CN112976518A - Energy-saving type shell shaping device with good forming effect for sensor - Google Patents

Abstract

The invention provides an energy-saving shell shaping device for a sensor, which is good in shaping effect. Oppress the pinion stand behind piston plate extrusion swing span, the pinion stand meshes with the gear pole downwards, the gear pole drives the pad pasting and rotates simultaneously, combine the back when inboard driving lever of pad pasting and the nose bar of commentaries on classics board bottom, the commentaries on classics board rotates, stop rotating after the flat slot on commentaries on classics board surface and arc strip laminating, the mould rotating part angle at flexible chassis top is driven, thereby when blowing in the guide duct both sides, the raw materials mould rotates simultaneously, make the raw materials mould more evenly comprehensive at the in-process of sclerosis, improve the moulding effect of the inside raw materials of mould.

Description

Energy-saving type shell shaping device with good forming effect for sensor

Technical Field

The invention belongs to the technical field of sensors, and particularly relates to an energy-saving type shell shaping device for a sensor, which is good in shaping effect.

Background

The sensor is a detection device which can sense the measured information and convert the sensed information into an electric signal or other information in a required form according to a certain rule for output, and a shell wrapped outside the sensor is generally made of a plastic injection molding device, so that a special shell shaping device is required for controlling the shell.

In-process is made at the shell, a large amount of raw materials sclerosis shaping in the mould die cavity, and the air flow speed is slow, leads to sclerosis shaping speed slower, makes raw materials mould can't guarantee at the in-process of sclerosis simultaneously that every face homoenergetic receives the air flow to influence the moulding effect of the inside raw materials of mould. Therefore, in view of the above, research and improvement are made on the existing structure and defects, and an energy-saving type housing shaping device for a sensor with good shaping effect is provided, so as to achieve the purpose of more practical value.

Disclosure of Invention

In order to solve the above technical problems, the present invention provides an energy-saving housing shaping device for a sensor, which has a good shaping effect, and is achieved by the following specific technical means:

an energy-saving type shell shaping device for a sensor with a good forming effect comprises a forming bin, wherein a sector plate is rotatably arranged in the forming bin, a rotating rod is movably arranged on the front surface of the sector plate, a supporting rod is movably connected to the top end of the rotating rod, a sliding seat is movably arranged at the tail end of the supporting rod, a side frame is fixedly arranged on the opposite surface of the adjacent sliding seat, a sleeve is attached to the bottom end of the side frame, a vane rod is arranged in the sleeve and penetrates through the upper surface of a die cavity, a vertical rod is movably connected to the center of the inner portion of the supporting rod, a piston plate is attached to the bottom end of the vertical rod and is slidably arranged in an air guide cylinder, the air guide cylinder is fixedly connected with the die cavity, a swing frame is movably connected to the bottom end of the piston plate, a toothed plate seat is attached to the bottom end of the swing frame, and a spring frame is fixedly arranged at, and the meshing of the bottom of pinion rack seat has the gear pole, the fixed surface of gear pole installs the subsides dish, the fixed surface of the outer fixed surface who pastes the dish installs the arc strip, and pastes the inboard fixed surface who coils and install the driving lever, the driving lever is pegged graft in the bottom of commentaries on classics board, the last fixed surface of commentaries on classics board installs flexible chassis, flexible chassis runs through in the lower surface of mould die cavity.

Furthermore, the radian of the arc strip is matched with that of the sticking disc, a one-way valve is arranged at the joint of the air duct and the die cavity, and the outer surface of the piston plate is provided with an arc surface corresponding to the vertical rod.

Further, the spring has been cup jointed to the surface of montant, the side bearer is T shape structure, side bearer and sleeve correspond the setting from top to bottom, drive the bull stick through the sector plate rotation and rotate, and the bull stick drives branch luffing motion, and under the effect of montant, based on lever principle, when branch oppresses the montant downstream, the branch end drives slide reciprocating motion.

Further, fixed connection between sector plate and the drive shaft, flexible chassis and flabellum pole correspond the setting from top to bottom, the surface of flabellum pole is provided with the screw thread piece corresponding with the sleeve, telescopic bottom left and right sides fixed mounting has the spring, after the side bearer lapse extrudees the sleeve, the inside air current that compresses downwards of sleeve utilizes the screw thread piece on flabellum pole surface to drive the flabellum pole rotatory to produce the air current through the flabellum pole rotation and carry out the air flow to mould cavity inside.

Further, arc strip and subsides dish are integrated into one piece structure, the corresponding flat groove with the arc strip has been seted up to the left and right sides of commentaries on classics board, the equidistance in bottom of commentaries on classics board is provided with the protruding pole corresponding with the driving lever, and when the gear plate seat was rotatory with the gear lever meshing, the gear lever drove the subsides dish and rotates simultaneously, and after the inboard driving lever of subsides dish combined with the protruding pole of commentaries on classics board bottom, the commentaries on classics board rotated, stopped rotating after flat groove and the arc strip laminating of commentaries on classics board surface to the mould rotating part angle at flexible chassis top is driven.

Furthermore, the sliding seat is slidably mounted on the upper wall of the interior of the forming bin, the air guide cylinders are symmetrically arranged by taking the center of the die cavity as a reference, and the air guide cylinders and the die cavity are of an intercommunicating structure.

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

1. according to the invention, the rotating rod is driven to rotate by the rotation of the sector plate, the rotating rod drives the supporting rod to swing up and down, under the action of the vertical rod, based on a lever principle, the sliding seat is driven to reciprocate by the tail end of the supporting rod while the vertical rod is pressed to move downwards, after the vertical rod moves downwards, the cambered surface on the surface of the piston plate is extruded by the vertical rod, the piston plate slides in the air guide cylinder to blow air on two sides of the mold, after the vertical rod moves upwards, the side frame is driven by the sliding seat to move downwards to extrude the sleeve, air flow is compressed downwards in the sleeve, the fan blade rod is driven to rotate by utilizing the thread piece on the surface of the fan blade rod, and thus air flow is carried out in the mold cavity by the air flow generated by the.

2. When the vertical rod moves downwards, the vertical rod drives the piston plate to move outwards, the piston plate extrudes the swing frame, the bottom end of the swing frame is utilized to press the gear plate seat, the gear plate seat is meshed with the gear rod downwards to rotate, the gear rod drives the pasting disc to rotate simultaneously, after the deflector rod on the inner side of the pasting disc is combined with the convex rod on the bottom of the rotating plate, the rotating plate rotates until the flat groove on the surface of the rotating plate is pasted with the arc strip and stops rotating, and the angle of the rotating part of the die on the top of the telescopic base plate is driven, so that the raw material die rotates simultaneously when air is blown on two sides of the air guide cylinder, the raw material die is more uniform and comprehensive in the hardening process, and the shaping effect of the raw material in the die.

Drawings

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

FIG. 2 is a schematic view of the internal structure of the molding chamber of the present invention;

FIG. 3 is a schematic view of the internal structure of the mold cavity of the present invention;

FIG. 4 is a side view of the structure of the junction of the paster disk and the rotating plate of the invention.

In the figure: 1. a molding bin; 2. a sector plate; 3. a rotating rod; 4. a strut; 5. a slide base; 6. a side frame; 7. a sleeve; 8. a fan blade rod; 9. a mold cavity; 10. a vertical rod; 11. a piston plate; 12. an air duct; 13. a swing frame; 14. a gear plate seat; 15. a spring holder; 16. a gear lever; 17. sticking a plate; 18. an arc bar; 19. a deflector rod; 20. rotating the plate; 21. a telescopic chassis.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

the invention provides an energy-saving type shell shaping device for a sensor, which has a good shaping effect and is shown in the attached drawings 1-4: the device comprises a forming bin 1, a sector plate 2 is rotatably arranged in the forming bin 1, the sector plate 2 is fixedly connected with a driving shaft, a rotating rod 3 is movably arranged on the front surface of the sector plate 2, a supporting rod 4 is movably connected to the top end of the rotating rod 3, a sliding seat 5 is movably arranged at the tail end of the supporting rod 4, the rotating rod 3 is driven to rotate by the rotation of the sector plate 2, the rotating rod 3 drives the supporting rod 4 to swing up and down, under the action of a vertical rod 10, on the basis of a lever principle, the supporting rod 4 presses the vertical rod 10 to move downwards, meanwhile, the tail end of the supporting rod 4 drives the sliding seat 5 to reciprocate, the sliding seat 5 is slidably arranged on the upper wall in the forming bin 1, side frames 6 are fixedly arranged on opposite surfaces of adjacent sliding seats 5, sleeves 7 are attached to the bottom ends of the side frames 6, the side frames 6 are of a T-shaped structure, the side frames 6 and the sleeves 7 are arranged, the bottom left and right sides fixed mounting of sleeve 7 has the spring, flabellum pole 8 runs through in the upper surface of mould cavity 9, after side bearer 6 moves extrusion sleeve 7 downwards, the inside compressed air flow downwards of sleeve 7, it is rotatory to utilize the screw thread piece on 8 surfaces of flabellum pole to drive flabellum pole 8, thereby it carries out the air flow to mould cavity 9 inside through the rotatory air current that produces of flabellum pole 8, the inside center department swing joint of branch 4 has montant 10, the spring has been cup jointed to the surface of montant 10, the bottom laminating of montant 10 has piston plate 11, 11 slidable mounting of piston plate is in the inside of guide duct 12.

The connecting part of the air duct 12 and the die cavity 9 is provided with a one-way valve, the air duct 12 is symmetrically arranged by taking the center of the die cavity 9 as a reference, the air duct 12 and the die cavity 9 are of an intercommunicating structure, the outer surface of the piston plate 11 is provided with a cambered surface corresponding to the vertical rod 10, the air duct 12 is fixedly connected with the die cavity 9, the bottom end of the piston plate 11 is movably connected with a swing frame 13, the bottom end of the swing frame 13 is attached with a toothed plate seat 14, the bottom of the toothed plate seat 14 is fixedly provided with a spring frame 15, the bottom of the toothed plate seat 14 is engaged with a gear rod 16, the outer surface of the gear rod 16 is fixedly provided with a pasting disk 17, the outer surface of the pasting disk 17 is fixedly provided with an arc strip 18, the radian of the arc strip 18 is matched with the radian of the pasting disk 17, the inner side surface of the pasting disk 17 is fixedly provided with a deflector rod 19, the deflector, the corresponding parallel groove with arc 18 has been seted up to the left and right sides of commentaries on classics board 20, the equidistance in the bottom of commentaries on classics board 20 is provided with the nose bar corresponding with driving lever 19, the last fixed surface of commentaries on classics board 20 installs flexible chassis 21, flexible chassis 21 runs through the lower surface in mould cavity 9, flexible chassis 21 and flabellum pole 8 are the corresponding setting from top to bottom, when pinion rack seat 14 closes rotatoryly with gear rod meshing 16, gear rod 16 drives the subsides 17 and rotates simultaneously, behind the inboard driving lever 19 of subsides 17 and the nose bar of commentaries on classics board 20 bottom combine, commentaries on classics board 20 rotates, stop rotating after the parallel groove on commentaries on classics board 20 surface and the laminating of arc 18, thereby drive the mould rotating part angle at flexible chassis 21 top.

The specific use mode and function of the embodiment are as follows:

in the invention, a raw material mould is placed in a mould cavity 9, a driving shaft drives a sector plate 2 to rotate, the sector plate 2 rotates to drive a rotating rod 3 to rotate, the rotating rod 3 drives a supporting rod 4 to swing up and down, under the action of a vertical rod 10, based on the lever principle, the supporting rod 4 presses the vertical rod 10 to move downwards, simultaneously, the tail end of the supporting rod 4 drives a sliding seat 5 to move back and forth, after the vertical rod 10 moves downwards, the vertical rod 10 extrudes an arc surface on the surface of a piston plate 11, the piston plate 11 slides in an air guide cylinder 12 to blow air on two sides of the mould, after the vertical rod 10 moves upwards, the sliding seat 5 drives a side frame 6 to move downwards to extrude a sleeve 7, the air flow is compressed downwards in the sleeve 7, a thread sheet on the surface of a fan blade rod 8 is utilized to drive the fan blade rod 8 to rotate, so that the air flow is generated by the rotation of the fan blade rod 8, improve sensor housing moulding precision, meanwhile, in the in-process that montant 10 moved down, when montant 10 drove piston plate 11 and moved to the outside, after piston plate 11 extrudees swing span 13, utilize the bottom of swing span 13 to oppress toothed plate seat 14, when toothed plate seat 14 was rotatory with gear lever meshing 16 downwards, gear lever 16 drove subsides 17 and rotates simultaneously, after the inboard driving lever 19 of subsides 17 combines with the protruding pole of commentaries on classics board 20 bottom, commentaries on classics board 20 rotates, stop rotating after the straight flute on commentaries on classics board 20 surface and arc 18 laminating, drive the mould rotating part angle at flexible chassis 21 top, thereby when blowing in the wind guide duct 12 both sides, the raw materials mould rotates simultaneously, make the raw materials mould more even in the in-process of sclerosis, improve the moulding effect of the inside raw materials of mould.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention to achieve the above technical effects.

Claims (6)

1. The utility model provides an effectual moulding device of energy-saving shell of sensor of shaping, includes shaping storehouse (1), its characterized in that: the inner rotating of the forming bin (1) is provided with a sector plate (2), the front surface of the sector plate (2) is movably provided with a rotating rod (3), the top end of the rotating rod (3) is movably connected with a supporting rod (4), the tail end of the supporting rod (4) is movably provided with a sliding seat (5), the opposite surfaces of the sliding seats (5) are adjacent to each other and fixedly provided with a side frame (6), the bottom end of the side frame (6) is attached with a sleeve (7), a vane rod (8) is arranged in the sleeve (7), the vane rod (8) penetrates through the upper surface of a die cavity (9), the inner center of the supporting rod (4) is movably connected with a vertical rod (10), the bottom end of the vertical rod (10) is attached with a piston plate (11), the piston plate (11) is slidably arranged in an air guide cylinder (12), and the air guide cylinder (12) is fixedly connected with the die cavity (9), the bottom swing joint of piston plate (11) has swing span (13), the bottom laminating of swing span (13) has toothed plate seat (14), the bottom fixed mounting of toothed plate seat (14) has spring frame (15), and the bottom meshing of toothed plate seat (14) has gear pole (16), the fixed surface of gear pole (16) installs subsides dish (17), the fixed surface of subsides dish (17) installs arc (18), and the inboard fixed surface of subsides dish (17) installs driving lever (19), driving lever (19) are pegged graft in the bottom of commentaries on classics board (20), the fixed surface of the upper surface of commentaries on classics board (20) installs flexible chassis (21), flexible chassis (21) run through in the lower surface of mould die cavity (9).

2. The energy-saving type housing shaping device for the sensor with good shaping effect according to claim 1, wherein: the radian of the arc strip (18) is matched with that of the sticking disc (17), a one-way valve is arranged at the joint of the air duct (12) and the die cavity (9), and the outer surface of the piston plate (11) is provided with an arc surface corresponding to the vertical rod (10).

3. The energy-saving type housing shaping device for the sensor with good shaping effect according to claim 1, wherein: the outer surface of the vertical rod (10) is sleeved with a spring, the side frame (6) is of a T-shaped structure, and the side frame (6) and the sleeve (7) are arranged up and down correspondingly.

4. The energy-saving type housing shaping device for the sensor with good shaping effect according to claim 1, wherein: fixed connection between sector plate (2) and the drive shaft, flexible chassis (21) and flabellum pole (8) correspond the setting for the top and bottom, the surface of flabellum pole (8) is provided with the screw thread piece corresponding with sleeve (7), the bottom left and right sides fixed mounting of sleeve (7) has the spring.

5. The energy-saving type housing shaping device for the sensor with good shaping effect according to claim 1, wherein: the arc strip (18) and the sticking disc (17) are of an integrated forming structure, flat grooves corresponding to the arc strip (18) are formed in the left side and the right side of the rotating plate (20), and protruding rods corresponding to the shifting rods (19) are arranged at the bottom of the rotating plate (20) at equal intervals.

6. The energy-saving type housing shaping device for the sensor with good shaping effect according to claim 1, wherein: the sliding seat (5) is slidably mounted on the upper wall of the interior of the forming bin (1), the air guide cylinders (12) are symmetrically arranged by taking the center of the die cavity (9) as a reference, and the air guide cylinders (12) and the die cavity (9) are of an intercommunicating structure.

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