CN218139373U - One-step forming die for new energy pole - Google Patents

Abstract

The utility model provides an one shot forming mould is used to new forms of energy utmost point post, which comprises an upper panel, the front mould is installed to the bottom surface of upper panel, the back mould is installed to the bottom surface of front mould. This one shot forming mould for new forms of energy utmost point post, at first through the setting of last more smooth mechanism, pull the pull ring of slide bar one end outwards, the stopper gets into first movable groove, the stopper is not having the fixed action to the cope match-plate pattern this moment, take out the cope match-plate pattern and change, then through the setting of changing the mechanism down, at first the machine uses the thimble to upwards promote the end positive plate through the locating hole, end positive plate promotes the face positive plate afterwards, the face positive plate upwards promotes fixed connection's second thimble simultaneously, and push up the sliding plate upwards, make the sliding plate slide in second movable groove, when the sliding plate reachs the top of second movable groove, make the sliding plate promote the lower bolster upwards remove outstanding back mould in the second sliding groove, then alright change with the lower bolster.

Description

One-step forming die for new energy pole

Technical Field

The utility model relates to a relevant technical field of mould especially relates to a new forms of energy utmost point post is with one shot forming mould.

Background

The mould, the industrial production is used for getting various moulds and tools of the required products by injection molding, blow molding, extruding, die-casting or forging forming, smelting, stamping, etc., in short, the mould is the tool used for making the shaping article, this kind of tool is formed by various parts, different moulds are formed by different parts, it mainly realizes the processing of the appearance of the article through the change of the physical state of the shaping material, the prime has the title of "industrial mother", include hardware mould, plastic mould, and its special mould according to the difference of the shaping material; the hardware mould comprises a stamping mould, a forging mould, an extrusion mould, a die-casting mould, a forging mould and the like; the nonmetal mould comprises a plastic mould, an inorganic nonmetal mould, a sand mould, a vacuum mould, a paraffin mould and the like, and the plastic mould can be generally divided into: the injection molding die, the extrusion molding die, the gas-assisted molding die, etc. are widely used for blanking, die forging, cold heading, extrusion, powder metallurgy part pressing, pressure casting, and the forming processing of compression molding or injection molding of products such as engineering plastics, rubber, ceramics, etc., the die has a specific outline or inner cavity shape, the blank can be separated according to the outline shape by applying the outline shape with a cutting edge, the blank can obtain a corresponding three-dimensional shape by applying the inner cavity shape, the die generally comprises a movable die and a fixed die, the two parts can be combined, the workpiece is taken out when the two parts are separated, the blank is injected into a die cavity for forming when the die is closed, the die is a precise tool with a complex shape and a high requirement on structural strength, rigidity, surface hardness, surface roughness and processing precision when the die is used, the development level of the die production is one of important marks of the mechanical manufacturing level, but in the using process, the pole with different sizes is required to be poured according to the requirements of new energy batteries with different types, so the pole with a new energy source, and the pole with different sizes is particularly required to be formed in one-step.

But current new forms of energy utmost point post is with one shot forming die, in the use, most new forms of energy utmost point post are with one shot forming die is not convenient to the mould change owing to need pour the article of equidimension not when using to the work efficiency who leads to one shot forming die is not high.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an one shot forming mould is used to new forms of energy utmost point post to solve the current one shot forming mould for new forms of energy utmost point post that proposes in the above-mentioned background art, but current one shot forming mould is used to new forms of energy utmost point post, in the use, most of new forms of energy utmost point posts are because need pour the not article of unidimensional size when using, it is not convenient changing the mould, thereby lead to the problem that one shot forming mould's work efficiency is not high.

In order to achieve the above purpose, the utility model provides a following technical scheme: the utility model provides a new forms of energy utmost point post is with one shot forming mould, includes the top panel, goes up change mechanism and change the mechanism down, it includes first sliding tray, first movable groove, cope match-plate pattern, spacing groove, stopper, slide bar, second spring and pull ring to go up change mechanism, it includes second sliding tray, lower bolster, constant head tank, first thimble, sliding plate, second movable groove, locating hole, positive panel of face and second thimble to change the mechanism down, the front mould is installed to the bottom surface of top panel, the back mould is installed to the bottom surface of front mould, the foot of grinding is installed to the bottom surface of back mould, the panel is installed down to the bottom surface of grinding the foot, the top surface of panel is installed with positive panel down, the surface of back mould is provided with protection mechanism, the bottom surface of front mould is provided with changes the mechanism, the surface of back mould is provided with down and changes the mechanism.

Preferably, the protection machanism includes dwang, first spring, first fixed slot, fixed plate and second fixed slot, the fixed surface of back mould is connected with the dwang, the surface cover of dwang is equipped with first spring, first fixed slot has been seted up on the surface of back mould, the fixed plate is installed to the one end of first spring, the second fixed slot has been seted up on the surface of fixed plate.

Preferably, it includes first sliding tray, first movable groove, cope match-plate pattern, spacing groove, stopper, slide bar, second spring and pull ring to go up change mechanism, first sliding tray has been seted up to the bottom surface of front mould, first movable groove has been seted up to the inboard of first sliding tray, the inboard sliding connection of first sliding tray has the cope match-plate pattern, the spacing groove has all been seted up on the four sides of cope match-plate pattern, the stopper is installed to the inboard of spacing groove, the one end fixedly connected with slide bar of stopper, the surface cover of slide bar is equipped with the second spring, the pull ring is installed to the one end of slide bar.

Preferably, first sliding tray is identical with the size of cope match-plate pattern, spacing groove is identical with the size of stopper.

Preferably, the lower replacement mechanism comprises a second sliding groove, a lower die plate, a positioning groove, a first thimble, a sliding plate, a second movable groove, a positioning hole, a front face plate and a second thimble, the second sliding groove is formed in the top face of the rear die, the lower die plate is mounted on the inner side of the second sliding groove, the positioning groove is formed in the top face of the lower die plate, the first thimble is connected to the inner wall of the positioning groove in a sliding manner, the sliding plate is fixedly connected to one end of the first thimble, the second movable groove is formed in the inner side of the lower die plate, the positioning hole is formed in the surface of the lower die plate, the front face plate is mounted on the top face of the front bottom plate, the second thimble is fixedly connected to the surface of the front face plate, and the second thimble penetrates through the bottom face of the rear die.

Preferably, the size of the top surface of the sliding plate is matched with that of the second movable groove, and the front surface plate and the sliding plate are distributed in parallel.

Compared with the prior art, the beneficial effects of the utility model are that: the one-step forming die for the new energy pole comprises a first sliding groove, a first movable groove, an upper die plate, a limiting groove, a limiting block, a sliding rod, a second spring and a pull ring, wherein when the upper die plate is replaced, the pull ring at one end of the sliding rod is pulled outwards to enable the limiting block to enter the first movable groove, the limiting block does not have a fixing effect on the upper die plate at the moment, then the upper die plate is taken out for replacement, when the upper die plate is installed, the upper die plate is firstly placed into the first sliding groove, the limiting block is extruded when the upper die plate slides inwards to enable the limiting block to move towards the first movable groove, the sliding rod is driven to extrude the second spring to compress the second spring, when the upper die plate reaches the bottom of the first sliding groove, the limiting block enters the limiting groove to fix the upper die plate in the first sliding groove, and therefore the replacement of the upper die plate of the one-step forming die is completed, then through the arrangement of the second sliding groove, the lower template, the positioning groove, the first thimble, the sliding plate, the second movable groove, the positioning hole, the face front plate and the second thimble, when the lower template is replaced, firstly the machine uses the thimble to push the bottom front plate upwards through the positioning hole, then the bottom front plate pushes the face front plate, meanwhile the face front plate pushes the second thimble upwards which is fixedly connected, and pushes the sliding plate upwards, so that the sliding plate slides in the second movable groove, when the sliding plate reaches the top of the second movable groove, the thimble continues to push upwards, so that the sliding plate pushes the lower template to move upwards in the second sliding groove to protrude out of the back mold, then the lower template can be replaced, and simultaneously the length of the thimble can be controlled to control the sliding distance of the sliding plate in the second movable groove, because of the first thimble fixedly connected to the sliding plate, the demolding is more convenient, therefore, the lower template of the one-step forming die is replaced, the die can be replaced according to the operation requirement, the use efficiency of the machine is improved, and meanwhile, the production cost is saved.

Drawings

FIG. 1 is a schematic sectional view of the lower replacing mechanism of the present invention;

fig. 2 is a schematic view of the bottom-view appearance structure of the present invention;

FIG. 3 is a schematic view of the top view of the present invention;

FIG. 4 is a schematic sectional view of the protection mechanism of the present invention;

FIG. 5 is a schematic sectional view of the upper replacing mechanism of the present invention;

FIG. 6 is an enlarged schematic view of the structure at A in FIG. 4 according to the present invention;

fig. 7 is an enlarged schematic view of the structure at B in fig. 1 according to the present invention.

In the figure: 1. an upper panel; 2. a front mold; 3. a rear mold; 4. grinding feet; 5. a lower panel; 6. a bottom front plate; 7. a protection mechanism; 701. rotating the rod; 702. a first spring; 703. a first fixing groove; 704. a fixing plate; 705. a second fixing groove; 8. an upper replacement mechanism; 801. a first sliding groove; 802. a first movable slot; 803. mounting a template; 804. a limiting groove; 805. a limiting block; 806. a slide bar; 807. a second spring; 808. a pull ring; 9. a lower replacement mechanism; 901. a second sliding groove; 902. a lower template; 903. positioning a groove; 904. a first thimble; 905. a sliding plate; 906. a second movable slot; 907. positioning holes; 908. a front panel; 909. and a second thimble.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts all belong to the protection scope of the present invention.

Referring to fig. 1-7, the present invention provides a technical solution: the utility model provides a new forms of energy utmost point post is with one shot forming mould, including top panel 1, go up change mechanism 8 and change mechanism 9 down, it includes first sliding tray 801 to go up change mechanism 8, first movable groove 802, top panel 803, spacing groove 804, stopper 805, slide bar 806, second spring 807 and pull ring 808, it includes second sliding tray 901 to change mechanism 9 down, lower bolster 902, constant head tank 903, first thimble 904, sliding plate 905, second movable groove 906, locating hole 907, positive panel 908 of face and second thimble 909, front mould 2 is installed to the bottom surface of top panel 1, rear mould 3 is installed to the bottom surface of front mould 2, the mill foot 4 is installed to the bottom surface of rear mould 3, lower panel 5 is installed to the bottom surface of mill foot 4, positive panel 6 is installed to the top surface of lower panel 5, the surface of rear mould 3 is provided with protection mechanism 7, the bottom surface of front mould 2 is provided with changes mechanism 8, the surface of rear mould 3 is provided with down and changes mechanism 9.

Further, the protection mechanism 7 includes a rotating rod 701, a first spring 702, a first fixing groove 703, a fixing plate 704 and a second fixing groove 705, the surface of the rear mold 3 is fixedly connected with the rotating rod 701, the surface of the rotating rod 701 is sleeved with the first spring 702, the surface of the rear mold 3 is provided with the first fixing groove 703, one end of the first spring 702 is provided with the fixing plate 704, the surface of the fixing plate 704 is provided with the second fixing groove 705, through the rotating rod 701, the first spring 702, the first fixing groove 703, the fixing plate 704 and the second fixing groove 705, when in use, the fixing plate 704 is firstly opened outwards, since the fixing plate 704 is embedded with the first spring 702, and the other end of the first spring 702 is embedded into the rear mold 3, one end of the fixing plate 704 is movably connected with the rotating rod 701, and both ends of the rotating rod 701 are fixedly connected with the rear mold 3, when the fixing plate 704 is rotated, the first spring 702 is deformed by a force, then the lower mold 902 is placed into the second sliding groove 901 of the rear mold 3, when the lower mold 902 reaches the bottom of the second sliding groove 901, the lower mold 702 and the mold 902 can effectively cover a gap between the lower mold 902, thereby effectively preventing the mold from being molded.

Further, the upper replacement mechanism 8 includes a first sliding groove 801, a first movable groove 802, an upper mold plate 803, a limiting groove 804, a limiting block 805, a sliding rod 806, a second spring 807 and a pull ring 808, the bottom surface of the front mold 2 is provided with the first sliding groove 801, the inner side of the first sliding groove 801 is provided with the first movable groove 802, the inner side of the first sliding groove 801 is slidably connected with the upper mold plate 803, four surfaces of the upper mold plate 803 are provided with the limiting groove 804, the inner side of the limiting groove 804 is provided with the limiting block 805, one end of the limiting block 805 is fixedly connected with the sliding rod 806, the surface of the sliding rod 806 is sleeved with the second spring 807, one end of the sliding rod 806 is provided with the pull ring 808, when the upper mold plate 803 is replaced, the first sliding rod 808 at one end of the sliding rod 806 is pulled outwards to enable the limiting block 805 to enter the first limiting groove 802, at this time, the upper mold plate 803 is not fixed to the upper mold plate 803, the upper mold plate 803 is replaced, the pull ring 807 is moved inwards, the first sliding mold plate 803 is pressed into the first sliding groove 801, and the first sliding groove 801, the first movable groove 801 is pressed into the limiting block 803, and the first sliding groove 803, the first sliding rod 805 is pressed into the first movable groove 803, and the first sliding groove 801, the limiting block 805 is pressed into the first movable groove 805, and then the first movable groove 803, and the second sliding plate 803, the second sliding plate 803 is pressed into the first movable groove 805.

Further, the first sliding groove 801 is matched with the upper template 803 in size, the limiting groove 804 is matched with the limiting block 805 in size, and through the arrangement of the limiting groove 804 and the limiting block 805, the limiting groove 804 can limit the limiting block 805 in use, so that the upper template 803 is more stable in use.

Further, the lower replacing mechanism 9 includes a second sliding slot 901, a lower mold plate 902, a positioning slot 903, a first thimble 904, a sliding plate 905, a second movable slot 906, a positioning hole 907, a front surface plate 908 and a second thimble 909, the top surface of the rear mold 3 is provided with the second sliding slot 901, the inner side of the second sliding slot 901 is provided with the lower mold plate 902, the top surface of the lower mold plate 902 is provided with the positioning slot 903, the inner wall of the positioning slot 903 is slidably connected with the first thimble 904, one end of the first thimble 904 is fixedly connected with the sliding plate 905, the inner side of the lower mold plate 902 is provided with the second movable slot 906, the surface of the lower mold plate 5 is provided with the positioning hole 907, the top surface of the front bottom plate 6 is provided with the front surface plate 908, the surface of the front surface plate 908 is fixedly connected with the second thimble 909, the second thimble 909 penetrates through the bottom surface of the rear mold 3, and the second sliding slot, the lower mold plate 902, the positioning slot 903, the first thimble 904, the sliding plate 905, the positioning hole 906, the second movable slot 906, the second thimble 906, the first thimble 907, the front surface plate 908, the second thimble 908 and the second thimble 909 are arranged, when the lower template 902 is replaced, firstly the machine uses the thimble to push the bottom positive plate 6 upwards through the positioning hole 907, then the bottom positive plate 6 pushes the face positive plate 908, meanwhile, the face positive plate 908 pushes the fixedly connected second thimble 909 upwards, and pushes the sliding plate 905 upwards, so that the sliding plate 905 slides in the second movable slot 906, when the sliding plate 905 reaches the top of the second movable slot 906, the thimble continues to push upwards, so that the sliding plate 905 pushes the lower template 902 to move upwards in the second sliding slot 901 to protrude the rear mold 3, then the lower template 902 can be replaced, meanwhile, the length of the thimble can be controlled to control the sliding distance of the sliding plate 905 in the second movable slot 906, and the demolding is more convenient due to the arrangement of the first thimble 904 fixedly connected to the sliding plate 905, thereby completing the replacement of the lower template 902 of the one-shot forming mold.

Furthermore, the size of the top surface of the sliding plate 905 is matched with the size of the second movable slot 906, the front panel 908 and the sliding plate 905 are distributed in parallel, and through the arrangement of the sliding plate 905 and the second movable slot 906, when the sliding plate is used, the sliding plate 905 slides in the second movable slot 906, and the second movable slot 906 limits the sliding plate 905, so that the sliding plate 905 is more stable when sliding.

The working principle is as follows: when the injection molding machine is used, firstly, the fixing plate 704 is opened outwards, because the fixing plate 704 is embedded with the first spring 702, the other end of the first spring 702 is embedded in the rear die 3, one end of the fixing plate 704 is movably connected with the rotating rod 701, and two ends of the rotating rod 701 are fixedly connected with the rear die 3, when the fixing plate 704 is rotated, the first spring 702 is stressed and deformed, then the lower template 902 is placed in the second sliding groove 901 of the rear die 3, when the lower template 902 reaches the bottom of the second sliding groove 901, the gap between the lower template 902 and the rear die 3 is covered by the first spring 702, when the injection molding is carried out, liquid injection can be effectively prevented from flowing into the gap, so that the protection effect on a one-time molding die is completed, when the lower template 902 is replaced, firstly, the machine uses the thimble to push the bottom front plate 6 upwards through the positioning hole 907, and then the bottom front plate 6 pushes the face front plate 908, meanwhile, the front plate 908 pushes the fixedly connected second ejector pin 909 upwards, and pushes the sliding plate 905 upwards, so that the sliding plate 905 slides in the second movable groove 906, when the sliding plate 905 reaches the top of the second movable groove 906, the sliding plate 905 pushes the lower plate 902 to move upwards in the second sliding groove 901 to protrude the rear mold 3 due to the action of the ejector pin continuously pushing upwards, then the lower plate 902 can be replaced, the length of the ejector pin can be controlled to control the sliding distance of the sliding plate 905 in the second movable groove 906, the demolding is more convenient due to the arrangement of the first ejector pin 904 fixedly connected to the sliding plate 905, so that the lower plate 902 of the one-time forming mold is replaced, when the upper plate 803 is replaced, the pull ring 808 at a section of the sliding rod 806 is pulled outwards, so that the limit block 805 enters the first movable groove 802, and the limit block 805 does not have a fixing effect on the upper plate 803, then, the upper template 803 is taken out for replacement, when the upper template 803 is installed, the upper template 803 is firstly placed into the first sliding groove 801, when the upper template 803 slides inwards, the limiting block 805 is pressed, the limiting block 805 moves towards the first movable groove 802, and meanwhile, the sliding rod 806 is driven to press the second spring 807 to compress the second spring, when the upper template 803 reaches the bottom of the first sliding groove 801, the limiting block 805 enters the limiting groove 804, the upper template 803 is fixed in the first sliding groove 801, and therefore the replacement of the upper template 803 of the one-step forming mold is completed, and therefore the using process of the one-step forming mold for the new energy pole is completed.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that various changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a new forms of energy utmost point post is with one shot forming mould, includes top panel (1), goes up and changes mechanism (8) and change mechanism (9) down, on change mechanism (8) including first sliding tray (801), first movable groove (802), cope match-plate pattern (803), spacing groove (804), stopper (805), slide bar (806), second spring (807) and pull ring (808), it includes second sliding tray (901), lower bolster (902), constant head tank (903), first thimble (904), sliding plate (905), second movable groove (906), locating hole (907), face positive board (908) and second thimble (909) to change mechanism (9) down, its characterized in that: the front die (2) is installed on the bottom surface of the upper panel (1), the rear die (3) is installed on the bottom surface of the front die (2), the grinding feet (4) are installed on the bottom surface of the rear die (3), the lower panel (5) is installed on the bottom surface of the grinding feet (4), the bottom front plate (6) is installed on the top surface of the lower panel (5), the protection mechanism (7) is arranged on the surface of the rear die (3), the replacing mechanism (8) is arranged on the bottom surface of the front die (2), and the replacing mechanism (9) is arranged on the surface of the rear die (3).

2. The one-step forming die for the new energy pole according to claim 1, characterized in that: protection machanism (7) are including dwang (701), first spring (702), first fixed slot (703), fixed plate (704) and second fixed slot (705), the fixed surface of back mould (3) is connected with dwang (701), the surface cover of dwang (701) is equipped with first spring (702), first fixed slot (703) have been seted up on the surface of back mould (3), fixed plate (704) are installed to the one end of first spring (702), second fixed slot (705) have been seted up on the surface of fixed plate (704).

3. The one-step forming die for the new energy pole according to claim 1, characterized in that: the upper replacement mechanism (8) comprises a first sliding groove (801), a first movable groove (802), an upper template (803), a limiting groove (804), a limiting block (805), a sliding rod (806), a second spring (807) and a pull ring (808), wherein the first sliding groove (801) is formed in the bottom surface of the front template (2), the first movable groove (802) is formed in the inner side of the first sliding groove (801), the upper template (803) is connected to the inner side of the first sliding groove (801) in a sliding mode, the limiting groove (804) is formed in the four sides of the upper template (803), the limiting block (805) is installed on the inner side of the limiting groove (804), the sliding rod (806) is fixedly connected to one end of the limiting block (805), the second spring (807) is sleeved on the surface of the sliding rod (806), and the pull ring (808) is installed at one end of the sliding rod (806).

4. The one-step forming die for the new energy pole according to claim 3, characterized in that: the first sliding groove (801) is matched with the upper template (803) in size, and the limiting groove (804) is matched with the limiting block (805) in size.

5. The one-step forming die for the new energy pole according to claim 1, characterized in that: the lower replacement mechanism (9) comprises a second sliding groove (901), a lower template (902), a positioning groove (903), a first thimble (904), a sliding plate (905), a second movable groove (906), a positioning hole (907), a face front plate (908) and a second thimble (909), the second sliding groove (901) is formed in the top surface of the rear mold (3), the lower template (902) is installed on the inner side of the second sliding groove (901), the positioning groove (903) is formed in the top surface of the lower template (902), the first thimble (904) is connected to the inner wall of the positioning groove (903) in a sliding mode, the sliding plate (905) is fixedly connected to one end of the first thimble (904), the second movable groove (906) is formed in the inner side of the lower template (902), the positioning hole (907) is formed in the surface of the lower panel (5), the face front plate (908) is installed on the top surface of the bottom front plate (6), the second thimble (909) is fixedly connected to the surface of the face front plate (908), and the second thimble (909) penetrates through the bottom surface of the rear mold (3).

6. The one-step forming die for the new energy pole according to claim 5, characterized in that: the size of the top surface of the sliding plate (905) is matched with that of the second movable groove (906), and the front surface plate (908) and the sliding plate (905) are distributed in parallel.

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