WO2014094603A1 - 植物纤维模塑制品全自动制造方法及模塑成型切边一体机 - Google Patents
植物纤维模塑制品全自动制造方法及模塑成型切边一体机 Download PDFInfo
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- WO2014094603A1 WO2014094603A1 PCT/CN2013/089716 CN2013089716W WO2014094603A1 WO 2014094603 A1 WO2014094603 A1 WO 2014094603A1 CN 2013089716 W CN2013089716 W CN 2013089716W WO 2014094603 A1 WO2014094603 A1 WO 2014094603A1
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- Prior art keywords
- trimming
- suction cup
- cut
- product
- mold
- Prior art date
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- 238000009966 trimming Methods 0.000 title claims abstract description 527
- 238000000465 moulding Methods 0.000 title claims abstract description 114
- 239000000835 fiber Substances 0.000 title claims abstract description 83
- 238000004519 manufacturing process Methods 0.000 title claims abstract description 38
- 238000012546 transfer Methods 0.000 claims abstract description 136
- 238000007731 hot pressing Methods 0.000 claims abstract description 132
- 230000007704 transition Effects 0.000 claims abstract description 24
- 238000001035 drying Methods 0.000 claims abstract description 8
- 238000012545 processing Methods 0.000 claims abstract description 6
- 230000032258 transport Effects 0.000 claims description 179
- 230000007246 mechanism Effects 0.000 claims description 144
- 239000002699 waste material Substances 0.000 claims description 118
- 238000003860 storage Methods 0.000 claims description 62
- 238000005520 cutting process Methods 0.000 claims description 50
- 238000000034 method Methods 0.000 claims description 45
- 238000007493 shaping process Methods 0.000 claims description 42
- 238000007664 blowing Methods 0.000 claims description 24
- 230000008569 process Effects 0.000 claims description 20
- 230000005540 biological transmission Effects 0.000 claims description 17
- 239000002002 slurry Substances 0.000 claims description 17
- 239000000463 material Substances 0.000 claims description 16
- 239000002184 metal Substances 0.000 claims description 10
- 229910052755 nonmetal Inorganic materials 0.000 claims description 7
- 239000000284 extract Substances 0.000 claims description 5
- 230000001360 synchronised effect Effects 0.000 claims description 3
- 241000196324 Embryophyta Species 0.000 claims 25
- 238000007599 discharging Methods 0.000 claims 2
- 238000001179 sorption measurement Methods 0.000 claims 2
- 241000252254 Catostomidae Species 0.000 claims 1
- 238000000967 suction filtration Methods 0.000 abstract description 21
- 239000007788 liquid Substances 0.000 description 34
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 description 14
- 230000009471 action Effects 0.000 description 12
- 238000004513 sizing Methods 0.000 description 8
- 229920001131 Pulp (paper) Polymers 0.000 description 5
- 238000001914 filtration Methods 0.000 description 4
- 230000018044 dehydration Effects 0.000 description 3
- 238000006297 dehydration reaction Methods 0.000 description 3
- 238000009938 salting Methods 0.000 description 3
- 238000010586 diagram Methods 0.000 description 2
- 238000000605 extraction Methods 0.000 description 2
- 238000010438 heat treatment Methods 0.000 description 2
- 206010036790 Productive cough Diseases 0.000 description 1
- 230000009286 beneficial effect Effects 0.000 description 1
- 230000008859 change Effects 0.000 description 1
- 238000007796 conventional method Methods 0.000 description 1
- 238000005034 decoration Methods 0.000 description 1
- 230000007812 deficiency Effects 0.000 description 1
- 238000013461 design Methods 0.000 description 1
- 238000009826 distribution Methods 0.000 description 1
- 230000008278 dynamic mechanism Effects 0.000 description 1
- 230000000694 effects Effects 0.000 description 1
- 239000004744 fabric Substances 0.000 description 1
- 238000000227 grinding Methods 0.000 description 1
- 238000007373 indentation Methods 0.000 description 1
- 238000002347 injection Methods 0.000 description 1
- 239000007924 injection Substances 0.000 description 1
- 239000000203 mixture Substances 0.000 description 1
- 238000004806 packaging method and process Methods 0.000 description 1
- 238000003825 pressing Methods 0.000 description 1
- 238000004080 punching Methods 0.000 description 1
- 230000002441 reversible effect Effects 0.000 description 1
- 238000003307 slaughter Methods 0.000 description 1
- 238000007613 slurry method Methods 0.000 description 1
- 239000007787 solid Substances 0.000 description 1
- 210000003802 sputum Anatomy 0.000 description 1
- 208000024794 sputum Diseases 0.000 description 1
- 235000013311 vegetables Nutrition 0.000 description 1
Classifications
-
- D—TEXTILES; PAPER
- D21—PAPER-MAKING; PRODUCTION OF CELLULOSE
- D21F—PAPER-MAKING MACHINES; METHODS OF PRODUCING PAPER THEREON
- D21F9/00—Complete machines for making continuous webs of paper
- D21F9/04—Complete machines for making continuous webs of paper of the cylinder type
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B26—HAND CUTTING TOOLS; CUTTING; SEVERING
- B26F—PERFORATING; PUNCHING; CUTTING-OUT; STAMPING-OUT; SEVERING BY MEANS OTHER THAN CUTTING
- B26F1/00—Perforating; Punching; Cutting-out; Stamping-out; Apparatus therefor
- B26F1/38—Cutting-out; Stamping-out
- B26F1/40—Cutting-out; Stamping-out using a press, e.g. of the ram type
-
- D—TEXTILES; PAPER
- D21—PAPER-MAKING; PRODUCTION OF CELLULOSE
- D21F—PAPER-MAKING MACHINES; METHODS OF PRODUCING PAPER THEREON
- D21F7/00—Other details of machines for making continuous webs of paper
- D21F7/006—Cutting the edges of the paper-web
-
- D—TEXTILES; PAPER
- D21—PAPER-MAKING; PRODUCTION OF CELLULOSE
- D21J—FIBREBOARD; MANUFACTURE OF ARTICLES FROM CELLULOSIC FIBROUS SUSPENSIONS OR FROM PAPIER-MACHE
- D21J5/00—Manufacture of hollow articles by transferring sheets, produced from fibres suspensions or papier-mâché by suction on wire-net moulds, to couch-moulds
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B26—HAND CUTTING TOOLS; CUTTING; SEVERING
- B26D—CUTTING; DETAILS COMMON TO MACHINES FOR PERFORATING, PUNCHING, CUTTING-OUT, STAMPING-OUT OR SEVERING
- B26D7/00—Details of apparatus for cutting, cutting-out, stamping-out, punching, perforating, or severing by means other than cutting
- B26D7/01—Means for holding or positioning work
- B26D7/02—Means for holding or positioning work with clamping means
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B26—HAND CUTTING TOOLS; CUTTING; SEVERING
- B26D—CUTTING; DETAILS COMMON TO MACHINES FOR PERFORATING, PUNCHING, CUTTING-OUT, STAMPING-OUT OR SEVERING
- B26D7/00—Details of apparatus for cutting, cutting-out, stamping-out, punching, perforating, or severing by means other than cutting
- B26D7/06—Arrangements for feeding or delivering work of other than sheet, web, or filamentary form
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B26—HAND CUTTING TOOLS; CUTTING; SEVERING
- B26F—PERFORATING; PUNCHING; CUTTING-OUT; STAMPING-OUT; SEVERING BY MEANS OTHER THAN CUTTING
- B26F2210/00—Perforating, punching, cutting-out, stamping-out, severing by means other than cutting of specific products
- B26F2210/06—Trimming plastic mouldings
Definitions
- the invention relates to a method and a device for preparing a plant fiber (referred to as plant fiber; the same below) by using a molding method; and is suitable for manufacturing a disposable plant fiber molded article, and is particularly suitable for manufacturing a disposable non-planar Paper products; such as plant fiber tableware, plant fiber trays, plant fiber industrial shockproof mats and packaging trays, disposable non-planar plant fiber decoration decorative solid wall panels (or plant fiber stereo wallpapers or paper 3 ⁇ 4 molded three-dimensional Wallpaper) and all disposable plant fiber molded products.
- plant fiber referred to as plant fiber; the same below
- a molding method is suitable for manufacturing a disposable plant fiber molded article, and is particularly suitable for manufacturing a disposable non-planar Paper products; such as plant fiber tableware, plant fiber trays, plant fiber industrial shockproof mats and packaging trays, disposable non-planar plant fiber decoration decorative solid wall panels (or plant fiber stereo wallpapers or paper 3 ⁇ 4 molded three-dimensional Wallpaper) and all disposable plant fiber molded products.
- the production process of the plant fiber molded product is: the plant fiber is firstly subjected to suction filtration in the suction filter forming device to form a wet blank of the product, and the wet blank is alternately fed to the heating on the left and right sides of the suction filter forming device.
- the hot pressing mold of the left hot pressing setting device and the right hot pressing setting device at a certain temperature, the hot pressing mold of the left hot pressing setting device or the right hot pressing setting device is closed and the hot blank is hot pressed and shaped, and is prepared.
- the double hot press setting device mode of the method for producing a plant fiber molded article will be described as an example.
- the existing commonly used three-station automatic plant fiber molding machine comprises a forming and shaping upper frame, a forming and shaping lower frame, a connecting rod forming a shaped upper frame and a shaped and shaped lower frame, and is arranged in the forming and setting machine.
- the suction filter forming device (forming station) in the middle position of the frame, the left hot pressing setting device (or the left fixing station) with the left hot pressing upper mold and the left hot pressing lower mold on the left and right sides of the suction filtering forming device and Right hot pressing setting device (or right-shaped setting station) with right hot pressing upper die and right hot pressing lower die, there is a wet blank transfer device above the suction filter forming device, and the wet blank transfer device is fixed and fixed on the molding and setting On the frame, the wet blank transfer mold on the wet blank transfer device can move up and down; and the left hot press lower mold and the right hot press lower mold are respectively driven by the power, and respectively enter the wet blank along the horizontal rail of the hot press lower mold.
- the lower portion of the transfer device receives the wet blank transferred from the wet billet transfer device.
- the mold is closed by pressing down and right, and the wet blank is hot pressed (formed) until the wet blank is dried and shaped and the mold is removed. So cycle back and forth, cycle back and forth.
- Chinese patent 03029714. X Chinese patent ZL201020283075. 2, Chinese patent ZL 201010246235. 0, Chinese patent ZL201020283085. 6 and other related patents disclosed plant fiber molding (including paper pulp molding) molding machine is such a typical production device .
- the left hot pressing die of the automatic paper pulp molding machine including the mold mounting plate for installing the left hot pressing die
- the right hot pressing die Upper (including the mold mounting plate for installing the right hot pressing die)
- the left conveyor belt and the right conveyor belt are connected respectively. After the wet heat is dried and shaped, the left hot press mold opens and the adsorbed product moves up. The left hot press mold moves to the bottom of the wet billet transfer mold, and the left conveyor belt moves to the right with the left hot press mold.
- the left hot press is directly below the upper mold, and the left hot pressed upper mold is dropped on the left conveyor belt; after that, with the left hot pressing lower mold reset, the left conveyor belt also returns to the original position, and the left conveyor belt rotates.
- the product is sent out of the machine.
- the right hot press upper mold opens and the adsorbed product moves up, and the right conveyor belt moves to the left below the position where the wet billet transfer mold is located with the right hot pressing mold.
- the IE is located below the IE of the right hot pressing upper mold.
- the product adsorbed by the right hot pressing die falls on the right conveyor belt, and then the right conveyor belt sends the product out of the machine with the right hot pressing of the lower mold.
- the left conveyor belt and the right conveyor belt alternately feed the products that have been subjected to wet forming and hot pressing. 2
- the left conveyor belt and the right conveyor belt are replaced by a left flat plate and a right flat plate, and the product adsorbed by the upper hot pressing upper die is blown on the left flat plate, and the product adsorbed by the right hot pressing upper die is blown. Fall on the right tablet.
- the products on the left and right plates are removed by manual collection; the left plate with the product can also be flipped to the left side by a certain book angle, the product slides out from the left plate, or the right plate with the product The right side is turned over a certain angle, and the product slides out from the right flat plate.
- the dried and shaped product is alternately dropped from the left hot press upper die and the right hot press upper die, and the product is fed out from the left conveyor belt (left panel) or the right conveyor belt (right panel).
- a production device for a one-side hot press setting device located on the left or right side of the suction filter forming device (with only one side thereof), which is produced in the same manner as the above process, except that a suction filter forming device is equipped with a heat.
- a press-type device which is a single hot press setting mode of the method for producing a plant fiber molded article.
- trimming helps remove the excess edge of the cut product, the cutting of the product, the slitting of the individual product in the continuous product, the punching of the product, the piercing of the product, and the leaving of the product. Processing such as cuts or indentations is classified as trimming).
- the object of the present invention is to overcome the deficiencies of the above background art, and provide a fully automatic manufacturing method of a plant fiber molded product and a fully automatic plant fiber molding and shaping and trimming integrated machine; the method and the molding machine include wet blank forming Three functions of hot pressing and automatic trimming, featuring high automation, good product quality and high production efficiency.
- the technical proposal provided by the invention is: a fully automatic manufacturing method of a plant fiber molded product, the process is: the suction filter forming device continuously forms the slurry into a wet blank of the product, and then alternately feeds the wet blank into the left hot pressing setting device and The hot pressing mold which is heated to a certain temperature in the right hot pressing setting device performs hot pressing drying and setting, and is characterized in that: the dried and shaped products which are alternately dropped from the left hot pressing upper mold and the right hot pressing upper mold respectively fall to the left positioning.
- the left positioning of the receiving device and the right positioning receiving device are said
- the product falling from the hot pressing upper mold is positioned in the positioning receiving tray to realize the purpose of fixing the product at a specific position for transfer, and ensuring the accuracy of the product to be cut;
- the left positioning and receiving device transports the products to be cut after drying and setting to the left transition station
- the right positioning and receiving device transports the products to be cut after drying and setting to the right transition station; the transfer device then positions the left transition respectively.
- the products to be cut on the bit and right transition stations are transferred to the position to be cut of the trimming device, and the trimming device extracts the product to be cut from the position to be cut, and then conveys it to the trimming position for trimming, and then trimming the edge
- the product is transported to the finished position and the cut waste edge is driven away from the trimming position; thus, the vegetable fiber molded product is fully manufactured from the wet blank of the suction molding to the product into the product, and the product is conveyed to the edge after trimming At the end of the completion position, production continues.
- the left-row suction cup group in the transfer device adopts a vacuum suction method to suck the products to be cut in the left positioning material tray on the left transition station, and then delivers the products to be cut to the left along the left row.
- the right-row suction cup group adopts a vacuum suction method to suck the products to be cut in the right positioning material tray on the right transition station, and then sends the horizontal track to the right receiving product station along the right row, and Transfer the product to a right storage flipper that can realize the turning of the product to be cut or directly transfer it to the to-be-cut positioning support on the right transport vehicle at the right receiving product station, and the product to be cut is repositioned in the to-be-cut positioning tray.
- the left transport vehicle in the transfer device receives the product to be cut at the left receiving product station and then conveys to the position to be cut;
- the right transport vehicle in the transfer device receives the product to be cut at the right receiving product station, and then Delivered to the position to be cut, the left and right carts alternately feed the articles to be cut from the received to the cut position.
- the trimming device extracts the product to be cut from the position to be cut, and then conveys it to the trimming position for trimming, and then conveys the trimmed product to the finished position.
- the trimming and clamping mechanism of the trimming device is provided with a trimming die, the trimming die comprises an upper trimming die and a lower trimming die, and a lower trimming die is provided on the lower trimming die to define a product in the lower trimming die The positioning block of the upper position.
- the trimming device sends the product from the position to be cut to the trimming position, and then sends it from the trimming position to the finished position, which is completed by using the trimming suction cup group to lift the product.
- the trimming suction cup components are divided into two groups, which are a front cutting edge suction cup group and a rear cutting edge suction cup group, and the two groups of suction cup groups are separated by a certain distance, and the front cutting edge suction cup group is placed on the front side of the trimming die.
- the product to be cut at the position to be cut is sucked up and transferred to the positioning block of the lower trimming die, and the rear trimming suction cup group sucks the trimmed product from the positioning block of the lower trimming die and sends out the cut.
- the side mold is placed at the finished position on the back side of the trimming die.
- the trimming process of the trimming device is carried out as follows:
- the front row trimming suction cup group and the rear row trimming suction cup group respectively move down the product to be trimmed and the trimmed product, and then rise and return to the position;
- One or a set of waste edge blowing rods are used for horizontal movement before and after the front side trimming suction cup group and the rear side trimming suction cup group, and the rear side trimming suction cup group sucks up the trimming product and carries the trimming edge.
- the waste blower is blown or blows while moving, and the waste edge is blown away from the lower trimming die to ensure that the next product to be cut is not affected. Positioning on the block.
- the waste edge is removed by sucking the cut waste edge from the trimming die and feeding it out of the trimming die to ensure that the positioning of the next article to be cut on the positioning block is not affected.
- ⁇ Automatic plant fiber molding and shaping and trimming machine comprising a molding and setting device A for preparing a product to be cut, transferring the product to be cut to a conveying device C at a position to be cut in the trimming device, and cutting the product to be cut Edge trimming device B;
- the molding and sizing device comprises a suction filter forming device A2, a wet blank transfer device A7 for extracting a wet blank from the suction filter forming device, and a left hot press setting for respectively receiving the wet blank and heating and drying the wet blank
- the device A3 and the right hot pressing setting device A4 receive the product to be cut in the left hot pressing setting device and then transport it to the left positioning receiving device A5 of the left transition station and receive the product to be cut in the right hot pressing setting device.
- the right positioning and receiving device A6 is delivered to the right transition station.
- the left hot press setting device and the right hot press setting device are symmetrically distributed on the left and right sides of the suction filter forming device;
- the left positioning and receiving device is located on the left side of the left hot press setting device and in the left hot press setting device
- the left hot pressing lower mold is fixed together on the left hot pressing lower mold mounting plate, and the left hot pressing lower mold mounting plate can be positioned horizontally and horizontally on the hot pressing lower mold horizontal track (A8) through the slider;
- the right positioning receiving material The device is located on the right side of the right hot pressing setting device and is fixed on the right hot pressing lower mold mounting plate together with the right hot pressing lower mold in the right hot pressing setting device, and the left hot pressing lower mold mounting plate can be horizontally moved through the slider Moved to the hot horizontal die horizontal track (A8).
- the positioning device (A5. 1, A6. 1) corresponding to the product on the hot-pressed mold is respectively mounted on the left positioning and the right positioning device.
- the transfer device includes a left discharge mechanism C1, a right discharge mechanism C2, a product that is transferred by the left discharge suction cup group of the left discharge mechanism, and the product is turned over 180 degrees and then transferred to the left transport vehicle.
- the left storage flipper C4 of the positioning tray is received, the product transferred by the right-row suction cup group of the right discharge mechanism is received, and the product is turned 180 degrees and transferred to the right storage of the to-be-cut positioning tray on the right transport vehicle.
- the transfer device includes a left discharge mechanism, a right discharge mechanism, and a left discharge mechanism for receiving The left row of the product to be transferred from the suction cup set and the to-be-cut positioning bracket mounted on the left transport vehicle, the product for receiving the product transferred from the right-row suction cup group of the right discharge mechanism, and installed on the right transport vehicle Cutting the positioning bracket and the alternate feeding mechanism of the product to be cut;
- the left row sending mechanism comprises a left row horizontal rail C1 disposed between the left transition station and the left receiving product station. 2.
- the horizontal rail is sent along the left row by the slider and the left positioning bracket is placed in the tray.
- the left-to-seat suction cup set C1. 1 and the left-side power transmission mechanism for driving the left-row suction cup group, and the right-distribution mechanism including the upper transfer station and the right receiving product The right row between the tops is sent to the horizontal track C2. 2.
- the horizontal row is moved along the right row by the slider and the product to be cut in the right positioning tray is sent to the right row of suction cups of the right receiving product station.
- the alternate feeding mechanism for the product to be cut comprises a transport vehicle track C3. 3 disposed between the left receiving product station, the position to be cut and the right receiving product station, and the product to be cut of the left receiving product station along the transport vehicle track.
- the left transport vehicle C3.1 which is transported to the position to be cut, conveys the product to be cut of the right receiving product station along the transport vehicle track to the right transport vehicle C3 of the position to be cut.
- the transport vehicle power transmission mechanism of the transport vehicle is such that the left transport vehicle and the right transport vehicle alternately send the products to be cut to the position to be cut.
- the left row suction cup group and the right row suction cup group are respectively installed with at least one suction cup that uses a vacuum suction product.
- the left transport vehicle and the right transport vehicle are loaded with a to-be-cut positioning support C3. 4; the to-be-cut positioning support, the left positioning receiving tray and the right positioning receiving tray are all in the shape of the product.
- the periphery of the product serves as a limiting device, a limiting rod, a limiting device, a combination of a limiting device and a metal plate or a non-metal plate, or other devices capable of guiding and positioning the product.
- the trimming device comprises a trimming clamping mechanism B1, a product transferring mechanism B2, and a waste edge removing mechanism positioned on the frame;
- the trimming clamping mechanism comprises an upper trimming die B1-2, and a trimming die Bl-1, upper trimming die mounting plate Bl-3 with upper trimming die, lower trimming die mounting plate Bl-4 with lower trimming die, driving upper trimming die mounting plate and lower trimming die mounting plate
- the positioning mechanism of the mold clamping movement; the lower cutting edge mold is also provided with a positioning block B1-1. 2 which is suitable for the shape of the product to facilitate the positioning of the product to be cut.
- the product transfer mechanism comprises a front-side trimming suction cup set (B2.6) for sucking up the product to be cut in the position to be cut and transferring it to the lower trimming die, for sucking the trimmed product and sending it out.
- the rear suction cup fixing plate B2. 7 for fixing the front side trimming suction cup group B2. 3.
- the rear suction cup fixing plate B2. 8 for fixing the rear cutting edge suction cup group.
- the horizontal driving device B2. 10 for driving the horizontal movement of the transport frame is driven by the front suction cup fixing plate and the rear suction plate fixing plate for moving forward and backward (B2.1).
- the transport rack is a frame structure, the front panel of the front side suction cup group is fixed downward on the front suction cup fixing plate, and the rear side of the rear side suction cup group is fixed downward on the rear suction cup fixing plate, and the front side trimming edge
- the suction cup group is installed on the front side and the rear side of the transport rack through the premise suction cylinder B2. 2 and the rear trimming suction cup group through the rear suction cylinder B2. 9 so that the premise suction cylinder can drive the front cut.
- the side suction cup group moves up and down, and the rear suction cylinder can drive the rear side trimming suction cup group to move up and down.
- the cutting device is further provided with two rows of transfer rails B2. 4 separated by a distance from the transport frame through the slider B2.5.
- the waste edge removal mechanism comprises a waste edge blowing rod B14 mounted on the transport frame capable of blowing the cut waste edge away from the lower trimming die and connected to the gas source through a gas path equipped with a control valve, the trimming device
- a control switch for opening and closing the control valve is also installed to open the control valve to turn on the air source when blowing the waste edge, to blow the waste edge, and to close the control valve to open the air source when the waste edge is blown.
- a set of pliers B13 or hooks or clips for gripping the waste edges are provided on each of the two sides, or a set of pliers or hooks or clips for gripping the waste edges are provided on the side before or after the lower trimming die.
- the horizontal driving device B2.0 is driven by a motor through a screw mechanism to drive the transport frame to move horizontally before or after the transfer rail or to stop at a specific position, or by a motor, through a timing belt or belt or The chain drive drives the transport frame to move horizontally before or after stopping or stopping at a specific position, or the cylinder or cylinder is driven to drive the transport frame to move horizontally before or after or to stop at a specific position.
- the product transfer mechanism for driving the carriage to move horizontally back and forth on the transfer rail is a rod type product transfer mechanism, which comprises a front cut for sucking up and moving the product to be cut in the position to be cut to the lower trimming die
- the side suction cup group B2. 6, the rear suction cup fixing plate B2. 7, which is used for fixing the trimmed product and feeding out the lower trimming die, is used to fix the front suction cup fixing plate of the front side trimming suction cup group B2.
- the rear suction cup fixing plate B2. 8 is arranged to fix the rear side trimming suction cup group, and the conveying rod B19 which is arranged on the side of the trimming die and can drive the front suction cup fixing plate and the rear suction cup fixing plate to move forward or backward or up and down.
- One end of the fixed plate is fixed on the side of the transport rod at a certain distance, and a space larger than the contour of the upper trimming mold is left between the front and rear suction cup groups, and the transport rod is slidably fixed on the two swinging devices.
- the rod product transfer mechanism is further provided with a sliding connection member B20 for sliding up and down horizontally on the carriage B18 for moving horizontally before and after the carriage; the carriage can be horizontally moved on two transfer rails arranged one above the other;
- the driving of the driving device is realized by the motor driving the lead screw, that is, driven by the motor and driven by the screw sub-mechanism, thereby driving the transport frame to move horizontally before or after stopping or stopping at a specific position, or by a motor.
- the conveyor belt is driven by the timing belt or the belt or the chain to move the carriage horizontally before or after stopping or stopping at a specific position; or the cylinder or the cylinder is driven to drive the carriage to move horizontally before or after or to stop at a specific position.
- the waste edge removing mechanism comprises a waste edge blowing rod B14 mounted on the conveying rod capable of blowing the cut waste edge away from the lower trimming die and connected to the gas source through a gas path equipped with a control valve, the trimming device
- a control switch for opening and closing the control valve is also installed to open the control wide door to open the air source when blowing the waste edge, to blow the waste edge, and to close the control valve to open the gas when the waste edge is blown.
- Source or a set of waste side suction cups for picking up waste edges in the vicinity of the rear trimming suction cup group B2.
- a set of pliers B13 or hooks or clips for gripping the waste edges are provided on each of the front and rear sides, or a set of pliers or hooks or clips for gripping the waste edges are provided on the front side or the rear side of the lower trimming die.
- the working principle of the invention is as follows: the suction filter forming device prepares the plant fiber into a wet blank of the product, and then alternately feeds the wet blank into the hot pressing mold heated to a certain temperature in the left hot pressing setting device and the right hot pressing setting device. Then, the hot pressing mold of the left hot pressing setting device or the right hot pressing setting device is closed and the wet blank is hot-pressed and dried, and then the dried and shaped products are alternately dropped from the left hot pressing upper mold and the right hot pressing upper mold. (The products to be cut) fall into the left positioning receiving tray and the right positioning receiving material of the left positioning and receiving device respectively. The right positioning on the device is in the tray.
- the products falling from the hot stamping die are positioned in the positioning receiving tray, and are regularly arranged in the positioning and receiving device (the positioning of the positioning receiving tray on the positioning and receiving device and the product cavity of the hot pressing die) One correspondence).
- the transfer device alternately sends the products arranged in the left positioning receiving device and the right positioning receiving device to the position to be cut of the trimming device; and then moves the product to be cut from the position to be cut to the automatic position.
- the trimming position is trimmed, and finally the trimmed product is sent to the finished position, and the cut waste edge is removed from the trimming die.
- the invention has the beneficial effects that: by adopting the positioning and receiving device and the transfer device, the suction filter forming device and the trimming device can be perfectly connected, thereby realizing the process from wet blank forming to hot press setting to waste edge cutting. Continuously integrated production; not only greatly improved production efficiency (at least 3 times higher production efficiency), but also reduced the labor intensity of employees,
- FIG. 1 is a front view showing the structure of a fully automatic plant fiber molding and forming type edge trimming machine (double hot press setting device mode).
- Fig. 2 is a top plan view showing the automatic plant fiber molding and shaping and trimming machine (double hot press setting device mode) according to the present invention.
- Fig. 3 is a left side structural view showing the fully automatic plant fiber molding and shaping and trimming machine (double hot press setting device mode) according to the present invention.
- Fig. 4 is a front view showing the structure of the molding and setting device.
- Figure 4. 1 is a schematic view of the main structure of the flip-type "fishing method” suction filter forming device.
- Fig. 5 is a front view showing the structure of a fully automatic plant fiber molding and shaping and trimming machine after the molding and setting device is removed.
- Figure 5. 1 is a schematic view of the left side structure of the fully automatic plant fiber molding and shaping edge trimming machine after the molding and setting device is removed.
- Figure 5. 2 is a schematic view of the B-B cross-sectional view in Figure 5 of the fully automatic plant fiber molding and shaping and trimming machine.
- Figure 6-1 is a schematic perspective view of the trimming device of the plant fiber molded product in the working state 1 (when the product is to be cut and the product is just aspirated after trimming).
- Fig. 6-2 is a schematic view showing the three-dimensional structure of the trimming device for the plant fiber molded product in the working state 2 (during the product to be cut and the product after being trimmed).
- Fig. 6-3 is a schematic perspective view showing the three-dimensional structure of the trimming device for the plant fiber molded product in the working state 3 (when the product to be cut is transferred to the upper die).
- Figure 7-1 is a schematic front view showing the structure of a plant fiber molding product trimming device.
- Figure 7-2 is a cross-sectional view of the structure taken along line AA of Figure 7-1 (without the waste edge removal device).
- Figure 7-3 Schematic diagram of the left side view of the waste edge removal device (after removing the product transfer mechanism) in the trimming device of the plant fiber molded product.
- Fig. 7-4 is a schematic plan view showing the waste side removing device in the trimming device of the plant fiber molded product.
- Figure 7-5. 1 is a schematic view of the front view of the two-plate trimming mechanism.
- Figure 7-5. 2 is a schematic front view of one of the embodiments of the three-plate trimming mechanism.
- Figure 7-5. 3 is a schematic front view of the second embodiment of the three-plate trimming mechanism.
- Figure 7-5. 4 is a schematic view of the main structure of the product transfer mechanism in the trimming device.
- Figure 7-5 is a schematic view of the front view of the front suction plate fixing plate and the rear suction plate fixing plate of the product transfer mechanism of Fig. 7-5.
- FIG. 7-5 is a schematic diagram of the structure of the book product transfer mechanism with the waste side suction cup group in the product transfer mechanism.
- Figure 7-6. 1 is a schematic front view of the trimming device using the rod type product transfer mechanism.
- Figure 7-6. 2 is a schematic left side view of the trimming device using the rod type product transfer mechanism.
- Figure 7-6. 3 is a partial top plan view of the rod type product transfer mechanism with a waste edge blowing rod.
- Figure 7-6. 4 is a partial top plan view of the waste edge removal mechanism and the rod product transfer mechanism using the waste side suction cup group.
- 7-7 is a schematic top plan view of the frame type product transfer mechanism in the trimming device.
- A-forming setting device B-cutting device; C-transporting device;
- B1-cutting clamping mechanism B1-1-lower trimming die; B1-1. 1-lower trimming die; B1-1. 2-positioning block; B1-2-upper trimming die; B1-3 - upper trimming die mounting plate; B1-4-lower trimming die mounting plate; B1-5-clamping lever; B1-6- frame; B1-7-fixing template; B2-product transfer mechanism; B2. 1- Shipping rack; B2. 2- Premise suction cylinder; B2. 3- Front suction plate B2. 4-transfer track; B2. 5 - slider; B2. 6-front trimming suction cup group; B2. 7-rear trimming suction cup group; B2. 7-1- waste side suction cup group; B2. 8- rear suction plate fixing plate; B2. 9- rear suction cylinder; B2.
- B10-cut product B11-cut product; B12-waste edge; B13-plier; B14- Blowing air blowing rod; B15-oil fe (or cylinder or gas-liquid boosting cylinder); B16-guide rod; B17-up and down swinging device; B17. 1-swinging sliding sleeve; B17. 2-swinging sliding sleeve rail; B17 3-oscillating cylinder;
- B17 4-swing link; B18-slide; B19-transport rod; B20-sliding joint.
- C1-left row feeding mechanism C1. 1-left row feeding suction cup group, C1. 2- left row feeding horizontal rail, C2-right row feeding mechanism, C2. 1-right row feeding sucker group, C2. 2-right row Send horizontal track C3-to-cut product alternate feeding mechanism, C3. 1-Left transport vehicle, C3. 2-right transport
- the fully automatic plant fiber molding and shaping and trimming machine includes a molding and setting device A, a transfer device C and a trimming device B.
- the molding and sizing device (shown in FIG. 4) comprises a frame A1 consisting of a tie rod Alc, a shaped lower frame Ala and a shaped upper frame ALB; and a suction filter forming device A2 disposed at an intermediate portion of the frame under the shaped and shaped frame
- the left hot pressing setting device A3 including the left hot pressing upper die A3a and the left hot pressing lower die A3c on the left side of the device, the right hot pressing upper die A4a and the right hot pressing lower die A4c located on the right side of the device Hot press setting device A4.
- the left hot pressing die mounting plate A3e and the right hot pressing die mounting plate A4e are also respectively connected with a left positioning receiving device A5 and a right positioning receiving device A6; the left positioning receiving device is fixed at the left hot pressing die
- the left side of the mounting plate can be moved horizontally left and right along with the left hot pressing die along the horizontal axis A8 of the hot pressing die with the left hot pressing die mounting plate;
- the right positioning receiving device A6 is fixed in the right hot pressing die mounting On the right side of the plate, the right hot pressing die mounting plate and the right hot pressing die can be horizontally moved along the horizontal axis A8 of the hot pressing die (the left hot pressing die mounting plate can be positioned to slide left and right in the hot pressing)
- the lower mold horizontal track A8; the right hot pressing lower mold mounting plate can be slidably positioned left and right on the hot pressing lower mold horizontal track A8).
- the positioning bracket of the left positioning and receiving device is a left positioning receiving tray A5. 1; the positioning material holding bracket mounted on the right
- the suction filter forming device A2 contains a suction filter molding die ⁇ and a suction filter molding 3 ⁇ 4 groove ⁇ &.
- a mixture of plant fibers and water (abbreviated as a paddle) that is evenly distributed or substantially uniform in water and at a suitable concentration is intermittently or continuously injected into a suction-molding groove; the suction-molding mold enters the paddle of the suction-filtering paddle
- the liquid is fixed in the bottom of the paddle, and the suction molding die in the slurry is suctioned.
- the suction molding die is exposed to the liquid surface to form a wet blank.
- the wet blanks thus produced are alternately fed to the left and right sides of the suction filter forming device to be heated to a certain temperature.
- the hot press mold of the left hot press setting device A3 and the right hot press setting device A4 the hot press mold is closed to hot press drying and setting the wet blank.
- the specific structure may be (as shown in Fig. 4): suction filtration molding die 42. Fixed at the bottom of the suction-filtering paddle; the mold has one or more suction-molding mold cavities for pre-forming the wet blank (the shape of the cavity is the same shape as the shape of the product, the suction-molding mold and the wet blank transfer)
- the mold 47 and the concave and convex molds which cooperate with each other, that is, the cavity of the suction filter forming mold is a concave mold, and the wet blank transfer mold cavity is a convex mold; vice versa, the suction filter molding mold is in the cavity range of the pre-formed wet blank
- a certain number of dewatering holes are arranged, and a surface of the cavity is attached with a wire mesh that conforms to the shape of the surface of the cavity, and the mold dewatering hole is connected to a negative pressure device (such as a vacuum pump) through a pipe equipped with a control valve, and the molding device is also
- the control switch for controlling the wide door is opened and closed separately to generate a negative pressure during suction molding, and the negative pressure is released at the end of suction molding.
- the slurry is quantitatively injected into the suction filter forming slot in the suction filter forming device; when the suction filter is formed, the dehydration hole in the cavity of the suction filter molding die is connected to the negative pressure, and the water in the slurry is under the action of the negative pressure
- the dewatering hole in the cavity of the suction filter molding die is discharged, and the fiber is adsorbed on the wire mesh in the cavity; as the mash liquid is continuously reduced, the liquid surface is continuously lowered, and the wet blank and the suction filter forming mold are exposed to the liquid surface.
- the fiber adsorbed on the wire mesh in the cavity forms the shape of the product, and is pre-formed into a wet blank after reaching the desired thickness; the water in the wet blank is further sucked away, and after a reasonable water content is reached, the suction filtration is finished, the wet blank Stay in the cavity.
- the suction filter forming mold and the suction molding forming groove are fixed, which is called “injection method” suction filtration molding (conventional method).
- the suction filtration molding can also be realized in another three ways: 1.
- the suction filtration molding groove forms a circulation with the outer paddle, and the slurry in the suction molding slurry tank is continuously input from the outside and continuously overflows and flows back to the outer paddle.
- the liquid level of the slurry in the suction-filtering paddle remains substantially unchanged, and the suction-molding mold can be moved up and down in the 3 ⁇ 4 groove of the suction filter.
- the suction filtration molding die is located under the liquid surface. Under the action of the negative pressure, the water in the slurry liquid is discharged from the dehydration hole in the cavity of the suction filtration molding die and is sucked away, and the fiber is adsorbed on the suction.
- the wet blank is formed on the wire mesh in the cavity of the filter molding die; when the suction filter molding is finished, the suction filter molding die is raised in the sputum, and is sucked up by the suction filter until the liquid surface is exposed; The suction filter forming mold leaves a wet blank in the cavity, and the water in the wet blank is further sucked away; after a reasonable water content is reached, the suction filtration is completed, and the wet blank forming is completed. In this way, the suction-molding forming groove is fixed, and the suction-molding mold is raised while the suction filter is raised until the liquid surface of the wet blank and the suction filter forming mold reaches a certain position.
- suction filtration molding mold This method is called suction filtration molding mold and can move up and down.
- the suction filter molding paddle does not move the "salary paddle method" suction filter molding.
- the suction filter forming groove forms a circulation with the outer paddle.
- the paddle liquid in the suction filter forming slot is continuously input from the outside and continuously overflows and flows back to the outer paddle.
- the slurry level in the suction molding cavity is basically kept. Change, the suction filter forming mold is fixed, and the suction filter forming 3 ⁇ 4 groove can move up and down relative to the suction filter forming mold.
- the suction filtration molding die When suction filtration is formed, the suction filtration molding die is located below the liquid level of the slurry liquid, and the water in the partial slurry liquid is discharged from the dehydration hole in the cavity of the suction filtration molding die under the action of the negative pressure, and the fiber is adsorbed.
- the wet blank is formed on the wire mesh in the cavity of the suction filter molding die; when the suction filter molding is finished, the suction filter forming 3 ⁇ 4 groove is lowered, and the liquid surface is also lowered relative to the suction filter molding die until suction filtration
- the molding die exposes the liquid surface; the suction filter forming mold which exposes the liquid surface leaves a wet blank in the cavity, and the water in the wet blank is further sucked away, and after obtaining a reasonable water content, the suction filter is formed. Finish, complete the wet blank molding.
- the suction filter forming mold is fixed, and the suction filter forming paddle moves up and down relative to the suction filter forming mold, which is called the suction filter forming paddle movement and the suction filter forming mold does not move the "fishing 3 ⁇ 4 method" suction filter molding.
- the suction filter forming slot and the outer paddle form a circulation.
- the 3 ⁇ 4 liquid in the suction filter forming slot is continuously input from the outside and continuously overflows and flows back to the outer paddle.
- the suction filter forming mold can be turned 180 degrees around the suction filter forming mold flip axis A9, and the suction filter forming mold can have two working faces with a difference of 180 degrees in the direction, when a working surface faces down into the slurry to perform the suction paddle At the same time, the other working face sends the wet blank formed by suction filtration to the liquid surface, and the two working faces alternately enter the paddle liquid to draw the wet blank, and alternately send the liquid surface until the working surface is vertically upward.
- the suction filter forming mold When suction filtration is formed, the suction filter forming mold is turned down into the liquid until the suction molding mold faces downward, and enters below the liquid level of the slurry liquid, and the water in the partial slurry liquid is sucked from the suction molding mold under the action of the negative pressure.
- the dewatering hole in the cavity is discharged and pumped away, and the fiber is adsorbed on the wire mesh in the cavity of the suction molding die to form the wet blank; when the suction filter is finished, the slurry is in the slurry
- the suction filter forming mold is turned upside down, and the suction filter forming mold begins to gradually expose the liquid surface until the suction filter forming mold faces upwards to completely expose the liquid discharge surface; the liquid suction suction molding mold leaves a wet blank in the cavity, The water in the wet billet is further sucked away, and after a reasonable water content is reached, the suction filtration is completed, and the wet billet is formed, and the wet billet on the suction molding mold A2c is exposed to the liquid surface until the working surface is vertically upward.
- the filter forming mold is turned upside down around the shaft, which is called the flip type "salting method".
- the suction type is formed by the suction type.
- the flip type "fishing method” can also be a suction
- the plant fiber or pulp is first formed into a wet blank by suction filtration, and then the wet blank is alternately fed into the hot pressing mold of the left hot pressing setting device A3 and the right hot pressing setting device A4, the left hot pressing setting device or the right hot pressing
- the hot pressing mold of the sizing device is closed and the wet blank is subjected to hot pressing drying and setting.
- the wet blank transfer mold A7a is vertically moved down to the suction filter forming mold A2c to suck up the wet blank, and the wet blank is lifted up in place following the wet blank transfer mold, and then left under hot pressing.
- the mold (or the right hot pressing die) is horizontally moved directly below the wet blank transfer mold; the wet blank transfer mold is moved down to transfer the wet blank to the left hot press mold A3c (or the right hot press mold A4c), the wet billet After the transfer is completed, the wet billet transfer mold rises; the left hot press mold (or the right hot press mold) returns to the original position with the wet blank level, and the left hot press mold A3a is down and the left hot mold is closed (or The right hot pressing upper mold and the right hot pressing lower mold clamping mold, the wet blank is hot pressed and dried to form a dry product, that is, the product to be trimmed.
- the left hot pressing upper mold A3a is opened and the adsorbed product is moved up to the position; then the left hot pressing lower mold is moved to the right, and the left positioning receiving tray A5. 1 also moves to the right with the left hot press.
- the left hot pressing die A3c moves directly under the wet blank transfer die, the movement stops, and the wet blank transferred from the wet blank transfer die is received, and the left positioning feedstock A5.1 goes just to the left hot press die A3a. Directly below, the products on the left hot press upper die are also placed in the left position one by one.
- the left positioning receiving bracket A5.1 is also moved left to the home position (left transition station).
- the right hot pressing upper mold A4a opens the mold and the adsorbed product moves up into position
- the right hot pressing lower mold A4c moves to the left
- the right positioning receiving tray A6. 1 also moves to the left with the right hot pressing mold;
- the movement stops the wet blank transferred from the wet transfer mold is received, and the right positioning feed tray just reaches the right hot pressing upper mold, and the right hot pressing mold is also applied.
- One-to-one correspondingly falls on the right positioning receiving tray; thereafter, as the right hot pressing lower mold is moved to the right, the right positioning receiving tray is also moved right back to the home position (right transition station).
- the locating tabs mounted on the left and right positioning splicing devices can be any structure that allows the falling articles to be positioned.
- it may be a non-metallic disc (such as a plastic disc) or a metal disc that is oriented to match the shape of the product, or may be a metal mold or a non-metal mold that conforms to the shape of the product, or may be A hole with a part that allows the product to enter, a flat plate with a guide piece, etc., can also define a function of the periphery of the product (or play a certain book)
- Limiting ⁇ , limit rod, limiter, limit device and metal plate or non-metal plate assembly, etc. can also be other devices that can guide and position the product.
- the number of positioning receiving trays on the positioning and receiving device is in one-to-one correspondence with the products on the hot-pressing upper mold to receive a corresponding number of products, and the positioning receiving tray can be a split structure (several positioning on the same positioning and receiving device)
- the receiving trays are independent of each other. They can also be a one-piece structure (several positioning materials on the same positioning and receiving device are connected together).
- each positioning tray should be The split structure allows the positioning picker to realign and reorient the position as required by moving, rotating, etc.
- the left positioning receiving tray A5.1 of the left positioning receiving device and the right positioning receiving tray A6. 1 of the right positioning receiving device are alternately received from the left hot pressing upper mold A3a and the right hot pressing upper mold A4a to the product. , and arrange, combine, and determine the new orientation according to the trimming requirements (if you do not need to re-arrange, combine, and determine the new orientation, keep it as it is).
- the forming and sizing device completes the wet blank molding, the hot press setting, and the alignment of the products.
- Articles that are positioned on the left or right positioning stock tray need to be transferred to the trimming device by the transfer device for trimming.
- the trimming device is located on the rear side of the suction filter forming device.
- the left positioning receiving device and the right positioning receiving device are symmetrically distributed on the left and right sides of the forming and setting device. It is necessary to send the products in the left-aligned picking device and the right positioning pick-up device which are regularly arranged to the position to be cut of the trimming device, and also to be performed by the symmetrically distributed transfer device C;
- the products in the left positioning feed tray and the right positioning feed tray of the left and right sides of the molding and setting device are sent to the cutting position of the trimming device located at the rear side of the suction filter forming device (ie: the product in the left positioning receiving tray) It must be moved to the left receiving product station and then moved to the right to be cut position of the trimming device; the products in the right positioning receiving tray must be moved to the right receiving product station and then moved to the left side.
- the transfer device C includes a left discharge mechanism C1, a right discharge mechanism C2, and an alternate feed mechanism C3 to be cut; if the product needs to be inverted, the transfer device C further includes: Left storage flipper C4, right storage flipper C5.
- the structure and working principle of the left delivery mechanism C1 and the right delivery mechanism C2 are the same.
- the left discharge mechanism C1 and the right discharge mechanism C2 are respectively distributed on the left and right sides of the fully automatic plant fiber molding and shaping and trimming machine.
- the left-row conveying mechanism C1 includes a left-row suction cup group C1. 1, a left-row horizontal rail C1. 2, a left power transmission mechanism, and a left-feed mechanism for picking up the products in the left positioning tray. Rear shifting; the right-feeding mechanism includes a right-row suction cup group C2. 1, a right-row horizontal rail C2. 2, a right power transmission mechanism; and a right-row feeding mechanism is responsible for sucking the product in the right-position receiving tray Move up and back.
- the left discharge mechanism and the right discharge mechanism realize the backward transfer of the product.
- the alternate feeding mechanism C3 to be cut includes a left transport vehicle C3. 1, a right transport vehicle C3. 2, a transport vehicle track C3. 3, a transport vehicle power transmission mechanism (cylinder or motor driven screw mechanism, etc.), left transport The vehicle and the right transport vehicle are equipped with a to-be-cut positioning bracket C3. 4.
- the left transport vehicle with the to-be-cut positioning bracket and the right transport vehicle with the to-be-cut positioning bracket are responsible for transferring the products directly from the left-row suction cup group CI. 1 and the right-row suction cup group C2.1.
- the product that the dumper and the right storage flipper transfer the product after being turned over is alternately sent to the position of the trimming device to be cut (the position to be cut is located in the middle of the left receiving product station and the right receiving product station) ; to achieve the left and right transfer of the product.
- the to-be-cut positioning bracket on the left transport vehicle C3. 1 receives the product transferred from the left-row suction cup group CI. 1 or the left storage flip-on C4, the to-be-cut positioning tray on the left and left transport vehicles is transported.
- the left end position of the rail 3 ⁇ 4 C3. 3, this position is called the left receiving product station;
- the waiting position on the right transport vehicle C3. 2 receives the suction cup set C2. 1 from the right row or the right storage flipper C5
- the to-be-cut positioning bracket on the right and right transport vehicles is at the right end of the transport vehicle track. This position is called the right receiving product station.
- the left transport vehicle carries the to-be-cut positioning bracket along the transport vehicle track to and from the left-receiving product station and the trimming position of the trimming device; the right transport vehicle carries the to-be-cut positioning bracket along the transport vehicle track to and from the trimming device. Between the position to be cut and the right receiving product station.
- the left row of suction cups C1. 1 (including any parts that can pick up the product) sucks up the product in the left positioning tray and transfers it backwards, transferring the product to the left end of the carrier rail (left receiving product station)
- the right-row suction cup group (including any component that can pick up the product) is right
- the product in the positioning tray is sucked up and transported backwards, and transferred to the right storage flipper with the flipper group at the right end of the carrier rail (right receiving product station) or directly transferred to the right receiving product station.
- the to-be-cut positioning bracket On the right transport car, the to-be-cut positioning bracket.
- the product enters the trimming die it needs to be turned 180 degrees, so that the product is convexly face down from the convex surface of the original product (or the concave surface of the original product is turned downwards to face the convex surface), thereby realizing the concave and convex surface of the product. Reversing. Then on the transport vehicle track C3. 3 The left end and the left row of the horizontal rail C1. 2 intersection (above the left receiving product station) is provided with a left storage flipper C4, and the left storage flipper C4 is located at the left end of the transport vehicle track C3. Above the position, above the transport vehicle track, under the left row to the horizontal track; at the intersection of the transport rail 3 ⁇ 4 and the right row horizontal rail 3 ⁇ 4 C2. 2 (above the right receiving product station) set a right storage flipper C5, the right storage flipper is located above the right end of the transport vehicle track, above the right receiving product station, above the transport vehicle track, and the right row is below the horizontal track.
- the left suction cup group moves down to pick up the product in the left positioning tray and move it up and down, and then move it back to the left end of the carrier rail.
- the left storage flipper with the flipper group the left row of suction cups or the disposable product is transferred to the flipper group on the left storage flip; the left storage flipper has the face up Flip the suction
- the disc set receives the product transferred from the left-row suction cup group, and the flip suction cup group sucks the product transferred from the left-row suction cup group to rotate around the axis, and directly or stepwisely rotates the axis by 180 degrees until the tray of the suction cup group is turned toward Next, the product is turned 180 degrees; the suction cup group is turned over and the product is transferred to the to-be-cut positioning tray on the left transport vehicle that is located at the left-hand receiving product station below the left storage flip.
- the right row of suction cups is moved down to lift the product in the right positioning tray and move up and down, and then moved back to the right of the right storage flipper with the flipper group at the right end of the carrier track (right row) Feeding the sucker component batch or transferring the product to the flipper group on the right storage flipper); the flipper group on the right storage flipper facing upwards accepts the product transferred from the right row suction cup set
- the flipping suction cup group sucks the product transferred from the right suction cup group to rotate around the axis, and rotates 180 degrees directly or stepwise, until the flipping cup group face is facing downward, turning the product 180 degrees, turning the suction cup group and then turning the product Transfer to the to-be-cut positioning tray on the right cart that is located at the right receiving product station below the right storage flip.
- the left storage flipper C4 is usually equipped with one or two sets of flipper cups C4.1.
- the flipper group can be wound around the left storage flipper C4. Rotating, the two sets of flip cup sets C4.1 are arranged in an axisymmetric manner.
- the upper group can be rotated around the axis, and the two sets of flip cup groups are arranged in an axisymmetric manner.
- the left suction cup group C1. 1 can be moved up and down (usually driven by the cylinder), and can also be moved back and forth along the left row by the power transmission mechanism.
- the power transmission mechanism that drives the left-row suction cup group CI. 1 to move horizontally before and after can be driven by a motor driven screw, or can be driven by a motor-driven timing belt (or a chain), or can be driven by a cylinder or other. Power transmission.
- the right-side suction cup group C2.1 can also be moved up and down (usually driven by a cylinder), or can be moved back and forth along the right-row horizontal rail C2. 2 by the power transmission mechanism.
- the power transmission mechanism that drives the right-hand suction cup group C2. 1 horizontally and horizontally can be driven by a motor driven screw, or can be driven by a motor-driven timing belt (or a chain), or can be driven by a cylinder or other. Power transmission.
- the right-row suction cup group C2.1, and the suction cup on the flipper cup group are respectively connected to a negative pressure device through a conduit equipped with a control valve (which may be a conventional air pump or a vacuum generator) Or a vacuum pump or any device capable of generating a negative pressure), the automatic plant fiber molding and shaping and trimming machine is also respectively equipped with a control switch for opening and closing the control valve, so as to open the negative pressure device when the suction cup lifts the product.
- a control valve which may be a conventional air pump or a vacuum generator
- the suction cup generates a negative pressure to generate a suction force on the product, and when the product needs to be lowered, the front side trimming suction cup group or the rear cutting edge suction cup group or the reverse suction cup group is disconnected from the negative pressure device to release the negative pressure of the corresponding suction cup group. Let the corresponding suction cup set drop the product.
- the left row of the suction cup group CI. 1 can be sent along the left row of the horizontal track C1. 2 to move back and forth, to the left of the left positioning of the receiving tray and the top of the left storage flipper C4, the left positioning of the feeding tray A5. The article is sucked up to the top of the left storage flipper C4.
- Discharge suction cup set CI. 1 Transfer the product in batches to the flipper group on the left storage flipper C4 with the face up.
- the flipper suction cup sucks the product transferred from the left suction cup group CI. 1 and rotates under the action of a rotating cylinder or other mechanism, and rotates 180 degrees directly or stepwise around the axis, the book until Turn the suction cup set face down, after turning the product 180 degrees, transfer the product to the waiting position to be cut on the left transport vehicle C3.1 below the left storage flipper C4.
- the suction cup group is turned over to release the negative pressure, and the product falls into the to-be-cut positioning bracket fixed on the left transport vehicle C3.1, and the product is corrected and positioned in the to-be-cut positioning bracket.
- the position to be cut with the product is carried with the left transport vehicle C3. 1 to the right to reach the position to be cut of the trimming device, so that the product is accurately sent to the position to be cut of the trimming device. Subsequently, the article is fed into a trimming device for trimming.
- the right-row suction cup group C 2 . 1 can be moved back and forth along the right-row horizontal rail C 2 . 2 to the top of the right-position pick-up tray and above the right storage flipper C 5 , and the right-hand positioning material is fed.
- the article on tray A 6.1 is sucked up to the top of the right storage flipper.
- the right-row suction cup group transfers the product in batches to the flip cup group with the upper opening of the right storage flipper upward, as shown in Figure 5.2, the flip suction cup group is sucked from the right-row suction cup group.
- the product rotates around the axis under the action of a rotating cylinder or other mechanism, and rotates 180 degrees directly or stepwise around the shaft until the flipper group head is turned down 180 degrees, and then transferred to the bottom of the right storage flipper.
- the suction cup group is turned over, the negative pressure is released, and the product falls from the cup-down flip cup group to the to-be-cut positioning holder fixed on the right transport vehicle, and the product is corrected and positioned in the to-be-cut positioning tray.
- the position to be cut with the product is moved to the left with the right transport vehicle, and reaches the position to be cut of the trimming device, so that the product is accurately sent to the position to be cut of the trimming device.
- the article is then fed into a trimming device for cutting.
- the articles are alternately sent to the position of the trimming device to be cut.
- left transport vehicle C3.1 and the right transport vehicle C3. 2 separated by a certain distance, and drive along the transport vehicle track to move left and right synchronously or stop at a specific position under the driving of the same power mechanism.
- the left transport vehicle is between the left receiving product station and the trimming device to be cut
- the right transport vehicle is between the right receiving product station and the trimming device to be cut.
- the left and right carts alternately reach the position to be cut of the trimming device.
- the to-be-cut position holder receives the article transferred from the left storage flipper C4, at which point the right-hand truck is in the position to be cut.
- the to-be-cut positioning bracket on the left transport vehicle moves to the position to be cut of the trimming device with the product transferred from the left storage flipper
- the to-be-cut positioning bracket on the right transport vehicle moves right to the right storage flipper.
- the trimming device sucks the product from the left transport vehicle into the trimming position
- the right transport truck receives the product transferred from the right storage flip.
- the left transport vehicle moves left again to the left receiving product station, under the left storage flipper, the right transport vehicle with the product transferred from the right storage flipper is also moved left again to reach the cutting position of the trimming device.
- the trimming device sucks the product on the right transport vehicle into the trimming position, and the left transport vehicle again receives the product transferred from the left storage flipper C4.
- the to-be-cut positioning bracket on the left transport vehicle and the to-be-cut positioning bracket on the right transport vehicle alternately feed the products on the left storage inverting device and the right storage inverting device to the to-cut position of the trimming device; That is, the product on the left positioning tray and the product on the right positioning tray are finally alternately sent to the position of the trimming device to be cut.
- the to-be-cut positioning tray on the left transport vehicle and the to-be-cut positioning bracket on the right transport vehicle that alternately arrive at the position to be cut are the to-be-cut product positioners on the to-cut position of the trimming device.
- the to-be-cut positioning bracket is fixedly mounted on the transport vehicle.
- the to-be-cut positioning bracket may be a non-metallic disc (such as a plastic disc) or a metal disc that is oriented and matched with the shape of the product, or may be a metal mold or a non-metal mold that conforms to the shape of the product. It may be a plate with holes for allowing the product to enter partially, or a limit ring, a limit rod, a limit device, a limit device and a metal which can define a function (or a certain limitation) on the periphery of the product.
- the assembly of the plate or the non-metal plate, etc. may also be other devices capable of guiding and positioning the product.
- the left storage flipper and the right storage flipper are not required; the left suction suction cup group directly sucks and lifts the product on the left positioning feed tray to the left receiving product station.
- the left-row suction cup group directly sucks and lifts the product on the right-position feeding tray to the to-be-cut positioning tray on the right transport vehicle at the right receiving product station.
- the to-be-cut positioning bracket on the left transport vehicle and the to-be-cut positioning bracket on the right transport vehicle alternately feed the products transferred from the left-row suction cup group and the right-row suction cup group to the trimming device to be cut. position.
- the purpose of the storage flipper is to: flip the article before it enters the trimming device. Because the forming process and the trimming process have different orientation requirements for the uneven surface of the product. For example, the concave side of the product mold in the forming and setting device faces upward, and the concave surfaces of the products in the left and right positioning receiving trays which are positioned and regularly arranged are also upward. However, in some cases, in order to facilitate trimming, the edge of the product is required to face upward in the trimming device. At this time, it is required that the orientation of the uneven surface of the product is changed before entering the position to be cut of the trimming device.
- the left row feeding cup group or the right row feeding cup group is transferred from the positioning receiving tray once.
- the left or right cart needs to be transferred in batches.
- the left-row suction cup group or the right-row suction cup group needs to wait for batch transfer.
- a storage flipper is also required; in the circumferential direction of the left storage flipper or the right storage flipper, the flip suction cup group can be set as a group Or two or more groups.
- Each group of flip cups receives a group of corresponding products from the left row suction cup group or the right row suction cup group, and transfers them in an orderly manner to the to-be-cut positioning tray of the left transport vehicle or the right transport vehicle.
- the left-row suction cup group or the right-row suction cup group can all be returned to the left storage flipper or the right storage flipper, and can be returned to the left positioning feed tray or the right positioning feed tray in advance. The next transfer of the product.
- the trimming device B is disposed on the rear side of the molding sizing device (as shown in Fig. 2). After the product is sent to the position to be cut of the trimming device, the trimming device B moves the product to be cut from the position to be cut to the trimming position for trimming, and then the trimmed product is sent out to the trimming position to reach the finished position. The trimming device B transfers the products one by one from the position to be cut, the trimming position and the finished position, and completes the trimming process. Thereby, the fully automatic production of the product from wet blank forming, hot pressing and automatic trimming is realized. As shown in FIGS. 6-1, 6-2, 6-3 and FIGS.
- the trimming device B includes: a trimming clamping mechanism, a product transfer mechanism, and the like.
- the trimming clamping mechanism mainly comprises an upper trimming die mounting bookboard B1-3, a lower trimming die mounting plate Bl-4, a trimming die, and a clamping die mechanism (the trimming clamping mechanism can be a clamping force capable of generating a clamping force)
- the mold clamping power mechanism directly or indirectly drives the upper trimming die mounting plate to move relative to the lower trimming die mounting plate.
- the trimming clamping mechanism can be in various forms, such as: a three-template trimming clamping mechanism (as shown in Figure 7-5. 2, Figure 7-5.
- the two-template trimming clamping mechanism comprises: an upper trimming die mounting plate, a lower trimming die mounting plate, a clamping bar, a trimming die, a drive (including direct drive or indirect drive), an upper trimming die mounting plate and a lower trimming die
- the clamping plate is used as a clamping mechanism for the relative movement and the frame.
- the lower trimming die mounting plate is fixed on the frame or integrated with the frame, and the upper trimming die mounting plate is fixedly connected with the clamping rod, and the clamping dynamic mechanism directly or indirectly drives the clamping lever, thereby driving the upper trimming die mounting.
- the plate is moved up and down relative to the lower trimming die mounting plate.
- the clamping lever can be two or four.
- the mold clamping mechanism can be driven in a variety of ways, such as: cylinder drive, motor drive, cylinder drive or gas-liquid booster cylinder drive. Regardless of the form, the mold clamping mechanism drives the upper trimming die mounting plate to move up and down relative to the lower trimming die mounting plate by the mold clamping lever, and generates a clamping force when trimming.
- the three-template trimming clamping mechanism includes a fixed template Bl-7, an upper trimming die mounting plate, a lower trimming die mounting plate, a clamping bar, a trimming die, a drive (including direct drive or indirect drive).
- the mold clamping mechanism and the frame for the relative movement of the plate and the lower trimming die mounting plate. It also has a "fixed template” compared to the two-template trimming mechanism.
- the fixed template is fixed by the mold clamping rod and the lower cutting edge mold mounting plate, and the lower cutting edge mold mounting plate is fixed on the frame or integrated with the frame; the upper cutting edge mold mounting plate is in the cylinder B15 or the cylinder or the gas liquid increase
- the cylinder is directly or indirectly driven to move relative to the lower trimming die mounting plate; generally, the cylinder or cylinder or the gas-liquid boosting cylinder is mounted and fixed on the fixed plate.
- the upper trimming die mounting plate can also be driven by a motor, Figure 7-5. 2, Figure 7-5. 3 are two examples of typical three-template trimming clamping mechanisms. Whether it is a two-template trimming clamping mechanism or a three-template trimming clamping mechanism, or other forms
- the trimming and clamping mechanism is a relative movement of the upper trimming die mounting plate and the lower trimming die mounting plate.
- the trimming die includes an upper trimming die and a lower trimming die, and the upper trimming die is mounted on the upper trimming die mounting plate.
- the lower surface, lower trimming die is mounted on the upper surface of the lower trimming die mounting plate, and the article can be cut into the desired edge shape or contour when trimming.
- a positioning block is arranged on the lower trimming die for determining the position of the product on the lower trimming die.
- the partial shape or the overall shape of the positioning block is matched with the partial shape or the overall shape of the product, and the product is positioned to accurately Cut the product into the desired edge shape or contour.
- a mold clamping power mechanism such as a cylinder, a cylinder, a gas-liquid booster cylinder, a motor, etc.
- the upper trimming die and the lower trimming die are combined to trim or cut the molded fabric or other article of the plant fiber (with paper pulp) placed between them. After trimming, the trimming die is opened, and the trimmed product is left in the lower trimming die.
- the product to be cut which has reached the position to be cut in advance is transferred to the lower trimming mold in the mold opening state, and is positioned on the positioning block of the lower mold.
- the trimming die is opened, and the trimmed product is sent out from the lower trimming die to a position placed on the rear side of the trimming die. This position is called the finishing position, and in the finished position, the product is carried out.
- the products are transferred one by one from the position to be cut, the position of the trimming, and the position of completion.
- the trimming die of the trimming clamping mechanism is located at the trimming position of the trimming device B.
- the two-template trimming and clamping mechanism is now taken as an example for explanation.
- the trimming mechanism of the trimming device B is equipped with a product transfer mechanism to cut the product from Position, trimming position to completion position for one-to-one transfer.
- the transfer of the articles is accomplished using a trimming suction cup set.
- the trimming suction cup group is composed of one or more separate suction cups, and the suction cup group can lift one or more products (the embodiment in the figure shows that each suction cup group can suck 3 articles at a time), and the same product can be one. Suction cup or multiple suction cups.
- the components of the trimming suction cup are the front cutting edge suction cup group B2. 6 and the rear cutting edge suction cup group B2. 7.
- the front cutting edge suction cup group sucks the product to be cut from the position to be cut to the lower cutting edge of the trimming position.
- the mold, the rear-side trimming suction cup group sucks the trimmed product from the positioning block of the lower trimming die and sends the lower trimming die to the finished position.
- the product transfer mechanism mainly realizes the transfer of products.
- Figure 6-1, Figure 7-1, Figure 7-5. 4 and Figure 7-7 show that the product transfer mechanism includes a front side trimming suction cup group B2. 6 and a rear cutting edge suction cup group B2. 7.
- the transfer rail B2. 4 the transport rack B2. 1, the slider B2. 5, the premise suction cylinder B2. 2, the rear suction cylinder B2. 9, the front suction plate fixing plate B2. 3, the rear suction plate fixing plate B2. 8 , and horizontal drive device B2. 10.
- the front side trimming suction cup group is fixed downward on the front suction cup fixing plate, and the rear side trimming suction cup group is fixed downward in the rear.
- the suction cup is fixed on the plate.
- the front suction cup fixing plate is mounted on the front end of the transport rack through the premise suction cylinder.
- the cylinders (or piston rods) of the two premise suction cylinders are respectively fixed on the left and right sides of the front end of the transport rack, and the piston rods (or cylinders) of the two premise suction cylinders are respectively connected to the two ends of the front suction cup fixing plate.
- the front suction cup fixing plate can move up and down relative to the transport frame by the suction cylinder; likewise, the rear suction plate fixing plate is mounted on the rear end of the transport frame through the rear suction cylinder.
- the cylinders (or piston rods) of the two rear suction cylinders are respectively fixed on the left and right sides of the rear end of the transport rack, and the piston rods (or cylinders) of the two rear suction cylinders and the rear suction cup fixing plates respectively Connected to the end.
- Two transfer rails are arranged on the left and right sides of the lower trimming die B1-1, and the two transfer rails can be directly mounted on the lower trimming edge.
- Transport rack B2. 1 Move back and forth (slide or roll) on the two transfer rails via the slider B2. Therefore, the front side trimming suction cup group B2. 6 and the rear side trimming suction cup group B2. 7 separated by a certain distance are horizontally moved forward and backward with the transport frame B2.
- the front and rear horizontal movement of the transport carriage is driven by the horizontal drive B2. 10.
- the driving action of the horizontal drive is realized by means of the motor driving the lead screw. That is, it is driven by the motor and driven by the screw mechanism to drive the carriage horizontally before or after stopping or stopping at a specific position.
- the horizontal driving device can also be driven by a motor, driven by a timing belt or belt or chain to drive the carriage to move horizontally before or after stopping or to stop at a specific position; or it can be driven by a cylinder or a cylinder to drive the carriage for horizontal movement before or after or Stop at a specific location.
- the front row trimming suction cup group and the rear row trimming suction cup group respectively pass through (also can pass together) a pipeline connecting negative pressure device (including a conventional air pump, a vacuum generator, a vacuum pump, etc.) equipped with a control wide door, and cut
- a pipeline connecting negative pressure device including a conventional air pump, a vacuum generator, a vacuum pump, etc.
- the side device is further provided with a control switch for respectively opening and closing the control valve, so as to open the negative pressure device when the suction cup lifts the product, so that the suction cup generates a negative pressure to suck up the product, and when the product is released, the negative pressure device is closed to release the suction cup. Lower the product with negative pressure.
- the front row of the trimming suction cup group and the rear row of the trimming suction cup group are respectively located above the positioning block B1-1. 2 above the to-be-cut product B10 to be cut and the trimming position.
- the front side trimming suction cup group and the rear side trimming suction cup group are respectively moved downwards under the action of the premise suction cylinder B2. 2 and the rear suction cylinder B2. 9, the front row trimming suction cup group B2.6 and the rear row.
- the trimming suction cup group is moved down separately and sucks the product to be cut and the trimmed product separately, and then moves back to the original position.
- the specific process is as follows: When the current cutting edge suction cup group moves down and contacts the product to be cut, the control valve on the suction pipe leading to the negative pressure device is opened, and the suction cup is connected to the negative pressure (the front suction side suction cup group B2 can also be used. 6 Before the contact with the product to be cut B10, the negative pressure is turned on. After the front side trimming suction cup group sucks the product to be cut, it moves up under the driving of the premise suction cylinder B2. 2, and returns to the original position.
- the side suction cup group moves down and touches the cut
- the control door on the suction pipe leading to the negative pressure device including the conventional air pump, vacuum generator, vacuum pump, etc.
- the suction cup is connected to the negative pressure (the suction cup group can also be contacted in the rear cutting edge).
- the negative pressure is applied before the product is cut, and the rear suction cup group sucks the trimmed product, and then moves upwards under the driving of the suction cylinder to return to the original position.
- the front side trimming suction cup group and the rear side trimming suction cup group separated by a certain distance are respectively sucked up to the product to be cut and the trimmed product and moved back to the original position.
- the transport carriage moves backward along the transfer rail (W direction in Figure 6-1), driving the product to be cut from the position to be cut to the trimming position, and trimming the product to the finished position.
- the waste edge removing mechanism drives the waste edge left after the trimming away from the trimming position.
- the front side trimming suction cup group moves the product to be cut to the positioning block of the lower trimming die, and the rear cutting edge suction cup group carries the cut edge and the product just moves to the finished position, and the transport frame stops moving.
- the control switch mounted on the trimming machine sends a signal, the front row
- the control valve on the conduit of the trimming suction cup group to the negative pressure device (including the conventional air pump, vacuum generator, vacuum pump, etc.) is closed, the negative pressure of the suction cup is released, and the product to be cut falls on the positioning block of the lower trimming die, and
- the control panel on the conduit of the rear trimming suction cup group to the negative pressure device (including the conventional air pump, vacuum generator, vacuum pump, etc.) is closed, the negative pressure of the suction cup is released, and the product falls to the finished position after trimming.
- the utility model can also be: when the front cutting edge suction cup group is located above the lower cutting edge mold, the front cutting edge suction cup group moves downward with the product to be cut, and then the negative pressure of the suction cup is released, and the positioning of the product to be cut is placed on the lower cutting edge mold.
- the front side trimming suction cup group is moved down and the product to be cut is placed, and then moved back to the homing position, so that the product to be trimmed is sent from the position to be cut to the trimming position; and the rear side trimming cup group can also be carried
- the product moves downwards, and then the negative pressure of the suction cup is released, and the trimmed product is placed in the finished position, and the rear trimming suction cup group is moved down and the trimmed edge is moved down, and then the product is moved up again, so that The trimmed product is sent from the trimming position to the finished position.
- the transport rack drives the front row of trimming suction cup group and the rear row of trimming suction cup group to forward a certain distance forward, when the front row of trimming suction cup group and the rear row of trimming suction cup group are separated by a certain distance before and after the trimming die
- the transport frame drives the front trimming suction cup group and the rear trimming suction cup group to stop moving to avoid the mold clamping movement of the trimming die.
- the upper trimming die is clamped downward, and is passed between the front trimming suction cup group and the rear trimming suction cup group at a certain distance to perform mold clamping and trimming. After the trimming is completed, the upper trimming die moves upward, the mold is opened, and the trimmed product remains on the lower trimming die.
- the transport rack drives the front trimming suction cup group and the rear trimming suction cup group to continue to return forward, returning to the original position, so that the front trimming suction cup group returns to the top of the product to be cut to be cut and the rear trimming suction cup group is returned.
- the front row trimming suction cup group B2. 6 and the rear row trimming suction cup group are respectively moved downwards under the action of the premise suction cylinder and the rear suction suction cylinder, respectively, the front cutting edge suction cup group and the rear cutting edge suction cup group respectively After moving and respectively sucking the product to be cut and the product after trimming, it is moved up to the original position.
- Horizontal drive Driven by the transport carriage and then moved backwards along the transfer track, repeat the above process and proceed to the next cycle.
- the product is transferred one by one between the position to be cut, the position of the trimming edge, and the finished position, and the processing of the product from the product to be cut to the trimming is completed.
- the transport rack is a frame structure, and the product transfer mechanism may be referred to as a "frame product transfer mechanism"
- the product transfer mechanism of the trimming device B may be a rod type product transfer mechanism. As shown in Figure 7-6. 1, Figure 7-6. 2, the trimming device B of this embodiment, the specific structure of its product transfer mechanism is:
- the transport rack is not a frame structure but a transport rod (also called a rod transport rack).
- a transport rod B19 On the left or right side of the lower trimming mold, a rod is called a transport rod B19, and the front side trimming disc group is a disc.
- the mouth is fixed down on the front suction cup fixing plate, and the rear row is cut.
- the side of the side suction cup group is fixed downward on the rear suction cup fixing plate, and one end of the front suction cup fixing plate and one end of the rear suction cup fixing plate are respectively mounted on the transport rod at a certain interval, and the front and rear two rows of suction cup groups are larger than The space on the upper trimming die contour.
- the transporting rod is slidably fixed in the two upper and lower swinging devices B17, and the upper and lower swinging device B17 includes a swinging cylinder B17. 3, a swinging sliding sleeve rail B17. 2. a swinging connecting rod B17. 4, a swinging sliding sleeve B17. 1 , a transporting rod
- the slidable sliding sleeve is slidably fixed on the oscillating sliding sleeve B17. 1
- the oscillating sliding sleeve is slidably driven by the oscillating cylinder B17.
- the swaying cylinder B17. 3 is driven by the oscillating connecting rod B17. 4; or the oscillating cylinder B17.
- the transport rod can be horizontally moved back and forth in the two up-and-down swinging devices (shown by an arrow V in FIG. 7-6. 1), and the up-and-down swinging device can further drive the transport rod to move up and down, and the transport rod can be slidable through the sliding connecting member B20.
- the ground rod is fixed on the carriage B18 of the transfer rail B2.4.
- the transport rod can move up and down with respect to the slide seat, and the slide seat can be horizontally moved or stopped along the two transfer rails under the driving of the horizontal drive device B2. 10.
- the specific position, and the slide can drive the transport rod to move horizontally or stop at a specific position by sliding the connecting member.
- the transport bar can be moved horizontally or stopped at a specific position with the front trimming suction cup set and the rear trimming suction cup set.
- the two transfer tracks can be arranged up and down or horizontally.
- the front and rear horizontal movement of the transport rod is driven by a horizontal drive B2. 10.
- the driving action of the horizontal drive is realized by means of the motor driving the lead screw. That is, it is driven by a motor and driven by the screw mechanism to drive the transport rod to move horizontally back and forth or to stop at a specific position.
- the horizontal driving device can also be driven by a motor, driven by a timing belt or a belt or a chain to drive the transport rod to move horizontally before or after stopping or stopping at a specific position; or the cylinder or the cylinder can be directly driven to drive the transport frame for horizontal movement before and after. Or stop at a specific location.
- This product transfer mechanism is referred to as a "rod product transfer mechanism.”
- the articles are transferred one by one from the position to be cut, the trimming position to the finished position (indicated by the arrow Y in Fig. 7-6. 1), and the method and principle of transferring the product are the same as those of the above-mentioned framed product transfer mechanism.
- the waste edge B12 and the trimmed product are left on the lower trimming die, so as not to affect the next cut.
- the waste edge left on the lower trimming die needs to be removed from the lower trimming die.
- the removal of the waste edge is accomplished by removing the waste edge from the device. As shown in Figure 7-6. 3, Figure 7-7, on the transport frame B2. 1 or the transport bar (B19) between the front trimming suction cup group and the rear trimming suction cup group, install one.
- the waste side blowing rod B14, the waste side blowing rod is horizontally moved together with the front cutting edge suction cup group and the rear cutting edge suction cup group.
- the waste edge blowing rod communicates compressed air (including compressed air and air flow generated by air compressor or conventional fan or air pump) through a conduit equipped with a control valve, and the trimming device is also provided with control for opening and closing the control wide door respectively.
- the switch is used to open the control wide door to open the compressed air when blowing the waste edge, to blow the waste edge, and to stop the control of the wide door to open the compressed air when the waste is blown.
- the waste edge removal device can also adopt the following structures:
- the control switch for controlling the wide door is closed, so that the suction cup generates a negative pressure when the waste side suction cup group picks up the waste side, and the suction cup releases the negative pressure when the waste side is released.
- the action of sucking and transferring the waste edge of the waste side suction cup group is similar to that of the rear side trimming suction cup group for picking up and transferring the trimmed product left on the lower trimming die. After the die-cutting edge is completed, the waste edge and the trimmed product are left on the lower trimming die. When the rear-side trimming suction cup group picks up the trimmed product left on the lower trimming die, the waste-side suction cup group is also synchronized. Lift the waste edge left on the lower trimming die.
- the control valves on the conduits of the waste suction cups each leading to the vacuum device are closed to allow the waste edge to fall, and then close to the finished position.
- the rear trimming suction cup group controls the wide door on the conduit of the vacuum device (including the conventional air pump, vacuum generator, vacuum pump, etc.) to allow the product to fall to the finished position.
- the waste side suction cup group first eliminates the negative pressure, and the waste edge falls before the product reaches the finished position, and the rear cut edge suction cup group Carry the product and continue to move back to the finished position.
- the waste edge and the trimmed product are placed in two different positions to achieve the purpose of separating the waste edge and the trimmed product.
- a set of pliers B13 or clips or hooks are placed on the front and rear sides of the lower trimming die, or a set of pliers or a pair of pliers or a side on the front side or the back of the lower trimming die. Clip or hook. After the die-cutting edge is completed, the waste edge and the trimmed product are separated.
- the pliers or clips or hooks are moved by the moving cylinder (or other power) to the waste edge and clamp the waste edge, sandwiching the waste side of the pliers or clips or hooks in the moving cylinder (or other power) Drive back under the drive While dragging the lower trimming die, after the waste edge is removed from the lower trimming die, the pliers or clip or hook is opened, and the waste edge is dropped on the side edge collector or the box on one side or both sides of the lower trimming die;
- the waste edge is a closed-loop structure, and the waste edge of the closed loop is broken when the edge is trimmed, or the waste edge is divided into two segments or segments for dragging.
- the vacuum side is removed by vacuum suction.
- the side nozzle is sucked and connected with a vacuum device (including a conventional air pump, a vacuum generator, a vacuum pump, etc.), and the waste edge is sucked or sucked to the waste side and then towed away.
- a vacuum device including a conventional air pump, a vacuum generator, a vacuum pump, etc.
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Abstract
公开了一种植物纤维模塑制品全自动制造方法和一种模塑成型切边一体机。植物纤维模塑制品全自动制造方法包括步骤:吸滤成型装置(A2)不断地将浆液制成制品的湿坯,再把湿坯交替送入热压定型装置(A3,A4)中加热到一定温度的热压模具(A3a,A4a)内进行热压干燥定型,从热压模具落下的干燥定型后的制品落到定位接料装置(A5,A6)的定位接料托(A5.1,A6.1)中;定位接料装置把干燥定型后的待切制品(B10)输送至过渡工位;移送装置(C)再把过渡工位上的待切制品移送到切边装置(B)的待切位置进行切边处理,再把切边后制品(B11)输送到完成位置并将切下的废边驱离切边位置。全自动植物纤维模塑成型定型切边一体机包括成型定型装置(A)、移送装置(C)、及切边装置(B)。该制造方法和一体机具有自动化程度高、产品质量好、生产效率高的特点。
Description
说 明 书
植物纤维模塑制品全自动制造方法及模塑成型切边一体机
技术领域
本发明涉及一种采用模塑成型方式制作包括纸装的植物纤维 (简称植物纤维; 以下同) 制品的方法和装置; 适用于制造一次性植物纤维模塑制品, 尤其适用于制造一次性非平面 的纸质制品; 如植物纤维餐具、 植物纤维托盘、 植物纤维工业品防震垫及包装托、 一次性 非平面的植物纤维装璜装饰立体墙板 (或称植物纤维立体壁纸或纸¾模塑立体壁纸) 以及 一切一次性植物纤维模塑制品。
背景技术
植物纤维模塑制品的制作过程是: 植物纤维在吸滤成型装置中先经过吸滤成型, 制成制 品的湿坯, 把湿坯交替送入到位于吸滤成型装置左、 右两侧的加热到一定温度的左热压定型 装置和右热压定型装置的热压模具内, 左热压定型装置或右热压定型装置的热压模具合模并 对湿坯进行热压干燥定型, 制成各种形状的植物纤维模塑制品, 这是植物纤维模塑制品的制 造方法的双热压定型装置模式。
以植物纤维模塑制品的制造方法的双热压定型装置模式为例加以说明。 现有常用的三工 位全自动植物纤维模塑成型机, 含有成型定型上机架、 成型定型下机架、 连接成型定型上机 架与成型定型下机架的拉杆, 设置在成型定型下机架中间位置的吸滤成型装置 (成型工位)、 位于吸滤成型装置左右两侧的带左热压上模和左热压下模的左热压定型装置 (或称左定型工 位)及带右热压上模和右热压下模的右热压定型装置(或称右定型工位), 吸滤成型装置的上 方有一个湿坯转移装置, 湿坯转移装置安装固定在成型定型上机架上, 湿坯转移装置上的湿 坯转移模能上下移动; 并且左热压下模和右热压下模分别在动力的驱动下, 分别沿热压下模 水平轨道交替地进入湿坯转移装置的下方以接纳从湿坯转移装置转移过来的湿坯。 把湿坯转 移模上的湿坯转移到左热压下模或右热压下模中并返回到左热压上模或右热压上模的正下 方, 左热压上模在外力 (比如左热压上模移动油缸或气缸) 驱动下向下与左热压下模合模并 对湿坯进行热压定型 (或者右热压上模在外力比如右热压上模移动油缸或气缸驱动下, 向下 与右热压下模合模并对湿坯进行热压定型),直至湿坯干燥定型并开模移出制品。如此周而复 始, 循环往复。 这是一种由 "左热压定型装置-吸滤成型装置 -右热压定型装置"构成的双热 压定型装置模式全自动植物纤维 (含纸漦)模塑成型机。 例如中国专利 03209714. X、 中国专 利 ZL201020283075. 2, 中国专利 ZL 201010246235. 0, 中国专利 ZL201020283085. 6等相关专 利公开的植物纤维模塑 (含纸桨模塑) 成型机就是这种典型的生产装置。
湿坯干燥定型并开模移出制品的方式有二种:1,全自动纸桨模塑成型机的左热压下模 (包 含安装左热压下模的模具安装板) 和右热压下模上 (包含安装右热压下模的模具安装板) 还
分别连接了左输送带、右输送带。 当湿坏加热干燥定型后, 左热压上模开模并吸附制品上移, 左热压下模移向湿坯转移模的正下方, 左输送带随左热压下模右移而正好位于左热压上模的 正下方, 左热压上模吸附着的制品落在左输送带上; 此后隨着左热压下模的复位, 左输送带 也回到原位, 左输送带转动将制品送出机器。 同样, 右热压上模开模并吸附制品上移, 右输 送带随右热压下模向湿坯转移模所在位置的下方左移,到位后 IE好位于右热压上模的 IE下方, 右热压上模吸附着的制品落在右输送带上, 此后随着右热压下模的复位, 右输送带将制品送 出机外。 因此, 左输送带和右输送带交替将经过湿坯成型和热压定型的制品送出。 2, 所述 的左输送带和右输送带用左平板和右平说板代替,左热压上模吸附着的制品被吹落在左平板上, 右热压上模吸附着的制品被吹落在右平板上。 采用人工收集的方式将左平板和右平板上的制 品取走; 也可让带有制品的左平板向左侧翻转一定书角度, 制品从左平板上滑出, 或带有制品 的右平板向右侧翻转一定角度, 制品从右平板上滑出。
这样, 干燥定型后的制品从左热压上模和右热压上模交替落下, 从左输送带 (左平板) 或右输送带 (右平板) 将制品送出。
现有技术中也有位于吸滤成型装置左侧或右侧 (只带其中一侧) 的单侧热压定型装置的 生产装置, 其生产方式和上述过程相同, 只是一个吸滤成型装置配一个热压定型装置, 这就 是所述的植物纤维模塑制品的制造方法的单热压定型装置模式。 也有包含多功能辅助装置以 消除自动模塑成型机模具滴水现象的全自动植物纤维模塑成型机等等。所以在现有的技术中, 植物纤维模塑制品 (含纸桨模塑制品) 的制作过程都是湿坯成型和热压定型这二个主要过程 和功能。
由于种种原因,经过成型、定型后所生产出来的的植物纤维模塑制品的实际边缘往往达 不到设计要求。 为了达到精确的制品外形或轮廓, 采用让切边前的制品边缘留有一定的切边 量,再通过切边把制品多余部分切除,将所述制品切成所需形状或所需要求的过程和方法来实 现。 这一过程和方法称之为切边 (我们把切除制品的多余边缘、 制品的裁切、 连体制品中单 体制品的分切、制品的冲孔、对制品的穿剌、在制品上留有切痕或压痕等加工都归类为切边)。
到目前为止, 国际上所有用来制作和生产植物纤维模塑制品的方法和设备,都是湿坯成 型和热压定型能在同一设备上连续进行, 热压定型后的制品经输送带或左平板和右平板上滑 出后是散乱的, 不能确定在某一固定位置, 生产出来的植物纤维模塑制品的周边总带有一定 的毛边, 要经过人工把制品收集起来, 再通过人工放到切边机上进行切边处理。 还没有能实 现从湿坯成型到热压定型再到废边切除都能连续进行的方法和设备。 以致于不能在同一台机 器上生产出完整的巳完成切边的高质量产品。
发明内容
本发明的目的是要克服上述背景技术的不足, 提供一种植物纤维模塑制品的全自动制造 方法及全自动植物纤维模塑成型定型切边一体机; 该方法和该成型机含有湿坯成型、 热压定 型、 自动切边三个功能, 具有自动化程度高、 产品质量好、 生产效率高的特点。
本发明提供的技术方案是: 植物纤维模塑制品全自动制造方法, 其过程是: 吸滤成型装 置不断地将浆液制成制品的湿坯, 再把湿坯交替送入左热压定型装置和右热压定型装置中加 热到一定温度的热压模具内进行热压干燥定型, 其特征在于: 从左热压上模和右热压上模交 替落下的干燥定型后的制品分别落到左定位接料装置的左定位接料托中和右定位接料装置上 说
的右定位接料托中, 从热压上模落下的制品在定位接料托中定位, 以实现把制品固定在特定 位置进行移送的目的, 确保待切制品移送的准确性;
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左定位接料装置把干燥定型后的待切制品输送至左过渡工位, 右定位接料装置把干燥定 型后的待切制品输送至右过渡工位; 移送装置再把分别定位在左过渡工位和右过渡工位上的 待切制品移送到切边装置的待切位置, 切边装置从待切位置中提取待切制品, 然后输送到切 边位置进行切边处理, 再把切边后制品输送到完成位置并将切下的废边驱离切边位置; 就这 样, 植物纤维模塑制品全自动制造从吸滤成型将¾液制成制品的湿坯开始到切边后制品输送 到完成位置结束,生产连续进行。
所述移送装置中的左排送吸盘组采用负压吸附方式提吸处于左过渡工位上的左定位接料 托中的待切制品, 然后沿左排送水平轨道把待切制品输送至左接纳制品工位, 并把制品转移 给可实现待切制品翻转的左存贮翻转器或直接转移送给处于左接纳制品工位的左运送车上的 待切定位托; 所述移送装置中的右排送吸盘组采用负压吸附方式提吸处于右过渡工位上的右 定位接料托中的待切制品, 然后沿右排送水平轨道把待切制品输送至右接纳制品工位, 并把 制品转移给可实现待切制品翻转的右存贮翻转器或直接转移送给处于右接纳制品工位的右运 送车上的待切定位托,待切制品在待切定位托中重新定位,实现了待切制品从前向后的移送。
所述移送装置中的左运送车在左接纳制品工位接纳了待切制品, 然后输送至待切位置; 所述移送装置中的右运送车在右接纳制品工位接纳了待切制品, 然后输送至待切位置, 左运 送车和右运送车交替地把从接纳到的待切制品送到所述待切位置。
切边装置从待切位置中提取待切制品, 然后输送到切边位置进行切边处理, 再把切边后制 品输送到完成位置。
切边装置的切边合模机构中装有切边模具, 切边模具包含上切边模具和下切边模具, 在下 切边模具上设置一个与制品形状相适合的用于确定制品在下切边模具上位置的定位块。
所述切边装置把所述制品从待切位置送到切边位置, 再从切边位置送出到达完成位置, 均 采用切边吸盘组提吸制品的方式来完成。
所述的切边吸盘组分成前后二组, 分别为前排切边吸盘组和后排切边吸盘组, 二组吸盘组 相隔一定距离, 前排切边吸盘组把放置于切边模具前侧的待切位置上的待切制品吸起并移送到 所述的下切边模具的定位块上, 后排切边吸盘组把切边后的制品从下切边模具的定位块上吸起 并送出切边模具, 放置于切边模具后侧的完成位置。
切边装置的切边过程按下列步骤进行:
1 )、 处于待切位置上方的前排切说边吸盘组下移, 吸起待切边制品, 然后上移归位, 同时处于下切边模具的定位块上方的后排切边吸盘组下移吸起切边后制品, 然后上移归 位; 书
2 )前排切边吸盘组与后排切边吸盘组同时携带所提取制品往后水平运动,废边移出 机构将切边后留下的废边驱离切边位置;
3 )前排切边吸盘组与后排切边吸盘组往后水平运动一段距离后,分别释放所提取制 品, 使待切制品落到切边位置而切边后制品落到完成位置上; 然后前排切边吸盘组与后 排切边吸盘组同时反向水平运动, 当相隔一定距离的前排切边吸盘组与后排切边吸盘组 正好分别处于切边模具的前后二侧的某一位置时, 停止水平移动;
4 ) 切边模具中的上切边模具向下运动与下切边模具合模, 将待切制品的毛边切去; 然后切边模具的上切边模具向上运动开模;
5 )前排切边吸盘组与后排切边吸盘组继续同时反向水平运动,直至前排切边吸盘组 与后排切边吸盘组分别到达待切位置上方以及切边位置上方;
6 ) 前排切边吸盘组和后排切边吸盘组分别或同时下移吸起待切边制品和切边后制 品, 然后上升归位;
然后重复步骤 2 ) 至步骤 6), 反复循环。
采用一根或一组废边吹气杆与前排切边吸盘组和后排切边吸盘组一起作前后水平运动, 在 后排切边吸盘组吸起切边后制品并带着切边后制品向完成位置移动的这一过程的某一时间段 内, 废边吹气杆吹气或边移动边吹气, 把废边吹离下切边模具, 以确保不影响下一待切制品在 定位块上的定位。
采用废边吸盘组把被切下的废边从切边模具中吸起并送出切边模具的方式移除废边, 以确 保不影响下一待切制品在定位块上的定位。
说 明 书
^全自动植物纤维模塑成型定型切边一体机, 包括制作待切制品的成型定型装置 A, 将待 切制品转移至切边装置中的待切位置的移送装置 C, 以及对待切制品进行切边的切边装置 B; 所述成型定型装置含有吸滤成型装置 A2、 从吸滤成型装置中提取湿坯的湿坯转移装置 A7、 分别接收湿坯并对湿坯加热干燥的左热压定型装置 A3和右热压定型装置 A4、 接收左热 压定型装置中的待切制品后再输送至左过渡工位的左定位接料装置 A5 和接收右热压定型装 置中的待切制品后再输送至右过渡工位的右定位接料装置 A6。
所述左热压定型装置和右热压定型装置对称分布在吸滤成型装置的左右两侧; 所述左定 位接料装置位于左热压定型装置的左侧且与左热压定型装置中的左热压下模一起固定在左热 压下模安装板上, 该左热压下模安装板通过滑块可左右水平移动地定位在热压下模水平轨道 (A8)上; 右定位接料装置位于右热压定型装置的右侧且与右热压定型装置中的右热压下模一 起固定在右热压下模安装板上, 该左热压下模安装板通过滑块可左右水平移动地定位在热压 下模水平轨道 (A8) 上。
所述左定位接料装置和右定位接料装置上分别装有与热压上模具上的制品一一对应的定 位接料托 (A5. 1, A6. 1)。
所述移送装置含有左排送机构 Cl、右排送机构 C2、接纳由左排送机构的左排送吸盘组转 移过来的制品并把该制品翻转 180度后再转移给左运送车上的待切定位托的左存贮翻转器 C4, 接纳由右排送机构的右排送吸盘组转移过来的制品并把该制品翻转 180度后转移给右运 送车上的待切定位托的右存贮翻转器 C5 以及待切制品交替进给机构 C3 ;
如果制品不需要翻转, 则去除左存贮翻转器和右存贮翻转器, 移送装置的结构变为; 所 述移送装置含有左排送机构、 右排送机构、 用于接纳由左排送机构的左排送吸盘组转移过来 的制品且安装于左运送车上的待切定位托、 用于接纳由右排送机构的右排送吸盘组转移过来 的制品且安装于右运送车上的待切定位托以及待切制品交替进给机构;
左排送机构包括设置在左过渡工位上方与左接纳制品工位上方之间的左排送水平轨道 C1. 2、 通过滑块沿着左排送水平轨道运动且把左定位接料托中的待切制品送至左接纳制品工 位的左排送吸盘组 C1. 1以及驱动左排送吸盘组的左动力传送机构,右排送机构包括设置在右 过渡工位上方与右接纳制品工位上方之间的右排送水平轨道 C2. 2、 通过滑块沿着右排送水平 轨道运动且把右定位接料托中的待切制品送至右接纳制品工位的右排送吸盘组 C2. 1 以及驱 动右排送吸盘组的右动力传送机构;
待切制品交替进给机构包括设置在左接纳制品工位、 待切位置以及右接纳制品工位之间 的运送车轨道 C3. 3, 以及把左接纳制品工位的待切制品沿运送车轨道输送至待切位置的左运 送车 C3. 1、把右接纳制品工位的待切制品沿运送车轨道输送至待切位置的右运送车 C3. 2、驱
动运送车的运送车动力传送机构, 以使左运送车和右运送车交替把待切制品送到待切位置。 所述左排送吸盘组与右排送吸盘组分别安装有至少一个利用负压提吸制品的吸盘。
所述左运送车、 右运送车上装有利于待切制品准确定位的待切定位托 C3. 4; 所述待切定 位托、 左定位接料托以及右定位接料托均是与制品形状相吻合或局部相吻合的起导向定位作 用的托盘, 或者是与制品形状相吻合的金属模具或非金属模具, 或者是能让制品部分进入孔 穴的装有导向片的带孔穴平板, 或者是能对制品周边起限定作用的限位圏、 限位杆、 限位器 皿、 限位装置与金属板或非金属板的组合件,或者是其他能对制品起导向、 定位作用的装置。
所述切边装置包括定位在机架上的切边合模机构 Bl、制品移送机构 B2、废边移出机构; 所 述切边合模机构含有上切边模具 Bl-2、 下说切边模具 Bl-1、 安装有上切边模具的上切边模具安装 板 Bl-3、 安装有下切边模具的下切边模具安装板 Bl-4、驱动上切边模具安装板和下切边模具安 装板进行合模运动的动力机构; 所述下切边模具上书还设置一个与制品形状相适合以利于待切制 品定位的定位块 Bl-1. 2。
所述制品移送机构含有用来把待切位置上的待切制品吸起并移送到下切边模具的前排切 边吸盘组 (B2. 6)、 用来把切边后制品吸起并送出下切边模具的后排切边吸盘组 B2. 7、 用来固 定前排切边吸盘组的前吸盘固定板 B2. 3、用来固定后排切边吸盘组的后吸盘固定板 B2. 8、 能带 动前吸盘固定板和后吸盘固定板作前后移动的运送架(B2. 1 ), 驱使运送架水平运动的水平驱动 装置 B2. 10。
所述运送架为框架结构, 前排切边吸盘组的盘口朝下固定在前吸盘固定板上, 后排切边吸 盘组的盘口朝下固定在后吸盘固定板上,前排切边吸盘组通过前提吸气缸 B2. 2和后排切边吸盘 组通过后提吸气缸 B2. 9分别相隔一定间距地安装在运送架的前侧和后侧, 以使前提吸气缸可带 动前排切边吸盘组作上下移动, 后提吸气缸可带动后排切边吸盘组作上下移动。
所述切边装置还设有供运送架通过滑块 B2. 5 在其上进行前后水平移动的二排相隔一定距 离的移送轨道 B2. 4。
所述废边移出机构含有安装在所述运送架上能把切下的废边吹离下切边模具且通过装有控 制阀门的气路与气源连接的废边吹气杆 B14, 切边装置上还安装有开启及关闭控制阀门的控制 开关, 以便在对废边吹气时打开控制阀门接通气源, 对废边进行吹气, 停止对废边吹气时关闭 控制阀门断开气源; 或者是在后排切边吸盘组 B2. 7 的附近安装一组用于提吸废边的废边吸盘 组, 把所述废边吸起并送出下切边模具, 或者是在下切边模具前后二侧各设置一组用于夹勾持 废边的钳子 B13或钩子或夹子, 或在下切边模具前或后的一侧设置一组用于夹勾持废边的鉗子 或钩子或夹子。
所述水平驱动装置 B2. 10由电机驱动通过丝杠副机构传动以驱动运送架在所述移送轨道上 作前后水平移动或停止于某一特定位置, 或者由电机驱动, 通过同步带或皮带或链条传动从而 带动运送架作前后水平运动或停止于某一特定位置, 或者是气缸或油缸驱动从而带动运送架作 前后水平运动或停止于某一特定位置。
驱动运送架在所述移送轨道上作前后水平移动的所述制品移送机构为杆式制品移送机构, 含有用来把待切位置上的待切制品吸起并移送到下切边模具的前排切边吸盘组 B2. 6,用来把切 边后制品吸起并送出下切边模具的后排切边吸盘组 B2. 7,用来固定前排切边吸盘组的前吸盘固 定板 B2. 3、 用来固定后排切边吸盘组的后说吸盘固定板 B2. 8、 设置在切边模具一侧且能带动前 吸盘固定板和后吸盘固定板作前后移动或上下移动的运送杆 B19、 可带动运送杆作上下移动的 摆动装置 B17、 驱使运送杆水平运动的水平驱动装置 B2. 10; 前吸盘固定板的一端和后吸盘固 书
定板的一端相隔一定距离地固定在运送杆一侧, 前后两排吸盘组之间留有大于上切边模具轮廓 的空间, 运送杆可滑动地固定在二个摆动装置上。
杆式制品移送机构还设置有可在滑座 B18上进行上下滑动的用来带动运送杆前后水平移动 的滑动连接件 B20; 滑座可在二根上下布置的移送轨道上水平移动; 所述水平驱动装置的驱动 由电机带动丝杠的方式来实现, 即由电机进行驱动, 通过丝杠副机构传动, 从而带动运送架作 前后水平运动或停止于某一特定位置, 也可以是由电机驱动, 通过同步带或皮带或链条传动从 而带动运送架作前后水平运动或停止于某一特定位置; 还可以是气缸或油缸驱动从而带动运送 架作前后水平运动或停止于某一特定位置。
所述废边移出机构含有安装在所述运送杆上能把切下的废边吹离下切边模具且通过装有控 制阀门的气路与气源连接的废边吹气杆 B14, 切边装置上还安装有开启及关闭控制阀门的控制 开关, 以便在对废边吹气时打开控制阔门接通气源, 对废边进行吹气, 停止对废边吹气时关闭 控制阀门断开气源; 或者是在后排切边吸盘组 B2. 7 的附近安装一组用于提吸废边的废边吸盘 组, 把所述废边吸起并送出下切边模具, 或者是在下切边模具前后二侧各设置一组用于夹勾持 废边的鉗子 B13或钩子或夹子, 或在下切边模具前或后的一侧设置一组用于夹勾持废边的鉗子 或钩子或夹子。
本发明的工作原理是: 吸滤成型装置将植物纤维制成制品的湿坯, 再把湿坯交替送入左热 压定型装置和右热压定型装置中加热到一定温度的热压模具内, 接着左热压定型装置或右热压 定型装置的热压模具合模并对湿坯进行热压干燥定型, 然后从左热压上模和右热压上模交替落 下的千燥定型后的制品 (待切制品)分别落到左定位接料装置的左定位接料托中和右定位接料
装置上的右定位接料托中。 从热压上模落下的制品在定位接料托中进行定位, 并在定位接料装 置中进行规则排列(定位接料装置上的定位接料托的排列与热压上模具的制品型腔一一对应)。 第二步, 移送装置把在左定位接料装置和右定位接料装置中规则排列后的制品, 交替地送到切 边装置的待切位置; 再把待切制品从待切位置移送到自动切边位置进行切边处理, 最后把切边 后制品送到完成位置, 而切下的废边则移除出切边模具以外。
本发明的有益效果是: 由于采用了定位接料装置和移送装置, 因而能够将吸滤成型装置与 切边装置完美地衔接起来, 进而实现了从湿坯成型到热压定型再到废边切除连续进行的一体化 生产; 不但大幅度提高了生产效率 (至少提高生产效率 3倍), 降低了员工劳动强度, 还显著 说
降低了生产成本。
附图说明
图 1是本发明所述全自动植物纤维模塑成型定书型切边一体机 (双热压定型装置模式) 的 主视结构示意图。
图 2是本发明所述全自动植物纤维模塑成型定型切边一体机 (双热压定型装置模式) 的 俯视结构示意图。
图 3是本发明所述全自动植物纤维模塑成型定型切边一体机 (双热压定型装置模式) 的 左视结构示意图。
图 4是成型定型装置的主视结构示意图。
图 4. 1是翻转式 "捞装法"吸滤成型装置的主视结构示意图。
图 5是去掉成型定型装置后的全自动植物纤维模塑成型定型切边一体机的主视结构示意 图。
图 5. 1是去掉成型定型装置后的全自动植物纤维模塑成型定型切边一体机的左视结构示 意图。
图 5. 2是全自动植物纤维模塑成型定型切边一体机中图 5中 B-B向剖视的结构示意图。 图 6-1是植物纤维模塑制品切边装置在工作状态 1时的立体结构示意图(待切制品和切边 后制品刚被提吸时)。
图 6-2是植物纤维模塑制品切边装置在工作状态 2时的立体结构示意图 (待切制品和切 边后制品被移送过程中)。
图 6-3是植物纤维模塑制品切边装置在工作状态 3时的立体结构示意图(待切制品被移送 到下切边模具上方时)。
图 7-1是植物纤维模塑制品切边装置的主视结构示意图。
图 7-2是图 7-1中 A-A向剖视结构示意图 (不含废边移出装置)。
图 7-3植物纤维模塑制品切边装置中的废边移出装置 (去掉制品移送机构后) 的左视图 结构示意图。
图 7-4植物纤维模塑制品切边装置中的废边移出装置的俯视结构示意图。
图 7-5. 1是二板式切边合模机构的主视结构示意图。
图 7-5. 2是三板式切边合模机构实施例之一的主视结构示意图。
图 7-5. 3是三板式切边合模机构实施例之二的主视结构示意图。
图 7-5. 4是切边装置中制品移送机构的主视结构示意图。
说
图 7-5. 4. 1是图 7-5. 4中制品移送机构的前吸盘固定板和后吸盘固定板的主视结构示意 图。
图 7-5. 4. 2是制品移送机构中带废边吸盘组的书制品移送机构结构示意图。
图 7-6. 1是采用杆式制品移送机构的切边装置的主视结构示意图。
图 7-6. 2是采用杆式制品移送机构的切边装置的左视结构示意图。
图 7-6. 3是带废边吹气杆的杆式制品移送机构的局部俯视结构示意图。
图 7-6. 4是采用废边吸盘组方式的废边移出机构和杆式制品移送机构的局部俯视结构 示意图。
图 7-7是切边装置中框式制品移送机构的俯视结构示意图。
图中标号说明:
A-成型定型装置; B-切边装置; C-移送装置;
A1-机架; Ala-成型定型下机架; Alb-成型定型上机架; Ale-拉杆; A2-吸滤成型装置(或 称成型工位); A2a -吸滤成型桨槽; A2C -吸滤成型模具; A3-左热压定型装置(或称左定型工 位); A3a-左热压上模; A3b-左热压上模移动缸; A3c-左热压下模; A4-右热压定型装置 (或 称右定型工位); A4a-右热压上模; A4b-右热压上模移动缸; A4c-右热压下模; A5-左定位接 料装置; A5. 1-左定位接料托; A6-右定位接料装置; A6. 1-右定位接料托; A7-湿坯转移装置; A7a-湿坯转移模; A7b-湿坯转移模移动缸; A8-热压下模水平轨道; A9-吸滤成型模具翻转轴; 制品- S-
B1-切边合模机构; B1-1-下切边模具; B1-1. 1-下切边模具的模体; B1-1. 2-定位块; B1-2-上切边模具; B1-3-上切边模具安装板; B1-4-下切边模具安装板; B1-5-合模拉杆; B1-6- 机架; B1-7—定模板; B2-制品移送机构; B2. 1-运送架; B2. 2-前提吸气缸; B2. 3-前吸盘固
定板; B2. 4-移送轨道; B2. 5 -滑块; B2. 6-前排切边吸盘组; B2. 7-后排切边吸盘组; B2. 7-1- 废边吸盘组; B2. 8-后吸盘固定板; B2. 9-后提吸气缸; B2. 10-水平移动装置; B10-待切制品; B11-切边后制品; B12-废边; B13-钳子; B14-废边吹气杆; B15-油 fe (或气缸或气液增压缸); B16-导向杆; B17-上下摆动装置; B17. 1-摆动滑套; B17. 2-摆动滑套导轨; B17. 3-摆动气缸;
B17. 4-摆动连杆; B18-滑座; B19-运送杆; B20-滑动连接件。
C1-左排送机构, C1. 1-左排送吸盘组, C1. 2-左排送水平轨道, C2-右排送机构, C2. 1-右 排送吸盘组, C2. 2-右排送水平轨道 C3-待切制品交替进给机构, C3. 1-左运送车, C3. 2-右运 说
送车, C3. 3-运送车轨道, C3. 4 -待切定位托; C4-左存贮翻转器, C4. 1、 C5. 1-翻转吸盘组, C5-右存贮翻转器。
书
具体实施方式
实施例 1
图 1、 图 2、 图 3所示, 全自动植物纤维模塑成型定型切边一体机含有成型定型装置 A、 移送装置 C和切边装置 B。
成型定型装置 (如图 4所示)包含由拉杆 Alc、成型定型下机架 Ala和成型定型上机架 Alb 组成的机架 A1 ; 设置在成型定型下机架中间部位的吸滤成型装置 A2、位于谅装置左侧的含左 热压上模 A3a和左热压下模 A3c的左热压定型装置 A3、 位于该装置右侧的含右热压上模 A4a 和右热压下模 A4c的右热压定型装置 A4。左热压下模的安装板 A3e和右热压下模的安装板 A4e 上还分别连接了左定位接料装置 A5和右定位接料装置 A6; 左定位接料装置固定在左热压下 模安装板的左侧,可以随左热压下模安装板与左热压下模一起沿着热压下模水平轨道 A8作左 右水平移动; 右定位接料装置 A6固定在右热压下模安装板的右侧, 可以隨右热压下模安装板 与右热压下模一起沿着热压下模水平轨道 A8作左右水平移动(左热压下模安装板可左右滑动 地定位在热压下模水平轨道 A8上;右热压下模安装板可左右滑动地定位在热压下模水平轨道 A8上)。 左定位接料装置上装有的定位接料托为左定位接料托 A5. 1; 右定位接料装置上装有 的定位接料托为右定位接料托 A6. 1。
吸滤成型装置 A2含有吸滤成型模具 Α 、 吸滤成型 ¾槽^&。 在水中分布均匀或大致均 匀且达到合适浓度的植物纤维与水的混合物(简称为桨液),被间歇或连续注入吸滤成型漦槽 中; 吸滤成型模具进入到吸滤成型桨槽的桨液中或固定在桨槽的底部, 在浆液中的吸滤成型 模具进行抽吸。 当吸滤成型模具上吸附着一定数量的植物纤维后, 吸滤成型模具露出液面, 制成湿坯。 这样制成的湿坯被交替地送入到位于吸滤成型装置左、 右两侧的加热到一定温度
的左热压定型装置 A3和右热压定型装置 A4的热压模具内, 热压模具合模对湿坯进行热压干 燥定型。
具体结构可以是(如图 4所示): 吸滤成型模具 42。固定在吸滤成型桨槽的底部; 该模具 上有一个或多个用来预制湿坯的吸滤成型模具型腔 (型腔形状为与制品形状一致的模具, 吸 滤成型模具与湿坯转移模 47&互为配合的凹、 凸模, 即吸滤成型模具的型腔为凹模则湿坯转 移模型腔为凸模;反之也可),吸滤成型模具上预制湿坯的型腔范围内布置一定数量的脱水孔, 型腔表面附有与型腔表面形状吻合的金属丝网, 模具脱水孔通过装有控制阀门的管道连通负 压装置(如真空泵等), 成型定型装置上还安装有分别开启及关闭该控制阔门的控制开关, 以 便在进行吸滤成型时产生负压, 在吸滤说成型结束时解除负压。 桨液定量注入吸滤成型装置中 的吸滤成型桨槽内; 吸滤成型时, 吸滤成型模具的型腔内的脱水孔接通负压, 在负压的作用 下桨液中的水从吸滤成型模具的型腔内的脱水孔中书排出,纤维被吸附在型腔内的金属丝网上; 随着漦液不断减少, 液面不断降低, 湿坯和吸滤成型模具露出液面。 被吸附在型腔内的金属 丝网上的纤维形成制品形状, 达到预期厚度后预制成湿坯; 湿坯中的水被进一步吸走, 达到 合理的含水率后, 吸滤成型结束, 湿坯留在型腔内。 这一湿坯制作过程, 吸滤成型模具和吸 滤成型漦槽都固定不动, 称为 "注漦法" 吸滤成型 (常规方式)。
也可采用另三种方式实现吸滤成型: 1、 吸滤成型桨槽与外界桨池形成循环, 吸滤成型浆槽 内的桨液不断地从外界输入并不断地溢出流回外界桨池, 吸滤成型桨槽内的桨液液面基本保持 不变, 吸滤成型模具在吸滤成型 ¾槽内可作相对上下移动。 吸滤成型开始时, 吸滤成型模具位 于液面下, 在负压的作用下桨液中的水从吸滤成型模具的型腔内的脱水孔中排出并被抽走, 纤 维被吸附在吸滤成型模具的型腔内的金属丝网上开始形成所述的湿坯; 当吸滤成型快结束时, 吸滤成型模具在漦液内, 边吸滤边上升, 直至露出液面; 露出液面的吸滤成型模具在型腔内留 下湿坯, 湿坯中的水被进一步吸走; 达到合理的含水率后, 吸滤成型结束, 完成湿坯成型。 这 种方法吸滤成型漦槽固定不动, 吸滤成型模具边吸滤边上升, 直到湿坯和吸滤成型模具露出液 面到达一定位置,这种方式被称为吸滤成型模具可上下移动而吸滤成型桨槽不动的"捞桨法 "吸 滤成型。 2、 吸滤成型 槽与外界桨池形成循环, 吸滤成型桨槽内的桨液不断地从外界输入并不 断地溢出流回外界桨池, 吸滤成型浆槽内的浆液液面基本保持不变, 吸滤成型模具固定不动, 而吸滤成型 ¾槽相对吸滤成型模具可作上下移动。 吸滤成型时, 吸滤成型模具位于桨液液面下 方, 部分桨液中的水在负压的作用下从吸滤成型模具的型腔内的脱水孔中排出并被抽走, 纤维 被吸附在吸滤成型模具的型腔内的金属丝网上开始形成所述的湿坯; 当吸滤成型快结束时, 吸 滤成型 ¾槽下降, 液面相对于吸滤成型模具也下降, 直至吸滤成型模具露出液面; 露出液面的 吸滤成型模具在型腔内留下湿坯, 湿坯中的水被进一步吸走, 达到合理的含水率后, 吸滤成型
结束, 完成湿坯成型。 这种方法吸滤成型模具固定不动, 吸滤成型桨槽相对吸滤成型模具作上 下移动, 称为吸滤成型桨槽动而吸滤成型模具不动的 "捞¾法" 吸滤成型。 3、 如图 4. 1所示, 吸滤成型桨槽与外界桨池形成循环, 吸滤成型桨槽内的 ¾液不断地从外界输入并不断地溢出流 回外界桨池, 吸滤成型浆槽不动, 吸滤成型模具可绕着吸滤成型模具翻转轴 A9翻转 180度, 吸 滤成型模具可以有二个方向相差 180度的工作面, 当一个工作面向下进入桨液中进行吸桨时, 另一个工作面巳把完成吸滤成型的湿坯送上液面, 二个工作面交替进入桨液下吸桨制作湿坯, 并交替送出液面直至工作面垂直朝上。 吸滤成型时, 吸滤成型模具向下翻转进入 液内, 直至 吸滤成型模具面朝下方, 进入到桨液液面下方, 部分桨液中的水在负压的作用下从吸滤成型模 具的型腔内的脱水孔中排出并被抽走,说纤维被吸附在吸滤成型模具的型腔内的金属丝网上开始 形成所述的湿坯; 当吸滤成型快结束时, 桨液里的吸滤成型模具向上翻转, 吸滤成型模具开始 逐渐露出液面, 直至吸滤成型模具面朝上方完全露书出液面; 露出液面的吸滤成型模具在型腔内 留下湿坯, 湿坯中的水被进一步吸走, 达到合理的含水率后, 吸滤成型结束, 完成湿坯成型, 吸滤成型模具 A2c上的湿坯露出液面直至工作面垂直朝上, 这种方法吸滤成型模具绕轴上下翻 转, 称为翻转式 "捞桨法" 吸滤成型, 翻转式 "捞装法" 吸滤成型也可以是单工作面的吸 滤成型模具。
"注桨法" 吸滤成型和各种"捞桨法" 吸滤成型(吸滤成型模具动而吸滤成型桨槽不动 的 "捞桨法 "吸滤成型、 吸滤成型桨槽动而吸滤成型模具不动的 "捞桨法" 吸滤成型、 翻转 式 "捞浆法" 吸滤成型) 都是成型定型装置制作湿坯的方法。 植物纤维或纸浆先经过吸滤 成型制成湿坯, 再把湿坯交替送入到左热压定型装置 A3和右热压定型装置 A4的热压模具内, 左热压定型装置或右热压定型装置的热压模具合模再对湿坯进行热压干燥定型。 现以 "注漦 法" 吸滤成型、 双热压定型装置模式为例进行说明。 具体工作原理是: 当完成湿坯成型后, 湿坯转移模 A7a竖直下移到达吸滤成型模具 A2c上把湿坯吸起, 湿坯跟隨湿坯转移模向上提 升到位, 接着左热压下模 (或右热压下模)水平移动到湿坯转移模的正下方; 湿坯转移模下移 把湿坯移送到左热压下模 A3c (或右热压下模 A4c)上, 湿坯转移完成后湿坯转移模上升; 左热 压下模 (或右热压下模)带着湿坯水平返回到原位, 左热压上模 A3a下行与与左热压下模合模 (或右热压上模下行与右热压下模合模), 对湿坯进行热压干燥定型, 制成干燥的制品, 也就 是待切边制品。
湿坯在左热压定型装置 A3的热压模具内加热干燥定型后,左热压上模 A3a开模并吸附制 品上移到位; 接着左热压下模右移,左定位接料托 A5. 1也随左热压下模右移。 当左热压下模 A3c 移到湿坯转移模的正下方时停止移动, 接纳从湿坯转移模转移过来的湿坯, 而左定位接 料托 A5. 1正好到达左热压上模 A3a的正下方,左热压上模上的制品也一一对应地落在左定位
接料托 A5. 1上; 此后随着左热压下模的左移复位, 左定位接料托 A5. 1也一起左移回到原位 (左过渡工位)。 同样, 右热压上模 A4a开模并吸附制品上移到位, 右热压下模 A4c左移, 右 定位接料托 A6. 1也随右热压下模左移; 当右热压下模到达湿坯转移模的 ΓΕ下方时停止移动, 接纳从湿坯转移模转移过来的湿坯, 而右定位接料托正好到达右热压上模的正下方, 右热压 上模上的制品也一一对应地落在右定位接料托上; 此后随着右热压下模的右移复位, 右定位 接料托也一起右移回到原位 (右过渡工位)。
安装在左定位接料装置和右定位接料装置上的定位接料托, 可以是能让落下的制品定位 的任何结构。 比如可以是与制品形状相说吻合或局部相吻合的起导向定位作用的非金属盘 (如 塑料盘) 或金属盘, 也可以是与制品形状相吻合的金属模具或非金属模具, 也可以是能让制 品部分进入的带孔穴和带导向片的平板等, 也可以是能对制品周边起限定作用 (或起到一定 书
限定作用) 的限位圏、 限位杆、 限位器皿、 限位装置与金属板或非金属板的组合件等, 也可 以是其他能对制品起导向、 定位作用的装置。 定位接料装置上的定位接料托数量与热压上模 具上的制品一一对应, 以接纳对应数量的制品, 定位接料托可以是分体结构 (同一定位接料 装置上的几个定位接料托各自独立) 也可以是连体结构 (同一定位接料装置上的几个定位接 料托连为一体)。如果因工艺要求, 当热压上模具上的制品被转移到定位接料托上后, 左定位 接料装置和右定位接料装置需要对制品进行重新排列的, 则各定位接料托应当是分体结构, 可以让定位接料托通过移动、 旋转等动作带着制品按要求进行重新排列和重新确定方位。
左定位接料装置上的左定位接料托 A5. 1和右定位接料装置上的右定位接料托 A6. 1交替 地从左热压上模 A3a和右热压上模 A4a接纳到制品, 并按切边要求进行排列、 组合、 确定新 方位(如果不需要重新进行排列、 组合、 确定新方位, 则保持原状)。 这样, 成型定型装置完 成了湿坯成型、 热压定型和制品的排列定位。
排列定位在左定位接料托或右定位接料托上的制品需要通过移送装置把它们转移到切边 装置进行切边处理。
如图 2、 图 3所示, 切边装置位于吸滤成型装置的后侧。 左定位接料装置和右定位接料装 置对称分布于成型定型装置的左右两侧。要把经规则排列后的左定位接料装置和右定位接料装 置中的制品送到切边装置的待切位置,也要由对称分布的移送装置 C来完成;具体是要把对称 分布于成型定型装置的左右两侧的左定位接料托和右定位接料托中的制品送到位于吸滤成型 装置后侧的切边装置的待切位置(即:左定位接料托中的制品须先后移至左接纳制品工位再右 移到切边装置的待切位置;右定位接料托中的制品须先后移至右接纳制品工位再左移到切边装
置的待切位置)。 如图 2、 图 3、 图 5. 1所示, 移送装置 C含有左排送机构 Cl, 右排送机构 C2, 待切制品交替进给机构 C3; 如果制品需要翻转则移送装置 C还含有: 左存贮翻转器 C4、 右存 贮翻转器 C5。
左排送机构 C1与右排送机构 C2的结构、 工作原理一样。 左排送机构 C1和右排送机构 C2分别分布于全自动植物纤维模塑成型定型切边一体机的左右两侧。
左排送机构 C1含有可上下移动的左排送吸盘组 C1. 1,左排送水平轨道 C1. 2,左动力传送 机构;左排送机构负责把左定位接料托中的制品吸起并后移;右排送机构含有可上下移动的右 排送吸盘组 C2. 1, 右排送水平轨道 C2. 2, 右动力传送机构; 右排送机构负责把右定位接料托 中的制品吸起并后移。 左排送机构和右说排送机构实现了制品的向后移送。
待切制品交替进给机构 C3含有左运送车 C3. 1, 右运送车 C3. 2, 运送车轨道 C3. 3, 运送 车动力传送机构 (气缸或电机带动的丝杠机构等)书, 左运送车和右运送车均安装有待切定位托 C3. 4。 带待切定位托的左运送车和带待切定位托的右运送车负责把从左排送吸盘组 CI. 1和右 排送吸盘组 C2. 1上直接转移过来的制品 (或者经过左存贮翻转器和右存贮翻转器把制品翻转 后转移过来的制品), 交替地送到切边装置的待切位置 (待切位置位于左接纳制品工位与右接 纳制品工位的中间部位); 以实现制品的左右移送。
左运送车 C3. 1上的待切定位托接纳从左排送吸盘组 CI. 1或左存贮翻转器 C4转移过来的 制品时, 左运送车和左运送车上的待切定位托处于运送车轨 ¾ C3. 3的左端位置, 这一位置称 为左接纳制品工位;右运送车 C3. 2上的待切定位托接纳从右排送吸盘组 C2. 1或右存贮翻转器 C5 转移过来的制品时, 右运送车和右运送车上的待切定位托处于运送车轨道的右端位置, 这 一位置称为右接纳制品工位。
左运送车带着待切定位托沿运送车轨道往返于左接纳制品工位与切边装置的待切位置之 间; 右运送车带着待切定位托沿运送车轨道往返于切边装置的待切位置与右接纳制品工位之 间。
左排送吸盘组 C1. 1 (含任何可吸起制品的部件) 把左定位接料托中的制品吸起并向后移 送,把制品转移给处于运送车轨道左端(左接纳制品工位)的带翻转吸盘组的左存贮翻转器或 直接转移送给处于左接纳制品工位的左运送车上的待切定位托;右排送吸盘组(含任何可吸起 制品的部件)把右定位接料托中的制品吸起并向后移送,转移给处于运送车轨道右端(右接纳 制品工位)的带翻转吸盘组的右存贮翻转器或直接转移送给处于右接纳制品工位的右运送车上 的待切定位托。
进一步,若制品进入切边模具前需要翻转 180度,使得制品由原来的制品凸面朝下变成凹 面朝下(或由原来的制品凹面朝下变成凸面朝下),实现制品凹凸面换向。则在运送车轨道 C3. 3
的左端与左排送水平轨道 C1. 2交叉处(左接纳制品工位上方)设置一个左存贮翻转器 C4, 左 存贮翻转器 C4位于运送车轨道 C3. 3的左端、左接纳制品工位上方,处于运送车轨道之上、左 排送水平轨道之下; 在运送车轨 ¾与右排送水平轨 ¾ C2. 2交叉处 (右接纳制品工位上方) 设 置一个右存贮翻转器 C5, 右存贮翻转器位于运送车轨道的右端、 右接纳制品工位上方, 处于 运送车轨道之上、 右排送水平轨道之下。
如图 3、 图 5. 1、 图 5. 2所示, 左排送吸盘组下移把左定位接料托中的制品吸起并上移复 位, 再向后移送到处于运送车轨道左端的带翻转吸盘组的左存贮翻转器上方 (左排送吸盘组分 批或一次性把制品转移给左存贮翻转器上的翻转吸盘组);左存贮翻转器上的盘口朝上的翻转吸 说
盘组接纳从左排送吸盘组转移过来的制品, 翻转吸盘组提吸着从左排送吸盘组转移过来的制品 绕轴转动, 直接或分步绕轴转 180度, 直到翻转吸盘组盘口朝下, 把制品翻转 180度; 翻转吸 盘组再把制品转移到位于左存贮翻转器下方正处于书左接纳制品工位的左运送车上的待切定位托 中。 同样, 右排送吸盘组下移把右定位接料托中的制品吸起并上移复位, 再向后移送到处于运 送车轨道右端的带翻转吸盘组的右存贮翻转器上方 (右排送吸盘组分批或一次性把制品转移给 右存贮翻转器上的翻转吸盘组);右存贮翻转器上的盘口朝上的翻转吸盘组接纳从右排送吸盘组 转移过来的制品, 翻转吸盘组吸着从右排送吸盘组转移过来的制品绕轴转动, 直接或分步绕轴 转 180度, 直到翻转吸盘组盘口朝下, 把制品翻转 180度, 翻转吸盘组再把制品转移到位于右 存贮翻转器下方正处于右接纳制品工位的右运送车上的待切定位托中。
如图 3、 图 5. 1、 图 5. 2所示, 左存贮翻转器 C4通常装有一组或二组翻转吸盘组 C4. 1 ; 翻转吸盘组在左存贮翻转器 C4上可绕轴转动, 二组翻转吸盘组 C4. 1呈轴对称排列。 在特殊 惰况下也可以有二组以上的翻转吸盘组 C4. 1 ; 同样, 右贮翻转器 C5通常装有一组或二组翻 转吸盘组 C5. 1; 翻转吸盘组在左存贮翻转器 C5上可绕轴转动, 二组翻转吸盘组呈轴对称排 列。 在特殊情况下也可以有二组以上的翻转吸盘组 C5. 1。
如图 5. 1所示, 左排送吸盘组 C1. 1可上下移动 (通常由气缸带动), 也可在动力传送机 构的带动下沿左排送水平轨道 C1. 2前后移动。 这个带动左排送吸盘组 CI. 1前后水平移动的 动力传送机构可以是电机驱动丝杠来传动, 也可采用电机驱动同步带 (或链条等方式) 来传 动, 还可以是气缸带动或者是其他动力传动。
如图 5. 2所示, 右排送吸盘组 C2. 1也可上下移动 (通常由气缸带动), 也可在动力传送 机构的带动下沿右排送水平轨道 C2. 2前后移动。 这个带动右排送吸盘组 C2. 1前后水平移动 的动力传送机构可以是电机驱动丝杠来传动, 也可采用电机驱动同步带 (或链条等方式) 来 传动, 还可以是气缸带动或者是其他动力传动。
所述的左排送吸盘组 C1. 1、右排送吸盘组 C2. 1和翻转吸盘组上的吸盘分别通过装有控制 阀门的导管连通一负压装置 (可以是常规抽气泵或真空发生器或真空泵或任何可以产生负压 的装置),全自动植物纤维模塑成型定型切边一体机上还分别安装有开启以及关闭控制阀门的 控制开关, 以便在吸盘提吸制品时接通负压装置让吸盘产生负压从而对制品产生抽吸力, 在 需要放下制品时让前排切边吸盘组或后排切边吸盘组或翻转吸盘组与负压装置断开从而解除 相应吸盘组的负压, 让对应的吸盘组放下制品。
左排送吸盘组 CI. 1可沿左排送水平轨道 C1. 2前后移动, 往返于左定位接料托上方与左 存贮翻转器 C4的上方,把左定位接料托 A5. 1上的制品吸起送到左存贮翻转器 C4的上方。左 说
排送吸盘组 CI. 1把制品分步分批地转移给左存贮翻转器 C4上的盘口朝上的翻转吸盘组。 如 图 5. 1所示,翻转吸盘组吸着从左排送吸盘组 CI. 1转移过来的制品在旋转气缸或其他机构的 作用下绕轴转动, 直接或分步绕轴旋转 180度, 书直到翻转吸盘组盘口朝下, 把制品翻转 180 度后,把制品转移给等待在左存贮翻转器 C4下方的左运送车 C3. 1上的待切定位托。转移时, 翻转吸盘组解除负压,制品落入到固定在左运送车 C3. 1上的待切定位托上,制品在待切定位 托中进行纠偏和定位。带着制品的待切定位托随左运送车 C3. 1向右移动,到达切边装置的待 切位置, 这样把制品准确地送到切边装置的待切位置。随后, 制品被送入切边装置进行切边。
同样, 右排送吸盘组 C 2 . 1可沿右排送水平轨道 C 2 . 2前后移动, 往返于右定位接料托 上方与右存贮翻转器 C 5上方, 把所述右定位接料托 A 6 . 1上的制品吸起送到右存贮翻转器 上方。 右排送吸盘组把制品分步分批地转移给右存贮翻转器上盘口朝上的翻转吸盘组, 如图 5. 2 所示, 翻转吸盘组吸着从右排送吸盘组转移过来的制品在旋转气缸或其他机构的作用下 绕轴转动, 直接或分步绕轴旋转 180度, 直到翻转吸盘组盘口朝下把制品翻转 180度后, 转 移给等待在右存贮翻转器下方的右运送车 C3. 2上的待切定位托。 转移制品时, 翻转吸盘组 负压解除, 制品从盘口朝下的翻转吸盘组落到固定在右运送车上的待切定位托上, 制品在待 切定位托中进行纠偏和定位。 带着制品的待切定位托随右运送车向左移动, 到达切边装置的 待切位置, 这样制品被准确地送到切边装置的待切位置。 隨后, 制品被送入切边装置进行切 边。
这样, 制品被交替地送到切边装置的待切位置。
也可把相隔一定距离的左运送车 C3. 1和右运送车 C3. 2连接在一起, 在同一动力机构的 驱动下, 沿运送车轨道作左右同步移动或停止在特定位置。 左运送车往返于左接纳制品工位 与切边装置的待切位置之间, 右运送车往返于右接纳制品工位与切边装置的待切位置之间。 左运送车和右运送车交替到达切边装置的待切位置。 当左运送车左移到达左接纳制品工位、 处于左存贮翻转器 C4的翻转吸盘组的下方时,左运送车和右运送车均停止移动,左运送车上
说 明 书
的待切定位托接纳从左存贮翻转器 C4转移过来的制品, 这时右运送车正好处于待切位置。左 运送车上的待切定位托带着从左存贮翻转器转移过来的制品右移到达切边装置的待切位置 时, 右运送车上的待切定位托右移到达右存贮翻转器 C 5的下方。 当切边装置把左运送车上 的制品吸走送入切边位置时, 右运送车接纳从右存贮翻转器转移过来的制品。 当左运送车再 次左移到达左接纳制品工位, 处于左存贮翻转器下方时, 右运送车带着从右存贮翻转器转移 过来的制品也再次左移到达切边装置的待切位置, 切边装置把右运送车上的制品吸走送入切 边位置, 左运送车再次接纳从左存贮翻转器 C4转移过来的制品。
就这样, 左运送车上的待切定位托和右运送车上的待切定位托交替地把左存贮翻转器和 右存贮翻转器上的制品送到切边装置的待切位置; 也就是左定位接料托上的制品和右定位接 料托上的制品最终被交替地送到切边装置的待切位置。 同时, 交替到达待并停止在待切位置 上的左运送车上的待切定位托和右运送车上的待切定位托成为切边装置的待切位置上的待切 制品定位器。
待切定位托固定安装在所述的运送车上。 待切定位托可以是与制品形状相吻合或局部相 吻合的起导向定位作用的非金属盘 (如塑料盘) 或金属盘, 也可以是与制品形状相吻合的金 属模具或非金属模具, 也可以是能让制品部分进入的带孔穴的平板等, 也可以是能对制品周 边起限定作用 (或起到一定限定作用) 的限位圈、 限位杆、 限位器皿、 限位装置与金属板或 非金属板的组合件等, 也可以是其他能对制品起导向、 定位作用的装置。
对于某些不需要翻转的制品, 则不需要左存贮翻转器和右存贮翻转器; 由左排送吸盘组 直接把左定位接料托上的制品吸起移送到处于左接纳制品工位的左运送车上的待切定位托 中; 右排送吸盘组直接把右定位接料托上的制品吸起移送到处于右接纳制品工位的右运送车 上的待切定位托中。 同样, 左运送车上的待切定位托和右运送车上的待切定位托交替地把分 别从左排送吸盘组和右排送吸盘组上转移过来的制品送到切边装置的待切位置。
设置存贮翻转器的目的是: 在制品进入切边装置前, 把制品进行翻转。 因为成型定型工 艺和切边工艺对制品凹凸面的朝向要求会有所不同。 比如, 在成型定型装置中的制品模具的 凹面朝上, 定位并规则排列后的左定位接料托和右定位接料托中的制品的凹面也朝上。但是, 有时为了便于切边, 在切边装置中要求制品的凸面朝上。 这时要求制品在进入切边装置的待 切位置前, 制品的凹凸面朝向要发生改变。 另外, 当切边装置需分枇完成从左排送吸盘组或 右排送吸盘组转移过来的制品的切边时, 左排送吸盘组或右排送吸盘组从定位接料托一次移 送过来的制品, 则左运送车或右运送车需要进行分批多次移送。 这时左排送吸盘组或右排送 吸盘组需要等待进行分批转移。 为了减少左排送吸盘组或右排送吸盘组的等待时间, 也需设 置存贮翻转器; 在左存贮翻转器或右存贮翻转器的圆周方向上, 翻转吸盘组可以设置成一组
或二组或多组。 每组翻转吸盘组从左排送吸盘组或右排送吸盘组接纳转移对应的一组制品, 把它们有序地分步分批转移到左运送车或右运送车的待切定位托上。 而左排送吸盘组或右排 送吸盘组把所带的制品全部交给左存贮翻转器或右存贮翻转器后, 可以提前返回左定位接料 托或右定位接料托上方, 进行下一次制品的移送。
所以, 是否设置左存贮翻转器或右存贮翻转器, 视制品结构和具体工艺而定。
切边装置 B设置在成型定型装置的后侧(如图 2所示)。制品被送到切边装置的待切位置 后, 由切边装置 B把待切制品从待切位置移送到切边位置进行切边处理, 再把切边后制品送 出切边位置到达完成位置。 切边装置 B把制品从待切位置、 切边位置、 完成位置进行一一移 送, 完成切边过程。 从而完整地实现制说品从湿坯成型、 热压定型、 自动切边的全自动生产。 如图 6-1、 6-2, 6-3及图 7-1、 7-2, 7-3所示, 切边装置 B包含: 切边合模机构、 制品移 送机构等。 切边合模机构主要含有上切边模具安装书板 Bl-3、 下切边模具安装板 Bl-4、 切边模 具、 合模动力机构 (切边合模机构可以是能产生合模力的含有上切边模具安装板和下切边模具 安装板、 并能使它们作相对运动的用任何方式驱动的机构)。 合模动力机构直接或间接驱动上 切边模具安装板相对于下切边模具安装板作相对运动。 切边合模机构可以有多种形式, 如: 三 模板式切边合模机构(如图 7-5. 2、图 7-5. 3所示)和二模板式切边合模机构(图 7-5. 1所示)。 二模板式切边合模机构包含:上切边模具安装板、 下切边模具安装板、 合模拉杆、 切边模具、 驱动 (含直接驱动或间接驱动) 上切边模具安装板与下切边模具安装板作相对运动的合模动力 机构以及机架。 下切边模具安装板固定在机架上或与机架做成一体, 上切边模具安装板固定连 接着合模拉杆, 合模动力机构直接或间接驱动合模拉杆, 从而带动上切边模具安装板相对于下 切边模具安装板作上下相对运动。 合模拉杆可以是二根或四根等。 合模动力机构可以有多种驱 动方式, 如: 油缸驱动、 电机驱动、 气缸驱动或气液增压缸驱动等。 不管是何种形式, 合模动 力机构通过合模拉杆带动上切边模具安装板相对于下切边模具安装板作上下相对移动, 并在切 边时产生合模力。三模板式切边合模机构含定模板 Bl-7、 上切边模具安装板、 下切边模具安装 板、 合模拉杆、 切边模具、 驱动 (含直接驱动或间接驱动) 上切边模具安装板与下切边模具安 装板作相对运动的合模动力机构以及机架。 与二模板式切边合模机构相比, 它还有一块 "定模 板"。 定模板通过合模拉杆与下切边模具安装板固定在一起, 下切边模具安装板固定在机架上, 或与机架做成一体; 上切边模具安装板在油缸 B15或气缸或气液增压缸的直接或间接驱动下与 下切边模具安装板作相对运动; 一般地, 油缸或气缸或气液增压缸安装固定在定模板上。 除此 之外上切边模具安装板也可以由电机驱动, 图 7-5. 2, 图 7-5. 3分别是两种典型三模板式切边 合模机构的实施例。 无论是二模板式切边合模机构还是三模板式切边合模机构, 或其他形式的
切边合模机构, 都是上切边模具安装板与下切边模具安装板作相对运动。
如图 7-5. 1, 图 7-5. 2, 图 7-5. 3所示, 切边模具包含上切边模具和下切边模具, 上切边 模具安装在上切边模具安装板的下表面, 下切边模具安装在下切边模具安装板的上表面,切边 时可将所述制品切成所需边缘形状或轮廓。 在下切边模具上设置一个定位块用于确定制品在下 切边模具上的位置, 定位块的局部形状或整体形状与制品的局部形状或整体形状相吻合, 对制 品起定位作用, 从而能准确地把制品切成所需边缘形状或轮廓。
上切边模具和下切边模具合拢时为合模、 上切边模具和下切边模具分开时为开模, 在合模 动力机构 (如气缸、 油缸、 气液增压缸、 电机等等动力驱动的任何机械结构) 的驱动下 (含直 说
接驱动或间接驱动), 上切边模具安装板与下切边模具安装板作相对运动 (运动方向如图 7-1、 图 7-5. 1、 图 7-5. 2、 图 7-5. 3、 图 7-3中的箭头所示), 从而使上切边模具和下切边模具作开 书
模、 合模运动。 在一定的合模力作用下, 上切边模具和下切边模具合栊, 对放入它们之间的植 物纤维 (含纸桨) 模塑制品或其他制品进行切边或裁切。 切边后, 切边模具开模, 切边后的制 品留在下切边模具。
预先到达待切位置的待切制品被移送到处于开模状态下的下切边模具上, 并在下模具的定 位块上定位。 切边后, 切边模具进行开模, 切边后的制品从下切边模具被送出放置于切边模具 后侧的某一位置, 这一位置称为完成位置, 在完成位置上, 制品进行下一加工工序。 安装切边 模具并可进行切边的位置称为切边位置。制品从待切位置、切边位置、完成位置进行一一移送。
切边合模机构的切边模具位于切边装置 B的切边位置。 现以二模板式切边合模机构为例进 行说明。 如图 6-1, 图 6-2, 图 6-3, 图 7-1, 图 7-2所示, 切边装置 B的切边合模机构上装有 一个制品移送机构, 把制品从待切位置、 切边位置到完成位置进行一一移送。 所述制品的移送 均采用切边吸盘组来完成。 切边吸盘组由一个或多个单独吸盘组成, 吸盘组可以提吸一个或多 个制品 (图中实施例显示每个吸盘组每次可提吸 3个制品), 提吸同一制品可以是一个吸盘或 多个吸盘。 切边吸盘组分为前排切边吸盘组 B2. 6和后排切边吸盘组 B2. 7, 前排切边吸盘组把 待切制品从待切位置吸起送到切边位置的下切边模具, 后排切边吸盘组把切边后制品从下切边 模具的定位块上吸起送出下切边模具到达完成位置。 制品移送机构主要实现制品的移送。
如图 6-1、 图 7-1、 图 7-5. 4及图 7-7所示制品移送机构包含相隔一定距离的前排切边吸 盘组 B2. 6和后排切边吸盘组 B2. 7、移送轨道 B2. 4,运送架 B2. 1,滑块 B2. 5,前提吸气缸 B2. 2, 后提吸气缸 B2. 9, 前吸盘固定板 B2. 3, 后吸盘固定板 B2. 8, 及水平驱动装置 B2. 10。
前排切边吸盘组的盘口朝下固定在前吸盘固定板上, 后排切边吸盘组的盘口朝下固定在后
吸盘固定板上。前吸盘固定板通过前提吸气缸安装在运送架的前端。二个前提吸气缸的缸体(或 活塞杆)分别固定在运送架的前端的左侧和右侧, 二个前提吸气缸的活塞杆(或缸体)分别与 前吸盘固定板的两端相连。 也可以采用一个安装在运送架中间的前提吸气缸带动前吸盘固定 板。 这样, 前吸盘固定板在提吸气缸的作用下可相对于运送架作上下运动; 同样, 后吸盘固定 板通过后提吸气缸安装在运送架的后端。 二个后提吸气缸的缸体(或活塞杆)分别固定在运送 架的后端的左侧和右侧,二个后提吸气缸的活塞杆(或缸体)分别与后吸盘固定板的两端相连。 也可以采用一个安装在运送架中间的后提吸气缸带动后吸盘固定板。 这样, 后吸盘固定板在提 吸气缸的作用下也可相对于运送架作上下说运动。 因此, 相隔一定距离的前排切边吸盘组和后排 切边吸盘组可分别相对于运送架作上下运动。
在下切边模具 B1-1 的左右两侧设置了二个移送轨道, 二个移送轨道可直接安装在下切边 书
模具安装板上或机架上, 移送轨道模跨于待切位置、 切边位置、 完成位置之间。 运送架 B2. 1 通过滑块 B2. 5可在二个移送轨道上前后移动 (滑动或滚动)。 因此, 相隔一定距离的前排切边 吸盘组 B2. 6和后排切边吸盘组 B2. 7随运送架 B2. 1作前后水平运动。 运送架的前后水平运动 由水平驱动装置 B2. 10进行驱动。 水平驱动装置的驱动作用由电机带动丝杠的方式来实现。 即 由电机进行驱动, 通过丝杠副机构传动, 从而带动运送架作前后水平运动或停止于某一特定位 置。 水平驱动装置也可以是由电机驱动, 通过同步带或皮带或链条传动从而带动运送架作前后 水平运动或停止于某一特定位置; 还可以是气缸或油缸驱动从而带动运送架作前后水平运动或 停止于某一特定位置。
所述的前排切边吸盘组和后排切边吸盘组各自通过 (也可一起通过)装有控制阔门的管道 连通负压装置 (包括常规抽气泵、 真空发生器、 真空泵等), 切边装置上还安装有分别开启及 关闭控制阀门的控制开关, 以便在吸盘提吸制品时接通负压装置使吸盘产生负压而吸起制品, 在放开制品时关闭负压装置使吸盘解除负压而放下制品。
工作开始时, 前排切边吸盘组和后排切边吸盘组分别位于待切位置的待切制品 B10上方 和切边位置的定位块 B1-1. 2上方。前排切边吸盘组和后排切边吸盘组分别在前提吸气缸 B2. 2 和后提吸气缸 B2. 9的作用下同时各自向下移动, 前排切边吸盘组 B2. 6和后排切边吸盘组分 别下移并分别吸取待切制品和切边后制品后, 上移回到原位。 具体过程是: 当前排切边吸盘 组下移并接触到待切制品时, 吸盘通往负压装置的导管上的控制阀门打开, 吸盘接通负压(也 可在前排切边吸盘组 B2. 6接触到待切制品 B10前先接通负压), 前排切边吸盘组吸取待切制 品后, 在前提吸气缸 B2. 2的带动下向上移动, 回到原位, 当后排切边吸盘组下移并接触到切
边后制品时, 吸盘通往负压装置 (包括常规抽气泵、 真空发生器、 真空泵等) 的导管上的控 制阔门打开, 吸盘接通负压 (也可在后排切边吸盘组接触到切边后制品前接通负压), 后排切 边吸盘组吸住切边后制品后, 在后提吸气缸的带动下向上移动, 回到原位。
这样, 相隔一定距离的前排切边吸盘组和后排切边吸盘组分别下行提吸到待切制品和切 边后制品并上移动回到原位后。在水平驱动装置的驱动下,运送架沿着移送轨道向后移动(图 6-1中的 W方向), 带动待切制品从待切位置送往切边位置、 切边后制品送往完成位置。
同时, 为确保下次待切制品定位的准确性, 在提吸到切边后制品到送往完成位置的过程 中, 废边移出机构将切边后留下的废边驱离切边位置。
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前排切边吸盘组带着待切制品移动至下切边模具的定位块上方, 后排切边吸盘组带着切 边后制品正好移动至完成位置, 运送架停止移动。 装在切边机上的控制开关发出信号, 前排 书
切边吸盘组通往负压装置 (包括常规抽气泵、 真空发生器、 真空泵等) 的导管上的控制阀门 关闭, 吸盘负压解除, 待切制品落在下切边模具的定位块上, 同时, 后排切边吸盘组通往负 压装置 (包括常规抽气泵、 真空发生器、 真空泵等) 的导管上的控制阔门关闭, 吸盘负压解 除, 切边后制品落在完成位置。 也可以是: 前排切边吸盘组位于下切边模具上方时, 前排切 边吸盘组带着待切制品向下移动, 再解除吸盘负压, 把待切制品送下放在下切边模具的定位 块上, 前排切边吸盘组下移放下待切制品后再上移归位, 就这样把待切边制品从待切位置送 到切边位置; 而后排切边吸盘组也可以是带着切边后制品到达完成位置后, 向下移动, 再解 除吸盘负压, 把切边后制品放在完成位置, 后排切边吸盘组下移放下切边后制品再上移归位, 就这样把切边后制品从切边位置送到完成位置。
接着, 运送架带动前排切边吸盘组和后排切边吸盘组向前退回一定距离, 当相隔一定距 离的前排切边吸盘组与后排切边吸盘组分别处于切边模具的前后二侧的某一位置时, 运送架 带动前排切边吸盘组和后排切边吸盘组停止移动, 以避开切边模具的合模运动。 然后上切边 模具向下作合模运动, 从相隔一定距离的前排切边吸盘组和后排切边吸盘组之间穿过, 对制 品进行合模切边。 切边完成后, 上切边模具向上移动, 开模到位, 被切边后的制品留在下切 边模具上。
运送架带动前排切边吸盘组和后排切边吸盘组继续向前返回, 回到原始位置, 使得前排 切边吸盘组回到待切位置的待切制品上方而后排切边吸盘组回到切边位置的定位块上方, 进 行下一次的提取待切制品和进行下一次的提取切边后制品。 前排切边吸盘组 B2. 6和后排切边 吸盘组分别在前提吸气缸和后提吸气缸的作用下同时各自向下移动, 前排切边吸盘组和后排 切边吸盘组分别下移并分别吸取待切制品和切边后制品后, 上移回到原位。 在水平驱动装置
的驱动下, 运送架再沿着移送轨道向后移动, 重复上述过程, 进入下一个循环。 如此循环往复, 制品在待切位置、 切边位置、 完成位置之间之间依次一一移送, 完成从 待切制品到切边后制品的加工。
所述的运送架是框架结构, 这种制品移送机构可称作 "框式制品移送机构"
另外, 本实施例所述的切边装置 B的制品移送机构, 也可以是杆式制品移送机构。 如图 7-6. 1, 图 7-6. 2所示, 本实施例所述的切边装置 B, 它的制品移送机构的具体结构是:
运送架不是框架结构而是一根运送杆(也可称作杆式运送架), 在下切边模具的左侧或右 侧设置一根杆子称作运送杆 B19, 前排切边吸盘组的盘口朝下固定在前吸盘固定板上, 后排切 说
边吸盘组的盘口朝下固定在后吸盘固定板上, 前吸盘固定板的一端和后吸盘固定板的一端分 别相隔一定间距地安装在运送杆上, 前后两排吸盘组之间留有大于上切边模具轮廓的空间。
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运送杆可滑动地固定在两个上下摆动装置 B17中,上下摆动装置 B17含有摆动气缸 B17. 3、 摆 动滑套导轨 B17. 2、摆动连杆 B17. 4、摆动滑套 B17. 1 ,运送杆可滑动地固定在摆动滑套 B17. 1 上, 摆动滑套可滑动地固定在摆动滑套导轨上, 摆动滑套在摆动气缸 B17. 3 的带动下又能沿 着摆动滑套导轨 B17. 2上下移动, 从而带动运送杆上下移动; 摆动气缸 B17. 3对摆动滑套的 带动作用是通过摆动连杆 B17. 4传动的; 也可以是摆动气缸 B17. 3直接带动摆动滑套。 因此, 运送杆可在两个上下摆动装置中作前后水平移动 (图 7-6. 1中箭头 V所示), 上下摆动装置又 可带动运送杆上下移动,运送杆通过滑动连接件 B20可滑动地固定在移送轨道 B2. 4的滑座 B18 上, 运送杆相对滑座可作上下移动, 滑座在水平驱动装置 B2. 10 的驱动下可沿二个移送轨道 作水平移动或停止于某一特定位置, 而滑座又可通过滑动连接件带动运送杆作水平移动或停 止于某一特定位置。 所以, 运送杆可带着前排切边吸盘组和后排切边吸盘组作水平移动或停 止于某一特定位置。 二个移送轨道可上下排列也可水平排列。 运送杆的前后水平运动由水平 驱动装置 B2. 10进行驱动。 水平驱动装置的驱动作用由电机带动丝杠的方式来实现。 即由电 机进行驱动, 通过丝杠副机构传动, 从而带动运送杆作前后水平运动或停止于某一特定位置。 水平驱动装置也可以是由电机驱动, 通过同步带或皮带或链条传动从而带动运送杆作前后水 平运动或停止于某一特定位置; 还可以是气缸或油缸直接驱动从而带动运送架作前后水平运 动或停止于某一特定位置。这种制品移送机构称为 "杆式制品移送机构"。把制品从待切位置、 切边位置到完成位置进行一一移送 (图 7-6. 1中箭头 Y所示), 其移送制品的方法和原理与前 述框式制品移送机构相同。
合模切边动作完成后,废边 B12和切边后制品均留在下切边模具上, 为了不影响下一次切
边效果,需要把留在下切边模具上的废边移出下切边模具。废边的移除由废边移出装置来完成。 如图 7-6. 3、图 7-7所示,位于前排切边吸盘组和后排切边吸盘组之间的运送架 B2. 1或运 送杆(B19)上或其它地方, 安装一废边吹气杆 B14, 废边吹气杆与前排切边吸盘组和后排切边 吸盘组一起作前后水平运动。 废边吹气杆通过装有控制阀门的导管连通压缩空气 (包括空压机 或常规风机或气泵产生的压缩空气和气流等), 切边装置上还安装有分别开启及关闭控制阔门 的控制开关, 以便在对废边吹气时打开控制阔门接通压缩空气, 对废边进行吹气, 停止对废边 吹气时关闭控制阔门断开压縮空气。 在后排切边吸盘组吸起切边后制品以及带着切边后制品移 动向完成位置的某一时间段内, 废边吹气杆边移动边吹气, 把废边吹离下切边模具。 如此循环 说
往复, 移除废边。
对于不同结构的制品, 废边移出装置还可以分别采用以下几种结构:
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一、 采用废边吸盘组移送废边的方法进行, 如图 7-5. 4. 2、 图 7-6. 4所示, 在后排切边吸盘 组 B2. 7的附近, 还可安装有一组废边吸盘组 B2. 7-1, 用来提吸留在下切边模具上的废边并把 废边送出下切边模具。 废边吸盘组可以与后排切边吸盘组同步上升或下降, 或与后排切边吸盘 组安装在同一固定板上。 与后排切边吸盘组一样, 废边吸盘组单独通过装有控制阀门的导管连 通负压装置 (包括常规抽气泵、 真空发生器、 真空泵等), 切边装置 B上还安装有分别开启及 关闭该控制阔门的控制开关, 以便在废边吸盘组提吸废边时吸盘产生负压, 在放开废边时吸盘 解除负压。 废边吸盘组提吸和移送废边的动作与后排切边吸盘组提吸和移送留在下切边模具上 的切边后制品是相类似的动作。合模切边动作完成后,废边和切边后制品都留在下切边模具上, 当后排切边吸盘组提吸留在下切边模具上的切边后制品时, 废边吸盘组也同步提吸留在下切边 模具上的废边。 在送往完成位置的过程中, 废边吸盘组各自通往负压装置 (包括常规抽气泵、 真空发生器、 真空泵等) 的导管上的控制阀门关闭让废边落下, 到达完成位置后再关闭后排切 边吸盘组通往负压装置 (包括常规抽气泵、 真空发生器、 真空泵等) 的导管上的控制阔门, 让 制品落在完成位置。 为保证切边后的制品和废边分开放置, 当制品和废边被送出切边模具时废 边吸盘组先消除负压, 废边在制品到达完成位置前先落下, 后排切边吸盘组带着制品继续后移 到达完成位置。 让废边与切边后的制品落在二个不同的位置, 以达到把废边和切边后的制品分 开放置的目的。
二、 如图 7-3, 图 7-4, 所示, 在下切边模具前后二侧各设置一组钳子 B13或夹子或钩子, 或在下切边模具前或后的一侧设置一组钳子或夹子或钩子。 合模切边动作完成后, 废边和切边 后制品分离。 切边模具开模后, 鉗子或夹子或钩子在移动气缸(或其他动力) 的驱动下移向废 边并夹住废边, 夹着废边的钳子或夹子或钩子在移动气缸(或其他动力) 的驱动下退回, 把废
边拖离下切边模具, 当废边被移出下切边模具后, 钳子或夹子或钩子张开, 把废边放下落在下 切边模具一侧或二侧的废边收集器或箱子里; 如果所述的废边是闭环结构, 则在切边时把闭环 的废边断开, 或把废边分切成二段或几段以便拖移。
三、在采用真空吸废边法去除废边。在下切边模具的两侧各安装一个吸废边管口并与负压 装置(包括常规抽气泵、真空泵等)连接, 当废边在切边模具中进行切边时分切成二段或几段。 开模后, 吸废边管口并与负压装置 (包括常规抽气泵、 真空发生器、 真空泵等) 接通, 把废边 吸走或吸住废边后拖走。 说 书
Claims
1、 一种植物纤维模塑制品全自动制造方法, 其过程是: 吸滤成型装置不断地将浆液制成 制品的湿坯,再把湿坯交替送入左热压定型装置和右热压定型装置中加热到一定温度的热压模 具内进行热压干燥定型,其特征在于:从左热压上模和右热压上模交替落下的干燥定型后的制 品分别落到左定位接料装置的左定位接料托中和右定位接料装置上的右定位接料托中,从热压 上模落下的制品在定位接料托中定位, 以实现把制品固定在特定位置进行移送的目的,确保待 切制品移送的准确性;
左定位接料装置把干燥定型后的待切制品输送至左过渡工位,右定位接料装置把干燥定型 后的待切制品输送至右过渡工位;移送装置再把分别定位在左过渡工位和右过渡工位上的待切 制品移送到切边装置的待切位置,切边装置从待切位置中提取待切制品,然后输送到切边位置 进行切边处理, 再把切边后制品输送到完成位置并将切下的废边驱离切边位置;
依照上述过程, 生产连续进行。
2、 根据权利要求 1所述的植物纤维模塑制品全自动制造方法, 其特征在于: 所述移送装 置中的左排送吸盘组采用负压吸附方式提吸处于左过渡工位上的左定位接料托中的待切制品, 然后沿左排送水平轨道把待切制品输送至左接纳制品工位,并把制品转移给可实现待切制品翻 转的左存贮翻转器或直接转移送给处于左接纳制品工位的左运送车上的待切定位托;所述移送 装置中的右排送吸盘组采用负压吸附方式提吸处于右过渡工位上的右定位接料托中的待切制 品,然后沿右排送水平轨道把待切制品输送至右接纳制品工位,并把制品转移给可实现待切制 品翻转的右存贮翻转器或直接转移送给处于右接纳制品工位的右运送车上的待切定位托,待切 制品在待切定位托中重新定位, 以实现待切制品从前向后的移送。
3、 根据权利要求 2所述的植物纤维模塑制品全自动制造方法, 其特征在于: 所述移送装 置中的左运送车在左接纳制品工位接纳了待切制品,然后输送至待切位置;所述移送装置中的 右运送车在右接纳制品工位接纳了待切制品,然后输送至待切位置,左运送车和右运送车交替 地把从接纳到的待切制品送到所述待切位置。
4、 根据权利要求 3所述的植物纤维模塑制品全自动制造方法, 其特征在于: 所述切边装置 从待切位置中提取待切制品, 然后输送到切边位置进行切边处理, 再把切边后制品输送到完成 位置。
5、 根据权利要求 4所述的植物纤维模塑制品全自动制造方法, 其特征在于: 所述切边装置 的切边合模机构中装有切边模具, 切边模具包含上切边模具和下切边模具, 在下切边模具上设 置一个与制品形状相适合的用于确定制品在下切边模具上位置的定位块。
权 利 要 求 书
6、 根据权利要求 5所述的植物纤维模塑制品全自动制造方法, 其特征在于: 所述切边装置 把所述制品从待切位置送到切边位置, 再从切边位置送出到达完成位置, 均采用切边吸盘组提 吸制品的方式来完成。
7、 根据权利要求 6所述的植物纤维模塑制品全自动制造方法, 其特征在于: 所述的切边吸 盘组分成前后二组, 分别为前排切边吸盘组和后排切边吸盘组, 二组吸盘组相隔一定距离, 前 排切边吸盘组把放置于切边模具前侧的待切位置上的待切制品吸起并移送到所述的下切边模具 的定位块上, 后排切边吸盘组把切边后的制品从下切边模具的定位块上吸起并送出切边模具, 放置于切边模具后侧的完成位置。
8、 根据权利要求 7所述的植物纤维模塑制品全自动制造方法, 其特征在于: 所述切边装置 的切边过程按下列歩骤进行:
1 )、 处于待切位置上方的前排切边吸盘组下移, 吸起待切边制品, 然后上移归位, 同时处于下切边模具的定位块上方的后排切边吸盘组下移吸起切边后制品, 然后上移归 位;
2 )前排切边吸盘组与后排切边吸盘组同时携带所提取制品往后水平运动, 废边移出 机构将切边后留下的废边驱离切边位置;
3)前排切边吸盘组与后排切边吸盘组往后水平运动一段距离后, 分别释放所提取制 品,使待切制品落到切边位置而切边后制品落到完成位置上;然后前排切边吸盘组与后排 切边吸盘组同时反向水平运动,当相隔一定距离的前排切边吸盘组与后排切边吸盘组正好 分别处于切边模具的前后二侧的某一位置时, 停止水平移动;
4) 切边模具中的上切边模具向下运动与下切边模具合模, 将待切制品的毛边切去; 然后切边模具的上切边模具向上运动开模;
5)前排切边吸盘组与后排切边吸盘组继续同时反向水平运动, 直至前排切边吸盘组 与后排切边吸盘组分别到达待切位置上方以及切边位置上方;
6 ) 前排切边吸盘组和后排切边吸盘组分别或同时下移吸起待切边制品和切边后制 品, 然后上升归位;
然后重复步骤 2 ) 至步骤 6), 反复循环。
9、 根据权利要求 8所述的植物纤维模塑制品全自动制造方法, 其特征在于: 采用一根或一 组废边吹气杆与前排切边吸盘组和后排切边吸盘组一起作前后水平运动, 在后排切边吸盘组吸 起切边后制品并带着切边后制品向完成位置移动的这一过程的某一时间段内, 废边吹气杆吹气
权 利 要 求 书
或边移动边吹气, 把废边吹离下切边模具, 以确保不影响下一待切制品在定位块上的定位。
10、 根据权利要求 8所述的植物纤维模塑制品全自动制造方法, 其特征在于: 采用废边吸 盘组把被切下的废边从切边模具中吸起并送出切边模具的方式移除废边, 以确保不影响下一待 切制品在定位块上的定位。
11、全自动植物纤维模塑成型定型切边一体机,其特征在于: 该一体机包括制作待切制品 的成型定型装置 (A), 将待切制品转移至切边装置中的待切位置的移送装置 (0, 以及对待切 制品进行切边的切边装置 (B);
所述成型定型装置含有吸滤成型装置 (A2)、 从吸滤成型装置中提取湿坯的湿坯转移装置 (A7)、分别接收湿坯并对湿坯加热干燥的左热压定型装置 (A3)和右热压定型装置 (A4)、接收左 热压定型装置中的待切制品后再输送至左过渡工位的左定位接料装置 (A5)和接收右热压定型 装置中的待切制品后再输送至右过渡工位的右定位接料装置 (A6)。
12、 根据权利要求 11所述的全自动植物纤维模塑成型定型切边一体机, 其特征在于: 所 述左热压定型装置和右热压定型装置对称分布在吸滤成型装置的左右两侧;所述左定位接料装 置位于左热压定型装置的左侧且与左热压定型装置中的左热压下模一起固定在左热压下模安 装板上,该左热压下模安装板通过滑块可左右水平移动地定位在热压下模水平轨道 (A8)上;右 定位接料装置位于右热压定型装置的右侧且与右热压定型装置中的右热压下模一起固定在右 热压下模安装板上,该左热压下模安装板通过滑块可左右水平移动地定位在热压下模水平轨道 (A8) 上。
13、 根据权利要求 12所述的全自动植物纤维模塑成型定型切边一体机, 其特征在于: 所 述左定位接料装置和右定位接料装置上分别装有与热压上模具上的制品一一对应的定位接料 托(Α5· 1, Α6. 1)。
14、 根据权利要求 13所述的全自动植物纤维模塑成型定型切边一体机, 其特征在于: 所述移送装置含有左排送机构 (C1)、右排送机构 (C2)、用于接纳由左排送机构的左排送吸 盘组转移过来的制品且安装于左运送车上的待切定位托、用于接纳由右排送机构的右排送吸盘 组转移过来的制品且安装于右运送车上的待切定位托以及待切制品交替进给机构 (C3); 或者, 所述移送装置含有左排送机构 (C1)、右排送机构 (C2)、接纳由左排送机构的左排送吸盘组 转移过来的制品并把该制品翻转 180 度后转移给左运送车上的待切定位托的左存贮翻转器 (C4)、接纳由左排送机构的右排送吸盘组转移过来的制品并把该制品翻转 180度后转移给右运 送车上的待切定位托的右存贮翻转器 (C5) 以及待切制品交替进给机构 (C3);
左排送机构包括设置在左过渡工位上方与左接纳制品工位上方之间的左排送水平轨道
权 利 要 求 书
(C1. 2)、通过滑块沿着左排送水平轨道运动且把左定位接料托中的待切制品送至左接纳制品工 位的左排送吸盘组 (C1. 1)以及驱动左排送吸盘组的左动力传送机构,右排送机构包括设置在右 过渡工位上方与右接纳制品工位上方之间的右排送水平轨道 (C2. 2)、通过滑块沿着右排送水平 轨道运动且把右定位接料托中的待切制品送至右接纳制品工位的右排送吸盘组 (C2. 1)以及驱 动右排送吸盘组的右动力传送机构;
待切制品交替进给机构包括设置在左接纳制品工位、待切位置以及右接纳制品工位之间的 运送车轨道 (C3. 3),以及把左接纳制品工位的待切制品沿运送车轨道输送至待切位置的左运送 车 (C3. 1)、把右接纳制品工位的待切制品沿运送车轨道输送至待切位置的右运送车 (C3. 2)、驱 动运送车的运送车动力传送机构, 以使左运送车和右运送车交替把待切制品送到待切位置。
15、 根据权利要求 14所述的全自动植物纤维模塑成型定型切边一体机, 其特征在于: 所 述左排送吸盘组与右排送吸盘组分别安装有至少一个利用负压提吸制品的吸盘。
16、 根据权利要求 15所述的全自动植物纤维模塑成型定型切边一体机, 其特征在于: 所 述左运送车、 右运送车上装有利于待切制品准确定位的待切定位托C3.4;); 所述待切定位托、 左定位接料托以及右定位接料托均是与制品形状相吻合或局部相吻合的起导向定位作用的托 盘,或者是与制品形状相吻合的金属模具或非金属模具,或者是能让制品部分进入孔穴的装有 导向片的带孔穴平板, 或者是能对制品周边起限定作用的限位圈、 限位杆、 限位器皿、 限位装 置与金属板或非金属板的组合件, 或者是其他能对制品起导向、 定位作用的装置。
17、 根据权利要求 16所述的全自动植物纤维模塑成型定型切边一体机, 其特征在于: 所述 切边装置包括定位在机架上的切边合模机构 (B l)、 制品移送机构 (B2)、 废边移出机构; 所述切 边合模机构含有上切边模具(B l-2)、下切边模具(B l-1 )、安装有上切边模具的上切边模具安装 板(Bl-3 )、 安装有下切边模具的下切边模具安装板(Bl-4)、驱动上切边模具安装板和下切边模 具安装板进行合模运动的动力机构;所述下切边模具上还设置一个与制品形状相适合以利于待切 制品定位的定位块 (B l-1.2)。
18、 根据权利要求 17所述的全自动植物纤维模塑成型定型切边一体机, 其特征在于: 所述 制品移送机构含有用来把待切位置上的待切制品吸起并移送到下切边模具的前排切边吸盘组
(B2.6)、用来把切边后制品吸起并送出下切边模具的后排切边吸盘组(B2.7)、 用来固定前排切 边吸盘组的前吸盘固定板(B2.3 )、 用来固定后排切边吸盘组的后吸盘固定板(B2.8)、 带动前吸 盘固定板和后吸盘固定板作前后移动的运送架 (B2.1 ) , 驱使运送架水平运动的水平驱动装置 (B2. 10)。
19、 根据权利要求 18所述的全自动植物纤维模塑成型定型切边一体机, 其特征在于: 所述
权 利 要 求 书
运送架为框架结构,前排切边吸盘组的盘口朝下固定在前吸盘固定板上,后排切边吸盘组的盘口 朝下固定在后吸盘固定板上, 前排切边吸盘组通过前提吸气缸(B2. 2)和后排切边吸盘组通过后 提吸气缸(B2. 9 )分别相隔一定间距地安装在运送架的前侧和后侧, 以使前提吸气缸带动前排切 边吸盘组作上下移动、后提吸气缸带动后排切边吸盘组作上下移动,前后两排吸盘组之间的空间 大于上切边模具的外部轮廓。
20、 根据权利要求 19所述的全自动植物纤维模塑成型定型切边一体机, 其特征在于: 所述 切边装置还设有供运送架通过滑块(B2. 5)在其上进行前后水平移动的二排相隔一定距离的移送 轨道 (B2. 4)o
21、 根据权利要求 20所述的全自动植物纤维模塑成型定型切边一体机, 其特征在于: 所述 废边移出机构含有安装在所述运送架上能把切下的废边吹离下切边模具且通过装有控制阀门的 气路与气源连接的废边吹气杆(B14), 切边装置上还安装有开启及关闭控制阔门的控制开关, 以 便在对废边吹气时打开控制阀门接通气源,对废边进行吹气,停止对废边吹气时关闭控制 I有门断 开气源;
或者在后排切边吸盘组 (B2. 7) 的附近安装一组用于提吸废边的废边吸盘组, 把所述废边 吸起并送出下切边模具;
或者是在下切边模具前后二侧各设置一组用于夹勾持废边的钳子 (B13)或钩子或夹子; 或在 下切边模具前或后的一侧设置一组用于夹勾持废边的钳子或钩子或夹子。
22、根据权利要求 21所述的全自动植物纤维模塑成型定型切边一体机, 其特征在于: 所述 水平驱动装置(B2. 10)的传动结构是电机通过丝杠副机构传动以驱动运送架在所述移送轨道上 作前后水平移动或停止于某一特定位置, 或者是电机通过同步带或皮带或链条传动从而带动运 送架作前后水平运动或停止于某一特定位置, 或者是气缸或油缸驱动从而带动运送架作前后水 平运动或停止于某一特定位置。
23、 根据权利要求 18所述的全自动植物纤维模塑成型定型切边一体机, 其特征在于: 所 述制品移送机构为杆式制品移送机构,含有用来把待切位置上的待切制品吸起并移送到下切边 模具的前排切边吸盘组 (B2. 6)、 用来把切边后制品吸起并送出下切边模具的后排切边吸盘组 (B2. 7)、 用来固定前排切边吸盘组的前吸盘固定板(B2. 3)、 用来固定后排切边吸盘组的后吸 盘固定板 (B2. 8)、 设置在切边模具一侧且能带动前吸盘固定板和后吸盘固定板作前后移动或 上下移动的运送杆 (B19)、 可带动运送杆作上下移动的上下摆动装置(B17)、 驱使运送杆水平 运动的水平驱动装置 (B2. 10); 前吸盘固定板的一端和后吸盘固定板的一端相隔一定距离地固
权 利 要 求 书
定在运送杆一侧, 前后两排吸盘组之间留有大于上切边模具轮廓的空间, 运送杆可滑动地固定 在二个上下摆动装置上。
24、 根据权利要求 23所述的全自动植物纤维模塑成型定型切边一体机, 其特征在于: 所述 杆式制品移送机构还设置有可在滑座 (B18) 上进行上下滑动的用来带动运送杆前后水平移动的 滑动连接件 (B20); 滑座可在二根上下布置的移送轨道上水平移动;
所述水平驱动装置的传动结构是电机通过丝杠副机构传动, 从而带动运送架作前后水平运 动或停止于某一特定位置; 或者是电机通过同歩带或皮带或链条传动,从而带动运送架作前后水 平运动或停止于某一特定位置; 或者是气缸或油缸驱动,从而带动运送架作前后水平运动或停止 于某一特定位置。
25、 根据权利要求 24所述的全自动植物纤维模塑成型定型切边一体机, 其特征在于: 所述 废边移出机构含有安装在所述运送杆上能把切下的废边吹离下切边模具且通过装有控制阀门的 气路与气源连接的废边吹气杆(B14), 切边装置上还安装有开启及关闭控制阔门的控制开关, 以 便在对废边吹气时打开控制阀门接通气源,对废边进行吹气,停止对废边吹气时关闭控制圆门断 开气源; 或者是在后排切边吸盘组(B2. 7)的附近安装一组用于提吸废边的废边吸盘组, 把所述 废边吸起并送出下切边模具, 或者是在下切边模具前后二侧各设置一组用于夹勾持废边的钳子 (B13)或钩子或夹子, 或在下切边模具前或后的一侧设置一组用于夹勾持废边的钳子或钩子或夹 子。
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Also Published As
Publication number | Publication date |
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US20150292154A1 (en) | 2015-10-15 |
EP2937462B1 (en) | 2019-07-10 |
EP2937462A1 (en) | 2015-10-28 |
EP2937462A4 (en) | 2017-06-14 |
US9783928B2 (en) | 2017-10-10 |
CN103015273B (zh) | 2015-01-21 |
CN103015273A (zh) | 2013-04-03 |
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