CN214982861U

CN214982861U - Split type mould of tool kit

Info

Publication number: CN214982861U
Application number: CN202121724581.5U
Authority: CN
Inventors: 张智玮; 周永祥; 柏立杰
Original assignee: Jiashan Mingxin Technology Co ltd
Current assignee: Jiashan Mingxin Technology Co ltd
Priority date: 2021-07-27
Filing date: 2021-07-27
Publication date: 2021-12-03
Anticipated expiration: 2031-07-27

Abstract

The utility model relates to the tool box processing field, in particular to a split type mould of a tool box set, which comprises a base and a base station, and also comprises a controller, a filling mechanism and a die-casting mechanism, wherein the base is fixedly provided with a support frame, the filling mechanism is arranged at the top of the support frame for filling plastics, the filling mechanism comprises a heating cylinder and a conveying component, the heating cylinder is fixedly arranged at the top of the support frame, the conveying component is arranged inside the heating cylinder, the die-casting mechanism comprises an upper mould, a lower mould and a driving component, the top of the base station is symmetrically provided with four guide rods, the upper mould and the lower mould are both sheathed on the outer walls of the four guide rods, the driving component is arranged between the upper mould and the lower mould, and the conveying component and the driving component are electrically connected with the controller, and workers do not need to take the mold, so that time and labor are saved.

Description

Split type mould of tool kit

Technical Field

The utility model relates to a toolbox processing field, concretely relates to split type mould of set toolbox.

Background

A tool box: the container is a container for storing tools and various household sundries, can be used for various purposes such as production, families, maintenance, fishing and the like, and is widely used. It is classified into a mobile type and a fixed type. Mobile tool boxes are also known as tool carts. The material is as follows: PP plastic/plastic button/metal snap.

The prior rubber tool boxes are mostly manufactured by injection molding and blow molding, and the tool boxes are generally assembled by two half shells of a bottom shell and a top cover.

The existing rubber box injection molding technology has the following defects:

1. most of the existing dies can only process a half shell of the tool box at one time, and the whole tool box cannot be processed, so that the processing efficiency is low.

2. The mould needs to be taken manually, so that the time and the labor are wasted, and the cost is not saved.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a split type mould of tool kit.

To achieve the purpose, the utility model adopts the following technical proposal:

the utility model provides a split type mould of tool kit of group, the on-line screen storage device comprises a base and a base station, still include the controller, fill mechanism and die-casting mechanism, the fixed support frame that is equipped with of base, fill the mechanism and establish at the top of support frame in order to be used for filling plastics, it includes cartridge heater and conveying component to fill the mechanism, the fixed top of establishing at the support frame of cartridge heater, conveying component establishes the inside at the cartridge heater, die-casting mechanism includes the mould, lower mould and drive assembly, the top of base station is the symmetry and is provided with four guide arms, it all overlaps on the outer wall of four guide arms to go up mould and lower mould, drive assembly establishes between mould and lower mould, conveying component and drive assembly and controller are electric connection.

Preferably, drive assembly includes two-way cylinder and two connecting blocks, and the top of base is the vertical riser that is equipped with, and two-way cylinder is fixed to be established on the outer wall of riser, and two connecting blocks are fixed respectively to be established on the outer wall of mould and lower mould, and two outputs of two-way cylinder are respectively with two connecting block fixed connection, and two-way cylinder is connected with the controller electricity.

Preferably, the conveying assembly comprises a speed reduction motor and a spiral conveying rod, the speed reduction motor is fixedly arranged at the top of the supporting frame, the spiral conveying rod is rotatably arranged inside the heating cylinder, the spiral conveying rod is fixedly connected with the output end of the speed reduction motor, and the speed reduction motor is electrically connected with the controller.

Preferably, the top of lower mould is the symmetry and is provided with two die cavities, and the degree of depth of two die cavities is inconsistent, and the inside of every die cavity all is vertical the inserting and is equipped with the ejector pin, and the top of ejector pin all laminates with the inboard bottom of die cavity, the bottom of ejector pin and the top fixed connection of base station.

Preferably, all the cover is equipped with buffer spring on the lower half outer wall of every ejector pin, and the bottom of lower mould and the top of base station are contradicted with buffer spring's both ends respectively.

Preferably, the bottom of the lower die is in threaded connection with a top column, a limiting column is fixedly arranged at the top of the base station, and the axis of the top column is consistent with that of the limiting column.

Preferably, a charging bucket is fixedly arranged at the top of the supporting frame, and a discharging pipe is fixedly arranged between the charging bucket and the heating cylinder.

Preferably, the top of going up the mould is the symmetry and is provided with two material loading mouths, and the inside of every material loading mouth is all inserted and is equipped with the material loading pipe, fixedly between two material loading pipes being equipped with communicating pipe, fixedly between communicating pipe and the heating cylinder being equipped with the conveyer pipe, all fixedly on the one end outer wall that every material loading pipe is close to the die cavity establishing the solenoid valve, and every solenoid valve all is connected with the controller electricity.

The utility model has the advantages that: when the tool box is used for injection molding, firstly, the bidirectional cylinder is started through the controller, the output end of the bidirectional cylinder is respectively and fixedly connected with the upper die and the lower die through the two connecting blocks, the upper die and the lower die are driven to be close to each other because the upper die and the lower die are both sleeved with the four guide rods, so that the die assembly is realized, then, the speed reduction motor is started through the controller, the output end of the speed reduction motor is fixedly connected with the spiral conveying rod, the spiral conveying rod is rotatably connected with the heating cylinder, so that the spiral conveying rod is driven to rotate, further, the solid plastic particle oil discharging pipe inside the charging barrel is driven to enter the inside of the heating cylinder, the conveying pipe is conveyed to one end close to the conveying pipe by the rotating spiral conveying rod, the heating cylinder heats the solid plastic particle oil discharging pipe in the conveying process, the heating pipe is heated to be liquid, then the solid plastic particle oil discharging pipe enters the insides of the two cavities through the two feeding ports, and the upper die and the lower dies are continuously closed for pressure maintaining, thereby forming the tool box.

Because the tool box is usually composed of a top cover and a bottom shell, the depths of the top cover and the bottom shell are different, two cavities are designed to be different in depth, the top cover and the bottom shell of the tool box can be die-cast at one time, synchronous split die-casting is realized, when the cavity with smaller depth is filled with liquid plastic, a controller starts an electromagnetic valve on a feeding pipe to realize the closing of the feeding pipe, so as to prevent the continuous filling, the other cavity with larger depth is continuously filled until the cavity is filled with the liquid plastic, after the pressure is maintained for a period of time, the tool box is molded, an upper die and a lower die are driven to be away from each other through a bidirectional cylinder, because the top of a mandril is attached to the bottom of the inner side of the cavity, and the bottom of the mandril is fixedly connected with the top of a base station, the two mandrils rise on the tops of the two cavities, the plastic parts in the two cavities are jacked, and a buffer spring plays a role of supporting the lower die in an initial state, and play the cushioning effect when contracting, prevent that two ejector pins from pushing out the mould piece and damaging its outer wall top, play the effect of protection product.

At the lower mould with go up the mould in-process that separately descends, because the fore-set and its bottom fixed connection, base station and spacing post fixed connection, again because the axis of fore-set and spacing post is unanimous, and then make the fore-set can contact with spacing post when descending, therefore receive the conflict, and cooperate two ejector pins thoroughly ejecting with the piece of moulding of two die cavity insides, realize the drawing of patterns, compare in prior art, need not artifical drawing of patterns, practice thrift manpower and time, realize the drawing of patterns in step simultaneously in the die sinking, the process of moulding plastics is reduced, and then the efficiency of moulding plastics that is favorable to improving the toolbox.

1. The utility model discloses a mould, lower mould and two die cavities that the depth is different in the design, can process the whole shell of toolbox simultaneously, top cap and drain pan promptly to realize the split type processing of toolbox, need not to process one by one, be favorable to promoting machining efficiency and increase output, simultaneously through designing two solenoid valves, can in time stop filling after every die cavity is filled up plastics, when satisfying the requirement of moulding plastics, effectively avoid causing the waste.

2. The utility model discloses a design fore-set, spacing post, two ejector pins of two buffer spring, can be when the die sinking behind the toolbox shaping, mould the piece and be ejecting automatically, realize automatic drawing of patterns, compare in prior art, need not artifical drawing of patterns, labour saving and time saving, and be favorable to reducing the processing cost.

3. The utility model discloses a design die-casting mechanism, mould, lower mould and drive assembly promptly can realize moulding plastics of toolbox casing when the compound die, and when the die sinking, can realize the automatic drawing of patterns of toolbox after the shaping, and different functions are realized to same structure, and then the overall structure of favourable reduction this mould reduces the cost, is favorable to practicing thrift the power consumption of this mould simultaneously.

4. The utility model discloses a mechanism is filled in design, cartridge heater and delivery assembly promptly, carries out the transport and the filler of liquid plastics through the hob to make plastics evenly fill in the inside of die cavity, be favorable to promoting the shaping effect of toolbox, and then promote product quality.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings in the embodiments of the present invention are briefly described below.

Fig. 1 is a schematic perspective view of the present invention;

FIG. 2 is an enlarged view taken at A in FIG. 1;

FIG. 3 is an enlarged view of FIG. 1 at B;

fig. 4 is a front view of the present invention;

FIG. 5 is an enlarged view at C in FIG. 4;

FIG. 6 is an enlarged view of FIG. 4 at D;

in the figure: the device comprises a base platform 1, a filling mechanism 2, a die-casting mechanism 3, a supporting frame 4, a heating cylinder 5, a conveying assembly 6, an upper die 7, a lower die 8, a driving assembly 9, a bidirectional cylinder 10, a connecting block 11, a speed reducing motor 12, a spiral conveying rod 13, a cavity 14, an ejector rod 15, a buffer spring 16, an ejector column 17, a limiting column 18, a charging basket 19, a discharging pipe 20, a feeding pipe 21, a communicating pipe 22, a conveying pipe 23 and an electromagnetic valve 24.

Detailed Description

The technical scheme of the invention is further explained by the specific implementation mode in combination with the attached drawings.

Wherein the showings are for the purpose of illustration only and are shown by way of illustration only and not in actual form, and are not to be construed as limiting the present patent; to better illustrate the embodiments of the present invention, some components of the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product.

Referring to fig. 1 to fig. 6, a split type mould of a kind of kit toolbox shown, including base and base station 1, still include the controller, fill mechanism 2 and die-casting mechanism 3, the fixed support frame 4 that is equipped with of base, fill mechanism 2 and establish at the top of support frame 4 in order to be used for filling plastics, fill mechanism 2 includes cartridge heater 5 and conveying component 6, cartridge heater 5 is fixed to be established at the top of support frame 4, conveying component 6 establishes the inside at cartridge heater 5, die-casting mechanism 3 includes last mould 7, lower mould 8 and drive assembly 9, the top of base station 1 is the symmetry and is provided with four guide arms, it all overlaps on the outer wall of four guide arms to go up mould 7 and lower mould 8, drive assembly 9 establishes between last mould 7 and lower mould 8, conveying component 6 and drive assembly 9 are electric connection with the controller.

Drive assembly 9 includes two-way cylinder 10 and two connecting blocks 11, the top of base is the vertical riser that is equipped with, two-way cylinder 10 is fixed to be established on the outer wall of riser, two connecting blocks 11 are fixed respectively to be established on the outer wall of mould 7 and lower mould 8, two outputs of two-way cylinder 10 respectively with two connecting blocks 11 fixed connection, two-way cylinder 10 is connected with the controller electricity, during the toolbox of moulding plastics, at first start two-way cylinder 10 through the controller, because its output through two connecting blocks 11 respectively with last mould 7 and 8 fixed connection of lower mould, because it all cup joints with four guide arms to go up mould 7 and lower mould 8 again, thereby it is close to drive last mould 7 and lower mould 8, realize the compound die.

Conveying assembly 6 includes gear motor 12 and screw conveyor pole 13, gear motor 12 is fixed to be established at the top of support frame 4, the rotatable setting of screw conveyor pole 13 is in the inside of cartridge heater 5, and screw conveyor pole 13 and gear motor 12's output fixed connection, gear motor 12 is connected with the controller electricity, after the compound die, start gear motor 12 through the controller, because its output and screw conveyor pole 13 fixed connection, screw conveyor pole 13 rotates with cartridge heater 5 and is connected, thereby it is rotatory to drive screw conveyor pole 13, and then drive the inside solid plastic pellet oil unloading pipe 20 of storage bucket 19 and get into the inside of cartridge heater 5, and carry to the one end that is close to conveyer pipe 23 by rotatory screw conveyor pole 13, in the process of carrying, cartridge heater 5 heats it, and then it is liquid to heat it.

The top of the lower die 8 is symmetrically provided with two cavities 14, the depths of the two cavities 14 are different, an ejector rod 15 is vertically inserted into each cavity 14, the top of the ejector rod 15 is attached to the bottom of the inner side of each cavity 14, the bottom of the ejector rod 15 is fixedly connected with the top of the base station 1, the tool box is generally composed of a top cover and a bottom shell, the depths of the top cover and the bottom shell are different, the two cavities 14 are designed to be different, the two parts of the top cover and the bottom shell of the tool box can be die-cast at one time, synchronous split die-casting is realized, when liquid plastic is filled in the cavity 14 with smaller depth, a controller starts an electromagnetic valve 24 on a feeding pipe 21 to realize the closing of the feeding pipe 21, so that the continuous filling is prevented, the other cavity 14 with larger depth is continuously filled until the cavity is filled, after the pressure is maintained for a period of time, the tool box is molded, and then a bidirectional cylinder 10 drives an upper die 7 and a lower die 8 to be away from each other, because the tops of the ejector rods 15 are attached to the bottom of the inner side of the cavities 14, and the bottoms of the ejector rods 15 are fixedly connected with the top of the base platform 1, the two ejector rods 15 rise at the tops of the two cavities 14, and plastic parts in the two cavities 14 are ejected.

All the cover is equipped with buffer spring 16 on the lower half outer wall of every ejector pin 15, and the bottom of lower mould 8 and the top of base station 1 contradict with buffer spring 16's both ends respectively, and buffer spring 16 plays the effect of supporting lower mould 8 at initial condition, then plays the cushioning effect when the shrink, prevents that two ejector pins 15 from being bad with its outer wall top ejecting moulding, plays the effect of protection product.

The bottom threaded connection of lower mould 8 has fore-set 17, the fixed spacing post 18 that is equipped with in top of base station 1, the axis of fore-set 17 and spacing post 18 is unanimous, at the in-process that separates the decline of lower mould 8 and last mould 7, because fore-set 17 and its bottom fixed connection, base station 1 and spacing post 18 fixed connection, again because the axis of fore-set 17 and spacing post 18 is unanimous, and then make fore-set 17 can contact with spacing post 18 when descending, therefore receive the conflict, and cooperate two ejector pins 15 to thoroughly ejecting with the inside piece of moulding of two die cavities 14, realize the drawing of patterns, compare in prior art, need not artifical drawing of patterns, practice thrift manpower and time, realize the drawing of patterns in step in the die sinking simultaneously, the process of reducing to mould plastics, and then be favorable to improving the injection molding efficiency of toolbox.

The top of support frame 4 is fixed and is equipped with storage bucket 19, and fixed unloading pipe 20 that is equipped with between storage bucket 19 and the cartridge heater 5, storage bucket 19 are used for holding solid plastic granules, and unloading pipe 20 plays the unloading effect.

Go up the top of mould 7 and be the symmetry and be provided with two material loading mouths, the inside of every material loading mouth is all inserted and is equipped with material loading pipe 21, fixed communicating pipe 22 that is equipped with between two material loading pipes 21, fixed conveyer pipe 23 that is equipped with between communicating pipe 22 and the cartridge heater 5, every material loading pipe 21 is close to all fixed solenoid valve 24 of establishing on the one end outer wall of die cavity 14, every solenoid valve 24 all is connected with the controller electricity, it gets into the inside of communicating pipe 22 by conveyer pipe 23 to heat into the flourishing plastics, get into the inside of two material loading pipes 21 by communicating pipe 22 again, thereby get into the inside of two die cavities 14 by two material loading mouths, go up mould 7 and lower mould 8 and last closed pressurize, and then make the toolbox shaping.

The utility model discloses a theory of operation: when the tool box is injected, firstly, the bidirectional cylinder 10 is started through the controller, the output end of the bidirectional cylinder is respectively and fixedly connected with the upper die 7 and the lower die 8 through the two connecting blocks 11, and the upper die 7 and the lower die 8 are both sleeved with the four guide rods, so that the upper die 7 and the lower die 8 are driven to be close to each other to realize die assembly, then the speed reduction motor 12 is started through the controller, because the output end of the bidirectional cylinder is fixedly connected with the spiral conveying rod 13, the spiral conveying rod 13 is rotatably connected with the heating cylinder 5, so that the spiral conveying rod 13 is driven to rotate, further the solid plastic particle oil blanking pipe 20 in the charging barrel 19 is driven to enter the heating cylinder 5, and is conveyed to one end close to the conveying pipe 23 through the rotary spiral conveying rod 13, during the conveying process, the heating cylinder 5 heats the bidirectional cylinder, further heats the bidirectional cylinder to form a liquid, and then enters the insides of the two feeding pipes 21 through the two feeding ports, so that the two feeding ports enter the insides of the two cavities 14, and continuously closing the upper die 7 and the lower die 8 for pressure maintaining, and further forming the tool box.

Because the tool box usually consists of a top cover and a bottom shell, the depths of the top cover and the bottom shell are different, two cavities 14 are designed to be different in depth, the top cover and the bottom shell of the tool box can be die-cast at one time, synchronous split die-casting is realized, when the cavity 14 with smaller depth is filled with liquid plastic, a controller starts an electromagnetic valve 24 on a feeding pipe 21 to realize the closing of the feeding pipe 21, so as to prevent the continuous filling, the other cavity 14 with larger depth is continuously filled until the cavity is filled with the liquid plastic, after the pressure is maintained for a period of time, the tool box is molded, an upper die 7 and a lower die 8 are driven to be away from each other through a bidirectional cylinder 10, as the top of an ejector rod 15 is attached to the bottom of the inner side of the cavity 14, the bottom of the ejector rod 15 is fixedly connected with the top of a base station 1, so that the two ejector rods 15 are lifted at the tops of the two cavities 14 to eject the plastic parts in the two cavities 14, the buffer spring 16 plays a role in supporting the lower die 8 in an initial state, and plays a role in buffering when the lower die contracts, so that the two ejector rods 15 are prevented from ejecting plastic parts to damage the outer walls of the lower die, and a product protection effect is achieved.

In the in-process that separates the decline at lower mould 8 and last mould 7, because fore-set 17 and its bottom fixed connection, base station 1 and spacing post 18 fixed connection, again because the axis of fore-set 17 and spacing post 18 is unanimous, and then make the fore-set 17 can contact with spacing post 18 when descending, therefore receive the conflict, and cooperate two ejector pins 15 thoroughly ejecting with two inside moulds of die cavity 14, realize the drawing of patterns, compare in prior art, need not artifical drawing of patterns, practice thrift manpower and time, realize the drawing of patterns in step when the die sinking simultaneously, the process of moulding plastics is reduced, and then the injection moulding efficiency that is favorable to improving the toolbox.

Claims

1. The utility model provides a split type mould of tool kit of group, includes base and base station (1), its characterized in that: still include the controller, fill mechanism (2) and die-casting mechanism (3), the fixed support frame (4) that is equipped with of base, it is used for filling plastics to establish at the top of support frame (4) to fill mechanism (2), fill mechanism (2) including cartridge heater (5) and conveying component (6), the top at support frame (4) is established to cartridge heater (5) fixed, the inside at cartridge heater (5) is established in conveying component (6), die-casting mechanism (3) are including last mould (7), lower mould (8) and drive assembly (9), the top of base station (1) is the symmetry and is provided with four guide arms, it all establishes on the outer wall of four guide arms to go up mould (7) and lower mould (8), drive assembly (9) are established between last mould (7) and lower mould (8), conveying component (6) and drive assembly (9) are electric connection with the controller.

2. The split mold of the tool kit set as claimed in claim 1, wherein: drive assembly (9) are including two-way cylinder (10) and two connecting block (11), and the top of base is the vertical riser that is equipped with, and two-way cylinder (10) are fixed to be established on the outer wall of riser, and two connecting block (11) are fixed respectively to be established on the outer wall of last mould (7) and lower mould (8), two outputs of two-way cylinder (10) respectively with two connecting block (11) fixed connection, and two-way cylinder (10) are connected with the controller electricity.

3. The split mold of the tool kit as claimed in claim 2, wherein: conveying assembly (6) include gear motor (12) and auger delivery pole (13), and gear motor (12) are fixed to be established at the top of support frame (4), and auger delivery pole (13) rotatable setting is in the inside of cartridge heater (5), and auger delivery pole (13) and gear motor (12)'s output fixed connection, and gear motor (12) are connected with the controller electricity.

4. The split mold of the tool kit set as claimed in claim 3, wherein: the top of lower mould (8) is the symmetry and is provided with two die cavities (14), and the degree of depth of two die cavities (14) is inconsistent, and the inside of every die cavity (14) all is vertical the inserting and is equipped with ejector pin (15), and the top of ejector pin (15) all laminates with the inboard bottom of die cavity (14), the bottom of ejector pin (15) and the top fixed connection of base station (1).

5. The split mold of the tool kit as claimed in claim 4, wherein: all the outer wall of the lower half part of each ejector rod (15) is sleeved with a buffer spring (16), and the bottom of the lower die (8) and the top of the base platform (1) are respectively abutted against the two ends of the buffer spring (16).

6. The split mold of the tool kit set as claimed in claim 5, wherein: the bottom of the lower die (8) is in threaded connection with a top column (17), the top of the base station (1) is fixedly provided with a limiting column (18), and the axis of the top column (17) is consistent with that of the limiting column (18).

7. The split mold of the tool kit as claimed in claim 6, wherein: a charging basket (19) is fixedly arranged at the top of the supporting frame (4), and a discharging pipe (20) is fixedly arranged between the charging basket (19) and the heating cylinder (5).

8. The split mold of the tool kit set as claimed in claim 7, wherein: the top of going up mould (7) is the symmetry and is provided with two material loading mouths, and the inside of every material loading mouth all inserts and is equipped with material loading pipe (21), is fixed between two material loading pipes (21) and is equipped with communicating pipe (22), is fixed between communicating pipe (22) and heating cylinder (5) and is equipped with conveyer pipe (23), all fixes on the one end outer wall that every material loading pipe (21) is close to die cavity (14) and establishes solenoid valve (24), and every solenoid valve (24) all are connected with the controller electricity.