CN209903718U - Production facility that sole vulcanizes - Google Patents

Abstract

The utility model discloses a production facility that sole vulcanizes, the technical field who relates to sole manufacture equipment, the camera includes a supporting plate, the carriage, the stabilizer blade, move the mechanism, locking mechanism and opening and shutting mechanism, the top and the bottom at the carriage are installed respectively to backup pad and stabilizer blade, the spout of orientation is one around the centre of backup pad is equipped with, the bilateral symmetry of backup pad is equipped with spout two, move the centre that the mechanism located the backup pad and can be along a spout back-and-forth movement, the both sides of backup pad can be located along spout two left-and-right removal to locking mechanism symmetry, opening and shutting mechanism symmetry is located on the locking mechanism on both sides and can control simultaneously with locking mechanism, move the mechanism including moving motor and corner die clamping cylinder, locking mechanism includes locking cylinder and locking plate, opening and shutting mechanism is including opening and shutting cylinder and opening and shutting plate. The utility model discloses a remove mutually supporting of moving mechanism, locking mechanism and opening and shutting mechanism, can the efficient open the mould that high temperature, heavy and suction are big move, lock and open and shut.

Description

Production facility that sole vulcanizes

Technical Field

The utility model relates to a technical field of sole manufacture equipment, concretely relates to production facility that sole vulcanizes.

Background

At present during domestic production sole, after the rubber vulcanization, need the manual work to take out the mould that will heat from the heating furnace, the lid about suction reaches 200Kg is pried open to the rethread manpower with the help of the pinch bar, take out the sole, it is reinforced, the manual lid that closes again with the mould impels the heating furnace heating, above-mentioned working process, operating personnel will repeat every day and do about 500, high in labor strength, low efficiency, the risk that can press from both sides the wounded hand, the operational environment temperature is high, operating personnel need be strong, this has just increased and has recruited the worker and use the cost.

Chinese patent grant publication No. CN104138916B discloses a flyer die push-pull manipulator, the on-line screen storage device comprises a base, the pull board, hydraulic cylinder, telescopic link and two semicircle moulds, base upper portion has set firmly the mould fixing device who takes the orbit, mould fixing device opens at the middle part has the fixed through hole identical with the semicircle mould, the fixed through hole top is equipped with extrusion device, the base rear side is opened and is equipped with the communicating location track with the orbit, the dull and stereotyped tip of pull board passes the location track and arranges in between two fixed plates of mould fixing device bottom, piston and mould fixing device in the hydraulic cylinder are connected respectively to the telescopic link both ends, hydraulic cylinder fixes on the cylinder support of being connected with the base, the connecting plate middle part between cylinder support and the base is seted up and is fallen the hole with the identical flyer of two semicircle moulds. The invention can effectively ensure the personal safety of operators, and the formed coarse spindle can directly fall out of the fixed through hole under the action of gravity, thereby saving manpower and material resources and having various practical values.

Chinese patent publication No. CN108480490A discloses a mold fixing mechanism for a hardware mold, which includes an expansion joint, a first fixing member, a first sliding groove, a second fixing member, a limiting column, a first connecting column, a second sliding groove, a second connecting column, a base, a groove, a protrusion, an elastic column, and a fixing sleeve. The beneficial effects of the invention are: the side wall of the connecting column is provided with the telescopic joint, so that the height of the fixing piece can be adjusted as required, and the connecting column is convenient to use; the second connecting column is connected with the base in a sliding mode, the distance between the two first fixing pieces can be adjusted according to the size of the die, one end of the second fixing piece is connected with the first fixing piece in a rotating mode, the other end of the second fixing piece is clamped with the first fixing piece, the die is placed conveniently, the first fixing piece is connected with the limiting column in a sliding mode, the elastic column at the top end of the limiting column is clamped with the sawtooth-shaped groove, the dies with different sizes can be fixed, and the application range is wide; the first fixing piece and the second fixing piece are connected through rotation and clamping, so that the die can be conveniently taken out of the device, and the use is convenient.

The invention with Chinese patent grant publication number CN100548170C discloses an automatic mold opening mechanism for shoes, which comprises: support, template, die block, die cavity, go up the mould lid, go up mould lid, template installation on the support, the die block setting is on the template, its characteristics are: the automatic mould mechanism that opens of shoes still includes: the mould comprises a clamping crank, a pressing plate, a mould opening transmission device, an opening transmission device and a pressing transmission device, wherein an upper mould cover is arranged on a bracket through a crankshaft, and a mould shoe last is driven to be synchronously pulled up during mould opening; the clamping crank, the die opening transmission device, the tensioning transmission device and the pressing transmission device are arranged on the bracket; the die sinking transmission device is connected with the die sinking crankshaft, the tensioning and clamping transmission device is connected with the clamping crank, and the pressing transmission device is connected with the pressing plate; the clamping crank arms are arranged on the template, grooves are symmetrically arranged in the two clamping crank arms, and when the clamping crank arms clamp, the grooves form a cavity corresponding to the bottom die; the pressing plate is arranged on the outer end face of the clamping crank, and automatic die pressing and die opening can be achieved by adopting the technical scheme.

After careful analysis of the above mentioned comparison documents, it is found that the technical solutions of the mold moving mechanism, the mold fixing mechanism and the mold opening mechanism related to the comparison documents are not applicable to the technical problems related to the present invention, and therefore, the device for moving, locking, fixing and opening the mold needs to be designed more reasonably again.

Disclosure of Invention

An object of the utility model is to provide a production facility of sole vulcanization to solve the above-mentioned defect that leads to among the prior art.

A production device for vulcanizing soles, which comprises a supporting plate, a supporting frame, supporting legs, a moving mechanism, a locking mechanism and an opening and closing mechanism, the supporting plate and the supporting legs are respectively arranged at the top and the bottom of the supporting frame, the front side and the rear side of the supporting frame are respectively provided with a first transverse rod facing to the left and the right, the first cross rods are horizontally arranged on the supporting frame through the first vertical rods and the second vertical rods which are uniformly distributed, the second cross rods which are arranged in the front-back direction and are symmetrically distributed in the left-right direction are arranged between the first cross rods, the middle of the supporting plate is provided with a sliding chute I which faces forwards and backwards, the supporting plate is symmetrically provided with a sliding chute II at two sides of the sliding chute I, the moving mechanism is arranged in the middle of the supporting plate and can move back and forth along the first sliding groove, the locking mechanisms are symmetrically arranged at two sides of the supporting plate and can move left and right along the second sliding groove, the opening and closing mechanisms are symmetrically arranged on the locking mechanisms on the two sides and can move left and right simultaneously with the locking mechanisms.

Preferably, the moving mechanism comprises a first section bar, a moving motor and a corner clamping cylinder, the first section bar faces forward and backward and is horizontally installed on the inner side of a first vertical rod, a first slide rail is installed on the inner side of the first section bar, a first slide block is installed on the first slide rail in a sliding mode, a first U-shaped slide plate is installed between the first left slide block and the first right slide block, an inverted T-shaped first connecting plate is welded on the first slide plate, a rotating shaft is installed below the first connecting plate through a bearing seat in the first slide plate in a rotating mode, driven wheels are installed at two ends of the rotating shaft, a first L-shaped fixing plate is installed on the lower end face of the first slide plate, the moving motor is horizontally installed on the first fixing plate through screws, a driving wheel is installed on an output shaft of the moving motor, the driving wheel is meshed with the driven wheels, a rack, the top of backup pad is equipped with the mounting panel one of U type between two parties, the below welding of mounting panel one has connecting plate two, connecting plate two passes the spout and is connected with connecting plate one through the bolt in the lump, the top welding of spout one has mounting panel two, the back at mounting panel two is installed to corner die clamping cylinder symmetry.

Preferably, the locking mechanism comprises a locking cylinder and a third cross rod, the locking cylinder is horizontally installed on a second middle cross rod through a second fixed plate towards the back, a second sliding rail is installed at the rear of the locking cylinder on the second middle cross rod, a second sliding block is installed on the second sliding rail in a sliding mode, a second sliding plate is installed on the upper end face of the second sliding block, a first connecting block is installed at the tail end of a piston rod of the locking cylinder, the first connecting block is connected with the second sliding plate through a connecting strip, two sides of the second sliding plate are symmetrically hinged with a connecting rod, the third cross rod is symmetrically installed on the second cross rod on the two sides towards the left and right, a third sliding rail is installed on the upper end face of the third cross rod, a third sliding block is installed on the third sliding rail, a third sliding plate in an inverted ' n ' shape ' is installed between the third front and back sliding blocks, a second, the connecting seat is installed on the upper end face of the third connecting plate, the overhanging end of the connecting rod is hinged to the connecting seat, the locking plate is arranged above the second sliding groove, the fourth connecting plate is symmetrically welded to the lower end face of the locking plate, and the fourth connecting plate penetrates through the second sliding groove and is connected with the second sectional material.

Preferably, the opening and closing mechanism comprises a first hinged support, a second hinged support and an opening and closing air cylinder, the first hinged support is mounted on a third sliding plate through screws, the second hinged support is arranged above the first hinged support and is mutually hinged, the opening and closing air cylinder is mounted on the second hinged support through screws upwards, a second connecting block is mounted at the tail end of a piston rod of the opening and closing air cylinder, a through groove for the piston rod of the opening and closing air cylinder to pass through is formed between the front sliding groove and the rear sliding groove of the supporting plate, a first notch and a second notch for the opening and closing air cylinder to pass through are respectively arranged on the third connecting plate and the locking plate, a bending plate which inclines towards the rear upper part is welded at the rear of the second notch by virtue of a rib plate, the second bearing blocks are symmetrically mounted on the inclined surface of the bending plate, an L-shaped hinge supporting plate and a T-shaped opening plate are respectively rotatably, and a pin shaft is arranged between the overhanging end of the hinged support plate and the middle part of the opening plate, the pin shaft is rotatably connected with the second connecting block, the overhanging part of the opening plate is provided with a sliding groove, and the middle upper part of the sliding groove of the opening plate is provided with a sliding opening.

Preferably, the lower end face of the supporting frame is provided with a supporting plate, the supporting plate is sequentially provided with an electric box, a motor controller, a first electromagnetic valve, a second electromagnetic valve and a third electromagnetic valve from left to right, the motor controller is electrically connected with the moving motor, a direct current power supply and a control circuit board are arranged in the electric box, the current input ends of the direct current power supply and the moving motor are electrically connected with an external 220V alternating current power supply, the current output end of the direct current power supply is respectively and electrically connected with the control circuit board, the first electromagnetic valve, the second electromagnetic valve and the third electromagnetic valve, the control circuit board is provided with a controller which is respectively and electrically connected with the motor controller, the first electromagnetic valve, the second electromagnetic valve and the third electromagnetic valve, the first electromagnetic valve, the second electromagnetic valve and the three electromagnetic valves are respectively connected with the corner clamping cylinder, the locking cylinder and the opening and closing cylinder through air pipes.

Preferably, the right of the preceding terminal surface of carriage articulates there is mounting panel three, power button, reset button and operation button are installed from the left hand right hand in proper order on the upper portion of mounting panel three, power button, reset button and operation button respectively with controller electric connection.

Preferably, the lower terminal surface of backup pad installs the mounting panel four of L type in the both sides symmetry of spout one, the pulley is installed to the equipartition on the mounting panel four, the backup pad corresponds in the below of pulley and offers the race that link up, the pulley passes the race and is higher than backup pad 2 ~ 5 mm.

Preferably, section bar three is installed perpendicularly in the outside of section bar one, section bar three is last to install about the slide rail four of orientation, slidable mounting has slider four on the slide rail four, the backup pad is equipped with spout three between the spout two in front and back, the welding of locking plate has slide four between connecting plate four in front and back, slide four passes spout three and installs with slider four.

Preferably, the supporting plate is symmetrically provided with limiting plates at the back, and a limiting rod is horizontally arranged between the limiting plates at the two sides.

Preferably, the supporting plate is symmetrically provided with reference blocks at two sides of the first sliding groove, and the reference blocks are provided with pressing plates which are cantilevered backwards.

The utility model has the advantages that: the utility model discloses under the control of controller, after the controller received the good signal of mould heating in the heating furnace, hook the mould in the heating furnace through corner die clamping cylinder earlier, the rethread moves the motor and moves the assigned position in the backup pad with the mould from the heating furnace forward, the cardboard on the mould is pushed down to the fixed clamp plate of rethread, the locking plate on relocking locking cylinder drive both sides fixes the mould body to intermediate position locking, prize the apron on the mould through the open-close plate on the cylinder drive both sides that opens and shuts at last. The utility model provides a production facility that sole vulcanizes has that the structure is ingenious, convenient operation, labour saving and time saving, has effectively solved the present stage and need artifical with high temperature, heavy mould drag out from the heating furnace earlier, borrows the manual technical problem who opens the very big apron of suction again by means of corresponding instrument.

Drawings

Fig. 1 is a schematic diagram of the overall three-dimensional structure of the present invention.

Fig. 2 is a schematic structural diagram of the whole front view of the present invention.

Fig. 3 is a schematic structural diagram of the whole side view of the present invention.

Fig. 4 is a schematic view of the overall overlook structure of the present invention.

Fig. 5 is a schematic structural view of the carrying mechanism.

Fig. 6 is a three-dimensional structure diagram of the locking mechanism and the opening and closing mechanism.

Fig. 7 is a schematic top view of the locking mechanism and the opening/closing mechanism.

Fig. 8 is a schematic structural view of the lower end surface of the support plate.

Fig. 9 is a schematic structural view of a third connecting plate.

Fig. 10 is a schematic structural view of the locking plate.

Fig. 11 is a schematic structural view of the opening plate.

Fig. 12 is a schematic structural view of the control section.

Fig. 13 is a schematic structural view of the mold.

Wherein, 1-a support plate; 101-a first chute; 102-a second chute; 103-chute III; 104-through slots; 105-wheel groove; 2-a support frame; 3-vertical rod one; 4, a first cross bar; 5-vertical bar II; 6-a second cross bar; 7-section bar one; 8, a first sliding rail; 9-a first sliding block; 10, a first sliding plate; 11, connecting a first plate; 12-bearing seat I; 13-a rotating shaft; 14-a driven wheel; 15-fixing the plate I; 16-a moving motor; 17-a rack; 18-mounting the plate I; 19-connecting plate two; 20-mounting a second plate; 21-corner clamping cylinder; 22-locking cylinder; 23-fixing a second plate; 24-connecting block one; 25-a second slide rail; 26-a second sliding block; 27-sliding plate II; 28-a connecting strip; 29-a connecting rod; 30-cross bar III; 31-sliding rail III; 32-sliding block three; 33-sliding plate III; 34-section II; 35-connecting plate III; 351-gap one; 36-a connecting seat; 37-a locking plate; 371-gap two; 38-connecting plate four; 39-sliding plate four; 40-section bar III; 41-sliding rail four; 42-sliding block four; 43-hinge support one; 44-hinged support II; 45-opening and closing air cylinder; 46-connecting block two; 47-a rib plate; 48-a bending plate; 49-bearing seat II; 50-hinge support plate; 51-a plywood; 511-chute; 512-a slider; 52-connecting plate five; 53-pin shaft; 54-a reference block; 55-pressing plate; 56-a support plate; 57-an electrical box; 58-a direct current power supply; 59-control circuit board; 60-a motor controller; 61-a first electromagnetic valve; 62-electromagnetic valve II; 63-electromagnetic valve III; 64-mounting plate III; 65-power button; 66-reset button; 67-run button; 68-a limiting plate; 69-a limiting rod; 70-mounting a plate IV; 71-a pulley; 72-foot.

Detailed Description

In order to make the technical means, creation features, achievement purposes and functions of the present invention easy to understand, the present invention is further described below with reference to the following embodiments.

Example 1

As shown in fig. 1 to 13, a production device for sole vulcanization comprises a support plate 1, a support frame 2, support legs 72, a moving mechanism, a locking mechanism and an opening and closing mechanism, wherein the support plate 1 and the support legs 72 are respectively installed at the top and the bottom of the support frame 2, a first transverse rod 4 which faces left and right is arranged on the front side and the rear side of the support frame 2, the first transverse rod 4 is horizontally installed on the support frame 2 through a first vertical rod 3 and a second vertical rod 5 which are uniformly distributed, a second transverse rod 6 which faces front and rear and is symmetrically distributed left and right is installed between the first transverse rods 4 and the rear transverse rod, a first sliding groove 101 which faces front and rear is arranged in the middle of the support plate 1, second sliding grooves 102 are symmetrically arranged on two sides of the first sliding groove 101 of the support plate 1, the moving mechanism is arranged in the middle of the support plate 1 and can move back and forth along the first sliding groove 101, the opening and closing mechanisms are symmetrically arranged on the locking mechanisms on the two sides and can move left and right simultaneously with the locking mechanisms.

In this embodiment, the moving mechanism includes a first section bar 7, a moving motor 16 and a corner clamping cylinder 21, the first section bar 7 faces forward and backward and is horizontally installed on the inner side of a first vertical rod 3, a first slide rail 8 is installed on the inner side of the first section bar 7, a first slide block 9 is installed on the first slide rail 8 in a sliding manner, a first U-shaped slide plate 10 is installed between the first left and right slide blocks 9, an inverted T-shaped first connecting plate 11 is welded on the first slide plate 10, a rotating shaft 13 is installed below the first connecting plate 11 through a first bearing seat 12 in the first slide plate 10 in a rotating manner, driven wheels 14 are installed at two ends of the rotating shaft 13, a first L-shaped fixing plate 15 is installed on the lower end surface of the first slide plate 10, the moving motor 16 is horizontally installed on the first fixing plate 15 through screws, a driving wheel 161 is installed on an output shaft of the moving motor 16, rack 17 is installed to the lower terminal surface of section bar 7, rack 17 with from 14 intermeshing of driving wheel, the top of backup pad 1 is equipped with mounting panel 18 of U type between two parties, the below welding of mounting panel 18 has connecting plate two 19, connecting plate two 19 pass spout one 101 and are connected with connecting plate 11 through the bolt, the top welding of spout one 101 has mounting panel two 20, the back at mounting panel two 20 is installed to corner die clamping cylinder 21 symmetry.

In this embodiment, locking mechanism includes locking cylinder 22 and three 30 of horizontal pole, locking cylinder 22 installs on two 6 of horizontal pole in the middle through two 23 levels of fixed plate backward, and two 25 of slide rail are installed at locking cylinder 22's rear to two 6 of horizontal pole in the middle, slidable mounting has two 26 of slider on two 25 of slide rail, two 27 of slide plate are installed to the up end of two 26 of slider, connecting block 24 is installed to the end of locking cylinder 22's piston rod, connect through connecting strip 28 between connecting block 24 and the two 27 of slide plate, the both sides symmetry of two 27 of slide plate articulates there is connecting rod 29, three 30 symmetries of horizontal pole and control the orientation and install on two 6 of horizontal pole on both sides, three 31 of slide rail are installed to the up end of three 30 of horizontal pole, slidable mounting has three 32 of slider on three 31 of slide rail, installs the three 33 of slide plate of "several" style of calligraphy of inversion between three 32 of slider, the third sliding plate 33 is symmetrically and vertically provided with a second section bar 34, a third connecting plate 35 is arranged between the front section bar 34 and the rear section bar 34, the upper end face of the third connecting plate 35 is provided with a connecting seat 36, the overhanging end of the connecting rod 29 is hinged to the connecting seat 36, a locking plate 37 is arranged above the second sliding groove 102, a fourth connecting plate 38 is symmetrically welded to the lower end face of the locking plate 37, and the fourth connecting plate 38 penetrates through the second sliding groove 102 and is connected with the second section bar 34.

In this embodiment, the opening and closing mechanism includes a first hinge support 43, a second hinge support 44 and an opening and closing cylinder 45, the first hinge support 43 is mounted on the third sliding plate 33 through a screw, the second hinge support 44 is disposed above the first hinge support 43 and is hinged to each other, the opening and closing cylinder 45 is mounted on the second hinge support 44 upward through a screw, a second connecting block 46 is mounted at the end of a piston rod of the opening and closing cylinder 45, a through slot 104 for a piston rod of the opening and closing cylinder 45 to pass through is disposed between the front and rear sliding slots 102 of the supporting plate 1, a first notch 351 and a second notch 371 for the opening and closing cylinder 45 to pass through are respectively disposed on the third connecting plate 35 and the locking plate 37, a bending plate 48 inclined toward the upper rear is welded behind the second notch 371 through a rib plate 47, two bearing blocks 49 are symmetrically mounted on an inclined surface of the bending plate 48, and L-shaped hinge supporting plates 50 and T-shaped opening plates 51 are respectively rotatably mounted, a reinforcing plate 52 is welded between the hinge plate 50 and the opening plate 51, a pin shaft 53 is installed between the overhanging end of the hinge plate 50 and the middle of the opening plate 51, the pin shaft 53 is rotatably connected with the second connecting block 46, a sliding groove 511 is formed in the overhanging part of the opening plate 51, and a sliding opening 512 is formed in the middle upper part of the sliding groove 511 of the opening plate 51.

In this embodiment, a supporting plate 56 is installed on a lower end surface of the supporting frame 2, an electrical box 57, a motor controller 60, a first electromagnetic valve 61, a second electromagnetic valve 62 and a third electromagnetic valve 63 are installed on the supporting plate 56 in sequence from left to right, the motor controller 60 is electrically connected with the moving motor 16, a direct current power supply 58 and a control circuit board 59 are installed in the electrical box 57, current input ends of the direct current power supply 58 and the moving motor 16 are electrically connected with an external 220V alternating current power supply, current output ends of the direct current power supply 58 are electrically connected with the control circuit board 59, the first electromagnetic valve 61, the second electromagnetic valve 62 and the third electromagnetic valve 63 respectively, a controller is arranged on the control circuit board 59, the controller is electrically connected with the motor controller 60, the first electromagnetic valve 61, the second electromagnetic valve 62 and the third electromagnetic valve 63 respectively, and the first electromagnetic valve 61, the second electromagnetic valve 62 and the third electromagnetic valve 63 are electrically connected with the corner, The locking cylinder 22 is connected with the opening and closing cylinder 45. The dc power supply 58 can convert 220V ac power into 24V dc power and supply power to the control circuit board 59, the first electromagnetic valve 61, the second electromagnetic valve 62 and the third electromagnetic valve 63, and under the control of the controller, the motor controller 60 controls the rotation speed, the rotation direction and other parameters of the transfer motor 16 during movement, and the first electromagnetic valve 61, the second electromagnetic valve 62 and the third electromagnetic valve 63 can respectively control the operations of the corner clamping cylinder 21 and the locking cylinder 22.

In this embodiment, the support plate 1 is symmetrically provided with reference blocks 54 on both sides of the first sliding groove 101, the limit position of the mold 73 during forward movement can be limited by the reference blocks 54, the reference blocks 54 are provided with pressing plates 55 which are cantilevered towards the rear, and the pressing plates 55 can clamp the clamping plates 734 on the mold 73, so that the cover plates 737 on the subsequent mold 73 can be conveniently opened.

Example 2

As shown in fig. 1 to 13, a production device for sole vulcanization comprises a support plate 1, a support frame 2, support legs 72, a moving mechanism, a locking mechanism and an opening and closing mechanism, wherein the support plate 1 and the support legs 72 are respectively installed at the top and the bottom of the support frame 2, a first transverse rod 4 which faces left and right is arranged on the front side and the rear side of the support frame 2, the first transverse rod 4 is horizontally installed on the support frame 2 through a first vertical rod 3 and a second vertical rod 5 which are uniformly distributed, a second transverse rod 6 which faces front and rear and is symmetrically distributed left and right is installed between the first transverse rods 4 and the rear transverse rod, a first sliding groove 101 which faces front and rear is arranged in the middle of the support plate 1, second sliding grooves 102 are symmetrically arranged on two sides of the first sliding groove 101 of the support plate 1, the moving mechanism is arranged in the middle of the support plate 1 and can move back and forth along the first sliding groove 101, the opening and closing mechanisms are symmetrically arranged on the locking mechanisms on the two sides and can move left and right simultaneously with the locking mechanisms.

In this embodiment, the moving mechanism includes a first section bar 7, a moving motor 16 and a corner clamping cylinder 21, the first section bar 7 faces forward and backward and is horizontally installed on the inner side of a first vertical rod 3, a first slide rail 8 is installed on the inner side of the first section bar 7, a first slide block 9 is installed on the first slide rail 8 in a sliding manner, a first U-shaped slide plate 10 is installed between the first left and right slide blocks 9, an inverted T-shaped first connecting plate 11 is welded on the first slide plate 10, a rotating shaft 13 is installed below the first connecting plate 11 through a first bearing seat 12 in the first slide plate 10 in a rotating manner, driven wheels 14 are installed at two ends of the rotating shaft 13, a first L-shaped fixing plate 15 is installed on the lower end surface of the first slide plate 10, the moving motor 16 is horizontally installed on the first fixing plate 15 through screws, a driving wheel 161 is installed on an output shaft of the moving motor 16, rack 17 is installed to the lower terminal surface of section bar 7, rack 17 with from 14 intermeshing of driving wheel, the top of backup pad 1 is equipped with mounting panel 18 of U type between two parties, the below welding of mounting panel 18 has connecting plate two 19, connecting plate two 19 pass spout one 101 and are connected with connecting plate 11 through the bolt, the top welding of spout one 101 has mounting panel two 20, the back at mounting panel two 20 is installed to corner die clamping cylinder 21 symmetry.

In this embodiment, locking mechanism includes locking cylinder 22 and three 30 of horizontal pole, locking cylinder 22 installs on two 6 of horizontal pole in the middle through two 23 levels of fixed plate backward, and two 25 of slide rail are installed at locking cylinder 22's rear to two 6 of horizontal pole in the middle, slidable mounting has two 26 of slider on two 25 of slide rail, two 27 of slide plate are installed to the up end of two 26 of slider, connecting block 24 is installed to the end of locking cylinder 22's piston rod, connect through connecting strip 28 between connecting block 24 and the two 27 of slide plate, the both sides symmetry of two 27 of slide plate articulates there is connecting rod 29, three 30 symmetries of horizontal pole and control the orientation and install on two 6 of horizontal pole on both sides, three 31 of slide rail are installed to the up end of three 30 of horizontal pole, slidable mounting has three 32 of slider on three 31 of slide rail, installs the three 33 of slide plate of "several" style of calligraphy of inversion between three 32 of slider, the third sliding plate 33 is symmetrically and vertically provided with a second section bar 34, a third connecting plate 35 is arranged between the front section bar 34 and the rear section bar 34, the upper end face of the third connecting plate 35 is provided with a connecting seat 36, the overhanging end of the connecting rod 29 is hinged to the connecting seat 36, a locking plate 37 is arranged above the second sliding groove 102, a fourth connecting plate 38 is symmetrically welded to the lower end face of the locking plate 37, and the fourth connecting plate 38 penetrates through the second sliding groove 102 and is connected with the second section bar 34.

In this embodiment, the opening and closing mechanism includes a first hinge support 43, a second hinge support 44 and an opening and closing cylinder 45, the first hinge support 43 is mounted on the third sliding plate 33 through a screw, the second hinge support 44 is disposed above the first hinge support 43 and is hinged to each other, the opening and closing cylinder 45 is mounted on the second hinge support 44 upward through a screw, a second connecting block 46 is mounted at the end of a piston rod of the opening and closing cylinder 45, a through slot 104 for a piston rod of the opening and closing cylinder 45 to pass through is disposed between the front and rear sliding slots 102 of the supporting plate 1, a first notch 351 and a second notch 371 for the opening and closing cylinder 45 to pass through are respectively disposed on the third connecting plate 35 and the locking plate 37, a bending plate 48 inclined toward the upper rear is welded behind the second notch 371 through a rib plate 47, two bearing blocks 49 are symmetrically mounted on an inclined surface of the bending plate 48, and L-shaped hinge supporting plates 50 and T-shaped opening plates 51 are respectively rotatably mounted, a reinforcing plate 52 is welded between the hinge plate 50 and the opening plate 51, a pin shaft 53 is installed between the overhanging end of the hinge plate 50 and the middle of the opening plate 51, the pin shaft 53 is rotatably connected with the second connecting block 46, a sliding groove 511 is formed in the overhanging part of the opening plate 51, and a sliding opening 512 is formed in the middle upper part of the sliding groove 511 of the opening plate 51.

In this embodiment, a supporting plate 56 is installed on a lower end surface of the supporting frame 2, an electrical box 57, a motor controller 60, a first electromagnetic valve 61, a second electromagnetic valve 62 and a third electromagnetic valve 63 are installed on the supporting plate 56 in sequence from left to right, the motor controller 60 is electrically connected with the moving motor 16, a direct current power supply 58 and a control circuit board 59 are installed in the electrical box 57, current input ends of the direct current power supply 58 and the moving motor 16 are electrically connected with an external 220V alternating current power supply, current output ends of the direct current power supply 58 are electrically connected with the control circuit board 59, the first electromagnetic valve 61, the second electromagnetic valve 62 and the third electromagnetic valve 63 respectively, a controller is arranged on the control circuit board 59, the controller is electrically connected with the motor controller 60, the first electromagnetic valve 61, the second electromagnetic valve 62 and the third electromagnetic valve 63 respectively, and the first electromagnetic valve 61, the second electromagnetic valve 62 and the third electromagnetic valve 63 are electrically connected with the corner, The locking cylinder 22 is connected with the opening and closing cylinder 45. The dc power supply 58 can convert 220V ac power into 24V dc power and supply power to the control circuit board 59, the first electromagnetic valve 61, the second electromagnetic valve 62 and the third electromagnetic valve 63, and under the control of the controller, the motor controller 60 controls the rotation speed, the rotation direction and other parameters of the transfer motor 16 during movement, and the first electromagnetic valve 61, the second electromagnetic valve 62 and the third electromagnetic valve 63 can respectively control the operations of the corner clamping cylinder 21 and the locking cylinder 22.

In this embodiment, the right of the preceding terminal surface of braced frame 2 articulates there are three 64 of mounting panel, power button 65, reset button 66 and operation button 67 are installed from left to right in proper order to the upper portion of three 64 of mounting panel, power button 65, reset button 66 and operation button 67 respectively with controller electric connection. Under the control of the controller, the production equipment can be powered on by pressing the power button 65, can be reset by pressing the reset button 66, can be started in sequence by pressing the operation button 67, and can be started in sequence by pressing the moving mechanism, the locking mechanism and the opening and closing mechanism of the die, and can be started in sequence by pressing the operation button 67, and the actions of the cylinders are completely opposite to those of the cylinders when the cylinders are pressed for the first time.

In this embodiment, the lower terminal surface of the supporting plate 1 is symmetrically provided with four mounting plates 70 of the L-shape at two sides of the first sliding groove 101, the pulleys 71 are uniformly arranged on the four mounting plates 70, the supporting plate 1 is correspondingly provided with a through pulley groove 105 below the pulley 71, the pulley 71 passes through the pulley groove 105 and is higher than the supporting plate 12 ~ 5mm, and the problem of overlarge resistance of the mold 73 when the surface of the supporting plate 1 slides can be avoided through the two rows of the pulleys 71.

In this embodiment, a third section bar 40 is vertically installed on the outer side of the first section bar 7, a fourth slide rail 41 facing left and right is installed on the third section bar 40, a fourth slide block 42 is installed on the fourth slide rail 41 in a sliding manner, a third slide groove 103 is arranged between the front slide groove 102 and the rear slide groove 102 of the support plate 1, a fourth slide plate 39 is welded between the front connecting plate 38 and the rear connecting plate 38 of the locking plate 37, and the fourth slide plate 39 passes through the third slide groove 103 and is installed with the fourth slide block 42. The guidance and anti-overturning moment characteristics of the locking plate 37 can be increased by adding a set of slide rails and slide blocks.

In this embodiment, the supporting plate 1 is symmetrically provided with limiting plates 68 at the back, and a limiting rod 69 is horizontally provided between the limiting plates 68 at both sides. Can prevent that apron 737 on the mould 73 from opening unusually through gag lever post 69, the apron 737 leads to the apron 737 to stretch into in the heating furnace when overturning backward too much promptly, and gag lever post 69 plays and holds in the palm the apron 737 on the mould 73, prevents the too much effect of overturning backward of apron 737.

In this embodiment, the support plate 1 is symmetrically provided with reference blocks 54 on both sides of the first sliding groove 101, the limit position of the mold 73 during forward movement can be limited by the reference blocks 54, the reference blocks 54 are provided with pressing plates 55 which are cantilevered towards the rear, and the pressing plates 55 can clamp the clamping plates 734 on the mold 73, so that the cover plates 737 on the subsequent mold 73 can be conveniently opened.

In this embodiment, the mold 73 includes a mold body 731 and a cover plate 737, the upper end surface of the mold body 731 is provided with a cavity 732 in a symmetrical manner, a pull rod 733 shaped like a U is horizontally welded in the middle of the front end surface of the mold body 731, a clamping plate 734 is horizontally welded in the lower portion of the front end surface of the mold body 731, hinge plates 735 are welded at the corners of the rear upper portions of the two sides of the mold body 731, the cover plate 737 is horizontally arranged above the mold body 731, the rear side of the cover plate 737 is hinged to the hinge plates 735 through hinge shafts 736, and an opening-closing rod 738 is welded in the front side of the cover plate 737 in an overhanging manner.

In summary, the utility model provides an operation steps of production facility of sole vulcanization is as follows:

the method comprises the following steps: the production equipment is arranged in the middle of the worker in the front of the heating furnace, the production equipment is connected with an external power supply and an external air source, the power supply button is pressed down to electrify and ventilate the production equipment, the reset button is pressed down to initialize the production equipment for starting reset, after the starting initialization is completed, a moving motor in the moving mechanism drives a corner clamping cylinder to move forwards to a set position along a first sliding groove, a pressing strip of the corner clamping cylinder is in an extending and horizontal state, a locking cylinder in the locking mechanism is in a contraction state of a piston rod and drives a locking plate to move outwards to the set position along a second sliding groove, and an opening and closing cylinder in the opening and closing mechanism is in a contraction state of the piston rod and drives the opening and closing plate to rotate forwards (the right side is regarded as anticlockwise rotation) to the lowest point around a second bearing seat;

step two: the operator presses the operation button, under the control of the controller, after the controller receives a signal that the mold in the heating furnace is heated, the moving motor drives the corner clamping cylinder to move backwards to a set position, then the pressing strip of the corner clamping cylinder contracts and rotates to a vertically downward state so as to hook the pull rod on the mold, then the moving motor drives the corner clamping cylinder and the mold to move forwards to the set position, so that the mold body is in full contact with the reference plate, meanwhile, the clamping plate on the mold is pressed by the pressing plate, the moving work of moving the mold from the heating furnace to the supporting plate is completed, then the piston rod of the locking cylinder extends and drives the locking plates on two sides to approach and closely contact the mold, the positioning work of locking the mold in the middle is completed, then the piston rod of the opening and closing cylinder extends and drives the opening plates on two sides to rotate backwards (clockwise rotation is seen on the right side) to the highest point around the bearing seat, during the rising of the opening plate, the opening and closing rod on the mold enters the chute through the sliding opening on the opening plate, and the cover plate on the mold is opened by rotating the rising opening plate to complete the opening work of the mold;

step three: the worker takes the processed and formed sole out of the cavity of the mould and then pours a certain amount of raw materials into the cavity of the mould;

step four: the worker presses the operation button again, under the control of the controller, the piston rod of the opening and closing cylinder contracts and drives the opening and closing plates at two sides to rotate forwards (anticlockwise rotation is seen at the right side) to the lowest point around the bearing seat two, during the descending of the opening and closing plates, the opening and closing rod on the mold can be separated from the sliding groove through the sliding port on the opening and closing plates, the cover plate on the mold is closed through the opening and closing plates which rotate and descend, the cover closing work of the mold is completed, then, the piston rod of the locking cylinder contracts and drives the locking plates at two sides to move towards two sides far away from the mold and be separated from the contact state with the mold, the release of the mold is completed, then, the corner clamping cylinder and the mold are driven to move backwards to the set position through the moving motor, the mold is transferred to the heating furnace through the supporting plate, the reverse moving work of the mold is completed, then, the pressing strip, the mold is free from hooking of the rotary clamping cylinder, and finally the corner clamping cylinder is driven to move forwards to a set position by the moving motor.

The utility model has the advantages that: the utility model discloses under the control of controller, after the controller received the good signal of mould heating in the heating furnace, hook the mould in the heating furnace through corner die clamping cylinder earlier, the rethread moves the motor and moves the assigned position in the backup pad with the mould from the heating furnace forward, the cardboard on the mould is pushed down to the fixed clamp plate of rethread, the locking plate on relocking locking cylinder drive both sides fixes the mould body to intermediate position locking, prize the apron on the mould through the open-close plate on the cylinder drive both sides that opens and shuts at last. The utility model provides a production facility that sole vulcanizes has that the structure is ingenious, convenient operation, labour saving and time saving, has effectively solved the present stage and need artifical with high temperature, heavy mould drag out from the heating furnace earlier, borrows the manual technical problem who opens the very big apron of suction again by means of corresponding instrument.

The embodiments disclosed above are therefore to be considered in all respects as illustrative and not restrictive. All changes which come within the scope of the invention or which are equivalent to the scope of the invention are embraced by the invention.

Claims (10)

1. The utility model provides a production facility that sole vulcanizes which characterized in that: the supporting plate comprises a supporting plate (1), a supporting frame (2), supporting legs (72), a moving mechanism, a locking mechanism and an opening and closing mechanism, wherein the supporting plate (1) and the supporting legs (72) are respectively installed at the top and the bottom of the supporting frame (2), a first transverse rod (4) with left and right orientation is arranged on the front side and the rear side of the supporting frame (2), the first transverse rod (4) is horizontally installed on the supporting frame (2) through a first uniformly distributed vertical rod (3) and a second uniformly distributed vertical rod (5), a second transverse rod (6) with front and rear orientation and left and right symmetric distribution is installed between the first front and rear transverse rods (4), a first front sliding groove (101) with front and rear orientation is arranged in the middle of the supporting plate (1), two sliding grooves (102) are symmetrically arranged on two sides of the first sliding groove (101) of the supporting plate (1), the moving mechanism is arranged in the middle of the supporting plate (1) and can move back and forth along the first sliding groove (101), the locking mechanism The opening and closing mechanisms are symmetrically arranged on the locking mechanisms on the two sides and can move left and right simultaneously with the locking mechanisms.

2. A production plant for the vulcanization of shoe soles according to claim 1, characterized in that: the moving mechanism comprises a first section bar (7), a moving motor (16) and a corner clamping cylinder (21), the first section bar (7) faces to the front and back and is horizontally arranged on the inner side of a first vertical rod (3), a first sliding rail (8) is arranged on the inner side of the first section bar (7), a first sliding block (9) is arranged on the first sliding rail (8) in a sliding manner, a U-shaped first sliding plate (10) is arranged between a left sliding block (9) and a right sliding block (9), an inverted T-shaped first connecting plate (11) is welded on the first sliding plate (10), a rotating shaft (13) is rotatably arranged below the first connecting plate (11) through a first bearing seat (12), driven wheels (14) are arranged at two ends of the rotating shaft (13), an L-shaped first fixing plate (15) is arranged on the lower end face of the first sliding plate (10), and the moving motor (16) is arranged on the first fixing plate (15) through a, the output shaft of the moving motor (16) is provided with a driving wheel (161), the driving wheel (161) is meshed with a driven wheel (14), a rack (17) is installed on the lower end face of the first section bar (7), the rack (17) is meshed with the driven wheel (14), a U-shaped mounting plate I (18) is arranged in the center of the upper portion of the supporting plate (1), a connecting plate II (19) is welded to the lower portion of the mounting plate I (18), the connecting plate II (19) penetrates through the sliding groove I (101) and is connected with the connecting plate I (11) through bolts, the mounting plate II (20) is welded to the upper portion of the sliding groove I (101), and the corner clamping cylinders (21) are symmetrically installed on the back face of the mounting plate II (20).

3. A production plant for the vulcanization of shoe soles according to claim 2, characterized in that: locking mechanism includes locking cylinder (22) and horizontal pole three (30), locking cylinder (22) are installed on horizontal pole two (6) in the middle through fixed plate two (23) level backward, and slide rail two (25) are installed at the rear of locking cylinder (22) in middle horizontal pole two (6), slidable mounting has slider two (26) on slide rail two (25), slide plate two (27) are installed to the up end of slider two (26), connecting block one (24) are installed to the end of the piston rod of locking cylinder (22), connect through connecting strip (28) between connecting block one (24) and slide plate two (27), the both sides symmetry of slide plate two (27) articulates there are connecting rod (29), horizontal pole three (30) symmetry and control orientation install on horizontal pole two (6) on both sides, slide rail three (31) are installed to the up end of horizontal pole three (30), sliding mounting has slider three (32) on three (31) of slide rail, installs the slide three (33) of "nearly" style of calligraphy of invering between three (32) of slider front and back, symmetry and vertical installation have section bar two (34) on three (33) of slide, install connecting plate three (35) between two (34) of front and back, connecting seat (36) are installed to the up end of connecting plate three (35), the overhang end of connecting rod (29) is articulated with connecting seat (36), the top of spout two (102) is equipped with locking plate (37), the lower terminal surface symmetrical welding of locking plate (37) has connecting plate four (38), connecting plate four (38) pass spout two (102) and are connected with section bar two (34).

4. A production plant for the vulcanization of shoe soles according to claim 3, characterized in that: the opening and closing mechanism comprises a first hinged support (43), a second hinged support (44) and an opening and closing air cylinder (45), the first hinged support (43) is installed on a third sliding plate (33) through screws, the second hinged support (44) is arranged above the first hinged support (43) and is hinged with each other, the opening and closing air cylinder (45) is installed on the second hinged support (44) upwards through screws, a second connecting block (46) is installed at the tail end of a piston rod of the opening and closing air cylinder (45), a through groove (104) for the piston rod of the opening and closing air cylinder (45) to pass through is arranged between the front sliding groove second (102) and the rear sliding groove second (102) of the supporting plate (1), a first notch (351) and a second notch (371) for the opening and closing air cylinder (45) to pass through are respectively arranged on the third connecting plate (35) and the locking plate (37), and a bending plate (48) which inclines towards the rear upper side is welded on the rear side of the, bearing frame two (49) are installed to the symmetry on the inclined plane of bent plate (48), rotate respectively on bearing frame two (49) on both sides and install hinge support plate (50) of L type and open close plate (51) of T type, the welding has reinforcing plate (52) between hinge support plate (50) and open close plate (51), install round pin axle (53) between the overhang end of hinge support plate (50) and the middle part of open close plate (51), round pin axle (53) rotate with connecting block two (46) and are connected, the overhang part of open close plate (51) is equipped with spout (511), open close plate (51) are opened on the well upper portion of spout (511) and are had slide opening (512).

5. A production plant for the vulcanization of shoe soles according to claim 1, characterized in that: the lower end face of the supporting frame (2) is provided with a supporting plate (56), the supporting plate (56) is sequentially provided with an electric box (57), a motor controller (60), a first electromagnetic valve (61), a second electromagnetic valve (62) and a third electromagnetic valve (63) from left to right, the motor controller (60) is electrically connected with the moving motor (16), a direct current power supply (58) and a control circuit board (59) are installed in the electric box (57), current input ends of the direct current power supply (58) and the moving motor (16) are electrically connected with an external 220V alternating current power supply, a current output end of the direct current power supply (58) is electrically connected with the control circuit board (59), the first electromagnetic valve (61), the second electromagnetic valve (62) and the third electromagnetic valve (63) respectively, a controller is arranged on the control circuit board (59), and the controller is electrically connected with the motor controller (60) respectively, The electromagnetic valve I (61), the electromagnetic valve II (62) and the electromagnetic valve III (63) are electrically connected, and the electromagnetic valve I (61), the electromagnetic valve II (62) and the electromagnetic valve III (63) are respectively connected with the corner clamping cylinder (21), the locking cylinder (22) and the opening and closing cylinder (45) through air pipes.

6. A sole vulcanization production facility according to claim 5, characterized in that: the right of the preceding terminal surface of carriage (2) articulates there is three (64) mounting panels, power button (65), reset button (66) and operation button (67) are installed from the left hand right side in proper order to the upper portion of three (64) mounting panels, power button (65), reset button (66) and operation button (67) respectively with controller electric connection.

7. The production equipment for vulcanizing the sole according to claim 1 is characterized in that L-shaped mounting plates (70) are symmetrically arranged on the lower end face of the supporting plate (1) on two sides of the sliding groove I (101), pulleys (71) are uniformly arranged on the mounting plates (70), a through wheel groove (105) is correspondingly formed in the supporting plate (1) below the pulley (71), and the pulley (71) penetrates through the wheel groove (105) and is 2 ~ 5mm higher than the supporting plate (1).

8. A production plant for the vulcanization of shoe soles according to claim 3, characterized in that: section bar three (40) are installed perpendicularly to the outside of section bar one (7), the slide rail four (41) of orientation about installing on section bar three (40), slidable mounting has slider four (42) on slide rail four (41), be equipped with spout three (103) between the back spout two (102) in backup pad (1), the welding has slide four (39) between connecting plate four (38) in front and back of locking plate (37), slide four (39) pass spout three (103) and with the installation of slider four (42).

9. A production plant for the vulcanization of shoe soles according to claim 1, characterized in that: limiting plates (68) are symmetrically arranged at the back of the supporting plate (1), and a limiting rod (69) is horizontally arranged between the limiting plates (68) at the two sides.

10. A production plant for the vulcanization of shoe soles according to claim 1, characterized in that: reference blocks (54) are symmetrically arranged on two sides of the first sliding groove (101) of the supporting plate (1), and pressing plates (55) which are cantilevered towards the rear are arranged on the reference blocks (54).

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