CN213704501U - Stifled hoist mechanism at bottom of blowing mould - Google Patents
Stifled hoist mechanism at bottom of blowing mould Download PDFInfo
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- CN213704501U CN213704501U CN202022149698.7U CN202022149698U CN213704501U CN 213704501 U CN213704501 U CN 213704501U CN 202022149698 U CN202022149698 U CN 202022149698U CN 213704501 U CN213704501 U CN 213704501U
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Abstract
The utility model relates to a stifled hoist mechanism at bottom of blowing mould, including the deck plate, be provided with the blowing lower mould on the deck plate, blowing lower bolster top sets up the blowing movable mould board, the mould is gone up in the installation blowing of blowing movable mould board bottom surface, the mould is provided with the half chamber of blow molding of mutually supporting respectively with the blowing lower mould in the blowing, it is stifled at the bottom of mould and blowing lower mould one side is equipped with in the blowing, stifled mounting panel at the bottom is connected to stifled one side at the bottom, install the lift cylinder mount pad on the blowing movable mould board, vertical installation lift cylinder in the lift cylinder mount pad, be equipped with the lift cylinder piston rod in the. The utility model has simple structure and small occupied space; the automatic lifting of the bottom plug is realized, the blow molding process and the position of the bottom plug are monitored, the production efficiency is improved, and the production cost is reduced.
Description
Technical Field
The utility model belongs to the technical field of the blowing equipment, a stifled hoist mechanism at bottom of the blowing mould is related to.
Background
At present, in a traditional injection-blow integrated machine, due to the limitation of the structure of the existing blow mold, a bottom plug is already in place through a mechanical structure in the mold closing process of an upper mold and a lower mold of the blow mold. In the prior art, the 360-degree ring label cannot be finished, the 360-degree ring label is sent into the cavity by closing the upper and lower die bodies in place during blow molding, and the mechanical arm has enough space to send the label into the cavity when the bottom plug is in a state of retreating in place and lifting in place.
Disclosure of Invention
An object of the utility model is to provide a stifled hoist mechanism at bottom of blowing mould can solve foretell problem, and can improve production efficiency.
According to the utility model provides a technical scheme: the utility model provides a stifled hoist mechanism at bottom of blowing mould, includes the deck plate, be provided with the blowing lower mould on the deck plate, blowing lower bolster top sets up the blowing movable mould board, mould in the installation blowing of blowing movable mould board bottom surface, the blowing go up the mould with the blowing lower mould is provided with the half chamber of the blowing of mutually supporting respectively, mould and blowing lower mould one side are equipped with end stifled, end stifled mounting panel is connected to end stifled one side, installation promotion hydro-cylinder mount pad on the blowing movable mould board, vertical installation promotion hydro-cylinder in the promotion hydro-cylinder mount pad, be equipped with promotion hydro-cylinder piston rod in the promotion hydro-cylinder, promotion hydro-cylinder piston rod is connected with the promotion connecting piece, promote the connecting piece with through sliding transmission structural connection between the end.
As the utility model discloses a further improvement, promote and install the lift cylinder pick-up plate on the connecting piece, the vertical installation in lift cylinder pick-up plate side promotes the detection support, promote upper sensor and next sensor of installing respectively at both ends about the detection support.
As a further improvement of the utility model, install the lift cylinder front end housing on the lift cylinder mount pad, the lift cylinder is vertical install in the lift cylinder front end housing.
As a further improvement of the utility model, the lift cylinder piston rod passes the lift cylinder front end housing.
As a further improvement, the lifting detection support is installed on the blow molding movable mould plate.
As a further improvement, the sliding transmission structure is a dovetail structure, the bottom surface of the lifting connection piece is provided with a dovetail groove, the top surface of the bottom plug mounting plate is provided with a dovetail, and the dovetail is arranged in the dovetail groove.
As a further improvement of the utility model, the sliding transmission structure is a T-shaped groove structure.
The positive progress effect of this application lies in:
the utility model has simple structure and small occupied space; the automatic lifting of the bottom plug is realized, the blow molding process and the position of the bottom plug are monitored, the production efficiency is improved, and the production cost is reduced.
Drawings
Fig. 1 is a schematic structural diagram of the present invention.
Fig. 2 is a schematic structural view during blow molding of the present invention.
Fig. 3 is a schematic structural view of the present invention when the blow molding is completed.
Detailed Description
The following description will further describe embodiments of the present invention with reference to the accompanying drawings.
In fig. 1-3, the device comprises a blowing movable die plate 1, a blowing upper die 2, a blowing lower die 3, a deck plate 4, a translation cylinder mounting base 5, a positioning guide 6, a translation cylinder 7, a translation cylinder piston rod 8, a translation cylinder rear end cover 9, a translation connecting piece 10, a translation cylinder pull rod 11, a bottom plug mounting plate 12, a bottom plug 13, a translation cylinder detection rod 14, a translation detection bracket 15, a slider 16, a chute 17, a lifting cylinder mounting base 18, a lifting cylinder 19, a lifting cylinder front end cover 20, a lifting cylinder piston rod 21, a lifting connecting piece 22, a lifting cylinder detection plate 23, a lifting detection bracket 24 and the like.
As shown in fig. 1, a stifled translation hoist mechanism at bottom of blowing mould of function is detected in area, including deck plate 4, be provided with blowing lower mould 3 on the deck plate 4, blowing lower mould 3 top sets up blowing movable mould board 1, mould 2 in the 1 bottom surface installation blowing of blowing movable mould board, mould 2 and blowing lower mould 3 are provided with the blowing die cavity of mutually supporting respectively in the blowing, when mould 2 and the 3 compound die of blowing lower mould in the blowing, a pair of blowing die cavity on mould 2 and the blowing lower mould 3 are laminated mutually in the blowing, mould 2 and blowing lower mould 3 one side are equipped with end stifled 13 in the blowing, end stifled mounting panel 12 is connected to end stifled 13 one side, end stifled mounting panel 12 opposite side sets up translation mechanism.
Translation mechanism includes translation hydro-cylinder mount pad 5, and translation hydro-cylinder mount pad 5 is installed on deck plate 4, and positioning guide post 6 is installed on blow molding movable mould board 1 and in inserting translation hydro-cylinder mount pad 5, and its concrete mode of setting is: the bottom of the blow molding movable die plate 1 is provided with a pair of positioning guide pillars 6, the translation oil cylinder mounting base 5 is provided with guide sleeve holes, the positions of the guide sleeve holes correspond to the positioning guide pillars 6 one by one, and the sizes of the guide sleeve holes are matched with the guide sleeves 6, and the positioning guide pillars 6 are arranged in the guide sleeve holes. The translation oil cylinder 7 is horizontally arranged on the translation oil cylinder mounting seat 5, a translation oil cylinder piston rod 8 is arranged in the translation oil cylinder 7 and penetrates through the translation oil cylinder mounting seat 5 to be connected with a translation connecting piece 10, a translation oil cylinder rear end cover 9 is arranged on the translation oil cylinder 7 through a translation oil cylinder pull rod 11, a sliding block 16 is arranged at the bottom of a bottom plug mounting plate 12, and a sliding groove 17 is formed in the table panel 4. The sliding groove 17 is matched with the sliding block 16. The translational connecting piece 10 is connected with the bottom plug mounting plate 12 through a sliding transmission structure.
In order to monitor the position of the bottom plug in a translation mode in real time, a translation detection structure is installed on a translation mechanism and comprises a translation oil cylinder detection rod 14, the translation oil cylinder detection rod 14 is installed on a translation connecting piece 10 and penetrates through a translation oil cylinder installation seat 5, a translation detection support 15 is installed above the translation oil cylinder detection rod 14, and a carry sensor and a retreat sensor are installed at two ends of the translation detection support 15 respectively. The translation detection bracket 15 is fixed on the translation oil cylinder mounting seat 5 and the translation oil cylinder rear end cover 9.
The lifting mechanism comprises a lifting oil cylinder mounting seat 18, the lifting oil cylinder mounting seat 18 is mounted at the top of the blow molding movable template 1, a lifting oil cylinder front end cover 20 is mounted on the lifting oil cylinder mounting seat 18, the lifting oil cylinder 19 is vertically mounted in the lifting oil cylinder front end cover 20, a lifting oil cylinder piston rod 21 is mounted in the lifting oil cylinder 19 and penetrates through the lifting oil cylinder front end cover 20 to be connected with a lifting connecting piece 22, and the lifting connecting piece 22 is connected with the bottom plug mounting plate 12 through a sliding transmission structure.
In order to monitor the lifting position of the bottom plug in real time, a translation detection structure is installed on the lifting mechanism, the lifting detection structure comprises a lifting oil cylinder detection plate 23, the lifting oil cylinder detection plate 23 is installed on a lifting connecting piece 22, a lifting detection bracket 24 is vertically installed on the side surface of the lifting oil cylinder detection plate 23, an upper sensor and a lower sensor are respectively installed at the upper end and the lower end of the lifting detection bracket 24, and the lifting detection bracket 24 is installed on the blow molding movable die plate 1.
In this embodiment, the sliding transmission structure is a dovetail structure. The lateral surface of the translational connecting piece 10 and the bottom surface of the lifting connecting piece 22 are provided with dovetail grooves, the lateral surface and the top surface of the bottom plug mounting plate 12 are provided with dovetails, and the dovetails are positioned in the dovetail grooves. The bottom plug mounting plate 12 can vertically move along the contact surface with the translation connecting piece 10, and the translation connecting piece 10 can drive the bottom plug mounting plate 12 to transversely move left and right. The bottom plug mounting plate 12 can move horizontally along the contact surface with the lifting connecting piece 22, and the lifting connecting piece 22 can drive the bottom plug mounting plate 12 to move up and down.
In this embodiment, the sliding transmission structure may also be a T-shaped groove structure.
The working process of the utility model is as follows:
as shown in fig. 2, the movable blow molding die plate 1 locks the upper blow molding die 2 and the lower blow molding die 3 under the action of die assembly, high-pressure hydraulic oil enters a rodless cavity of the lifting cylinder 19 through the lifting cylinder 19, the hydraulic oil pushes the lifting cylinder piston rod 21 to move downwards, the lifting cylinder piston rod 21 pushes the lifting connecting piece 22, the bottom plug mounting plate 12, the bottom plug 13 and the lifting cylinder detection plate 23 to move downwards, the slider 16 is embedded into the chute 17, the dovetail on the side surface of the bottom plug mounting plate 12 is embedded into the dovetail groove of the translational connecting piece 10, and the lifting cylinder detection plate 23 lights the lower sensor mounted on the lifting detection bracket 14, so that the bottom plug 13 is.
High-pressure hydraulic oil enters a rodless cavity of the translation oil cylinder 7 through a translation oil cylinder rear end cover 9, the hydraulic oil pushes a translation oil cylinder piston rod 8 to move forwards, the translation oil cylinder piston rod 8 pushes a translation connecting piece 10, a bottom plug mounting plate 12, a bottom plug 13, a sliding block 16 and a translation oil cylinder detection rod 14 to move forwards along a sliding groove 17, the bottom plug 13 is in contact with the blow molding upper die 2 and the blow molding lower die 3, a carry sensor arranged on a translation detection support 15 is lightened by the translation oil cylinder detection rod 14, and at the moment, the bottom plug 13 is in place.
After the blow molding is completed, as shown in fig. 3, high-pressure hydraulic oil enters a rod cavity of the translation cylinder 7 through the translation cylinder 7, the hydraulic oil pushes a piston rod 8 of the translation cylinder to move backwards, the piston rod 8 of the translation cylinder drives a translation connecting piece 10, a bottom plug mounting plate 12, a bottom plug 13, a sliding block 16 and a translation cylinder detection rod 14 to move backwards along a sliding chute 17, the bottom plug 13 exits from the upper blow mold 2 and the lower blow mold 3, the translation cylinder detection rod 14 lights a position-withdrawing sensor mounted on a translation detection support, and at this time, the bottom plug 13 withdraws in place.
High-pressure hydraulic oil enters a rod cavity of a lifting oil cylinder 19 through a front end cover 20 of the lifting oil cylinder, the hydraulic oil pushes a piston rod 21 of the lifting oil cylinder to move upwards, the piston rod 21 of the lifting oil cylinder drives a lifting connecting piece 22, a bottom plug mounting plate 12, a bottom plug 13 and a lifting oil cylinder detection plate 23 to move upwards, a sliding block 16 is separated from a sliding groove 17, the bottom plug mounting plate 12 is separated from a translation connecting piece 10, the lifting oil cylinder detection plate 23 lightens an upper sensor arranged on a lifting detection support 14, and the bottom plug 13 is in place at the moment.
Claims (7)
1. The utility model provides a stifled hoist mechanism at bottom of blowing mould which characterized in that: the mechanism includes deck plate (4), be provided with blow molding lower mould (3) on deck plate (4), blow molding lower mould (3) top sets up blow molding movable mould board (1), mould (2) in blow molding movable mould board (1) bottom surface installation blow molding, the blow molding go up mould (2) with blow molding lower mould (3) are provided with the blow molding die cavity of mutually supporting respectively, mould (2) and blow molding lower mould (3) one side are equipped with end stifled (13) in the blow molding, end stifled (13) one side is connected end stifled mounting panel (12), installation lift cylinder mount pad (18) on blow molding movable mould board (1), vertical installation lift cylinder (19) in lift cylinder mount pad (18), be equipped with lift cylinder piston rod (21) in lift cylinder (19), lift cylinder piston rod (21) are connected with lift connecting piece (22), lift connecting piece (22) with connect through sliding transmission structure between end stifled mounting panel (12).
2. The blow mold bottom block lifting mechanism according to claim 1, characterized in that: a lifting oil cylinder detection plate (23) is installed on the lifting connecting piece (22), a lifting detection support (24) is vertically installed on the side face of the lifting oil cylinder detection plate (23), and an upper sensor and a lower sensor are installed at the upper end and the lower end of the lifting detection support (24) respectively.
3. The blow mold bottom block lifting mechanism according to claim 1, characterized in that: and a lifting oil cylinder front end cover (20) is arranged on the lifting oil cylinder mounting seat (18), and the lifting oil cylinder (19) is vertically arranged in the lifting oil cylinder front end cover (20).
4. The blow mold bottom block lifting mechanism according to claim 1, characterized in that: and the piston rod (21) of the lifting oil cylinder penetrates through the front end cover (20) of the lifting oil cylinder.
5. The blow mold bottom block lifting mechanism according to claim 2, characterized in that: the lifting detection bracket (24) is arranged on the blow molding movable template (1).
6. The blow mold bottom block lifting mechanism according to claim 1, characterized in that: the sliding transmission structure is a dovetail structure, a dovetail groove is formed in the bottom surface of the lifting connecting piece (22), a dovetail is formed in the top surface of the bottom plug mounting plate (12), and the dovetail is located in the dovetail groove.
7. The blow mold bottom block lifting mechanism according to claim 1, characterized in that: the sliding transmission structure is a T-shaped groove structure.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202022149698.7U CN213704501U (en) | 2020-09-27 | 2020-09-27 | Stifled hoist mechanism at bottom of blowing mould |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN202022149698.7U CN213704501U (en) | 2020-09-27 | 2020-09-27 | Stifled hoist mechanism at bottom of blowing mould |
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Publication Number | Publication Date |
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CN213704501U true CN213704501U (en) | 2021-07-16 |
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CN202022149698.7U Active CN213704501U (en) | 2020-09-27 | 2020-09-27 | Stifled hoist mechanism at bottom of blowing mould |
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CN (1) | CN213704501U (en) |
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2020
- 2020-09-27 CN CN202022149698.7U patent/CN213704501U/en active Active
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