CN202071274U - Automatic cold and hot pressing molder structure - Google Patents

Abstract

The utility model discloses an automatic cold and hot pressing molder structure which comprises a heating station heating turntable and a cooling station cooling turntable which are radially arranged, wherein a mold changing turntable is arranged between the heating turntable and the cooling turntable; the automatic operation flow can be achieved and the whole operation time of the cold and hot pressing molder is shortened by controlling the positioning and transferring time among the heating turntable, the mold changing turntable and the cooling turntable; and the three turntables are mutually cooperated in a positioning rotation manner. The automatic cold and hot pressing molder structure has the advantages of compact structure, small occupied area and simplified cold and hot pressing molder operation, so that an operator can monitor the whole work flow only by sending or taking out a mold in a fixed position; and therefore, the work efficiency is greatly enhanced, and the personnel cost is reduced.

Description

The cold and hot compression molding forming machine structure of automation

Technical field

The utility model relates to a kind of compression molding forming machine, the cold and hot compression molding forming machine of particularly a kind of automation.

Background technology

As shown in Figure 1, a kind of structure of existing cold and hot compression molding forming machine, mainly be with linear mode with the heating station of single or multiple lift and cooling stations about and be changed to a mould station, copy required mould station number according to the production capacity demand with linear mode again; Among the TaiWan, China patent announcement M316526, the single mould station of cold and hot compression molding forming machine is provided with a mould and fetches and delivers platform 11 and be located at a mould lifting platform 12 1 sides, mould lifting platform 12 has the delivery device 13A that a upper strata 12A and a 12B of lower floor are respectively equipped with line movement, 13B, upper strata 12A upside is provided with cylinder pressure 14A, lower floor's 12B downside is provided with cylinder pressure 14B, mould lifting platform 12 is in contiguous described delivery device 13A, the 13B place is provided with a heating station 121, away from locating to be provided with a cooling stations 122, mould is fetched and delivered platform 11 from mould and is sent into heating station 121, sees through cylinder pressure 14A, the 14B up and down clamping mould 15B that is positioned at the mould 15A of upper strata 12A and is positioned at lower floor adds hot work; After to be heated the finishing, cylinder pressure 14A, 14B reply and by delivery device 13A, 13B mould 15A, 15B are pushed to cooling stations 122 cooling coolings.

Existing cold and hot compression molding forming machine has following problem when practical operation is used:

A, owing to be linear array between each mould station of described cold and hot compression molding forming machine, the operator must be between each mould station makes an inspection tour back and forth, the station number that causes each operator to look after is limited, when simultaneously a plurality of moulds station being set, human cost promptly can increase thereupon; If will be equipped with automatic sliding form apparatus, one group of sliding form apparatus must be set up in each mould station, increases cost is set, and improves the floor space of board.

B, existing cold and hot compression molding forming machine are when operation, mould must stay in heating station 121 and cooling stations 122 in regular turn, could take out mould after cooling, mold heated is not necessarily identical with the time of cooling, when therefore each mould stands in operation, must wait for after the last consignment of mould takes out fully and could insert next group again, cause the operating time long, be difficult to improve prouctiveness.

The utility model content

The technical problem that the utility model solves provides the cold and hot compression molding forming machine structure of a kind of automation, and the board floor space is little, the operation cycle stable, and the operator need not make an inspection tour between each mould station back and forth.

For solving the problems of the technologies described above, the cold and hot compression molding forming machine structure of the automation that the utility model provides comprises: a pedestal, a die change station, a plurality of heating station, a plurality of cooling stations and two sliding formwork mechanisms; Wherein, a plurality of heating stations and cooling stations are located at respectively on the Heating rotary-disc and a cooling rotating disk of described pedestal; The die change erect-position is between described Heating rotary-disc and cooling rotating disk, and described die change station has the die change rotating disk that all sides are provided with a plurality of openends; Each sliding formwork mechanism is located at respectively between die change station and Heating rotary-disc and the cooling rotating disk; One mould places the open end of described die change rotating disk; when a heating station wherein or wherein a cooling stations corresponding to die change rotating disk openend; sliding formwork mechanism uses the promotion mould and slips into or skid off the die change station from openend between openend and heating station or this cooling stations.

Described pedestal is respectively at having a main shaft between Heating rotary-disc, cooling rotating disk and the die change rotating disk, and making Heating rotary-disc, cooling rotating disk and die change rotating disk is center rotation and location by the one division drive mechanism and with described main shaft respectively.

Described die change rotating disk extends to form a slipping space from each openend to central authorities, and corresponding each slipping space of die change rotating disk offers a chute.

Described each slipping space is two row by a plurality of projections and is located on the described die change rotating disk.

Described die change rotating disk offers a chute from each openend to central authorities; Each sliding formwork mechanism has a holder that takes the shape of the letter U and is located at pedestal, and the holder end is provided with a horizontal cylinder pressure away from a side at die change station, and a side at contiguous die change station is provided with a slide bar group and wears an actuator, is provided with a vertical cylinder pressure below the actuator with between the holder; Horizontal displacement between die change station and heating station and cooling stations when actuator is driven by horizontal cylinder pressure, vertical displacement between each chute of die change rotating disk and slide bar group during by vertical cylinder pressure driving.

Described pedestal be provided with on the die change station between Heating rotary-disc and cooling rotating disk a die opening mechanism of a side wherein, described die opening mechanism has two telescopic arms; The die change rotating disk is the crosswise structure and has four openends; Mould is placed in one between corresponding described two telescopic arms of an openend, and mould is provided with a body of rod in neighbouring open end place level, and two telescopic arms protrude out pushing tow body of rod opening mold, and two telescopic arms shrink answer and cover this mould.

Described die opening mechanism has a column and is fixedly arranged on pedestal; the terminal push rod towards openend that articulates of column; each telescopic arm one end and pedestal pivot are solid; the other end is located in the middle of being hubbed at push rod; telescopic arm is protruded out drive push rod pushing tow body of rod opening mold, telescopic arm condensation drive push rod leaves the body of rod and covers mould.

Described die change rotating disk extends to form a slipping space from each openend to central authorities, and corresponding each slipping space of die change rotating disk is provided with a chute; Have a board between described mould and the chute, board cooperates with slipping space, and mould is fixedly arranged on board, and sliding formwork mechanism has an actuator and is placed in the chute and the contact board, slips into or skid off openend to promote mould.

Described each heating station has a heating space, and each cooling stations has a cooling space; Described mould places heating space or cooling space.

The all sides of described die change rotating disk are provided with four openends, and four openends form a slipping space towards described die change rotating disk centre respectively.

The cold and hot compression molding forming machine structure of automation described in the utility model has following effect:

A, form by the location transfer time between control Heating rotary-disc, die change rotating disk and the cooling rotating disk and not interrupt continuously and the operating type of cycle stability, mould from heating station after cooling stations is sent at the die change station, beginning to send into second batch of mould to heating station by control heats, make the Partial Jobs time-interleaving of every batch of mould, significantly shorten the overall operation time, effectively improve production capacity efficient.

B, because Heating rotary-disc, die change rotating disk and cooling rotating disk rotate with the location works in coordination, and need not to increase structure as the cold and hot compression molding forming machine of linear start, not only board is simplified and floor space is little, also simplify simultaneously the mode of operation of cold and hot compression molding forming machine, the operator only needs to send into or take out in the fixed position smooth and easy the getting final product of mould monitoring overall operation flow process, the cold and hot compression molding forming machine structure of automation described in the utility model has and significantly promotes operating efficiency, reduces the effect of personnel costs.

Description of drawings

Below in conjunction with the accompanying drawing and the specific embodiment the utility model is described in further detail:

Fig. 1 is a kind of structural representation of existing cold and hot compression molding forming machine.

Fig. 2 is the surface structure schematic diagram of the utility model one embodiment.

Fig. 3 is the schematic side view of the utility model one embodiment.

Fig. 4 is that the utility model one embodiment die change stands in the surface structure enlarged diagram that mould covers state.

Fig. 5 is the surface structure enlarged diagram that the utility model one embodiment die change stands in the mold open state.

Fig. 6 is the operating process schematic diagram one of cold and hot compression molding forming machine described in the utility model.

Fig. 7 is the operating process schematic diagram two of cold and hot compression molding forming machine described in the utility model.

Fig. 8 is the operating process schematic diagram three of cold and hot compression molding forming machine described in the utility model.

Reference numeral

The 10th, existing cold and hot compression molding forming machine

The 11st, it is mould lifting platforms that mould is fetched and delivered platform 12

12A is that upper strata 12B is a lower floor

The 121st, heating station 122 is cooling stations

13A is that delivery device 13B is a delivery device

14A is that cylinder pressure 14B is a cylinder pressure

15A is that mould 15B is a mould

The 20th, pedestal 21 is Heating rotary-discs

The 211st, main shaft 22 is cooling rotating disks

The 221st, main shaft

The 30th, die change station 31 is die change rotating disks

The 310th, openend 311 is slipping space

The 312nd, projection 313 is chutes

The 32nd, main shaft

The 40th, heating station 41 is heating spaces

The 50th, cooling stations 51 is cooling spaces

The 60th, sliding formwork mechanism 61 is holders

The 62nd, horizontal cylinder pressure 63 is slide bar groups

The 64th, actuator 65 is vertical cylinder pressures

The 70th, die opening mechanism 71 is columns

The 72nd, telescopic arm 73 is push rods

D is that mould D1 is the body of rod

D2 is a board

The specific embodiment

To shown in Figure 5, the utility model one embodiment provides a kind of cold and hot compression molding forming machine structure of automation that cooperates mould D as Fig. 2, and have a pedestal 20 and be provided with a die change station 30, a plurality of heating station 40, a plurality of cooling stations 50 and two sliding formwork mechanisms 60, wherein:

Pedestal 20, both sides are respectively equipped with a Heating rotary-disc 21 in the form of annular discs and a cooling rotating disk 22 relatively, have the axis of rotation of a main shaft 211,221 for described Heating rotary-disc 21 and cooling rotating disk 22 between Heating rotary-disc 21 and cooling rotating disk 22 and the pedestal 20 respectively, making Heating rotary-disc 21 and cooling rotating disk 22 by suitable calibration driving mechanism is center rotation and location with main shaft 211,221 respectively;

Die change station 30, be located at pedestal 20 between Heating rotary-disc 21 and cooling rotating disk 22, die change station 30 has a die change rotating disk 31, die change rotating disk 31 all sides are formed with a plurality of openends 310, extend to form a slipping space 311 from each openend 310 to die change rotating disk 31 centre, die change rotating disk 31 corresponding each slipping space 311 offer a chute 312, have a main shaft 32 between die change rotating disk 31 and the pedestal 20 and be its axis of rotation, making die change rotating disk 31 by suitable calibration driving mechanism is center rotation and location with main shaft 32;

In the present embodiment, die change rotating disk 31 is the four-bladed vane structure and forms four openends 310, power transmission shaft 32 is located at 31 central right-angled intersections place of die change rotating disk, and each slipping space 311 is two row by a plurality of projections 312 to be located on the die change rotating disk 31, and each openend 310 extends to form the slideway that send mould D for sliding;

A plurality of heating stations 40 are located at Heating rotary-disc 21 all sides at interval, are Heating rotary-disc 21 driven rotary, and each heating station 40 has a heating space 41, send into heating space 41 for mould D from die change station 30 and heat;

A plurality of cooling stations 50 are located at cooling rotating disk 22 all sides at interval, are cooling rotating disk 22 driven rotary, and each cooling stations 50 has a cooling space 51,, delivers into cooling space 51 with die change station 30 and cools off after heating for mould D;

Two sliding formwork mechanisms 60 are located at respectively between die change station 30 and Heating rotary-disc 21 and the cooling rotating disk 22; Mould D places the die change rotating disk 31 at die change station 30; when heating space 41 openings of openend 310 corresponding heating stations 40 or cooling space 51 openings of cooling stations 50; sliding formwork mechanism 60 uses promotion mould D and slips into or skid off die change station 30 from openend 310 between openend 310 and heating station 40 or cooling stations 50.

As shown in Figure 3, Figure 4, each sliding formwork mechanism 60 has a holder that takes the shape of the letter U 61 and is located at pedestal 20 between die change station 30 and heating station 40, cooling stations 50 in the present embodiment, holder 61 ends are provided with a horizontal cylinder pressure 62 in the side away from die change station 30, the side at contiguous die change station 30 then is provided with a slide bar group 63 and wears an actuator 64, is provided with a vertical cylinder pressure 65 between actuator 64 belows and the holder 61; Actuator 64 is driven horizontal displacement between die change station 30 and heating station 40 and cooling stations 50 by horizontal cylinder pressure 62, and is driven vertical displacement between each chute 312 of die change rotating disk 31 and slide bar group 63 by vertical cylinder pressure 65.

As Fig. 4, shown in Figure 5, pedestal 20 is provided with a die opening mechanism 70, on the die change station 30 between Heating rotary-disc 21 and cooling rotating disk 22 side wherein, die opening mechanism 70 has two columns 71 and is fixedly arranged on pedestal 20 and two telescopic arms 72, each column 71 end articulates a push rod 73 towards die change rotating disk 31 openends 310 respectively, each telescopic arm 72 1 end and pedestal 20 pivots are solid, and the other end is located in the middle of being hubbed at push rod 73; The mould D openend 310 and corresponding between two telescopic arms 72 that is placed in one, mould D is provided with a body of rod D1 in neighbouring open end 310 place's levels, telescopic arm 72 protrudes out and drives push rod 73 pushing tow body of rod D1 opening mold D, and telescopic arm 72 condensations drive push rod 73 leaves body of rod D1 and covers mould D.

Has a board D2 between the chute 312 of mould D and die change rotating disk 31; board D2 cooperates with slipping space 311; mould D is fixedly arranged on board D2, and sliding formwork mechanism 60 has an actuator 64 and is placed in contact board D2 in the chute 312, promotes mould D and slips into or skid off openend 310.

,, utilize three rotating disks to work in coordination and reach the continued operation of automated job flow process when the utility model embodiment operates to shown in Figure 8 as Fig. 6; Wherein, because mold heated is not necessarily identical with the time of cooling, the cooperation conversion heating station 40 between apparent time and the ratio of cooling stations 50 reach the work flow that continuous smoothness need not be waited for; In the present embodiment, heating station 40 and cooling stations 50 have 12 respectively, by the location transfer time between Stroke Control Heating rotary-disc 21, die change rotating disk 30 and the cooling rotating disk 22, send into first mould D after heating station 40 heating, deliver to cooling stations 50 more one by one and cool off; When the cooled first mould D is taken out one by one, send into second crowd of mould D again and heat, the operating type of formation cycle continous-stable to the heating station 40 that does not contain mould.

Below through the specific embodiment and the embodiment the utility model is had been described in detail, formation is to restriction of the present utility model but these are not.Under the situation that does not break away from the utility model principle, those skilled in the art also can make many distortion and improvement, and these also should be considered as protection domain of the present utility model.

Claims (10)

1. the cold and hot compression molding forming machine structure of automation is characterized in that, comprising:

One pedestal, described pedestal both sides are provided with a Heating rotary-disc in the form of annular discs and a cooling rotating disk;

Pedestal is located between described Heating rotary-disc and cooling rotating disk in one die change station, and the die change station has a die change rotating disk, and all sides of die change rotating disk are provided with a plurality of openends;

A plurality of heating stations are located at interval described Heating rotary-disc week side and with the Heating rotary-disc displacement;

A plurality of cooling stations are located at interval described cooling rotating disk week side and with the cooling rotator shift;

Two sliding formwork mechanisms are located at respectively between described die change station and described Heating rotary-disc and the cooling rotating disk; Make a mould place the open end of described die change rotating disk, wherein a heating station or the wherein corresponding die change rotating disk of cooling stations openend, sliding formwork mechanism is between openend and described heating station or cooling stations and promote mould and slip into or skid off the die change station from openend.

2. the cold and hot compression molding forming machine structure of automation as claimed in claim 1, it is characterized in that: described pedestal is respectively at having a main shaft between Heating rotary-disc, cooling rotating disk and the die change rotating disk, and making Heating rotary-disc, cooling rotating disk and die change rotating disk is center rotation and location by the one division drive mechanism and with described main shaft respectively.

3. the cold and hot compression molding forming machine structure of automation as claimed in claim 1 is characterized in that: described die change rotating disk extends to form a slipping space from each openend to central authorities, and corresponding each slipping space of die change rotating disk offers a chute.

4. the cold and hot compression molding forming machine structure of automation as claimed in claim 3 is characterized in that: described each slipping space is two row by a plurality of projections and is located on the described die change rotating disk.

5. the cold and hot compression molding forming machine structure of automation as claimed in claim 1 is characterized in that: described die change rotating disk offers a chute from each openend to central authorities; Each sliding formwork mechanism has a holder that takes the shape of the letter U and is located at pedestal, and the holder end is provided with a horizontal cylinder pressure away from a side at die change station, and a side at contiguous die change station is provided with a slide bar group and wears an actuator, is provided with a vertical cylinder pressure below the actuator with between the holder; Horizontal displacement between die change station and heating station and cooling stations when actuator is driven by horizontal cylinder pressure, vertical displacement between each chute of die change rotating disk and slide bar group during by vertical cylinder pressure driving.

6. the cold and hot compression molding forming machine structure of automation as claimed in claim 1 is characterized in that: described pedestal be provided with on the die change station between Heating rotary-disc and cooling rotating disk a die opening mechanism of a side wherein, described die opening mechanism has two telescopic arms; The die change rotating disk is the crosswise structure and has four openends; Make mould be placed in one an openend correspondence between described two telescopic arms, mould is provided with a body of rod in neighbouring open end place level, and two telescopic arms protrude out pushing tow body of rod opening mold, and two telescopic arms shrink answer and cover this mould.

7. the cold and hot compression molding forming machine structure of automation as claimed in claim 6; it is characterized in that: described die opening mechanism has a column in addition and is fixedly arranged on pedestal; the terminal push rod towards openend that articulates of column; each telescopic arm one end and pedestal pivot are solid; the other end is located in the middle of being hubbed at push rod; telescopic arm is protruded out drive push rod pushing tow body of rod opening mold, telescopic arm condensation drive push rod leaves the body of rod and covers mould.

8. the cold and hot compression molding forming machine structure of automation as claimed in claim 1 is characterized in that: described die change rotating disk extends to form a slipping space from each openend to central authorities, and corresponding each slipping space of die change rotating disk is provided with a chute; Have a board between described mould and the chute, board cooperates with slipping space, and mould is fixedly arranged on board, and sliding formwork mechanism has an actuator and is placed in the chute and the contact board, slips into or skid off openend to promote mould.

9. the cold and hot compression molding forming machine structure of automation as claimed in claim 1 is characterized in that: described each heating station has a heating space, and described each cooling stations has a cooling space; Described mould places heating space or cooling space.

10. the cold and hot compression molding forming machine structure of automation as claimed in claim 1 is characterized in that: all sides of described die change rotating disk are provided with four openends, and four openends form a slipping space towards described die change rotating disk centre respectively.

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