CN111421798A

CN111421798A - Adjustable rubber mold pressing device

Info

Publication number: CN111421798A
Application number: CN202010346675.7A
Authority: CN
Inventors: 齐雁; 郭雨
Original assignee: Individual
Current assignee: Dongguan Century Creation Insulation Co ltd
Priority date: 2020-04-28
Filing date: 2020-04-28
Publication date: 2020-07-17
Anticipated expiration: 2040-04-28
Also published as: CN111421798B

Abstract

The invention relates to an adjustable die pressing device, which is suitable for machining plates with multiple sizes by arranging a left bearing table, a right bearing table, a middle track, a left clamping plate and a right clamping plate, can adjust the width for clamping a workpiece to be machined by adjusting the positions of the left bearing table and the right bearing table and the positions of the left clamping plate and the right clamping plate, can remove the positioning of a die assembly by up-and-down movement of the assembly to be machined so that the die assembly can die press plates by self rotation, and can machine the machining plates into shallow grooves by the die by moving the plates in the horizontal direction without arranging a die pressing device which needs special driving, and can complete the forming of the shallow grooves on the plates by the rotating and punching of the die.

Description

Adjustable rubber mold pressing device

Technical Field

The invention relates to the technical field of compression molding, in particular to an adjustable agent type molding device.

Background

The compression molding is a plastic processing method for molding a product by heating and pressurizing plastic or rubber materials in a closed mold cavity, a press and a mold are arranged in the compression molding process, the press is used for applying pressure to the material to be molded through the mold, the process comprises the steps of feeding, mold closing, exhausting, curing, demolding, mold cleaning and the like in the process, and the steps of prepressing, preheating and compression molding are generally arranged in the compression molding link; the invention patent application with publication number CN111055404A discloses a compression molding automatic production device, which comprises a mold and a material taking and placing mechanism, wherein the material taking and placing mechanism comprises a rack, a first main beam, a first driving assembly, a fixed seat, a second main beam, a second driving assembly, a first sliding arm, a first linkage assembly, a material discharging jig, a third main beam, a third driving assembly, a second sliding arm, a second linkage assembly and a material taking assembly, the first linkage assembly is arranged on the second main beam, and the second linkage assembly is arranged on the third main beam. The automatic production device can realize unmanned production, reduce manual labor force, improve production efficiency and production safety, and the invention patent application with the publication number of CN110903021A discloses a glass precision compression molding method and a molding device thereof) a preformed lens is put into the molding device and is heated to TS temperature from room temperature T0 through multi-stage preheating; 2) keeping the temperature at the set temperature, applying pressure P to the upper heating plate through a multi-stage cylinder, maintaining the pressure for a period of time t1, and molding the lens into an aspheric lens product at one time; 3) controlling the temperature T1 of the upper mold core and the lower mold core to realize the first-stage cooling annealing; then the temperature of the upper die core and the lower die core is reduced to T2, and secondary cooling annealing is realized; the invention patent application with the publication number of CN110789157A discloses a composite material forming device, which comprises a mixing unit, a conveying unit, a pressed compact unit, a compression molding unit and a support, wherein the mixing unit is communicated with the conveying unit, the conveying unit is provided with a second discharge hole, the pressed compact unit is positioned below the second discharge hole, the compression molding unit is positioned below the third discharge hole, the mixing unit, the conveying unit, the pressed compact unit and the compression molding unit are all fixed on the support, and the mixing unit is used for mixing fiber and resin composite materials; it can be known that the molding devices in the prior art are all complex in structure, need to be provided with a pressure device driven by independent power, and are not suitable for processing small workpieces.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides an adjustable rubber molding device.

An adjustable rubber molding device comprises a bearing device, a clamping device, a driving device, a positioning device and a mold; the bearing device is arranged at the lower ends of the positioning device and the die and comprises a bearing table, the bearing table comprises a left bearing table and a right bearing table, and a track is arranged in the middle of the left bearing table and the right bearing table.

Further, be provided with the loading board in the track, the both sides of loading board respectively with control the side contact of plummer, the top of loading board withstands the bottom of waiting to process the board, the length of loading board is shorter than orbital length, the highly orbital height that is less than of loading board, wait to process the vertical setting of board in the track, the length of waiting to process the board is shorter than the plummer, wait to process the part that the board stretches out the plummer under positioner.

Further, the driving device comprises a cylinder I, a telescopic rod I, a cylinder II and a telescopic rod II; the fixed setting in orbital bottom of cylinder I, the one end of cylinder I and telescopic link I is connected, the other end of telescopic link I and the bottom of loading board are connected, thereby cylinder I can drive the loading board and reciprocate in the track of plummer and drive and treat that the processing board reciprocates, cylinder II sets up in outside one side of plummer, the one end of cylinder II and telescopic link II is connected, the other end of telescopic link II is connected on the side of loading board, cylinder II itself can reciprocate along with the loading board.

Furthermore, the positioning devices are in multiple groups, each positioning device comprises an inverted trapezoidal positioning block, and the upper ends of the positioning blocks are connected to the fixing device through springs; the mould is the multiunit, and a set of mould includes left module and right module, controls the module and all includes fixed subassembly and spinning subassembly.

Furthermore, the fixing component is a fixing block with one side being a vertical surface and one side being an inclined surface, the fixing blocks of the left and right modules are both propped against the inclined surfaces of the two sides of the positioning block through the inclined surfaces of one side, the spinning component is arranged below the fixing blocks, and the spinning component comprises a vertical rod and a pressing block; one end of the vertical rod is arranged below the positioning block, and the other end of the vertical rod is connected with the pressing block.

Furthermore, the multiple positioning devices and the multiple molds are arranged in a row in the horizontal direction above the plate to be processed, the left mold and the right mold are connected through an eccentric shaft I and an eccentric shaft II respectively, the eccentric shafts are connected with the molds, connecting points of the eccentric shafts are arranged on the upper portion of the right side of the positioning blocks, and clamping devices are arranged on two sides of the positioning blocks connected with the eccentric shafts, so that the positioning blocks cannot move on the eccentric shafts.

Furthermore, the clamping device comprises a clamping plate I, a clamping plate II and a clamping driving device; the clamping plate I is arranged at the top of the left bearing table, the clamping plate II is arranged at the top of the right bearing table, the clamping plate I is connected with an even clamping driving device on one side of the clamping plate II, the clamping plate I and the clamping plate II are clamped on two sides of a to-be-processed plate on the other side of the clamping plate I and the clamping plate II, and the clamping plate is lower than the to-be-processed plate.

Furthermore, a magnetic block is arranged on the pressing block, and iron powder is coated on the surface of the component to be processed.

Compared with the prior art, the invention provides an adjustable mould pressing device, which has the following beneficial effects:

the invention can adapt to rubber processing plates with various sizes by arranging the left and right bearing tables, the middle track and the left and right clamping plates, adjust the width for clamping the rubber plate to be processed by adjusting the positions of the left and right bearing tables and the positions of the left and right clamping plates, release the positioning of the die assembly by the up-and-down movement of the assembly to be processed so that the die assembly can die-press the plate by the rotation of the die assembly, simultaneously enable the die to process the rubber plate into the shallow groove by the movement of the plate in the horizontal direction, and can complete the forming of the shallow groove on the rubber plate without arranging a die-pressing device which needs special driving by the rotation punching of the die.

Drawings

FIG. 1 is a schematic view of the structure of the present invention.

Fig. 2 is a side view of the structure of the present invention.

FIG. 3 is a schematic view of a carrier stage according to the present invention.

FIG. 4 is a schematic view of the inventive die.

In the figure: 1-left bearing table, 2-right bearing table, 3-bearing plate, 4-fixed block, 5-vertical rod, 6-pressing block, 7-spring, 8-plate to be processed, 9-cylinder I, 10-cylinder II, 11-telescopic rod II, 12-clamping plate I, 13-clamping plate II, 14-eccentric shaft and 15-positioning block.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to FIGS. 1-4: an adjustable rubber molding device comprises a bearing device, a clamping device, a driving device, a positioning device and a mold; the bearing device is arranged at the lower ends of the positioning device and the die, the bearing device comprises a bearing table, the bearing table comprises a left bearing table 1 and a right bearing table 2, a track is arranged in the middle of the left bearing table and the right bearing table, a bearing plate 3 is arranged in the track, two sides of the bearing plate 3 are respectively contacted with the side edges of the left bearing table and the right bearing table, the top of the bearing plate 3 props against the bottom of a plate to be processed, the length of the bearing plate 3 is shorter than that of the track, the height of the bearing plate 3 is lower than that of the track, the plate 8 to be processed is vertically arranged in the track, the length of the plate 8 to be processed is shorter than that of the bearing table, the part of the plate 8 to be processed, which extends out of the bearing table, is arranged under the positioning device, and the; the cylinder I (9) is fixedly arranged at the bottom of a track, the cylinder I (9) is connected with one end of a telescopic rod I, the other end of the telescopic rod I is connected with the bottom of the bearing plate 3, the bearing plate 3 can be driven by the cylinder I (9) to move up and down in the track of the bearing table so as to drive a plate to be processed 8 to move up and down, the cylinder II (10) is arranged on one side of the outer portion of the bearing table, the cylinder II (10) is connected with one end of a telescopic rod II (11), the other end of the telescopic rod II (11) is connected to the side edge of the bearing plate 3, the cylinder II (10) can move up and down along with the bearing plate 3, the positioning devices are multiple groups, each positioning device comprises an inverted trapezoidal; the dies are multiple groups, one group of dies comprises a left die block and a right die block, the left die block and the right die block respectively comprise a fixing assembly and a spinning assembly, the fixing assembly is a fixing block 4 with one side being a vertical surface and one side being an inclined surface, the fixing blocks 4 of the left die block and the right die block are respectively abutted through the inclined surface on one side and the inclined surfaces on two sides of the positioning block, the spinning assembly is arranged below the fixing block, and the spinning assembly comprises a vertical rod 5 and a pressing block 6; one end of a vertical rod 5 is arranged below a positioning block 15, the other end of the vertical rod 15 is connected with a pressing block 6, a plurality of groups of positioning devices and a plurality of groups of dies are arranged above a plate 8 to be processed in a row along the horizontal direction, a left die and a right die are respectively connected by an eccentric shaft I (14) and an eccentric shaft II (14), the eccentric shaft 14 is connected with each die, a connecting point of the eccentric shaft is arranged at the upper part of the right side of the positioning block, clamping devices are arranged on two sides of the positioning blocks connected with the eccentric shafts, so that the positioning block 15 cannot move on the eccentric shaft 14, and each clamping device comprises a clamping plate I (12), a clamping plate II (13) and a; the setting of grip block I (12) is at the top of left plummer 1, grip block II (13) set up the top at right plummer 2, the even centre gripping drive arrangement in one side of grip block I (12) and grip block II (13) is connected, the both sides of treating the processing board of the opposite side of grip block I (12) and grip block II (13) are carried out the centre gripping, the grip block highly be less than treat processing board 8, be provided with the magnetic path on the briquetting, the surface of treating the processing subassembly scribbles the iron powder.

The working process of the invention is as follows: to treat that the processing board is placed on the loading board, drive loading board upward movement through actuating cylinder I, promote locating piece upward movement, the locating piece is not fixing a position the mould after moving to the certain degree, make mould assembly's fixed block rotate on the eccentric shaft and make the fixed block upwards rotate, vertical pole and briquetting rotate downwards, make a plurality of briquetting spinning on treating processing rubber slab, then stop cylinder I, actuating cylinder II drives and treats processing board horizontal migration, thereby make and press one shallow slot of briquetting extrusion above.

Claims

1. An adjustable rubber molding device comprises a bearing device, a clamping device, a driving device, a positioning device and a mold; the bearing device is arranged at the lower ends of the positioning device and the die, the bearing device comprises a bearing table, the bearing table comprises a left bearing table and a right bearing table, a track is arranged between the left bearing table and the right bearing table, the positioning devices are in multiple groups, each positioning device comprises an inverted trapezoidal positioning block, and the upper end of each positioning block is connected to the fixing device through a spring; the mould is a plurality of groups, one group of moulds comprises a left module and a right module, the left module and the right module respectively comprise a fixing assembly and a spinning assembly, the fixing assembly is a fixing block with one side being a vertical surface and one side being an inclined surface, the fixing blocks of the left module and the right module are respectively propped against the inclined surfaces of the two sides of the positioning block through the inclined surface of one side, the spinning assembly is arranged below the fixing block, and the spinning assembly comprises a vertical rod and a pressing block; one end of a vertical rod is arranged below the positioning block, the other end of the vertical rod is connected with the pressing block, a bearing plate is arranged in the track, two sides of the bearing plate are respectively contacted with the side edges of the left bearing table and the right bearing table, the top of the bearing plate is propped against the bottom of a plate to be processed, the length of the bearing plate is shorter than that of the track, the height of the bearing plate is lower than that of the track, the plate to be processed is vertically arranged in the track, the length of the plate to be processed is shorter than that of the bearing tables, the part of the plate to be processed, which extends out of the bearing tables, is positioned under the positioning device, and; the fixed setting in orbital bottom of cylinder I, the one end of cylinder I and telescopic link I is connected, the other end of telescopic link I and the bottom of loading board are connected, thereby cylinder I can drive the loading board and reciprocate in the track of plummer and drive and treat that the processing board reciprocates, cylinder II sets up in outside one side of plummer, the one end of cylinder II and telescopic link II is connected, the other end of telescopic link II is connected on the side of loading board, cylinder II itself can reciprocate along with the loading board.

2. The adjustable rubber moulding apparatus of claim 1, wherein: the multi-group positioning device and the multi-group dies are arranged in a row in the horizontal direction above the plate to be machined, the left die and the right die are connected through an eccentric shaft I and an eccentric shaft II respectively, the eccentric shafts are connected with the dies, connecting points of the eccentric shafts are arranged on the upper portion of the right side of the positioning block, and clamping devices are arranged on two sides of the positioning blocks connected with the eccentric shafts, so that the positioning blocks cannot move on the eccentric shafts.

3. The adjustable rubber moulding apparatus of claim 1, wherein: the clamping device comprises a clamping plate I, a clamping plate II and a clamping driving device; the clamping plate I is arranged at the top of the left bearing table, the clamping plate II is arranged at the top of the right bearing table, the clamping plate I is connected with an even clamping driving device on one side of the clamping plate II, the clamping plate I and the clamping plate II are clamped on two sides of a to-be-processed plate on the other side of the clamping plate I and the clamping plate II, and the clamping plate is lower than the to-be-processed plate.

4. The adjustable rubber moulding apparatus of claim 1, wherein: the pressing block is provided with a magnetic block, and the surface of the component to be processed is coated with iron powder.