CN114589852A - Resin well lid loading attachment for industrial production - Google Patents

Abstract

The invention discloses a resin well cover feeding device for industrial production. The technical problem is as follows: the resin well cover feeding equipment for industrial production can automatically place resin raw materials and a steel reinforcement framework, automatically perform spreading processing on the resin raw materials, and automatically place the processed resin raw materials on a mould. The technical scheme is as follows: a resin well cover feeding device for industrial production comprises a processing table and the like; the processing table is provided with an index plate, eight feeding mechanisms which can send resin raw materials into the hydraulic machine are arranged on the index plate in an annular array mode, the upper side of the processing table is provided with a feeding mechanism which can convey the resin to the feeding mechanisms, and the left side and the right side of the processing table are respectively connected with a pressing mechanism. The feeding mechanism saves the steps that resin needs to be manually placed on the die every time of feeding, and the resin needs to be placed twice, so that the feeding efficiency is improved.

Description

Resin well lid loading attachment for industrial production

Technical Field

The invention relates to the field of urban construction, in particular to a resin well cover feeding device for industrial production.

Background

The resin well lid has the advantages of light weight, high strength, excellent fatigue resistance, breakage safety, simple forming, low noise of vehicle grinding, good chemical corrosion resistance, good acid and alkali resistance, attractive appearance and the like.

When producing the resin well lid among the prior art, the manual work needs weigh the resin raw materials of stirring earlier, then the manual work is put into the mould with the resin raw materials who weighs, then place welded steel reinforcement framework in the mould, and place firmly, then load remaining resin raw materials in the mould, and use the hand to spread out the resin raw materials, then start the hydraulic press and suppress the product, then solidify the shaping gradually under the high temperature of mould and the high pressure condition of machine as the product, then reach the back when the settlement time, the hydraulic press return stroke, the product shaping, take out the product from the mould.

The invention provides a resin well cover feeding device for industrial production, which can automatically place resin raw materials and a reinforcement cage, automatically perform spreading treatment on the resin raw materials and automatically place the treated resin raw materials on a mould, and aims to overcome the defects that in the prior art, when a resin well cover is produced, the resin raw materials and the framework need to be manually fed, the resin raw materials need to be manually spread, and the production efficiency is low.

Disclosure of Invention

Need artifical manual to carry out the material loading to resin raw materials and skeleton among the prior art to need artifical manual to spread out the resin raw materials, the lower shortcoming of production efficiency, technical problem: the resin well cover feeding equipment for industrial production can automatically place resin raw materials and a steel reinforcement framework, automatically perform spreading processing on the resin raw materials, and automatically place the processed resin raw materials on a mould.

The technical scheme is as follows: the utility model provides a resin well lid loading attachment for industrial production, including the processing platform, the graduated disk, feeding mechanism, feed mechanism, swager constructs and puts a mechanism, install the graduated disk on the processing platform, annular array installs eight feeding mechanism that can send into the resin raw materials into the hydraulic press on the graduated disk, the processing platform upside is installed and is sent the feed mechanism of resin to the feed mechanism, processing platform left side and right side are connected with a swager respectively, processing platform left side is connected with and puts a mechanism on feeding mechanism with the steel rib skeleton.

Preferably, the feeding mechanism comprises feeding guide rails, feeding lead screws, feeding motors, feeding frames, feeding blocks, feeding rods, feeding springs, first gears, feeding plates, second gears and feeding racks, eight feeding guide rails are arranged on the dividing plate in an annular array, the feeding guide rails are rotatably connected with the feeding lead screws, the feeding motors are respectively arranged on the feeding guide rails, the feeding motors are respectively connected with the feeding lead screws on the same side, the feeding frames are respectively and slidably connected on the feeding guide rails, the feeding frames are respectively and threadedly connected with the feeding lead screws, the feeding blocks are respectively and slidably connected on the feeding frames, the feeding rods are respectively and fixedly connected at one ends of the feeding blocks close to the feeding motors, the feeding rods are respectively and slidably connected with the feeding frames, the feeding rods are respectively sleeved with the feeding springs, one ends of the feeding blocks far away from the feeding motors are symmetrically and rotatably connected with two first gears which are meshed, and the two feeding plates are symmetrically and fixedly connected on the two first gears, the two feeding plates can be combined into a disc shape, the two feeding plates are symmetrically fixedly connected with two second gears, the second gears are rotatably connected with the feeding block, the feeding rack is fixedly connected with one end of the feeding frame, which is far away from the feeding motor, and the feeding rack can be meshed with the two second gears simultaneously.

Preferably, the feeding mechanism comprises a feeding frame, feeding channels, a feeding motor and a bidirectional screw rod, the feeding frame is fixedly connected to the upper side of the processing table, the two feeding channels are symmetrically communicated with the lower side of the feeding frame, the feeding motor is installed on the front side of the feeding frame, the bidirectional screw rod is connected to the feeding frame in a rotating mode, and a rotating shaft of the feeding motor is connected with the bidirectional screw rod.

Preferably, the material pressing mechanism comprises a material pressing frame, a material pressing electric push rod, a material pressing motor and a material pressing block, the two material pressing frames are fixedly connected to the processing table, the material pressing frames are all provided with the material pressing electric push rods, the telescopic shafts of the material pressing electric push rods are all provided with the material pressing motors, and the rotating shafts of the material pressing motors are all provided with the material pressing block.

Preferably, the frame placing mechanism comprises a fixed frame, a steel frame screw rod, a steel frame motor, a connecting frame, a frame feeding electric push rod, a connecting plate, a frame feeding guide rod, an electromagnet, a frame feeding spring, a vibration motor and a storage box, wherein the fixed frame is fixedly connected to the left side of the processing table, the steel frame screw rod is rotatably connected to the fixed frame, the steel frame motor is installed on the left side of the fixed frame, a rotating shaft of the steel frame motor is connected with the steel frame screw rod, the connecting frame is slidably connected to the fixed frame, the connecting frame is in threaded connection with the steel frame screw rod, the frame feeding electric push rod is installed at the bottom of the connecting frame, the connecting plate is fixedly connected to a telescopic shaft of the frame feeding electric push rod, four frame feeding guide rods are slidably connected to the connecting plate, the bottoms of the four frame feeding guide rods are commonly connected to the electromagnet, the frame feeding spring is sleeved on each frame feeding guide rod, the vibration motor is installed on each connecting plate, and the storage box for placing steel frames is placed on the rear side of the processing table.

As preferred, still including stock stop, stock stop connects the pole including the fender material, stop spring, keep off the work or material rest, the striker plate, the trip bar and trigger wheel, the sliding connection of processing bench symmetry has two to keep off the material and connects the pole, it all overlaps to have stop spring to keep off the material to connect to go up the pole, it has the fender work or material rest to keep off equal rigid coupling on the pole, it has the striker plate to keep off the work or material rest on equal rigid coupling of material rest, the striker plate all with material loading way sliding connection, the equal rigid coupling of one end of keeping away from on the fender work or material rest and keeping away from the fender material and connect the pole has the trip bar, the central point of graduated disk puts the rigid coupling and has the trigger wheel, the trigger wheel can cooperate with the trip bar.

Preferably, the cleaning machine further comprises a cleaning mechanism, the cleaning mechanism comprises a cleaning frame, a cleaning motor and a cleaning wheel, the cleaning frame is installed on the front side of the processing table, the cleaning motor is installed on the cleaning frame, the cleaning wheel is connected to the cleaning frame in a rotating mode, and a rotating shaft of the cleaning motor is connected with a rotating shaft of the cleaning wheel.

Compared with the prior art, the invention has the beneficial effects that:

it all needs artifical manual to place the resin on the mould to have saved the material loading at every turn through feeding mechanism, and need place twice step, the efficiency of material loading has been improved, the shortcoming that the manual resin that takes up of at every turn all needs to be carried out the material loading has been saved through feeding mechanism, staff's manual labor has been alleviateed, can shakeout the processing to accumulational resin raw materials through swager structure, the step of artifical manual shakeout has been saved, the step of artifical manual steelframe of placing on the gum raw materials has been saved through putting a frame mechanism, make production more high-efficient, can prevent through stock stop mechanism that remaining resin raw materials can drop subaerial in the material loading way, not only be favorable to keeping the clean and tidy of work place, still be favorable to resources are saved, through preventing to have remaining resin raw materials to pile up between the clearance board, thereby influence the normal closure of material conveying board.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic view of the position of the feeding rail of the present invention.

Fig. 3 is a schematic view of the overall structure of the feeding mechanism of the present invention.

Fig. 4 is an opening schematic view of the feeding mechanism of the present invention.

Fig. 5 is a exploded view of the connection of the feeding mechanism of the present invention.

Fig. 6 is a schematic view of the position of the feeding mechanism of the present invention.

Fig. 7 is a schematic view of the overall structure of the feeding mechanism of the present invention.

Fig. 8 is a schematic view of the overall structure of the stock stop of the present invention.

Fig. 9 is an enlarged schematic view of the invention at a.

Fig. 10 is an enlarged view of the invention at B.

Description of the reference numerals: 1_ processing table, 2_ dividing disc, 3_ feeding guide rail, 4_ feeding screw rod, 5_ feeding motor, 6_ feeding frame, 7_ feeding block, 8_ feeding rod, 9_ feeding spring, 10_ first gear, 11_ feeding plate, 12_ second gear, 13_ feeding rack, 14_ feeding frame, 1401_ feeding channel, 15_ feeding motor, 16_ bidirectional screw rod, 17_ pressing frame, 18_ pressing electric push rod, 19_ pressing motor, 20_ pressing block, 21_ fixing frame, 2101_ steel frame screw rod, 22_ motor, 23_ connecting frame, 24_ feeding frame electric push rod, 25_ connecting plate, 26_ feeding frame guide rod, 27_ electromagnet, 28_ feeding frame spring, 29_ vibration motor, 2901_ box, 30_ blocking rod, 31_ blocking spring, 32_ blocking frame, storage plate, 33_ triggering rod, 34_ triggering wheel, 35_ clearing frame, 36_ cleaning motor, 37_ cleaning wheel.

Detailed Description

The following description is only a preferred embodiment of the present invention, and does not limit the scope of the present invention.

Example 1

As shown in fig. 1 and 2, a resin well cover feeding device for industrial production comprises a processing table 1, an index plate 2, a feeding mechanism, a pressing mechanism and a frame placing mechanism, wherein the index plate 2 is installed on the processing table 1, the index plate 2 is in the prior art, eight feeding mechanisms capable of feeding resin raw materials into a hydraulic machine are installed on the index plate 2 in an annular array mode, the feeding mechanism capable of conveying the resin to the feeding mechanism is installed on the upper side of the processing table 1, the pressing mechanism is connected to the left side of the processing table 1, and the frame placing mechanism capable of placing a steel rib frame on the feeding mechanism is connected to the left side of the processing table 1.

Before working, the resin raw material after being processed is manually put into a feeding mechanism, then an index plate 2 is controlled to rotate intermittently, the rotating angle of the index plate 2 is one eighth of a circle each time, when a hydraulic press starts to press a well cover each time, the index plate 2 starts to rotate at the moment, when a feeding mechanism rotates to the lower part of the feeding mechanism, the feeding mechanism is controlled to convey the resin raw material onto the feeding mechanism, when the index plate 2 rotates continuously and the feeding mechanism rotates to the lower part of a material pressing mechanism, the material pressing mechanism is controlled to spread the resin on the feeding mechanism, when the index plate 2 rotates continuously and the feeding mechanism rotates to the lower part of a rack placing mechanism, the rack placing mechanism is controlled to place a steel bar framework on the resin raw material on the feeding mechanism, the rack placing mechanism finishes placing and starts to reset, when the index plate 2 rotates continuously and rotates twice, at the moment, the feeding mechanism is located below the feeding mechanism again, then the feeding mechanism carries out secondary feeding on the feeding mechanism, so that resin covers the steel bar framework, after the dividing plate 2 rotates again, the feeding mechanism completing the secondary feeding is located below another material pressing mechanism, then the other material pressing mechanism can spread out the resin raw material, after the dividing plate 2 rotates again, the feeding mechanism is located on the left side of the hydraulic machine, then the feeding mechanism is controlled to place the resin raw material and the steel bar framework on the mold, after the feeding mechanism completes resetting, the hydraulic machine starts to press the well cover, at the moment, the dividing plate 2 rotates again, after the dividing plate 2 rotates twice, the feeding mechanism is located below the feeding mechanism again, and therefore a complete working cycle is completed; the hydraulic press is an existing circular resin well lid die-pressing machine and is operated under manual control, when the device is operated for the first time, as shown in figure 1, feeding is not carried out on two feeding mechanisms positioned above the right side, and when the two feeding mechanisms feed materials to the hydraulic press, the hydraulic press is not controlled to press; the feeding mechanism positioned below the right side is in an idle running state at the moment, and feeding for the first time can be started after clockwise rotation is performed again; the three feeding mechanisms are positioned on the last side and the left side, and because the four feeding mechanisms do not carry out first feeding on the foremost side, when the four feeding mechanisms feed materials to the hydraulic press, the hydraulic press is not controlled to carry out pressing at the moment, so that waste reporting is avoided, and then the four feeding mechanisms are manually fed into the hydraulic press to be manually taken out; when the feeding mechanism starts to feed from the most front side for the first time, then rotates clockwise and carries out subsequent steps, then turns to the hydraulic machine and puts the materials on the hydraulic machine, then the hydraulic machine is controlled again manually to press, and the normal product is generated at the moment.

Example 2

On the basis of the embodiment 1, referring to fig. 2-5, the feeding mechanism comprises feeding guide rails 3, feeding lead screws 4, feeding motors 5, feeding frames 6, feeding blocks 7, feeding rods 8, feeding springs 9, first gears 10, feeding plates 11, second gears 12 and feeding racks 13, eight feeding guide rails 3 are installed on the dividing disc 2 in an annular array, the feeding lead screws 4 are rotatably connected on the feeding guide rails 3, the feeding motors 5 are installed on the feeding guide rails 3, the feeding motors 5 are connected with the feeding lead screws 4 on the same side, the feeding motors 5 can drive the feeding lead screws 4 to rotate, the feeding frames 6 are slidably connected on the feeding guide rails 3, the feeding frames 6 are in threaded connection with the feeding lead screws 4, the feeding frames 6 can be driven to slide on the feeding guide rails 3 when the feeding lead screws 4 rotate, the feeding blocks 7 are slidably connected on the feeding frames 6, one end of the feeding block 7 close to the feeding motor 5 is fixedly connected with a feeding rod 8, the feeding rod 8 is in sliding connection with the feeding frame 6, the feeding rod 8 is sleeved with a feeding spring 9, the feeding spring 9 can be compressed when the feeding block 7 slides towards the direction close to the feeding motor 5, one end of the feeding block 7 far away from the feeding motor 5 is symmetrically and rotatably connected with two first gears 10, the two first gears 10 are meshed, two feeding plates 11 are symmetrically and fixedly connected onto the two first gears 10, the two feeding plates 11 can be combined into a disc shape, resin raw materials are placed on the feeding plates 11, two second gears 12 are symmetrically and fixedly connected onto the two feeding plates 11, the two second gears 12 are not meshed, the second gears 12 are rotatably connected with the feeding block 7, one end of the feeding frame 6 far away from the feeding motor 5 is fixedly connected with a feeding rack 13, the feeding rack 13 can be simultaneously meshed with the two second gears 12, the two second gears 12 can be driven to rotate in opposite directions by the feeding rack 13.

When the dividing plate 2 rotates, the feeding guide rail 3 is driven to rotate, the feeding frame 6 is driven to rotate, the feeding block 7 is driven to rotate, the two feeding plates 11 are driven to rotate, when the two feeding plates 11 rotate to be positioned right below the feeding mechanism, the two feeding plates 11 are in a closed state at the moment, the two feeding plates 11 are combined into a disc shape, and the feeding mechanism is controlled to convey the resin raw materials to discs of the two feeding plate 11 groups at the moment; when the feeding plate 11 completing the first feeding rotates to the position below the material pressing mechanism, the resin raw material is spread by the material pressing mechanism; when the feeding plate 11 after spreading the resin raw material rotates to the lower part of the frame placing mechanism, placing the steel frame on the spread resin raw material through the frame placing mechanism; when the feeding plate 11 on which the steel frame is placed rotates to the position right below the feeding mechanism again, the feeding mechanism is controlled to feed again, so that the resin raw materials are covered on the steel frame; when the feeding plate 11 which finishes the second feeding rotates to the position below the other pressing mechanism, the resin is spread by the pressing mechanism, so that the resin raw material can be uniformly covered on the steel frame; when the feeding plate 11 after the resin raw material is spread again rotates to the left side of the hydraulic press, the dividing plate 2 stops rotating, then the feeding motor 5 is controlled to rotate, so that the feeding screw rod 4 is driven to rotate, the feeding frame 6 slides towards the direction close to the hydraulic press, meanwhile, the feeding block 7 moves towards the direction close to the hydraulic press along with the feeding frame 6 through the feeding spring 9, so that the two feeding plates 11 are driven to move towards the direction close to the hydraulic press, when the bottom of the feeding block 7 is contacted with the edge of the hydraulic press, the feeding block 7 cannot move towards the direction close to the hydraulic press, a disc formed by the two feeding plates 11 is positioned right above a mould, at the moment, the feeding frame 6 continues to move towards the direction close to the hydraulic press, when the feeding frame 6 continues to slide towards the direction close to the hydraulic press, the feeding spring 9 is compressed, so that the feeding rack 13 is driven to move towards the direction close to the hydraulic press, when the feeding rack 13 is meshed with the two second gears 12 and continuously moves forwards, so that the two second gears 12 rotate in different directions to drive the two feeding plates 11 to open towards two sides, and simultaneously drive the two first gears 10 to rotate, so that the two feeding plates 11 can synchronously open towards two sides, when the opened angle of the two feeding plates 11 can enable the spread-out processed resin raw material to fall, the resin raw material can fall into a mold, at the moment, the feeding motor 5 is controlled to rotate reversely to drive the feeding screw rod 4 to rotate reversely, so that the feeding rack 6 moves towards the direction far away from the hydraulic machine, so that the feeding rack 13 is driven to move towards the direction far away from the hydraulic machine, at the moment, the feeding block 7 cannot move towards the direction far away from the hydraulic machine along with the feeding rack 6 under the pushing of the feeding spring 9, so that the feeding rack 13 can enable the two feeding plates 11 to start to close through the two second gears 12, when pay-off spring 9 recovers completely, this moment pay-off block 7 begins to follow pay-off frame 6 and removes to the direction of keeping away from the hydraulic press, when pay-off block 7 moves to withdraw from in the hydraulic press, the hydraulic press begins to suppress the resin well lid this moment, graduated disk 2 rotates once more this moment, after graduated disk 2 rotates twice, pay-off board 11 after the closure this moment is located the feed mechanism below, feed mechanism begins to convey the resin raw materials on the disc of pay-off board 11 constitution, thereby form work cycle, it all needs artifical manual to place the resin on the mould to have saved at every turn to feed through feed mechanism, and need place twice shortcoming, and work efficiency is improved.

Example 3

On the basis of embodiment 2, referring to fig. 6 and 7, the feeding mechanism includes a feeding frame 14, a feeding channel 1401, a feeding motor 15 and a bidirectional screw rod 16, the feeding frame 14 is fixedly connected to the upper side of the processing table 1, the upper end opening area of the feeding frame 14 is large and the bottom area is large, the feeding frame 14 is used for placing resin raw materials, the two feeding channels 1401 are symmetrically communicated with the lower side of the feeding frame 14, the feeding motor 15 is installed on the front side of the feeding frame 14, the bidirectional screw rod 16 is rotatably connected to the feeding frame 14, two blades in opposite directions are symmetrically installed on the bidirectional screw rod 16, the rotating shaft of the feeding motor 15 is connected to the bidirectional screw rod 16, and the bidirectional screw rod 16 can be driven to rotate by the feeding motor 15.

When the flitch 11 after the closure rotates the material loading of front side and says 1401 below, another group put the flitch 11 of steelframe and is located the material loading of rear side and say 1401 below this moment, control material loading motor 15 this moment rotates, thereby drive two-way hob 16 and rotate, thereby convey the resin raw materials in the material loading frame 14 in the material loading is said 1401 to the material loading of both sides, thereby make the resin raw materials say 1401 conveying downwards through the material loading of both sides, thereby make the resin raw materials drop on flitch 11 and steelframe, thereby accomplished the material loading, the shortcoming that all needs artifical manual picking up the resin to carry out the material loading at every turn has been saved through feed mechanism, manpower and materials have been saved, the staff has made things convenient for.

Referring to fig. 2, 6 and 9, the pressing mechanism includes two pressing frames 17, two pressing electric push rods 18, a pressing motor 19 and a pressing block 20, the two pressing frames 17 are fixedly connected to the processing table 1, the pressing electric push rods 18 are mounted on the pressing frames 17, the pressing motors 19 are mounted on telescopic shafts of the pressing electric push rods 18, the pressing blocks 20 are mounted on rotating shafts of the pressing motors 19, the pressing blocks 20 are V-shaped, and the bottom edges of the pressing blocks are rounded.

When the feeding plate 11 after the first feeding is rotated to the right below the left material pressing mechanism, the feeding plate 11 after the second feeding is positioned under the right material pressing mechanism, the two material pressing electric push rods 18 are controlled to extend downwards to drive the two material pressing motors 19 to move downwards, the two material pressing motors 19 are simultaneously started, so that the material pressing motors 19 drive the material pressing blocks 20 to rotate, the material pressing blocks 20 are V-shaped, so that the resin raw materials are spread around when the material pressing blocks are contacted with the resin raw materials and continue to move downwards, the resin is not accumulated together, when the feeding mechanism begins to reset, the material pressing electric push rods 18 are controlled to contract upwards to reset, so that the material pressing motors 19 are driven to move upwards to reset, when the material pressing blocks 20 move to be not contacted with the resin raw materials, the material pressing motors 19 are stopped, the accumulated resin raw materials can be spread through the material pressing mechanisms, the step of manual spreading is omitted, and the working efficiency is improved.

Referring to fig. 6 and 9, the frame placing mechanism comprises a fixed frame 21, a steel frame screw 2101, a steel frame motor 22, a connecting frame 23, a frame feeding electric push rod 24, a connecting plate 25, frame feeding guide rods 26, an electromagnet 27, a frame feeding spring 28, a vibration motor 29 and a storage box 2901, the fixed frame 21 is fixedly connected to the left side of the processing table 1, the steel frame screw 2101 is rotatably connected to the fixed frame 21, the steel frame motor 22 is mounted to the left side of the fixed frame 21, a rotating shaft of the steel frame motor 22 is connected with the steel frame screw 2101, the steel frame motor 22 can drive the steel frame screw 2101 to rotate, the connecting frame 23 is slidably connected to the fixed frame 21, the connecting frame 23 is in threaded connection with the screw 2101, the steel frame screw 2101 can slide the connecting frame 23 on the fixed frame 21 when rotating, the frame feeding electric push rod 24 is mounted at the bottom of the connecting frame 23, the connecting plate 25 is fixedly connected to the telescopic shaft of the frame feeding electric push rod 24, the connecting plate 25 is slidably connected with the four frame feeding guide rods 26, the bottom of the four frame conveying guide rods 26 is connected with an electromagnet 27, the electromagnets 27 are in the prior art, whether magnetism exists can be manually controlled, frame conveying springs 28 are sleeved on the frame conveying guide rods 26, the frame conveying springs 28 can be compressed when the connecting plate 25 slides downwards on the frame conveying guide rods 26, a vibration motor 29 is installed on the connecting plate 25, and a material storage box 2901 used for placing a steel frame is placed on the rear side of the machining table 1.

When the feeding plate 11 after the first spreading process is rotated to the position below the electromagnet 27, the feeding frame electric push rod 24 is controlled to extend downwards, so as to drive the connecting plate 25 to move downwards, and the vibration motor 29 is started at the same time, when the steel frame is contacted with the resin raw material, the feeding frame electric push rod 24 continues to extend downwards for a short distance, and the vibration motor 29 can generate a vibration effect, so that the steel frame is more easily attached to the resin raw material, through the use of the feeding frame spring 28, the pressure of the feeding push rod when the steel reinforcement framework is placed on the resin raw material can be prevented from being too large, so that damage to the device can be caused, when the placement is completed, the magnetism of the electromagnet 27 disappears, then the feeding frame electric push rod 24 is controlled to contract upwards, and the steel frame motor 22 is started at the same time, so as to drive the steel frame screw 2101 to rotate, so as to drive the connecting frame 23 to slide towards the direction close to the steel frame motor 22, thereby area send a frame electric putter 24 and to the direction removal that is close to steelframe motor 22, when electro-magnet 27 is located the storage case 2901 top, stop steelframe motor 22 this moment, control send a frame electric putter 24 to stretch out downwards this moment, make electro-magnet 27 energize simultaneously, thereby attract the framework of steel reinforcement through electro-magnet 27, then control the pay-off push rod upwards to contract, then control steelframe motor 22 reversal, thereby drive steelframe lead screw 2101 and rotate, thereby drive to link up frame 23 and slide to the direction of keeping away from steelframe motor 22, thereby drive and send a frame electric putter 24 to the direction removal of keeping away from steelframe motor 22, stop motor 22 after linking up frame 23 completion resets, the step of placing the steelframe to the gum raw materials has been saved manual to the steelframe through putting the frame mechanism, degree of automation is higher, has improved work efficiency simultaneously.

Referring to fig. 6, fig. 7 and fig. 8, further include a material blocking mechanism, the material blocking mechanism includes material blocking connecting rods 30, material blocking springs 31, material blocking frames 32, material blocking plates 3201, trigger rods 33 and trigger wheels 34, two material blocking connecting rods 30 are symmetrically and slidably connected to the processing table 1, material blocking springs 31 are sleeved on the material blocking connecting rods 30, material blocking frames 32 are fixedly connected to the material blocking connecting rods 30, when the material blocking frames 32 move in a direction far away from the trigger wheels 34, the material blocking springs 31 are compressed, material blocking plates 3201 are fixedly connected to the material blocking frames 32, the material blocking plates 3201 are slidably connected to the material feeding channel 1401, the material blocking channel 1401 can be completely blocked by the material blocking plates 3201, trigger rods 33 are fixedly connected to one ends of the material blocking frames 32 far away from the material blocking connecting rods 30, trigger wheels 34 are fixedly connected to the central positions of the dividing plates 2, the trigger wheels 34 are in an octagonal shape of a fillet, and the trigger wheels 34 can be matched with the trigger rods 33.

When the index plate 2 rotates, the trigger wheel 34 is driven to rotate, at this time, the material blocking spring 31 can push the material blocking frame 32 to move towards the direction close to the trigger wheel 34, so as to drive the material blocking plate 3201 to slide towards the material channel 1401, so as to prevent the resin raw material remained in the material channel 1401 from falling down onto the ground, then the trigger wheel 34 continues to rotate, then the trigger wheel 34 can start to extrude the trigger rods 33 at two sides towards the direction far from the trigger wheel 34, so as to drive the material blocking frames 32 at two sides to move towards the direction far from the trigger wheel 34, when the material blocking frame 32 moves towards the direction far from the trigger wheel 34, the material blocking spring 31 can be compressed, so as to drive the material blocking plates 3201 at two sides to slide towards the direction far from the trigger wheel 34, then when the index plate 2 stops rotating, at this time, the closed material feeding plate 11 is positioned below the material channel 1401, at this time, the material blocking plate 3201 cannot block the resin raw material from falling down from the material channel 1401, the feeding channel 1401 can be blocked when the feeding plate 11 is not positioned below the feeding channel 1401 through the material blocking mechanism, so that residual resin raw materials in the feeding channel 1401 are prevented from falling on the ground, the neatness of a work site is favorably kept, and resources are saved.

Referring to fig. 6 and 10, the cleaning machine further comprises a cleaning mechanism, the cleaning mechanism comprises a cleaning frame 35, a cleaning motor 36 and a cleaning wheel 37, the cleaning frame 35 is installed on the front side of the processing table 1, the cleaning motor 36 is installed on the cleaning frame 35, the cleaning frame 35 is rotatably connected with the cleaning wheel 37, bristles are arranged on the cleaning wheel 37, a rotating shaft of the cleaning motor 36 is connected with a rotating shaft of the cleaning wheel 37, and the cleaning motor 36 can drive the cleaning wheel 37 to rotate.

When index plate 2 stall, the feed mechanism after accomplishing the pay-off to the hydraulic press this moment is located the clearance mechanism top, control feed mechanism can contact with clearance frame 35 when stretching out forward this moment, clearance frame 35 can block pay-off piece 7 and remove to the direction that is close to clearance wheel 37, thereby two feed plates 11 can open when feed frame 6 continues to remove to the direction that is close to clearance wheel 37, start clearance motor 36 simultaneously, thereby drive clearance wheel 37 and rotate, thereby what the carding was gone up to clearance wheel 37 cleans the border of feed plate 11, thereby can prevent to have remaining resin raw materials to pile up between the feed plate 11, thereby influence the normal closure of feed plate 11.

The above description is only an embodiment of the present invention, and is not intended to limit the scope of the present invention, and all equivalent structures or equivalent processes performed by the present invention or directly or indirectly applied to other related technical fields are also included in the scope of the present invention.

Claims (7)

1. The utility model provides a resin well lid loading attachment for industrial production, a serial communication port, including processing platform (1), graduated disk (2), feeding mechanism, swager constructs and puts a mechanism, install graduated disk (2) on processing platform (1), annular array installs eight feeding mechanism that can send into the resin raw materials into the hydraulic press on graduated disk (2), processing platform (1) upside is installed and is sent the feeding mechanism of resin to feeding mechanism, processing platform (1) left side and right side are connected with a swager respectively, processing platform (1) left side is connected with puts a mechanism on feeding mechanism with steel rib framework.

2. The resin well cover feeding device for industrial production according to claim 1, wherein the feeding mechanism comprises feeding guide rails (3), feeding screw rods (4), feeding motors (5), a feeding frame (6), feeding blocks (7), feeding rods (8), feeding springs (9), first gears (10), feeding plates (11), second gears (12) and feeding racks (13), eight feeding guide rails (3) are arranged on the dividing disc (2) in an annular array manner, the feeding screw rods (4) are rotatably connected on the feeding guide rails (3), the feeding motors (5) are arranged on the feeding guide rails (3), the feeding motors (5) are connected with the feeding screw rods (4) on the same side, the feeding frames (6) are slidably connected on the feeding guide rails (3), the feeding frames (6) are in threaded connection with the feeding screw rods (4), the feeding blocks (7) are slidably connected on the feeding frames (6), the equal rigid coupling of one end that is close to feeding motor (5) on pay-off block (7) has pay-off pole (8), pay-off pole (8) all with pay-off frame (6) sliding connection, it has pay-off spring (9) all to overlap on pay-off pole (8), the rotation of keeping away from the one end symmetry of feeding motor (5) on pay-off block (7) is connected with two first gears (10), two first gears (10) mesh, the rigid coupling of symmetry has two feed plates (11) on two first gears (10), two feed plates (11) can make up into the disc shape, the rigid coupling of symmetry has two second gears (12) on two feed plates (11), second gear (12) all rotate with pay-off block (7) and are connected, the equal rigid coupling of one end of keeping away from feeding motor (5) on pay-off frame (6) has pay-off rack (13), pay-off rack (13) can mesh with two second gears (12) simultaneously.

3. The resin well cover feeding device for industrial production according to claim 2, wherein the feeding mechanism comprises a feeding frame (14), feeding channels (1401), a feeding motor (15) and a bidirectional screw rod (16), the feeding frame (14) is fixedly connected to the upper side of the processing table (1), the two feeding channels (1401) are symmetrically communicated to the lower side of the feeding frame (14), the feeding motor (15) is installed on the front side of the feeding frame (14), the bidirectional screw rod (16) is rotatably connected to the feeding frame (14), and a rotating shaft of the feeding motor (15) is connected with the bidirectional screw rod (16).

4. The resin well cover feeding device for industrial production according to claim 3, wherein the pressing mechanism comprises a pressing frame (17), a pressing electric push rod (18), a pressing motor (19) and a pressing block (20), the two pressing frames (17) are fixedly connected to the processing table (1), the pressing electric push rods (18) are mounted on the pressing frames (17), the pressing motors (19) are mounted on telescopic shafts of the pressing electric push rods (18), and the pressing blocks (20) are mounted on rotating shafts of the pressing motors (19).

5. The resin well cover feeding device for industrial production according to claim 4, wherein the frame placing mechanism comprises a fixed frame (21), a steel frame screw rod (2101), a steel frame motor (22), a connecting frame (23), a frame feeding electric push rod (24), a connecting plate (25), a frame feeding guide rod (26), an electromagnet (27), a frame feeding spring (28), a vibration motor (29) and a storage box (2901), the fixed frame (21) is fixedly connected to the left side of the processing table (1), the steel frame screw rod (2101) is rotatably connected to the fixed frame (21), the steel frame motor (22) is installed on the left side of the fixed frame (21), a rotating shaft of the steel frame motor (22) is connected with the steel frame screw rod (2101), the connecting frame (23) is slidably connected to the fixed frame (21), the connecting frame (23) is in threaded connection with the steel frame screw rod (2101), the frame feeding electric push rod (24) is installed at the bottom of the connecting frame (23), the fixed connection has linkage plate (25) on the telescopic shaft of send a frame electric putter (24), and sliding connection has four to send a frame guide arm (26) on linkage plate (25), and four send a frame guide arm (26) bottoms to be connected with electro-magnet (27) jointly, send all to overlap on a frame guide arm (26) to send and send a frame spring (28), install shock dynamo (29) on linkage plate (25), and processing platform (1) rear side has been placed and has been used for placing storage case (2901) of steelframe.

6. The resin well cover feeding device for industrial production according to claim 5, further comprising a material blocking mechanism, wherein the material blocking mechanism comprises a material blocking connecting rod (30), a material blocking spring (31) and a material blocking frame (32), striker plate (3201), triggering lever (33) and trigger wheel (34), the sliding connection of symmetry has two to keep off material and connects pole (30) on processing platform (1), it has striker spring (31) all to overlap on keeping off material and connecting pole (30), it has fender frame (32) all to link firmly on keeping off material and connecting pole (30), it has striker plate (3201) all to link firmly on fender frame (32), striker plate (3201) all with material loading way (1401) sliding connection, the equal rigid coupling of one end of keeping away from on fender frame (32) and connecting pole (30) has triggering lever (33), the central point of graduated disk (2) puts the rigid coupling has triggering wheel (34), triggering wheel (34) can cooperate with triggering lever (33).

7. The resin well cover feeding device for industrial production according to claim 6, further comprising a cleaning mechanism, wherein the cleaning mechanism comprises a cleaning frame (35), a cleaning motor (36) and a cleaning wheel (37), the cleaning frame (35) is installed on the front side of the processing table (1), the cleaning motor (36) is installed on the cleaning frame (35), the cleaning wheel (37) is rotatably connected to the cleaning frame (35), and a rotating shaft of the cleaning motor (36) is connected with a rotating shaft of the cleaning wheel (37).

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