CN215969868U - In-mold integrated forming equipment with cooling device - Google Patents

Abstract

The utility model relates to the technical field of molding equipment, and provides in-mold integrated molding equipment with a cooling device, which comprises a machine body, an upper mold body and a lower mold body which are arranged on the machine body, and a sliding part, wherein the sliding part is arranged on the machine body in a sliding manner, the upper mold body, the lower mold body and the sliding part form a molding space after moving, the upper mold body and the lower mold body are arranged on the machine body in a sliding manner in the vertical direction, and the sliding part is provided with a cooling cavity.

Description

In-mold integrated forming equipment with cooling device

Technical Field

The utility model relates to the technical field of forming equipment, in particular to in-mold integrated forming equipment with a cooling device.

Background

The stationery includes student stationery, office stationery, gift stationery and the like. Modern paraphrases shall refer to some modern stationery items commonly used in offices: sign pens, fountain pens, pencils, ball point pens, and the like; and matching supplies such as pen containers and the like. Other office supplies also include: straightedge, notebook, file pocket, file envelope, calculator, binder, etc.

Generally, stationery is manufactured in an injection molding mode in the manufacturing process, an injection molding machine (an injection machine or an injection molding machine for short) is main molding equipment for manufacturing thermoplastic plastics or thermosetting materials into plastic products with various shapes by utilizing a plastic molding die, the injection molding is realized by the injection molding machine and the die, most stationery such as pen containers, pen caps and the like are of hollow structures, and the hollow structures are not easy to cool in the injection molding process, so that the production efficiency is low, and the problem in the industry is also solved.

Therefore, a solution to the above problem is needed.

SUMMERY OF THE UTILITY MODEL

The utility model provides an in-mold integrated molding device with a cooling device, which solves the problems of difficult cooling and low production efficiency in the injection molding process in the related technology.

The technical scheme of the utility model is as follows:

the utility model provides an in-mould integrated into one piece equipment with cooling device, includes the fuselage, still including setting up last die body and lower die body on the fuselage still include the slider, the slider slides and sets up on the fuselage, go up the die body down the die body with the slider removes the back and forms the shaping space, go up the die body with the equal vertical direction of die body slides and sets up down on the fuselage, the slider has the cooling cavity.

As a further technical scheme, the number of the sliding parts is two, the two sliding parts are symmetrically arranged on the machine body, and the upper die body, the lower die body and the two sliding parts form a forming space after moving.

As a further technical proposal, the machine body is provided with an upper machine body and a lower machine body, the upper die body is arranged on the upper machine body, and the machine body also comprises,

the two first linear driving devices are arranged on the lower machine body, the first linear driving devices are respectively positioned on two sides of the lower die body, and the telescopic end of each first linear driving device is connected with the upper machine body.

As a further technical proposal, the method also comprises the following steps,

the connecting rod, there are two the one end of connecting rod is respectively with two the flexible end hinge of first linear drive device, two the connecting rod other end is respectively with two the one end hinge of slider, first linear drive device is flexible to be passed through the connecting rod drive the slider horizontal direction slides.

As a further technical proposal, the method also comprises the following steps,

two second linear driving devices are arranged on the lower machine body, the telescopic ends of the two second linear driving devices are connected with the lower machine body,

two sliding blocks are arranged on the lower machine body in a sliding manner in the horizontal direction,

the telescopic link is two, two telescopic link one end respectively with two the slider is connected, two the telescopic link other end respectively with two the sliding block is connected, the flexible drive of first linear drive device the sliding block horizontal direction slides, the flexible drive of first linear drive device the telescopic link is flexible.

As a further technical scheme, the sliding part is provided with a baffle, the baffle slides in the horizontal direction through the sliding part to be in contact with the upper die body and the lower die body, and the upper die body, the lower die body, the baffle and the sliding part form the molding space.

As a further technical scheme, the lower die body is provided with blocking parts, the blocking parts are positioned at two ends of the lower die body, the baffle is in contact with the blocking parts after moving, and the blocking parts block the baffle from moving in the vertical direction.

As a further technical scheme, the machine further comprises a feeding hole, wherein the feeding hole is formed in the upper machine body, and the feeding hole is communicated with the forming space.

As a further technical scheme, the sliding piece is provided with a water inlet and a water outlet, the water inlet and the water outlet are communicated with the cooling cavity, and the sliding piece further comprises a cooling water pipe, and the cooling water pipe is communicated with the water inlet and the water outlet respectively.

The working principle and the beneficial effects of the utility model are as follows:

the utility model relates to intramembrane integrated forming equipment with a cooling device, which comprises a machine body, an upper mold body and a lower mold body which are arranged on the machine body, and a sliding part, wherein the sliding part is arranged on the machine body in a sliding manner, the upper mold body, the lower mold body and the sliding part form a forming space after moving, the upper mold body and the lower mold body are both arranged on the machine body in a sliding manner in the vertical direction, the sliding part is provided with a cooling cavity,

when the injection molding machine works, the upper die body and the lower die body drive the sliding part to move after moving, finally forming a molding space, the sliding part can be a cylinder and extends into the molding space to form a cavity after injection molding, cooling water can be introduced into a cooling cavity in the sliding part to cool an injection molding part from the inside,

the injection molding device has the advantages that the injection molding space is formed by the movement of the sliding part, the upper mold body and the lower mold body, the injection molding efficiency can be increased, the cooling cavity is arranged in the sliding part, the injection molding part can be cooled from the inside of the injection molding part, the cooling effect is better, the effect after molding is increased, and the injection molding efficiency is improved.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a cross-sectional view of the structure of the present invention;

FIG. 2 is a cross-sectional view of the structure of the present invention;

FIG. 3 is a cross-sectional view of a slider according to the present invention;

in the figure: 1. the machine body, 2, go up the die body, 3, lower die body, 4, slider, 5, shaping space, 41, cooling cavity, 11, go up the die body, 12, lower organism, 6, first linear drive device, 7, connecting rod, 8, second linear drive device, 9, sliding block, 10, telescopic link, 42, baffle, 31, fender portion, 111, feed inlet, 43, water inlet, 44, delivery port, 13, condenser tube.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to 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 of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any inventive step, are intended to be within the scope of the present invention.

As shown in fig. 1-3, this embodiment provides an in-mold integrated into one piece equipment with cooling device, including fuselage 1, still including setting up last die body 2 and lower die body 3 on the fuselage 1 still include slider 4, have two slider 4 all slides and sets up on the fuselage 1, go up die body 2 die body 3 down with slider 4 forms shaping space 5 after removing, go up die body 2 with the equal vertical direction of lower die body 3 slides and sets up on the fuselage 1, slider 4 has cooling cavity 41.

In the embodiment, the intramembrane integrated forming equipment with the cooling device comprises a machine body 1, an upper mold body 2 and a lower mold body 3 which are arranged on the machine body 1, and a sliding part 4, wherein the sliding part 4 is arranged on the machine body 1 in a sliding manner, a forming space 5 is formed after the upper mold body 2, the lower mold body 3 and the sliding part 4 are moved, the upper mold body 2 and the lower mold body 3 are arranged on the machine body 1 in a sliding manner in the vertical direction, the sliding part 4 is provided with a cooling cavity 41,

when the injection molding machine works, the upper die body 2 and the lower die body 3 drive the sliding part 4 to move after moving, finally forming the molding space 5, the sliding part 4 can be a cylinder and extends into the molding space 5 to form a cavity after injection molding, cooling water can be introduced into a cooling cavity 41 in the sliding part 4 to cool the injection molding part from the inside,

the injection molding space is formed by the movement of the sliding part 4 and the upper mold body 2 and the lower mold body 3, the injection molding efficiency can be increased, the cooling cavity 41 is arranged in the sliding part 4, the injection molding part can be cooled from the inside of the injection molding part, the cooling effect is better, the effect after molding is increased, the injection molding efficiency is improved, and the size of the injection molding part can be controlled and formed by the movement of the upper mold body 2 and the lower mold body 3.

The number of the sliding parts 4 is two, the two sliding parts 4 are symmetrically arranged on the machine body 1, and the upper die body 2, the lower die body 3 and the two sliding parts 4 form a forming space 5 after moving.

In this embodiment, slider 4 has two, two slider 4 symmetries set up on fuselage 1, go up the mould 2, form shaping space 5 after lower mould 3 and two slider 4 remove, follow mould and bed die removal back respectively through two moving members, can be better cool off the injection molding, still can divide into two with slider 4, can make slider 4 get into shaping space 5 from both sides, reduce the length of slider 4, reduce the stroke of slider 4 removal process, reduce the shared space of device.

The machine body 1 is provided with an upper machine body 11 and a lower machine body 12, the upper die body 2 is arranged on the upper machine body 11, and the machine body further comprises,

two first linear driving devices 6 are provided, the two first linear driving devices 6 are both arranged on the lower machine body 12, the first linear driving devices 6 are respectively located on two sides of the lower die body 3, and the telescopic end of each first linear driving device 6 is connected with the upper machine body 11.

In this embodiment, fuselage 1 has last organism 11 and lower organism 12, it sets up on last organism 11 to go up the organism 2, still include, first linear drive device 6, there are two, two first linear drive device 6 all set up on organism 12 down, first linear drive device 6 is located the both sides of die body 3 down respectively, first linear drive device 6's flexible end is connected with last organism 11, in operation, first linear drive device 6 is flexible to be driven and is gone up the organism 11 and carry out vertical direction and remove, thereby drive the vertical direction of die body 2 and remove, make and go up die body 2 and be close to or keep away from with lower die body 3, make the device combination more accurate, the size of the injection molding body that still can control formation.

Also comprises the following steps of (1) preparing,

the connecting rod 7, there are two the one end of connecting rod 7 is respectively with two the flexible end hinge of first linear drive device 6, two the connecting rod 7 other end is respectively with two the one end hinge of slider 4, first linear drive device 6 is flexible to be passed through connecting rod 7 drive slider 4 horizontal direction slides.

In the embodiment, the device also comprises two connecting rods 7, one end of each connecting rod 7 is respectively hinged with the telescopic ends of the two first linear driving devices 6, the other end of each connecting rod 7 is respectively hinged with one end of each sliding piece 4, the first linear driving devices 6 are driven by the connecting rods 7 to slide horizontally in a telescopic mode, when the device works, the first linear driving device 6 extends and retracts, not only can drive the upper machine body 11 to move vertically, but also can drive one end of the connecting rod 7 to move downwards, thereby, the other end of the connecting rod 7 acts on the sliding part 4 to move horizontally, the sliding part 4 can be more accurately driven to move horizontally, the power source in the moving process is reduced, when the connecting part does not move enough in the horizontal direction to extend into the molding space 5, the vertical movement of the lower body 12 can be controlled to adjust the moving distance of the upper body 11, thereby adjusting the moving distance of the slider 4.

Also comprises the following steps of (1) preparing,

two second linear driving devices 8 are provided, two second linear driving devices 8 are arranged on the lower body 12, the telescopic ends of the two second linear driving devices 8 are connected with the lower die body 3,

two sliding blocks 9 are provided, the two sliding blocks 9 are both arranged on the lower machine body 12 in a sliding manner in the horizontal direction,

the telescopic link 10, be two 10 one end of telescopic link respectively with two slider 4 is connected, two 10 other ends of telescopic link respectively with two sliding block 9 is connected, the flexible drive of first linear drive device 6 sliding block 9 horizontal direction slides, the flexible drive of first linear drive device 6 telescopic link 10 is flexible.

In this embodiment, the device further comprises two second linear driving devices 8, two sliding blocks 9 and two telescopic rods 10, wherein the two second linear driving devices 8 are arranged on the lower machine body 12, the telescopic ends of the two second linear driving devices 8 are connected with the lower machine body 3, the two sliding blocks 9 are arranged, the two sliding blocks 9 are horizontally slidably arranged on the lower machine body 12, the two telescopic rods 10 are arranged, the other ends of the two telescopic rods 10 are respectively connected with the two sliding blocks 9, the first linear driving device 6 telescopically drives the sliding blocks 9 to horizontally slide, the first linear driving device 6 telescopically drives the telescopic rods 10 to telescopically extend, when the device works, the second linear driving devices 8 telescopically drive the lower machine body 12 to vertically move, the first linear driving device 6 telescopically drives the sliding pieces 4 to horizontally move through the connecting rod 7, the sliding pieces 4 move through the telescopic rods 10 to drive the sliding blocks 9 to move, the lower machine body 12 is provided with a limiting groove, the sliding block 9 can limit the movement of the sliding piece 4, and the telescopic rod 10 can limit the movement of the sliding piece 4 in the vertical direction.

The sliding part 4 is provided with a baffle 42, the baffle 42 is in contact with the upper die body 2 and the lower die body 3 through the sliding of the sliding part 4 in the horizontal direction, and the upper die body 2, the lower die body 3, the baffle 42 and the sliding part 4 form the molding space 5.

In this embodiment, the sliding member 4 has the baffle 42, the baffle 42 slides in the horizontal direction through the sliding member 4 to contact with the upper mold body 2 and the lower mold body 3, the upper mold body 2, the lower mold body 3, the baffle 42 and the sliding member 4 form the forming space 5, and in operation, after the sliding member 4 moves and forms the forming space 5 with the upper mold body 2 and the lower mold body 3, the baffle 42 can block two ends of the forming space 5, so as to prevent the injection molding liquid from flowing out from the two ends, which results in the problem of incapability of forming.

The lower die body 3 is provided with blocking parts 31, the blocking parts 31 are located at two ends of the lower die body 3, the baffle 42 is in contact with the blocking parts 31 after moving, and the blocking parts 31 block the baffle 42 from moving in the vertical direction.

In this embodiment, lower die body 3 has fender portion 31, and fender portion 31 is located the both ends of lower die body 3, and baffle 42 removes the back and contacts with fender portion 31, and fender portion 31 blocks the vertical direction of baffle 42 and removes, and during operation, slider 4 horizontal direction remove the back and go up the cooperation of die body 2 and lower die body 3, and the accessible keeps off portion 31 and baffle 42's position relation, and it is spacing to the position of baffle 42, prevents that slider 4's position is inaccurate, and the injection molding of formation is not conform to the standard.

Still include feed inlet 111, feed inlet 111 sets up on last organism 11, feed inlet 111 with shaping space 5 intercommunication.

In this embodiment, still include feed inlet 111, feed inlet 111 sets up on last organism 11, and feed inlet 111 communicates with shaping space 5, and during the during operation, the raw materials of moulding plastics gets into upper die body 2 from feed inlet 111, gets into in shaping space 5 from upper die body 2, accomplishes moulding plastics.

The sliding member 4 is provided with a water inlet 43 and a water outlet 44, the water inlet 43 and the water outlet 44 are both communicated with the cooling cavity 41, and the sliding member further comprises a cooling water pipe 13, and the cooling water pipe 13 is respectively communicated with the water inlet 43 and the water outlet 44.

In this embodiment, the sliding member 4 has a water inlet 43 and a water outlet 44, the water inlet 43 and the water outlet 44 are both communicated with the cooling cavity 41, and the cooling water pipe 13 is further included, the cooling water pipe 13 is respectively communicated with the water inlet 43 and the water outlet 44, when the cooling water circulation device works, the cooling water enters the cooling cavity 41 from the water inlet 43 through the cooling water pipe 13, and is discharged from the water outlet 44 through the cooling water pipe 13, so that the circulation of the cooling water is completed, and the cooling efficiency is increased.

The present invention is not limited to the above preferred embodiments, and any modifications, equivalent substitutions, improvements, etc. within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (9)

1. The utility model provides an in-mould integrated into one piece equipment with cooling device, includes fuselage (1), still including setting up last die body (2) and lower die body (3) on fuselage (1) still include slider (4), slider (4) slide to set up on fuselage (1), go up die body (2) down die body (3) with slider (4) remove the back and form shaping space (5), its characterized in that, go up die body (2) with die body (3) all slide to set up down on fuselage (1), slider (4) have cooling cavity (41).

2. The in-mold integrated molding device with the cooling device according to claim 1, wherein there are two sliding parts (4), two sliding parts (4) are symmetrically arranged on the machine body (1), and the upper mold body (2), the lower mold body (3) and two sliding parts (4) form a molding space after moving.

3. The in-mold integrated molding apparatus with a cooling device according to claim 1, wherein the machine body (1) has an upper machine body (11) and a lower machine body (12), the upper mold body (2) is provided on the upper machine body (11), further comprising,

the first linear driving devices (6) are arranged in two numbers, the first linear driving devices (6) are arranged on the lower machine body (12), the first linear driving devices (6) are respectively located on two sides of the lower die body (3), and the telescopic ends of the first linear driving devices (6) are connected with the upper machine body (11).

4. The in-mold integrated-molding apparatus with a cooling device according to claim 3, further comprising,

connecting rod (7), there are two the one end of connecting rod (7) is respectively with two the flexible end hinge of first linear drive device (6), two the connecting rod (7) other end is respectively with two the one end hinge of slider (4), first linear drive device (6) are flexible to be passed through connecting rod (7) drive slider (4) horizontal direction slides.

5. The in-mold integrated-molding apparatus with a cooling device according to claim 3, further comprising,

two second linear driving devices (8) are arranged, the two second linear driving devices (8) are arranged on the lower machine body (12), the telescopic ends of the two second linear driving devices (8) are connected with the lower die body (3),

two sliding blocks (9) are arranged, the two sliding blocks (9) are arranged on the lower machine body (12) in a sliding manner in the horizontal direction,

telescopic link (10), for two, two telescopic link (10) one end respectively with two slider (4) are connected, two telescopic link (10) other end respectively with two sliding block (9) are connected, the flexible drive of first linear drive device (6) sliding block (9) horizontal direction slides, the flexible drive of first linear drive device (6) telescopic link (10) are flexible.

6. The in-mold integrated molding apparatus with a cooling device according to claim 1, wherein the sliding member (4) has a baffle (42), the baffle (42) is in contact with the upper mold body (2) and the lower mold body (3) by sliding the sliding member (4) in a horizontal direction, and the upper mold body (2), the lower mold body (3), the baffle (42) and the sliding member (4) form the molding space (5).

7. The in-mold integrated molding device with the cooling device according to claim 6, wherein the lower mold body (3) has a blocking portion (31), the blocking portion (31) is located at two ends of the lower mold body (3), the baffle (42) contacts with the blocking portion (31) after moving, and the blocking portion (31) blocks the baffle (42) from moving vertically.

8. The in-mold integrated molding device with the cooling device according to claim 3, further comprising a feeding port (111), wherein the feeding port (111) is disposed on the upper body (11), and the feeding port (111) is communicated with the molding space (5).

9. The in-mold integral molding apparatus with a cooling device according to claim 1, wherein the sliding member (4) has a water inlet (43) and a water outlet (44), the water inlet (43) and the water outlet (44) both communicate with the cooling cavity (41), and further comprising a cooling water pipe (13), the cooling water pipe (13) communicates with the water inlet (43) and the water outlet (44), respectively.

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