CN112829045B

CN112829045B - Mould bearing device

Info

Publication number: CN112829045B
Application number: CN202110004976.6A
Authority: CN
Inventors: 李雷
Original assignee: Changzhou Honglian Port Machinery Co ltd
Current assignee: Changzhou Honglian Port Machinery Co ltd
Priority date: 2019-07-10
Filing date: 2019-07-10
Publication date: 2022-08-02
Anticipated expiration: 2039-07-10
Also published as: CN112847993A; CN112829045A; CN110315635A

Abstract

The invention discloses a mold bearing device which comprises a strip-shaped bearing base, wherein a rotary extrusion forming mechanism is arranged on the upper surface of the strip-shaped bearing base, a moving mechanism is arranged on the lower surface of the strip-shaped bearing base, and a fixing mechanism is arranged on the side surface of the strip-shaped bearing base. The device has the advantages of simple operation, reliable pouring, stable forming inside, small occupied area, convenience in rotating and blowing, acceleration of solidification speed, convenience in adapting to different molds, convenience in adjusting pouring amount according to different molds, and convenience in disassembling and carrying the molds.

Description

Mould bearing device

Technical Field

The invention relates to the field of molds, in particular to a mold bearing device.

Background

The mould is used for bearing the liquid material, and the liquid material is formed by drying and natural air drying according to the condition in the mould.

Traditional mould shaping, need to carry out the removal with the bucket that bears the weight of the material and pour, pour after in order to guarantee inside fashioned stability, usually can not remove, a large amount of pours, area is bigger, the bucket that bears the weight of the material of round trip movement is also inconvenient, and if natural static air-dry, the setting time is longer, to different moulds, the volume of pouring still needs to be adjusted, still need carry out the measurement again to traditional pouring, it is inconvenient, the stoving of large tracts of land is also inconvenient, consequently, in order to solve these circumstances, it is very necessary to mould shaping operation to design a rotation and pours with fashioned device.

Disclosure of Invention

The invention aims to solve the problems and designs a mould bearing device.

The technical scheme of the invention is that the mold bearing device comprises a strip-shaped bearing base, wherein a rotary extrusion forming mechanism is arranged on the upper surface of the strip-shaped bearing base, a moving mechanism is arranged on the lower surface of the strip-shaped bearing base, a fixing mechanism is arranged on the side surface of the strip-shaped bearing base, the rotary extrusion forming mechanism comprises a first circular groove, a first rotary motor, a rotary disc, a fixed circular ring bulge, a plurality of arc-edge N-shaped frames, a plurality of strip-shaped grooves and a sliding track, the first circular groove is formed in the center of the upper surface of the strip-shaped bearing base, the first rotary motor is embedded in the inner lower surface of the first circular groove, the rotary end of the first rotary motor is upward, the rotary disc is sleeved on the rotary end of the first rotary motor, the fixed circular ring bulge is fixedly connected to the upper surface of the strip-shaped bearing base and is positioned outside the first rotary motor, the plurality of arc-edge N-shaped frames are fixedly connected to the lower surface of the rotary disc and matched with the fixed circular ring bulge, a plurality of strip-shaped grooves are formed in the upper surface of the rotary disc, and the sliding track is embedded in each strip-shaped groove, An electric control moving trolley arranged in each sliding track, arc limiting plates which are fixedly connected to the outer side surface of the rotating disc and correspond to each strip-shaped notch, a group of set screws which are arranged at two ends of each arc limiting plate and are in threaded connection with the side surface of the rotating disc, a vertical supporting plate which is fixedly connected to one end of the upper surface of each electric control moving trolley, a plurality of horizontal electric control push rods which are embedded on the side surface of each vertical supporting plate, a fixing clamp which is sleeved on one end surface of each horizontal electric control push rod, a mold half shell which is arranged on each electric control moving trolley and is connected with the corresponding plurality of fixing clamps, a supporting frame which is fixedly connected to the upper surface of the strip-shaped bearing base and is positioned at the center of the rear side of the rotating disc, a group of fixing plates which are fixedly connected to the upper surface of the supporting frame, a bearing round rod which penetrates through the group of fixing plates, a pouring bearing box body which is sleeved on the bearing round rod, The device comprises an inclined support plate fixedly connected to the rear surface of a support frame, a group of hydraulic telescopic rods arranged between the inclined support plate and the rear side surface of a pouring bearing box body, a pouring pipe embedded at the lower end of the front surface of the pouring bearing box body and corresponding to a half mould shell, an electromagnetic valve arranged on the pouring pipe, a support rod fixedly connected to the center of the upper surface of a rotating disc, an electric control telescopic rod embedded on the lower end surface of the support rod, and a circular extrusion plate sleeved on the lower end surface of the electric control telescopic rod and corresponding to a group of half mould shells.

The fixing mechanism is composed of two groups of horizontal strip-shaped grooves processed on the two opposite side surfaces of the strip-shaped bearing base, a short cylinder embedded at one end in each horizontal strip-shaped groove, a fixing ball sleeved on each short cylinder, a rotating arm sleeved on each fixing ball and matched with the corresponding horizontal strip-shaped groove, and a sucker embedded on the lower end face of each rotating arm.

The moving mechanism is composed of a crossed slide rail fixedly connected to the lower surface of the strip-shaped bearing base, two groups of sliding blocks arranged on the crossed slide rail, two groups of folded supporting round rods embedded on the lower surface of each sliding block, and universal wheels sleeved on each folded supporting round rod.

The number of the arc-edge N-shaped frames is 3-5, and a fixing nail is arranged between the inner upper surface of each arc-edge N-shaped frame and the lower surface of the rotating disc.

The number of the strip-shaped grooves is 4-6 groups, and the distance between every two adjacent groups of the strip-shaped grooves is the same.

The longitudinal section of the supporting rod is L-shaped.

The side surface of the strip-shaped bearing base is embedded with a folded pushing handle.

And a commercial power interface and a control switch are embedded in the free position of the side surface of the bar-shaped bearing base.

The number of the horizontal electric control push rods is 2-4, and the horizontal electric control push rods are equidistantly positioned on the same vertical line.

And the group of hydraulic telescopic rods are positioned on the same horizontal line.

The rotary positioning die bearing device manufactured by the technical scheme of the invention has the advantages of simple operation, reliable pouring, stable forming inside, small occupied area, convenience for rotating and blowing, accelerated solidification speed, convenience for adapting to different dies, convenience for adjusting pouring amount according to different dies and convenience for disassembling and carrying dies.

Drawings

FIG. 1 is a schematic view of a mold carrier according to the present invention;

FIG. 2 is a top plan view of a mold carrier of the present invention;

FIG. 3 is a partial, fragmentary, elevational view of a securing mechanism of a mold carrier apparatus of the present invention;

FIG. 4 is a partial enlarged view of the engagement of the rotary disk, the slide rail, the arc-shaped restricting plate and the set screw in the mold carrying device according to the present invention;

fig. 5 is a partial enlarged view of the sliding rail, the vertical support plate, the horizontal electrically controlled push rod, the fixed clamping hands and the half mold shell of the mold carrier device of the present invention.

In the figure, 1, a strip-shaped bearing base; 2. a first rotating electrical machine; 3. rotating the disc; 4. fixing the circular ring bulge; 5. an arc-edge N-shaped frame; 6. a sliding track; 7. an electrically controlled travelling car; 8. an arc-shaped limiting plate; 9. a set screw; 10. a vertical support plate; 11. a horizontal electrically controlled push rod; 12. fixing the clamping hands; 13. a mold half shell; 14. a support frame; 15. a fixing plate; 16. a load-bearing round bar; 17. pouring a bearing box body; 18. inclining the support plate; 19. a hydraulic telescopic rod; 20. pouring a pipe; 21. an electromagnetic valve; 22. a support bar; 23. an electric control telescopic rod; 24. a circular extrusion plate; 25. a short cylinder; 26. fixing the ball; 27. a rotating arm; 28. a suction cup; 29. cross slide rails; 30. a slider; 31. a fold-shaped support round bar; 32. a universal wheel; 33. fixing nails; 34. a fold-shaped push handle; 35. a mains supply interface; 36. and controlling the switch.

Detailed Description

The invention is described in detail with reference to the accompanying drawings, and as shown in fig. 1-5, a mold bearing device comprises a bar-shaped bearing base 1, wherein a rotary extrusion forming mechanism is arranged on the upper surface of the bar-shaped bearing base 1, a moving mechanism is arranged on the lower surface of the bar-shaped bearing base 1, a fixing mechanism is arranged on the side surface of the bar-shaped bearing base 1, the rotary extrusion forming mechanism comprises a first circular groove processed at the center of the upper surface of the bar-shaped bearing base 1, a first rotary motor 2 embedded in the inner lower surface of the first circular groove and with an upward rotary end, a rotary disc 3 sleeved on the rotary end of the first rotary motor 2, a fixed circular ring bulge 4 fixedly connected to the upper surface of the bar-shaped bearing base 1 and positioned outside the first rotary motor 2, a plurality of arc-edge N-shaped frames 5 fixedly connected to the lower surface of the rotary disc 3 and matched with the fixed circular ring bulge 4, and a plurality of arc-edge N-shaped frames 5, A plurality of groups of strip-shaped grooves processed on the upper surface of the rotating disc 3, sliding tracks 6 embedded in each strip-shaped groove, an electric control moving trolley 7 arranged in each sliding track 6, arc-shaped limiting plates 8 fixedly connected with the outer side surface of the rotating disc 3 and corresponding to each strip-shaped groove, a group of set screws 9 arranged at two ends of each arc-shaped limiting plate 8 and in threaded connection with the side surface of the rotating disc 3, a vertical supporting plate 10 fixedly connected with one end of the upper surface of each electric control moving trolley 7, a plurality of horizontal electric control push rods 11 embedded on the side surface of each vertical supporting plate 10, a fixed clamping hand 12 sleeved on one end surface of each horizontal electric control push rod 11, a mold half shell 13 arranged on each electric control moving trolley 7 and connected with the corresponding plurality of fixed clamping hands 12, a supporting frame 14 fixedly connected with the upper surface of the strip-shaped bearing base 1 and positioned at the center of the rear side of the rotating disc 3, A group of fixed plates 15 fixedly connected to the upper surface of the supporting frame 14, a bearing round rod 16 penetrating through the group of fixed plates 15, a pouring bearing box body 17 sleeved on the bearing round rod 16, an inclined supporting plate 18 fixedly connected to the rear surface of the supporting frame 14, a group of hydraulic telescopic rods 19 arranged between the inclined supporting plate 18 and the rear side surface of the pouring bearing box body 17, a pouring pipe 20 embedded at the lower end of the front surface of the pouring bearing box body 17 and corresponding to the mold half shell 13, an electromagnetic valve 21 arranged on the pouring pipe 20, a supporting rod 22 fixedly connected to the center of the upper surface of the rotating disc 3, an electric control telescopic rod 23 embedded on the lower end surface of the supporting rod 22, and a circular extrusion plate 24 sleeved on the lower end surface of the electric control telescopic rod 23 and corresponding to the group of mold half shells 13; the fixing mechanism is composed of two groups of horizontal strip-shaped grooves processed on the two opposite side surfaces of the strip-shaped bearing base 1, a short cylinder 25 embedded at one end in each horizontal strip-shaped groove, a fixing ball 26 sleeved on each short cylinder 25, a rotating arm 27 sleeved on each fixing ball 26 and matched with the corresponding horizontal strip-shaped groove, and a sucking disc 28 embedded on the lower end surface of each rotating arm 27; the moving mechanism is composed of a crossed slide rail 29 fixedly connected to the lower surface of the strip-shaped bearing base 1, two groups of sliding blocks 30 arranged on the crossed slide rail 29, two groups of folded supporting round rods 31 embedded on the lower surface of each sliding block 30, and universal wheels 32 sleeved on each folded supporting round rod 31; the number of the arc-edge N-shaped frames 5 is 3-5, and a fixing nail 33 is arranged between the inner upper surface of each arc-edge N-shaped frame 5 and the lower surface of the rotating disc 3; the number of the strip-shaped slots is 4-6, and the distance between every two adjacent groups of the strip-shaped slots is the same; the longitudinal section of the support rod 22 is L-shaped; a folding pushing handle 34 is embedded in the side surface of the strip-shaped bearing base 1; the free position on the side surface of the strip-shaped bearing base 1 is embedded with a mains supply interface 35 and a control switch 36; the number of the horizontal electric control push rods 11 is 2-4, and the horizontal electric control push rods 11 are equidistantly positioned on the same vertical line; and the group of hydraulic telescopic rods 19 are positioned on the same horizontal line.

The embodiment is characterized in that firstly, pouring raw material liquid to be poured in a mold is placed in a pouring bearing box body 17, when the pouring bearing box body 17 is poured, the pouring bearing box body 17 is controlled to swing on a bearing round rod 16 by a certain angle by controlling the expansion and contraction condition of a hydraulic telescopic rod 19, so that pouring liquid can conveniently flow into the mold through a pouring pipe 20, wherein an electromagnetic valve 21 positioned on the pouring pipe 20 is convenient to control outflow, wherein the pouring bearing box body 17 is connected with a group of fixed plates 15 through the bearing round rod 16, wherein a group of fixed plates 15 is connected with the upper surface of a strip-shaped bearing base 1 through a support frame 14, wherein the hydraulic telescopic rod 19 is connected with the side surface of the support frame 14 through a folded support plate 18, wherein when pouring flows out, a group of mold half shells 13 positioned on a group of electric control movable trolleys 7 are under the action of a plurality of horizontal electric control push rods 11, tightly extruding the two half-shells to be corresponding to the pouring pipe 20, after the pouring is full, controlling the sliding rails 6 to move inwards repeatedly, when the pouring in one group of half-shells 13 is solidified, moving the sliding rails to the center of the rotating disc 3, controlling the electric control telescopic rods 23 on the lower surfaces of the supporting rods 22 to drive the circular extrusion plates 24 to effectively extrude the pouring in one group of half-shells 13 downwards to achieve a firm effect, after the extrusion, rotating the rotating motor 2 by a certain angle through pre-control to enable one group of half-shells 13 on the upper surfaces of the adjacent groups of electric control movable trolleys 7 to correspond to the pouring pipe 20 again, repeating the operations, and pouring a plurality of half-shells 13 in the device each time, and controlling the operation after all the half-shells 13 in the device are poured, the first rotating motor 2 rotates rapidly to blow wind and accelerate solidification, and the production efficiency is improved, wherein when the first rotating motor 2 is to be fixed to rotate the rotating disc 3, a plurality of arc-edge N-shaped frames 5 positioned on the lower surface of the rotating disc 3 rotate on the corresponding fixed circular ring bulges 4, so that the rotation is not deviated, wherein a fixing nail 33 positioned on the inner upper surface of each arc-edge N-shaped frame 5 is convenient for fixing each arc-edge N-shaped frame 5, an arc-shaped limiting plate 8 and a group of fastening screws 9 positioned on the side surface of each arc-shaped limiting plate 8 are used for limiting the electric control moving trolley 7 in the corresponding sliding track 6, wherein the mold half shells 13 are connected with the upper surfaces of the corresponding electric control moving trolleys 7 through a plurality of horizontal electric control push rods 11 and vertical supporting plates 10 used for fixing a plurality of horizontal electric control push rods 11, the horizontal electric control push rods 11 are convenient for controlling the extrusion degree of the mold half shells 13, wherein half 13 of mould all is connected with the automatically controlled catch bar 11 of the level that corresponds through fixed tong 12, wherein also be convenient for change the mould shell of different shapes, also be convenient for take off article and half 13 of mould wholly, an operation is fairly simple, pour reliably, the shaping is inside stable, area is less, be convenient for rotate and blow for the solidification rate, be convenient for adapt to different moulds, be convenient for adjust the volume of pouring according to different moulds, be convenient for dismantle and carry the device of mould.

In this embodiment, firstly, a programmable controller, two motor drivers and a relay are installed at the vacant site of the apparatus, taking a controller of MAM-200 model as an example, five output terminals of the controller of this model are respectively connected with the input terminals of two motor drivers, a relay, the electrically controlled moving cart 7, the electromagnetic valve 21 and the control switch 36 through wires, and a person skilled in the art connects the two motor drivers with the terminals of the driving motor of the horizontal electrically controlled push rod 11 and the driving motor of the electrically controlled telescopic rod 23 through wires, and simultaneously connects the relay with the electromagnetic valve of the hydraulic telescopic rod 19 through wires, and connects the output terminal of the commercial power interface 35 with the electrical connection terminal of the controller through wires. After the controller is programmed, the person skilled in the art can completely control the working sequence of each electric device, and the specific working principle is as follows: firstly, placing pouring raw material liquid to be poured in a mould in a pouring bearing box body 17, controlling the pouring bearing box body 17 to swing a certain angle on a bearing round rod 16 by controlling the telescopic condition of a hydraulic telescopic rod 19 when the pouring bearing box body 17 is poured, so that the pouring liquid can conveniently flow into the mould through a pouring pipe 20, wherein an electromagnetic valve 21 positioned on the pouring pipe 20 is convenient for controlling the outflow, wherein the pouring bearing box body 17 is connected with a group of fixing plates 15 through the bearing round rod 16, wherein the group of fixing plates 15 are connected with the upper surface of a strip-shaped bearing base 1 through a supporting frame 14, wherein the hydraulic telescopic rod 19 is connected with the side surface of the supporting frame 14 through a folded supporting plate 18, wherein when the pouring flows out, a group of mould half shells 13 positioned on a group of electric control movable trolleys 7 are under the action of a plurality of horizontal electric control push rods 11, tightly extruding the two half-shells to be corresponding to the pouring pipe 20, after the pouring is full, controlling the sliding rails 6 to move inwards repeatedly, when the pouring in one group of half-shells 13 is solidified, moving the sliding rails to the center of the rotating disc 3, controlling the electric control telescopic rods 23 on the lower surfaces of the supporting rods 22 to drive the circular extrusion plates 24 to effectively extrude the pouring in one group of half-shells 13 downwards to achieve a firm effect, after the extrusion, rotating the rotating motor 2 by a certain angle through pre-control to enable one group of half-shells 13 on the upper surfaces of the adjacent groups of electric control movable trolleys 7 to correspond to the pouring pipe 20 again, repeating the operations, and pouring a plurality of half-shells 13 in the device each time, and controlling the operation after all the half-shells 13 in the device are poured, the first rotating motor 2 rotates rapidly to blow wind and accelerate solidification, and the production efficiency is improved, wherein when the first rotating motor 2 is to be fixed to rotate the rotating disc 3, a plurality of arc-edge N-shaped frames 5 positioned on the lower surface of the rotating disc 3 rotate on the corresponding fixed circular ring bulges 4, so that the rotation is not deviated, wherein a fixing nail 33 positioned on the inner upper surface of each arc-edge N-shaped frame 5 is convenient for fixing each arc-edge N-shaped frame 5, an arc-shaped limiting plate 8 and a group of fastening screws 9 positioned on the side surface of each arc-shaped limiting plate 8 are used for limiting the electric control moving trolley 7 in the corresponding sliding track 6, wherein the mold half shells 13 are connected with the upper surfaces of the corresponding electric control moving trolleys 7 through a plurality of horizontal electric control push rods 11 and vertical supporting plates 10 used for fixing a plurality of horizontal electric control push rods 11, the horizontal electric control push rods 11 are convenient for controlling the extrusion degree of the mold half shells 13, wherein the mold half shell 13 is connected with the corresponding horizontal electric control push rod 11 through the fixed clamping hand 12, wherein the mold shells with different shapes are convenient to replace, the article and the mold half shell 13 are convenient to integrally take down, wherein the device needs to be fixed when working, each rotating arm 27 is swung out in the corresponding horizontal strip-shaped groove through manpower, the rotating arm 27 can be swung to a vertical state under the action of the corresponding fixed ball 26, the sucking disc 28 positioned on the lower end surface of the rotating arm 27 is connected with the ground, so that the device is fixed, wherein each fixed ball 26 is connected with the side surface of the strip-shaped bearing base 1 through the short cylinder 25, when the device is moved, the rotating arm 27 is swung to a horizontal state, and the universal wheel 32 on each folding support round rod 31 is contacted with the ground, the device is pushed to move, each fold-shaped supporting round rod 31 is connected with the cross sliding rail 29 through the sliding block 30, if the ground walking place is narrow, the sliding blocks 30 can be gathered on the corresponding cross sliding rails 29 together, the narrow ground is convenient, the fold-shaped pushing handle 34 is convenient for pushing the device, the commercial power interface 35 is convenient for switching on the power supply, the power supply is provided for the electric elements in the device, and the control switch 36 is convenient for controlling starting and running.

The technical solutions described above only represent the preferred technical solutions of the present invention, and some possible modifications to some parts of the technical solutions by those skilled in the art all represent the principles of the present invention, and fall within the protection scope of the present invention.

Claims

1. The utility model provides a mould bears device, bears base (1) including the bar, its characterized in that, the bar bears base (1) upper surface and is equipped with rotation extrusion mechanism, the bar bears base (1) lower surface and is equipped with moving mechanism, the bar is born and is equipped with fixed establishment on base (1) side surface, rotation extrusion mechanism bears base (1) upper surface center department's circular recess, inlays the interior lower surface of circular recess and a rotating end ascending rotating electrical machines (2), suit at rotating disk (3) of rotating electrical machines (2) rotation end, fixed connection bear base (1) upper surface and be located a fixed ring arch (4) in the rotating electrical machines (2) outside, fixed connection rotate disk (3) lower surface and with a plurality of arc limit N shape framves (5) of fixed ring arch (4) assorted, A plurality of groups of strip-shaped grooves processed on the upper surface of the rotating disc (3), sliding rails (6) embedded in each strip-shaped groove, an electric control moving trolley (7) arranged in each sliding rail (6), arc limiting plates (8) fixedly connected to the outer side surface of the rotating disc (3) and corresponding to each strip-shaped groove, a group of set screws (9) arranged at two ends of each arc limiting plate (8) and connected with the side surface of the rotating disc (3) in a threaded manner, vertical supporting plates (10) fixedly connected to one end of the upper surface of each electric control moving trolley (7), a plurality of horizontal electric control push rods (11) embedded on the side surface of each vertical supporting plate (10), fixing clamps (12) sleeved on one end surface of each horizontal electric control push rod (11), and mold half shells (13) arranged on each electric control moving trolley (7) and connected with the corresponding fixing clamps (12), A supporting frame (14) which is fixedly connected to the upper surface of the strip-shaped bearing base (1) and is positioned at the center of the rear side of the rotating disc (3), a group of fixing plates (15) which are fixedly connected to the upper surface of the supporting frame (14), a bearing round rod (16) which penetrates through the group of fixing plates (15), a pouring bearing box body (17) which is sleeved on the bearing round rod (16), an inclined supporting plate (18) which is fixedly connected to the rear surface of the supporting frame (14), a group of hydraulic telescopic rods (19) which are arranged between the inclined supporting plate (18) and the rear side surface of the pouring bearing box body (17), a pouring pipe (20) which is embedded at the lower end of the front surface of the pouring bearing box body (17) and corresponds to the half-shell (13) of the mold, an electromagnetic valve (21) which is arranged on the pouring pipe (20), a supporting rod (22) which is fixedly connected to the center of the upper surface of the rotating disc (3), an electric control telescopic rod (23) which is embedded on the lower end surface of the supporting rod (22), A round extrusion plate (24) which is sleeved on the lower end surface of the electric control telescopic rod (23) and corresponds to a group of mould half shells (13),

the fixing mechanism is composed of two groups of horizontal strip-shaped grooves processed on the two opposite side surfaces of the strip-shaped bearing base (1), a short cylinder (25) embedded at one end in each horizontal strip-shaped groove, a fixing ball (26) sleeved on each short cylinder (25), a rotating arm (27) sleeved on each fixing ball (26) and matched with the corresponding horizontal strip-shaped groove, and a sucking disc (28) embedded on the lower end surface of each rotating arm (27),

the moving mechanism is composed of a crossed slide rail (29) fixedly connected with the lower surface of the strip-shaped bearing base (1), two groups of sliding blocks (30) arranged on the crossed slide rail (29), two groups of folded supporting round rods (31) embedded on the lower surface of each sliding block (30) and universal wheels (32) sleeved on each folded supporting round rod (31),

the number of the arc-edge N-shaped frames (5) is 3-5, a fixing nail (33) is arranged between the inner upper surface of each arc-edge N-shaped frame (5) and the lower surface of the rotating disc (3),

the number of the strip-shaped grooves is 4-6, and the distances between every two adjacent groups of the strip-shaped grooves are the same.