A kind of numerical control efficient paper pulp packaging, the production equipment of tableware
Technical field
A kind of paper pulp packaging, the production equipment of tableware are the utility model is related to, specifically, is related to a kind of numerical control efficient paper
Slurry packaging, the production equipment of tableware.
Background technology
Paper mould is a kind of three-dimensional paper technology.It is moulded using waste paper as raw material on mould machine by certain moduli tool
Go out the paper products of definite shape.It has four big advantages:Raw material is waste paper, including paperboard, litter decoration paper, useless white edge paper etc., is come
Source is extensive;Its manufacturing process is completed by processes such as slurrying, adsorption forming, dryness finalizations, environmental sound;Can be with reclaiming profit
With;Volume ratio foamed plastic is small, can be overlapping, and communications and transportation is convenient.Paper mould, in addition to cutlery box, tableware is made, it is slow more to do industry
Punching packaging, development is very rapid at present.The production equipment of existing paper pulp packaging is generally arranged to pattern tool, transfer mold, consolidates
Change mould, structure is more complicated, and whole equipment is very huge, and slow drying speed, efficiency are low, effect is also very poor.
Utility model content
In place of solving above-mentioned the deficiencies in the prior art, the purpose of this utility model is to provide a kind of numerical control efficient paper
Slurry packaging, the production equipment of tableware, the defects of to overcome in the prior art.
To achieve these goals, the utility model provides a kind of numerical control efficient paper pulp packaging, the production equipment of tableware,
The production equipment includes being molded for midge and the top die of transfer, the thermal energy exchange die body for hot-press solidifying, lower film have,
Conveyer belt and console;Wherein, top die is arranged on slide by the first ball screw, and the first ball screw drives top die
Do and vertically moved to complete midge forming action above paper pulp pond, the first ball screw does water with top die on slide
It is flat move left and right and above the thermal energy exchange die body and paper pulp pond between move left and right to complete transfer action;Thermal energy exchange die body
It is arranged on the top of lower film tool and is fixed on by connecting rod on upper holder, upper holder is perpendicular to slide and is arranged on slide
Left end, thermal energy exchange die body drive top die to be moved along slide with being provided with the accommodating cavity connected, the first ball screw in connecting rod
Move in accommodating cavity to carry out hot-press solidifying action;Lower film tool is arranged on lower fixed frame by the second ball screw, the second rolling
Ballscrew drives lower film tool to do and vertically moves so that lower film tool is molded with top die to complete hot-press solidifying action;Lower fixation
Telescopic rod is additionally provided with frame, telescopic rod is located at the lower right-hand side of lower film tool, and telescopic rod promotes lower film tool to make lower film tool to the left
Tilt, conveyer belt is arranged on lower fixed frame and positioned at the left side of lower film tool, to complete the collection of finished product;Console is arranged on
On fixed frame, for controlling top die, thermal energy exchange die body, lower film tool and conveyer belt to complete the production of paper pulp packaging, tableware.
As the further explanation to production equipment described in the utility model, it is preferable that the production equipment further includes
Control the first servomotor that the first ball screw moves up and down, the second servomotor that control top die moves left and right, control
The 3rd servomotor that second ball screw moves up and down, the 4th servomotor and control conveyer belt fortune of control telescopic rod movement
The 5th dynamic servomotor, the first servomotor, the second servomotor, the 3rd servomotor, the 4th servomotor and the 5th are watched
Motor is taken to be controlled by console.
As the further explanation to production equipment described in the utility model, it is preferable that set in thermal energy exchange die body
There are heat-conducting oil pipes, the oil inlet pipe end of heat-conducting oil pipes is provided with circulating pump and is connected by oil pipeline with hotline heater, led
Hot oil is provided with temperature controller, and the fuel-displaced pipe end of heat-conducting oil pipes is connected with gs-oil separator by oil pipeline, led
Hot oil is connected to form circulation loop with gs-oil separator.
As the further explanation to production equipment described in the utility model, it is preferable that the bottom of top die concaves
If forming midge chamber, forming net is attached with midge intracavitary, to adhere to paper pulp;Top die is penetrated through to midge chamber equipped with some de-
Aqueous vapor hole, upper dehydration stomata are connected with the first vacuum pump, and for adsorbing paper pulp, upper dehydration stomata is also associated with the separation of the first aqueous vapor
Device, for the dehydration of paper pulp, the first moisture separator is arranged on outside the first ball screw.
As the further explanation to production equipment described in the utility model, it is preferable that lower film tool is equipped with some lower de-
Aqueous vapor hole, lower dehydration stomata are connected with the second vacuum pump, and for adsorbing paper pulp, lower dehydration stomata is also associated with the separation of the second aqueous vapor
Device, for the dehydration of paper pulp, the second moisture separator is arranged on lower film tool lower section.
The utility model is by the use of top die as adsorption forming and the mould of transfer, in the process that midge and top die move
In due to being negative-pressure adsorption, portion of water can be siphoned away, and complete hot-press solidifying at thermal energy exchange die body and finished product was collected
Journey, while using the heating of conduction oil mould, more efficient be transformed on mould of thermal energy is heated, thermal energy has been obtained fully
Utilization, due to improving mold temperature, yield can improve 35%, simplify equipment and save the time, thermal energy obtains filling for science
Point utilize, can be greatly lowered production cost, improve productivity, as long as and 4 kilograms of operating pressure (0.4Mpa) belong to low pressure
Operation production, is guaranteed safely.
Brief description of the drawings
Fig. 1 is the structure diagram of the production equipment of the utility model;
Fig. 2 is the structure diagram of the thermal energy exchange die body of the production equipment of the utility model;
Fig. 3 is the structure diagram of the top die of the production equipment of the utility model;
Fig. 4 is the structure diagram of the lower film tool of the production equipment of the utility model.
Embodiment
In order to further appreciate that the structure of the utility model, feature and other purposes, preferably implement in conjunction with appended
Example be accompanied by attached drawing describe in detail it is as follows, this attached drawing embodiment described is merely to illustrate the technical solution of the utility model, and
Non-limiting the utility model.
As shown in Figure 1, Fig. 1 is the numerical control efficient paper pulp packaging of the utility model, the structure diagram of tableware production equipment;
The production equipment includes being used for midge shaping and the top die 1 shifted, the thermal energy exchange die body 2 for hot-press solidifying, lower film
Tool 3, conveyer belt 4 and console 5;Wherein, top die 1 is arranged on slide 12 by the first ball screw 11, the first ball wire
Bar 11 drives top die 1 to be done above paper pulp pond and vertically moves to complete midge forming action, the first ball screw 11 with
Top die 1 done on slide 12 level move left and right and above the thermal energy exchange die body 2 and paper pulp pond between move left and right with complete
Into transfer action;Thermal energy exchange die body 2 is arranged on the top of lower film tool 3 and is fixed on by connecting rod 21 on upper holder 22, on
Fixed frame 22 is perpendicular to slide 12 and is arranged on the left end of slide 12, and thermal energy exchange die body 2 in connecting rod 21 with being provided with what is connected
Accommodating cavity 23, the first ball screw 11 drive top die 1 to be moved to along slide 12 in accommodating cavity 23 and are moved with carrying out hot-press solidifying
Make;Lower film tool 3 is arranged on lower fixed frame 32 by the second ball screw 31, and it is vertical that the second ball screw 31 drives lower film tool 3 to do
It is straight to move up and down so that lower film tool 3 is molded with top die 1 to complete hot-press solidifying action;It is additionally provided with lower fixed frame 32 flexible
Bar 33, telescopic rod 33 are located at the lower right-hand side of lower film tool 3, and telescopic rod 33 promotes lower film tool 3 lower film tool 3 is tilted to the left, passes
Band 4 is sent to be arranged on lower fixed frame 32 and positioned at the left side of lower film tool 3, to complete the collection of finished product;Console 5 is arranged on solid
Determine on frame 22, for controlling top die 1, thermal energy exchange die body 2, lower film tool 3 and conveyer belt 4 to complete the life of paper pulp packaging, tableware
Production.
Preferably, the production equipment further includes the first servomotor 51 that the first ball screw 11 of control moves up and down,
The second servomotor 52 that control top die moves left and right, the 3rd servomotor that the second ball screw 31 of control moves up and down
53, the 5th servomotor 55 that the 4th servomotor 54 and control conveyer belt 4 that control telescopic rod 33 moves move, the first servo
Motor 51, the second servomotor 52, the 3rd servomotor 53, the 4th servomotor 54 and the 5th servomotor 55 are by console 5
It is controlled.
Fig. 2 is refer to, Fig. 2 is the structure diagram of the thermal energy exchange die body of the production equipment of the utility model;Thermal energy is handed over
Heat-conducting oil pipes 201 are provided with mold changing body 2, the oil inlet pipe end of heat-conducting oil pipes 201 is provided with circulating pump 204 and passes through oil pipeline
It is connected with hotline heater 202, hotline heater 202 is provided with temperature controller 205, the flowline of heat-conducting oil pipes 201
End is connected by oil pipeline with gs-oil separator 203, and hotline heater 202 is connected formation circulation with gs-oil separator 203
Circuit.
Fig. 3 is refer to, Fig. 3 is the structure diagram of the top die of the production equipment of the utility model;The bottom of top die 1
Set to the concave to form midge chamber 101, forming net 102 is attached with midge chamber 101, to adhere to paper pulp;Top die 1 is penetrated through to suction
To starch chamber 101 and be equipped with some upper dehydration stomatas 103, upper dehydration stomata 103 is connected with the first vacuum pump 104, for adsorbing paper pulp, on
Dehydration stomata 103 is also associated with the first moisture separator 105, and for the dehydration of paper pulp, the first moisture separator 105 is arranged on the
Outside one ball screw 11.
Fig. 4 is refer to, Fig. 4 is the structure diagram of the lower film tool of the production equipment of the utility model;If lower film tool 3 is equipped with
Dry lower dehydration stomata 301, lower dehydration stomata 301 are connected with the second vacuum pump 302, and for adsorbing paper pulp, lower dehydration stomata 301 is also
The second moisture separator 303 is connected with, for the dehydration of paper pulp, the second moisture separator 303 is arranged on 3 lower section of lower film tool.
The operation principle of the utility model is:Top die 1 first extend into paper pulp pond under the control of the first servomotor 51
Interior, the first vacuum pump 104 is actuated for midge operation, and the time of midge is controlled by console 5, and then the second servomotor 52 is controlled
Top die 1 processed is moved to thermal energy exchange die body 2, due to being negative-pressure adsorption during midge and top die move, meeting
Some moisture is entered in the first moisture separator 105 by upper dehydration stomata 103;Top die 1 is moved to thermal energy exchange mould
In body 2, the conduction oil of heating is pumped into heat-conducting oil pipes 201 by circulating pump 204 in hotline heater 202, and top die 1 is carried out
Heating, while movement is molded to complete hot-press solidifying the 3rd servomotor 53 control lower film tool 3 with top die 1 upwards, hot pressing is solid
The time of change is controlled by console 5, and the first vacuum pump 104 is stopped after the completion of hot-press solidifying, the second vacuum pump 302 start with
Molding finished product is adsorbed onto on lower film tool 3, the 3rd servomotor 53 control lower film tool 3 moves downward, the second servomotor 52
Control top die 1, which is returned to above paper pulp pond, repeats midge operation, and during lower film tool 3 moves downward, the 4th servomotor 54 is controlled
Telescopic rod 33 processed promotes lower film tool 3 lower film tool 3 is tilted to the left, and molding finished product is dropped on conveyer belt 4 to complete finished product
Collection, the movement of conveyer belt 4 controls by the 5th servomotor 55, and lower film tool 3 waits die closing operation next time.Due to whole
Process completes hot-press solidifying and finished product receipts by the use of top die as adsorption forming and the mould of transfer at thermal energy exchange die body
Collection process, reduces the use to move moulds, simplifies equipment and saves the time, improves productivity.
It is to be understood that above-mentioned utility model content and embodiment are intended to prove that the utility model provides skill
The practical application of art scheme, should not be construed as the restriction to scope of protection of the utility model.Those skilled in the art are in this practicality
In new spirit and principle, when can various modifications may be made, equivalent substitution or improvement.The scope of protection of the utility model is with appended power
Subject to sharp claim.