to the present invention;

FIG. 5 is a schematic top view of a mold base of an injection mold with a cooling structure for producing a cylinder according to the present invention.

In the figure: 1. a die holder; 2. a mold base table; 3. a support pillar; 4. a base; 5. fixing a column; 6. a top plate; 7. a hydraulic lever; 8. a lifting plate; 9. an air cooling mechanism; 901. a fixing plate; 902. a fan housing; 903. a micro motor; 904. a rotating shaft; 905. a fan blade; 10. an inner tube of the mold; 11. a mold outer tube; 12. an injection molding port; 13. a water cooling mechanism; 1301. a water cooling tank; 1302. connecting a water pipe; 1303. heat dissipation fins; 1304. a heat dissipation air duct; 1305. a vent; 14. an ejection mechanism; 1401. a miniature electric push rod; 1402. pushing the plate; 1403. a hollow groove; 15. a waste material cutting mechanism; 1501. an outer frame; 1502. a movable block; 1503. a cutter; 1504. a slider; 1505. a chute.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and 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 a person of ordinary skill in the art without creative efforts based on the embodiments of the present invention belong to the protection scope of the present invention.

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing and simplifying the description, and do not indicate or imply that the referred devices or elements must have a specific orientation, be constructed in a specific orientation, and be operated, and thus are not to be construed as limiting the present invention, and furthermore, the terms "first", "second", "third", and the like are only used for descriptive purposes and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, e.g., as being fixed or detachable or integrally connected; can be mechanically or electrically connected; they may be directly connected or indirectly connected through an intermediate, and those skilled in the art will understand the specific meaning of the above terms in the present invention in specific situations.

Referring to fig. 1-5, the present invention provides a technical solution: an injection mold with a cooling structure for producing a needle cylinder comprises a mold base 1, a mold base platform 2, support columns 3, a base 4, fixing columns 5, a top plate 6, a hydraulic rod 7, a lifting plate 8, an air cooling mechanism 9, a fixing plate 901, a fan shell 902, a micro motor 903, a rotating shaft 904, fan blades 905, a mold inner tube 10, a mold outer tube 11, an injection port 12, a water cooling mechanism 13, a water cooling tank 1301, a connecting water pipe 1302, heat dissipation fins 1303, a heat dissipation air duct 1304, a vent 1305, an ejection mechanism 14, a micro electric push rod 1401, a push plate 1402, a hollow groove 1403, a scrap cutting mechanism 15, an outer frame 1501, a movable block 1502, a cutter 1503, a sliding block 1504 and a sliding groove 1505, wherein the mold base platform 2 is integrally fixed above the mold base 1, the support columns 3 are installed on two sides below the mold base 1, the base 4 is installed below the support columns 3, the two, and the top of fixed column 5 is fixed with roof 6, and hydraulic stem 7 is installed to the middle part below of roof 6, and the below of hydraulic stem 7 is fixed with lifter plate 8.

The front side and the rear side below the lifting plate 8 are both provided with an air cooling mechanism 9, the middle part below the lifting plate 8 is fixed with a mold inner tube 10, the air cooling mechanism 9 comprises a fixing plate 901, a fan shell 902, a micro motor 903, a rotating shaft 904 and fan blades 905, the front side and the rear side below the lifting plate 8 are both provided with a fixing plate 901, the fan shell 902 is arranged below the fixing plate 901, the micro motor 903 is fixed inside the fan shell 902, the rotating shaft 904 is arranged in front of the micro motor 903, the fan blades 905 are fixed outside the rotating shaft 904, the symmetry center of the mold inner tube 10 is superposed with the symmetry center of the mold outer tube 11, the mold inner tube 10 and the lifting plate 8 form a lifting structure through a hydraulic rod 7, the lifting plate 8 and the mold inner tube 10 are driven to move up and down through the hydraulic rod 7, and the mold inner tube 10 can form a molding cavity of a needle, is convenient for the injection molding of the needle cylinder.

The mold base 1 is internally provided with an outer mold tube 11 in the middle, injection molding ports 12 are arranged on two sides of the outer mold tube 11, a water cooling mechanism 13 is arranged on the outer side of the outer mold tube 11, the water cooling mechanism 13 comprises a water cooling tank 1301, a connecting water tube 1302, heat dissipation fins 1303, a heat dissipation air duct 1304 and ventilation openings 1305, the water cooling tank 1301 is positioned outside the outer mold tube 11, the connecting water tube 1302 is fixed on two sides of the water cooling tank 1301, the heat dissipation fins 1303 are arranged on the front side and the rear side of the water cooling tank 1301, the heat dissipation air duct 1304 is arranged on the outer side of the heat dissipation fins 1303, the ventilation openings 1305 are arranged on the outer side of the heat dissipation air duct 1304, the cross section of the water cooling tank 1301 is in a ring-shaped structure, the center line of the water cooling tank 1301 is superposed with the center line of the outer mold tube 11, the heat dissipation fins 1303 are symmetrically, the provision of the heat radiating fins 1303 facilitates acceleration of the heat dissipation process inside the water-cooling bath 1301.

The ejection mechanism 14 is fixed with in the below of mould outer tube 11, ejection mechanism 14 is including miniature electric putter 1401, push pedal 1402 and hollow groove 1403, hollow groove 1403 has been seted up to the inside below of die holder 1, miniature electric putter 1401 is installed to the top of base 4, and the top of miniature electric putter 1401 is fixed with push pedal 1402, be fixed connection between the bottom of mould outer tube 11 and the last side of push pedal 1402, and push pedal 1402 constitutes liftable structure through miniature electric putter 1401, be convenient for drive the lift of push pedal 1402 through miniature electric putter 1401, thereby be convenient for release mould outer tube 11 from the inside of die holder 1, so that the material of getting of forming die.

The waste cutting mechanism 15 is arranged on the inner side of the die base 2, the waste cutting mechanism 15 is positioned on the upper outer part of the die outer tube 11, the waste cutting mechanism 15 comprises an outer frame 1501, a movable block 1502, a cutter 1503, a slide block 1504 and a chute 1505, the movable block 1502 is arranged on the inner side of the outer frame 1501, a cutting knife 1503 is fixed on the inner side of the movable block 1502, a sliding groove 1505 is arranged on the inner wall of the outer frame 1501, a sliding block 1504 is fixed on one side of the movable block 1502 close to the sliding groove 1505, the movable block 1502 and the cutting knife 1503 form a sliding structure with the outer frame 1501 through the sliding block 1504 and the sliding groove 1505, and the outer frame 1501 is in a circular structure, and the center of symmetry of the outer frame 1501 coincides with the center of symmetry of the mold outer tube 11, the sliding of the movable blocks 1502 and the cutters 1503 inside the outer frame 1501 is facilitated by the cooperation between the sliders 1504 and the slide slots 1505, so that the movable cutter 1503 can perform scrap cutting on the outside of the molding position of the mold outside above the mold outer tube 11.

In summary, when the injection mold with the cooling structure for producing the needle cylinder is used, the lifting plate 8 and the mold inner tube 10 can be driven to descend by the hydraulic rod 7, then the mold inner tube 10 is sunk into the interior of the mold outer tube 11 to be matched with the mold outer tube 11, so that a molding cavity of the needle cylinder can be formed between the mold inner tube and the mold outer tube, then thermoplastic material is injected into the molding cavity through the injection port 12, after injection molding is completed, cooling water can be injected into the water cooling tank 1301 through the connecting water pipe 1302, so that the water cooling tank 1301 can surround the outer side of the mold outer tube 11 to dissipate heat of the molding mold inside the water cooling tank 1301, and meanwhile, the ventilation opening 1305 outside the mold is convenient for ventilating and dissipating heat of.

And can also drive the rotatory wind-force that produces of flabellum 905 through micro motor 903 and rotation axis 904 for cold wind accessible vent 1305 enters into heat dissipation wind channel 1304, when cooling to basic forming state, can drive the rising of push pedal 1402 through miniature electric putter 1401, thereby be convenient for release mould outer tube 11 from the inside of die holder 1, mould inner tube 10 inside simultaneously also rises under the effect of hydraulic stem 7 is synchronous, can drive the flabellum 905 rotation through micro motor 903 and rotation axis 904 once more at this moment, utilize the wind cooling directly to dispel the heat to the outside of mould outer tube 11, the cooling shaping speed of quickening mould.

Finally, the outer die tube 11 is moved downwards to the inside of the die holder 1 again, the movable block 1502 and the cutter 1503 are slid on the inner side of the outer frame 1501 through the mutual matching between the sliding block 1504 and the sliding groove 1505, so that the movable cutter 1503 can cut waste materials on the outer side of the die forming position on the upper outer portion of the outer die tube 11, and finally the outer die tube 11 is ejected through the push plate 1402 to take materials of the forming die, so that the using process of the injection die with the cooling structure for the whole needle cylinder production is completed.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be able to cover the technical scope of the present invention and the equivalent alternatives or modifications according to the technical solution and the inventive concept of the present invention within the technical scope of the present invention.

Claims (9)

1. The utility model provides a cylinder production is with injection mold who has cooling structure, includes die holder (1), water-cooling mechanism (13) and waste material excision mechanism (15), its characterized in that: the die comprises a die base (1), a die base (2) is integrally fixed above the die base (1), supporting columns (3) are mounted on two sides of the lower portion of the die base (1), a base (4) is mounted below the supporting columns (3), fixing columns (5) are connected to two sides of the upper portion of the die base (2), a top plate (6) is fixed above the fixing columns (5), a hydraulic rod (7) is mounted below the middle of the top plate (6), a lifting plate (8) is fixed below the hydraulic rod (7), air cooling mechanisms (9) are mounted on the front side and the rear side of the lower portion of the lifting plate (8), a die inner tube (10) is fixed in the middle of the lower portion of the lifting plate (8), a die outer tube (11) is mounted in the middle of the inner portion of the die base (1), injection molding ports (12) are arranged on two sides of the die outer tube (11), and the water cooling mechanisms (13), an ejection mechanism (14) is fixed below the outer die tube (11), a waste material cutting mechanism (15) is installed on the inner side of the die base table (2), and the waste material cutting mechanism (15) is located outside the upper portion of the outer die tube (11).

2. The injection mold with the cooling structure for producing the cylinder according to claim 1, wherein: air-cooled mechanism (9) is including fixed plate (901), fan housing (902), micro motor (903), rotation axis (904) and flabellum (905), fixed plate (901) are all installed to both sides around the below of lifter plate (8), and fan housing (902) are installed to the below of fixed plate (901), the inside of fan housing (902) is fixed with micro motor (903), and the place ahead of micro motor (903) is provided with rotation axis (904), the outside of rotation axis (904) is fixed with flabellum (905).

3. The injection mold with the cooling structure for producing the cylinder according to claim 1, wherein: the symmetry center of the inner die tube (10) coincides with the symmetry center of the outer die tube (11), and the inner die tube (10) and the lifting plate (8) form a lifting structure through the hydraulic rod (7).

4. The injection mold with the cooling structure for producing the cylinder according to claim 1, wherein: the water cooling mechanism (13) comprises a water cooling tank (1301), a connecting water pipe (1302), heat dissipation fins (1303), a heat dissipation air duct (1304) and a ventilation opening (1305), wherein the water cooling tank (1301) is located outside the outer pipe (11) of the mold, the connecting water pipe (1302) is fixed on two sides of the water cooling tank (1301), the heat dissipation fins (1303) are installed on the front side and the rear side of the water cooling tank (1301), the outer sides of the heat dissipation fins (1303) are set to be the heat dissipation air duct (1304), and the ventilation opening (1305) is formed in the outer side of the heat dissipation air duct (1304).

5. The injection mold with the cooling structure for producing the cylinder according to claim 4, wherein: the section of the water cooling groove (1301) is of an annular structure, the center line of the water cooling groove (1301) is superposed with the center line of the outer pipe (11) of the mold, and the outer side of the water cooling groove (1301) is symmetrically provided with radiating fins (1303).

6. The injection mold with the cooling structure for producing the cylinder according to claim 1, wherein: the ejection mechanism (14) comprises a micro electric push rod (1401), a push plate (1402) and a hollow groove (1403), the hollow groove (1403) is formed in the lower portion of the interior of the die holder (1), the micro electric push rod (1401) is installed above the base (4), and the push plate (1402) is fixed above the micro electric push rod (1401).

7. The injection mold with the cooling structure for producing the cylinder according to claim 6, wherein: the bottom of the outer pipe (11) of the die is fixedly connected with the upper side face of the push plate (1402), and the push plate (1402) forms a lifting structure through a micro electric push rod (1401).

8. The injection mold with the cooling structure for producing the cylinder according to claim 1, wherein: the waste material cutting mechanism (15) comprises an outer frame (1501), a movable block (1502), a cutter (1503), a sliding block (1504) and a sliding groove (1505), wherein the movable block (1502) is installed on the inner side of the outer frame (1501), the cutter (1503) is fixed on the inner side of the movable block (1502), the sliding groove (1505) is formed in the inner wall of the outer frame (1501), and the sliding block (1504) is fixed on one side, close to the sliding groove (1505), of the movable block (1502).

9. The injection mold with a cooling structure for producing a cylinder according to claim 8, wherein: the movable block (1502) and the cutter (1503) form a sliding structure with the outer frame (1501) through the sliding block (1504) and the sliding chute (1505), the outer frame (1501) is in a circular structure, and the symmetry center of the outer frame (1501) is overlapped with the symmetry center of the outer die tube (11).

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