CN111002523A

CN111002523A - Memory latex pillow forming device

Info

Publication number: CN111002523A
Application number: CN201911363175.8A
Authority: CN
Inventors: 王宁
Original assignee: Shanghai Zhongxi Information Technology Co Ltd
Current assignee: Shanghai Zhongxi Information Technology Co Ltd
Priority date: 2019-12-26
Filing date: 2019-12-26
Publication date: 2020-04-14

Abstract

The invention relates to rubber molding, in particular to a memory latex pillow molding device. The invention aims to provide a memory latex pillow forming device. A memory latex pillow forming device comprises a waste gas absorption cover, an air pump, a sensor mounting mechanism, a liquid homogenizing forming mechanism and a pressing plate follower mechanism; the top of the right end of the supporting frame is rotatably connected with a material taking cabin door; the middle part of the right end of the supporting frame is welded with the safety bolt. The invention achieves the effects of completely casting and demolding the silica gel pillow to enable the surface of the silica gel pillow to be smooth and not easy to generate bubbles, meanwhile, the sensor is embedded to prevent the measurement data from generating errors caused by the displacement of the sensor in the use process, the silica gel pillow can record the sleep state and the sleep posture of a person according to the four pressure sensors, and the silica gel pillow has a guiding effect on the healthy sleep of the person by connecting a mobile phone application program.

Description

Memory latex pillow forming device

Technical Field

The invention relates to rubber molding, in particular to a memory latex pillow molding device.

Background

The latex pillow is made of juice of a rubber tree, the latex pillow cannot be made of 100% pure latex at present, the latex content of the latex pillow on the market is only 80% -93%, the pure latex cannot achieve the solidification and fluffy effects, safety materials need to be added manually for fermentation, and the quality and the effect of sleep are effectively improved according to the design of ergonomics. Has good hygroscopicity and air permeability, is especially suitable for snorers, and can effectively reduce snores. Good elasticity, can well buffer the pressure of a human body, and has strong affinity. Scientific formula, one-step forming, durability and no deformation. Can effectively improve cervical vertebra and lumbar vertebra and reduce blood pressure. The latex pillow can effectively reduce static electricity generated between human bodies and fibers. The honeycomb structure can effectively and quickly dissipate heat generated by a human body. Environmental protection, no pollution, no toxicity, mite prevention, antibiosis and antianaphylaxis.

In the prior art, Chinese patent CN106881809A discloses a latex pillow production line aiming at the problem that the raw material is still injected into a mold through a manually operated gun head in the existing injection molding stage, the automatic injection molding is realized through a raw material conveying device and a lifting device, and the position of a light curtain sensor is adjusted through an adjusting device to adapt to the mode of molds with different lengths and heights, so that the problem that the raw material is still injected into the mold through the manually operated gun head in the existing injection molding stage is solved, but the moving process is long, so that the mold is scattered, cannot be molded and is difficult to demold.

To sum up, need research and develop a kind at present and carry out complete casting drawing of patterns to silica gel pillow, make its surfacing be difficult for the gassing, implant the sensor through embedded mode simultaneously, prevent that the sensor from shifting and leading to measured data to produce the error in the use, this silica gel pillow can be according to four pressure sensor to write into people's sleep state and sleep gesture, through even income cell-phone application, have the memory latex pillow forming device of guide effect to people's healthy sleep, it is longer to overcome the migration process among the prior art, unstable shake in the removal, the mould is opened and is scattered, can't the shaping, and the shortcoming of drawing of patterns difficulty.

Disclosure of Invention

The invention aims to overcome the defects of long moving process, unstable shaking in moving, loose die, incapability of forming and difficult demoulding in the prior art, and the technical problem to be solved by the invention is to provide a memory latex pillow forming device.

The invention is achieved by the following specific technical means:

a memory latex pillow forming device comprises a supporting frame, a stepping motor, a control display, a material taking cabin door, a safety bolt, an exhaust gas absorption cover, an air pump, a sensor mounting mechanism, a liquid homogenizing forming mechanism and a pressing plate follower mechanism; the left part of the bottom end in the supporting frame is connected with a stepping motor through a bolt; the right bottom of the front end of the supporting frame is connected with the control display through a bolt; the top of the right end of the supporting frame is rotatably connected with a material taking cabin door; the middle part of the right end of the supporting frame is welded with a safety bolt, and the top of the left end of the safety bolt is connected with a material taking cabin door; the right part of the top end in the supporting frame is inserted with the waste gas absorption cover; the right middle part of the top end of the support frame is connected with an air pump through a bolt; a sensor mounting mechanism is arranged at the left part of the bottom end in the supporting frame, and the bottom of the right end of the sensor mounting mechanism is connected with a stepping motor; a liquid homogenizing forming mechanism is arranged at the right part of the bottom end in the supporting frame, and the left part of the bottom end of the liquid homogenizing forming mechanism is connected with the sensor mounting mechanism; the left part of the top end of the supporting frame is provided with a pressing plate follower mechanism, and the left part of the bottom end of the pressing plate follower mechanism is connected with the sensor mounting mechanism.

Preferably, the sensor mounting mechanism comprises a first driving wheel, a second driving wheel, a third driving wheel, a first bevel gear, a second bevel gear, a fourth driving wheel, a fifth driving wheel, a first cylindrical gear, a third bevel gear, a fourth bevel gear, a first electric push rod, a fifth bevel gear, a second electric push rod, a second cylindrical gear, a first screw rod, a bearing block, a first driving rod, a second driving rod, a third driving rod, a fourth driving rod, a third cylindrical gear, a fifth driving rod, a sixth driving rod, a limiting sleeve, a third electric push rod, a spring gripper and a sensor material bearing plate; the top end of the first driving wheel is in transmission connection with a second driving wheel through a belt; the top end of the second transmission wheel is in transmission connection with the third transmission wheel through a belt; the middle part of the right end of the second transmission wheel is inserted with the third bevel gear through a round rod; the middle part of the right end of the third driving wheel is inserted with the first bevel gear; the bottom of the right end of the first bevel gear is meshed with the second bevel gear; the middle part of the bottom end of the second bevel gear is spliced with a fourth transmission wheel; the right end of the fourth driving wheel is in transmission connection with the fifth driving wheel through a belt; the middle part of the top end of the fifth transmission wheel is inserted with the first cylindrical gear; the bottom of the right end of the third bevel gear is meshed with the fourth bevel gear; the middle part of the bottom end of the fourth bevel gear is inserted into the first electric push rod; the right part of the top end of the fourth bevel gear is meshed with the fifth bevel gear; the middle part of the top end of the fourth bevel gear is inserted into the first screw rod; the middle part of the right end of the fifth bevel gear is inserted into the second electric push rod through a round rod; the right end of the second electric push rod is inserted with the second cylindrical gear; the bottom of the outer surface of the first screw rod is in transmission connection with the bearing block; the middle part of the top end of the bearing block is rotationally connected with the first transmission rod; the front part of the top end of the bearing block is rotationally connected with a third transmission rod; the rear part of the top end of the bearing block is rotationally connected with a fourth transmission rod; the right part of the top end of the first transmission rod is rotationally connected with the second transmission rod; the right part of the top end of the first transmission rod is in transmission connection with a fifth transmission rod, and the left part of the bottom end of the fifth transmission rod is connected with a third transmission rod; the right part of the bottom end of the second transmission rod is in transmission connection with a sixth transmission rod, the left part of the top end of the sixth transmission rod is connected with a fourth transmission rod, and the fourth transmission rod on the right part of the bottom end of the sixth transmission rod is connected with a fifth transmission rod; the front part of the top end of the fourth transmission rod is inserted with the third cylindrical gear; the bottom end of the sixth transmission rod is inserted into the limiting sleeve; the middle part of the top end in the limiting sleeve is welded with the third electric push rod; the bottom end of the third electric push rod is in transmission connection with the spring gripper; the front end of the spring gripper is provided with a sensor material bearing plate, and the bottom end of the sensor material bearing plate is connected with the bearing block through a long plate; the middle part of the right end of the first driving wheel is connected with a stepping motor; the top end of the third transmission wheel is connected with the pressing plate follower mechanism through a belt; the bottom end of the first electric push rod is connected with the supporting frame; the top of the rear end of the second cylindrical gear is connected with a liquid homogenizing forming mechanism; the top end of the first screw rod is connected with the supporting frame.

Preferably, the liquid homogenizing forming mechanism comprises a fourth cylindrical gear, a worm, a turbine, a rotating disc, an inclined rotating shaft, an omnibearing rotating shaft, a forming chassis, a first air guide groove, a first insertion rod, a second insertion rod, a forming top plate, a material filling pipe, a second air guide groove, a first spring, a first demoulding push rod, a second spring and a second demoulding push rod; the middle part of the right end of the fourth cylindrical gear is inserted with the worm; the middle part of the rear end of the worm is meshed with the turbine; the middle part of the top end of the turbine is inserted with the rotating disc; the right part of the top end of the rotating disc is rotationally connected with the inclined rotating shaft; the left middle part of the outer surface of the inclined rotating shaft and the right middle part of the outer surface of the inclined rotating shaft are rotatably connected with the omnibearing rotating shaft; welding the top end of the inclined rotating shaft with the forming chassis; a first air guide groove is formed in the inner bottom end of the forming chassis; the right part of the top end of the forming chassis is welded with the first inserted link; the left part of the top end of the forming chassis is welded with the second inserted link; the top of the outer surface of the first inserted link is inserted into the forming top plate, and the left part of the bottom end of the forming top plate is connected with the second inserted link; the left part of the top end of the forming top plate is inserted with the charging pipe; a second air guide groove is formed in the top end in the forming top plate; the right part of the top end in the molded top plate is welded with the first spring; the right part of the top end in the forming top plate is rotatably connected with a first demoulding push rod, and the middle part of the top end of the first demoulding push rod is connected with a first spring; the left part of the top end in the molded top plate is welded with the second spring; the left part of the top end in the forming top plate is rotatably connected with a second demoulding push rod, and the middle part of the top end of the second demoulding push rod is connected with a second spring; the bottom of the front end of the fourth cylindrical gear is connected with the sensor mounting mechanism; the middle part of the bottom end of the turbine is connected with the supporting frame; the middle part of the front end of the omnibearing rotating shaft is connected with the supporting frame through a bracket.

Preferably, the pressing plate follower mechanism comprises a sixth driving wheel, a sixth bevel gear, a seventh driving wheel, an eighth driving wheel, a second screw rod, a shifting frame, a fourth electric push rod, a fifth electric push rod, a sliding rail, a first limiting groove, a first plug-in rod, a second plug-in rod, a first toothed bar, a triangular bent plate, a duplicate gear, a second toothed bar and a second limiting groove; the middle part of the right end of the sixth driving wheel is inserted with a sixth bevel gear; the top of the right end of the sixth bevel gear is meshed with the seventh bevel gear; the middle part of the top end of the seventh bevel gear is inserted with the sixth electric push rod; the top end of the sixth electric push rod is spliced with the seventh driving wheel; the right end of the seventh driving wheel is in transmission connection with the eighth driving wheel through a belt; the middle part of the bottom end of the eighth driving wheel is spliced with the second screw rod; the bottom end of the second screw rod is rotationally connected with the shifting frame; the left part of the top end of the shifting frame is welded with the fourth electric push rod; the top end of the shifting frame is welded with the fifth electric push rod; the middle part of the front end of the shifting frame is welded with the first limiting groove; the middle right part of the rear end in the shifting frame is spliced with the first splicing bar; the right part of the rear end in the shifting frame is spliced with a second splicing bar; the front middle part of the bottom end of the shifting frame is welded with the first rack bar; the right part of the front end of the first limit groove is in sliding connection with the triangular bent plate; the right bottom of the rear end of the triangular bent plate is rotationally connected with the duplicate gear, and the rear part of the top end of the duplicate gear is connected with the first rack bar; the left bottom of the rear end of the triangular bent plate is in sliding connection with the second limiting groove; the front part of the left end of the duplicate gear is meshed with the second gear rod, and the bottom of the front end of the duplicate gear is connected with the second limiting groove; the middle part of the left end of the sixth driving wheel is connected with the supporting frame; the bottom end of the sixth transmission wheel is connected with the sensor mounting mechanism through a belt; the left part and the right part of the top end of the sliding rail are connected with the supporting frame; the top end of the second rack bar is connected with the supporting frame.

Preferably, the bottom end of the sensor material bearing plate is provided as a recess, and the edge of the top end is inclined to the recess.

Preferably, the front end middle part and the rear end middle part of the formed top plate are both provided with cylindrical hole grooves, and the diameter of each hole groove is larger than the outer diameter of the first plug-in rod and the outer diameter of the second plug-in rod.

Preferably, the first plug-in rod and the second plug-in rod are symmetrically arranged front and back at the front end in the displacement frame, and the second plug-in rod is higher than the first plug-in rod.

Preferably, the front part of the top end of the shifting frame is provided with a sliding groove, and the inside of the sliding groove is connected with the second screw rod through a sliding block.

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

in order to solve the problems of long moving process, unstable jitter in moving, loose molds, incapability of molding and difficult demolding in the prior art, a sensor mounting mechanism, a liquid homogenizing molding mechanism and a pressing plate follower mechanism are designed, a pressure sensor is placed into the liquid homogenizing molding mechanism through the sensor mounting mechanism, the rotation of the liquid homogenizing molding mechanism is matched at the same time, the pressure sensor is placed at four corners of an unformed latex pillow, then the liquid homogenizing molding mechanism is sealed again through the pressing plate follower mechanism, the filling material is continuously added to fill the molds with the filling material, after cooling molding, cold air is introduced into the liquid homogenizing molding mechanism to separate the molded latex pillow from the molds, so that the complete embedded casting and demolding of the silica gel pillow are realized, the surface of the silica gel pillow is smooth and is not easy to generate bubbles, meanwhile, the sensors are implanted, and errors caused by displacement of the sensors in the using process are prevented, the silica gel pillow can record the sleep state and the sleep posture of a person according to the four pressure sensors, and has an effect of guiding the healthy sleep of the person by connecting a mobile phone application program.

Drawings

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

FIG. 2 is a schematic structural view of a sensor mounting mechanism according to the present invention;

FIG. 3 is a top view of a combined structure of a bearing block, a first transmission rod, a second transmission rod, a third transmission rod, a fourth transmission rod, a third cylindrical gear, a fifth transmission rod, a sixth transmission rod and a spring gripper according to the present invention;

FIG. 4 is a schematic structural view of a liquid homogenizing and forming mechanism according to the present invention;

FIG. 5 is a schematic view of the structure of the pressure plate follower of the present invention;

FIG. 6 is a schematic view of a combination structure of the shift frame, the first limiting groove, the first inserting rod, the second inserting rod and the first rack bar according to the present invention;

FIG. 7 is an enlarged view of the region X of the present invention;

FIG. 8 is an enlarged view of the area Y of the present invention;

FIG. 9 is an enlarged view of the region Z of the present invention;

fig. 10 is an enlarged view of region Q of the present invention.

The labels in the figures are: 1-a supporting frame, 2-a stepping motor, 3-a control display, 4-a material taking cabin door, 5-a safety bolt, 6-an exhaust gas absorption cover, 7-an air pump, 8-a sensor mounting mechanism, 9-a liquid homogenizing forming mechanism, 10-a pressure plate following mechanism, 801-a first transmission wheel, 802-a second transmission wheel, 803-a third transmission wheel, 804-a first bevel gear, 805-a second bevel gear, 806-a fourth transmission wheel, 807-a fifth transmission wheel, 808-a first cylindrical gear, 809-a third bevel gear, 8010-a fourth bevel gear, 8011-a first electric push rod, 8012-a fifth bevel gear, 8013-a second electric push rod, 8014-a second cylindrical gear, 8015-a first screw rod and 8016-a bearing block, 8017-a first transmission rod, 8018-a second transmission rod, 8019-a third transmission rod, 8020-a fourth transmission rod, 8021-a third cylindrical gear, 8022-a fifth transmission rod, 8023-a sixth transmission rod, 8024-a limiting sleeve, 8025-a third electric push rod, 8026-a spring gripper, 8027-a sensor retainer plate, 901-a fourth cylindrical gear, 902-a worm, 903-a turbine, 904-a rotating disc, 905-an inclined rotating shaft, 906-an omnidirectional rotating shaft, 907-a molding base plate, 908-a first air guide groove, 909-a first insert rod, 9010-a second insert rod, 9011-a molding top plate, 9012-an air filling pipe, 9013-a second air guide groove, 9014-a first spring, 9015-a first push rod demoulding, 9016-a second spring, 9017-a second push rod demoulding, 1001-sixth driving wheel, 1002-sixth bevel gear, 1003-seventh bevel gear, 1004-seventh driving wheel, 1005-eighth driving wheel, 1006-second screw rod, 1007-shifting frame, 1008-fourth electric push rod, 1009-fifth electric push rod, 10010-sliding rail, 10011-first limit groove, 10012-first inserting rod, 10013-second inserting rod, 10014-first toothed bar, 10015-triangular bent plate, 10016-duplicate gear, 10017-second toothed bar, 10018-second limit groove and 10019-sixth electric push rod.

Detailed Description

The invention is further described below with reference to the figures and examples.

Examples

A memory latex pillow forming device is shown in figures 1-10 and comprises a supporting frame 1, a stepping motor 2, a control display 3, a material taking cabin door 4, a safety bolt 5, a waste gas absorption cover 6, an air pump 7, a sensor mounting mechanism 8, a liquid homogenizing forming mechanism 9 and a pressing plate follower mechanism 10; the left part of the bottom end in the supporting frame 1 is connected with the stepping motor 2 through a bolt; the right bottom of the front end of the supporting frame 1 is connected with the control display 3 through a bolt; the top of the right end of the supporting frame 1 is rotatably connected with a material taking cabin door 4; the middle part of the right end of the supporting frame 1 is welded with a safety bolt 5, and the top of the left end of the safety bolt 5 is connected with a material taking cabin door 4; the right part of the top end in the supporting frame 1 is inserted with the waste gas absorption cover 6; the right middle part of the top end of the support frame 1 is connected with an air pump 7 through a bolt; a sensor mounting mechanism 8 is arranged at the left part of the bottom end in the supporting frame 1, and the bottom of the right end of the sensor mounting mechanism 8 is connected with the stepping motor 2; a liquid homogenizing forming mechanism 9 is arranged at the right part of the bottom end in the supporting frame 1, and the left part of the bottom end of the liquid homogenizing forming mechanism 9 is connected with the sensor mounting mechanism 8; the left part of the top end of the supporting frame 1 is provided with a pressing plate following mechanism 10, and the left part of the bottom end of the pressing plate following mechanism 10 is connected with the sensor mounting mechanism 8.

The sensor mounting mechanism 8 comprises a first driving wheel 801, a second driving wheel 802, a third driving wheel 803, a first bevel gear 804, a second bevel gear 805, a fourth driving wheel 806, a fifth driving wheel 807, a first cylindrical gear 808, a third bevel gear 809, a fourth bevel gear 8010, a first electric push rod 8011, a fifth bevel gear 8012, a second electric push rod 8013, a second cylindrical gear 8014, a first screw rod 8015, a receiving block 8016, a first driving rod 8017, a second driving rod 8018, a third driving rod 8019, a fourth driving rod 8020, a third cylindrical gear 8021, a fifth driving rod 8022, a sixth driving rod 8023, a limiting sleeve 8024, a third electric push rod 8025, a spring 8026 and a sensor material bearing plate 8027; the top end of the first driving wheel 801 is in transmission connection with a second driving wheel 802 through a belt; the top end of the second transmission wheel 802 is in transmission connection with a third transmission wheel 803 through a belt; the middle part of the right end of the second transmission wheel 802 is inserted with a third bevel gear 809 through a round bar; the middle part of the right end of the third driving wheel 803 is inserted into the first bevel gear 804; the bottom of the right end of the first bevel gear 804 is meshed with the second bevel gear 805; the middle part of the bottom end of the second bevel gear 805 is inserted into a fourth driving wheel 806; the right end of the fourth driving wheel 806 is in driving connection with a fifth driving wheel 807 through a belt; the middle part of the top end of the fifth transmission wheel 807 is inserted with the first cylindrical gear 808; the bottom of the right end of the third bevel gear 809 is meshed with the fourth bevel gear 8010; the middle part of the bottom end of the fourth bevel gear 8010 is spliced with the first electric push rod 8011; the right part of the top end of the fourth bevel gear 8010 is meshed with the fifth bevel gear 8012; the middle part of the top end of the fourth bevel gear 8010 is spliced with the first screw rod 8015; the middle part of the right end of the fifth bevel gear 8012 is spliced with the second electric push rod 8013 through a round rod; the right end of the second electric push rod 8013 is spliced with the second cylindrical gear 8014; the bottom of the outer surface of the first screw rod 8015 is in transmission connection with the bearing block 8016; the middle part of the top end of the bearing block 8016 is rotatably connected with the first driving rod 8017; the front part of the top end of the bearing block 8016 is rotatably connected with a third driving rod 8019; the rear part of the top end of the receiving block 8016 is rotatably connected with a fourth transmission rod 8020; the right part of the top end of the first transmission rod 8017 is rotatably connected with the second transmission rod 8018; the right part of the top end of the first transmission rod 8017 is in transmission connection with a fifth transmission rod 8022, and the left part of the bottom end of the fifth transmission rod 8022 is connected with a third transmission rod 8019; the right portion of the bottom end of second driving rod 8018 is in driving connection with a sixth driving rod 8023, the left portion of the top end of sixth driving rod 8023 is connected with a fourth driving rod 8020, and the fourth driving rod 8020 on the right portion of the bottom end is connected with a fifth driving rod 8022; the front part of the top end of the fourth transmission rod 8020 is inserted into the third cylindrical gear 8021; the bottom end of the sixth transmission rod 8023 is inserted into the limit sleeve 8024; the middle part of the top end in the limiting sleeve 8024 is welded with a third electric push rod 8025; the bottom end of the third electric push rod 8025 is in transmission connection with the spring gripper 8026; a sensor material bearing plate 8027 is arranged at the front end of the spring gripper 8026, and the bottom end of the sensor material bearing plate 8027 is connected with the bearing block 8016 through a long plate; the middle part of the right end of the first driving wheel 801 is connected with a stepping motor 2; the top end of the third transmission wheel 803 is connected with the pressing plate follower 10 through a belt; the bottom end of the first electric push rod 8011 is connected with the supporting frame 1; the top of the rear end of the second cylindrical gear 8014 is connected with a liquid homogenizing and forming mechanism 9; the top end of the first lead screw 8015 is connected with the support frame 1.

The liquid homogenizing forming mechanism 9 comprises a fourth cylindrical gear 901, a worm 902, a turbine 903, a rotating disc 904, an inclined rotating shaft 905, an omnibearing rotating shaft 906, a forming base plate 907, a first air guide groove 908, a first insert rod 909, a second insert rod 9010, a forming top plate 9011, a charging pipe 9012, a second air guide groove 9013, a first spring 9014, a first demoulding push rod 9015, a second spring 9016 and a second demoulding push rod 9017; the middle part of the right end of the fourth cylindrical gear 901 is inserted into the worm 902; the middle part of the rear end of the worm 902 is meshed with a worm wheel 903; the middle part of the top end of the turbine 903 is inserted into the rotating disc 904; the right part of the top end of the rotating disc 904 is rotatably connected with an inclined rotating shaft 905; the left middle part of the outer surface of the inclined rotating shaft 905 and the right middle part of the outer surface are rotatably connected with the omnibearing rotating shaft 906; the top end of the inclined rotating shaft 905 is welded with a molding chassis 907; a first air guide groove 908 is arranged at the inner bottom end of the molding chassis 907; the right part of the top end of the molding chassis 907 is welded with the first insert rod 909; the left part of the top end of the molding chassis 907 is welded with the second inserting rod 9010; the top of the outer surface of the first insertion rod 909 is inserted into the molding top plate 9011, and the left part of the bottom end of the molding top plate 9011 is connected with the second insertion rod 9010; the left part of the top end of the molding top plate 9011 is spliced with the material filling pipe 9012; a second air guide groove 9013 is formed in the top end of the forming top plate 9011; the right part of the top end in the molded top plate 9011 is welded with the first spring 9014; the right part of the top end in the molding top plate 9011 is rotatably connected with a first demolding push rod 9015, and the middle part of the top end of the first demolding push rod 9015 is connected with a first spring 9014; the left part of the top end in the molded top plate 9011 is welded with a second spring 9016; the left part of the top end in the molding top plate 9011 is rotatably connected with a second demolding push rod 9017, and the middle part of the top end of the second demolding push rod 9017 is connected with a second spring 9016; the bottom of the front end of the fourth cylindrical gear 901 is connected with the sensor mounting mechanism 8; the middle part of the bottom end of the turbine 903 is connected with the support frame 1; the middle part of the front end of the omnibearing rotating shaft 906 is connected with the supporting frame 1 through a bracket.

The pressing plate follower mechanism 10 comprises a sixth driving wheel 1001, a sixth bevel gear 1002, a seventh bevel gear 1003, a seventh driving wheel 1004, an eighth driving wheel 1005, a second screw 1006, a shifting frame 1007, a fourth electric push rod 1008, a fifth electric push rod 1009, a sliding rail 10010, a first limit groove 10011, a first inserting rod 10012, a second inserting rod 10013, a first rack 10014, a triangular bent plate 10015, a duplicate gear 10016, a second rack 10017 and a second limit groove 10018; the middle part of the right end of a sixth transmission wheel 1001 is spliced with a sixth bevel gear 1002; the top of the right end of the sixth bevel gear 1002 is meshed with a seventh bevel gear 1003; the middle part of the top end of the seventh bevel gear 1003 is spliced with the sixth electric push rod 10019; the top end of the sixth electric push rod 10019 is inserted into the seventh driving wheel 1004; the right end of the seventh driving wheel 1004 is in transmission connection with an eighth driving wheel 1005 through a belt; the middle part of the bottom end of the eighth driving wheel 1005 is spliced with the second screw rod 1006; the bottom end of the second screw rod 1006 is rotatably connected with a shifting frame 1007; the left part of the top end of the shifting frame 1007 is welded with the fourth electric push rod 1008; the top end of the shifting frame 1007 is welded with the fifth electric push rod 1009; the middle part of the front end of the shifting frame 1007 is welded with the first limit groove 10011; the middle right part of the rear end in the shifting frame 1007 is spliced with the first splicing bar 10012; the right part of the rear end in the shifting frame 1007 is spliced with the second splicing rod 10013; the front middle part of the bottom end of the shifting frame 1007 is welded with the first rack bar 10014; the right part of the front end of the first limit groove 10011 is slidably connected with the triangular bent plate 10015; the right bottom of the rear end of the triangular bent plate 10015 is rotatably connected with the duplicate gear 10016, and the rear part of the top end of the duplicate gear 10016 is connected with the first rack bar 10014; the left bottom of the rear end of the triangular bent plate 10015 is slidably connected with a second limit groove 10018; the front part of the left end of the dual gear 10016 is engaged with the second rack 10017, and the bottom of the front end is connected with the second limit groove 10018; the middle part of the left end of a sixth transmission wheel 1001 is connected with the supporting frame 1; the bottom end of a sixth transmission wheel 1001 is connected with a sensor mounting mechanism 8 through a belt; the left part and the right part of the top end of the slide rail 10010 are both connected with the support frame 1; the top end of the second gear 10017 is connected to the support frame 1.

The bottom end of the sensor retainer plate 8027 is provided as a recess, and the edge of the top end is inclined to the recess.

The front end middle part and the rear end middle part of the molding top plate 9011 are both provided with cylindrical hole grooves, and the diameters of the hole grooves are larger than the outer diameters of the first inserting rod 10012 and the second inserting rod 10013.

The first plug stick 10012 and the second plug stick 10013 are symmetrically arranged front and back at the front end in the shifting frame 1007, and the second plug stick 10013 is higher than the first plug stick 10012.

The front part of the top end of the shifting frame 1007 is provided with a sliding chute, and the inside of the sliding chute is connected with the second screw rod 1006 through a sliding block.

The working principle is as follows: when the memory latex pillow forming device is used, firstly, the memory latex pillow forming device is placed on a horizontal plane of a workshop through a supporting frame 1, a material pipe and an air pipe are connected with a liquid homogenizing forming mechanism 9, then, a power supply is connected, a stepping motor 2 is started to operate through a control display 3, a pressure plate follower mechanism 10 is linked through a sensor mounting mechanism 8, then, the liquid homogenizing forming mechanism 9 is sealed through the pressure plate follower mechanism 10, then, a filler is flushed into the pressure plate follower mechanism 10, meanwhile, the pressure plate follower mechanism 10 swings in all directions, when the filler rises to the height of one half in a die, the liquid homogenizing forming mechanism 9 is opened through the pressure plate follower mechanism 10, then, a pressure sensor is placed into the liquid homogenizing forming mechanism 9 through the sensor mounting mechanism 8, the pressure sensor is placed at four corners of a non-formed latex pillow by matching with the rotation of the liquid homogenizing forming mechanism 9, and then, the liquid homogenizing forming mechanism 9 is sealed again through the pressure plate follower mechanism, the filling material is continuously added to fill the filling material into the mould, after cooling and forming, cold air is introduced into the liquid homogenizing forming mechanism 9 to separate the formed latex pillow from the mould, then the liquid homogenizing forming mechanism 9 is opened through the pressing plate following mechanism 10, the safety bolt 5 is unlocked, the material taking cabin door 4 is opened to completely take out the silica gel pillow, complete casting and demoulding of the silica gel pillow are achieved, the surface of the silica gel pillow is smooth and is not easy to generate bubbles, meanwhile, the sensor is embedded, errors caused by displacement of the sensor in the using process are prevented, the silica gel pillow can record the sleep state and the sleep posture of a person according to the four pressure sensors, and the mobile phone application program is connected to guide the healthy sleep of the person.

When the filling material rises by half height in the mold, the rotation of the first transmission wheel 801 drives the second transmission wheel 802 to transmit, then the rotation of the third bevel gear 809 is transmitted, the first screw rod 8015 starts to rotate by engaging the rotation of the fourth bevel gear 8010, then the receiving block 8016 is lifted to enable the third cylindrical gear 8021 and the first cylindrical gear 808 to be engaged with each other, the first electric push rod 8011 is lowered at the same time, the third bevel gear 809 and the fourth bevel gear 8010 are disengaged, meanwhile, the belt of the second transmission wheel 802 drives the third transmission wheel 803 to transmit, then the rotation of the first bevel gear 804 drives the second cylindrical gear 805 to transmit by engaging, so that the fourth transmission wheel 806 rotates, then the rotation of the fifth transmission wheel 807 is transmitted by the belt to drive the rotation of the first cylindrical gear 808, the rotation of the third cylindrical gear 8021 is engaged, so that the fourth transmission rod 8020 starts to rotate, when the sixth transmission rod 8023 is driven to swing, the first transmission rod 8017 and the second transmission rod 8018 are matched to move, the third transmission rod 8019 drives the fifth transmission rod 8022 to assist the sixth transmission rod 8023 in swinging, so that the limiting sleeve 8024 circularly moves in a horizontal plane, meanwhile, the sensor in the sensor bearing plate 8027 is pushed by the third electric push rod 8025 to be grabbed by the spring grabber 8026, the position accuracy of the pressure sensor and the dependence of recorded information are improved by accurate positioning in the direction of the liquid homogenizing and forming mechanism 9, the sleeping condition of a person is calculated after the recorded data of the four pressure sensors are imported into a program, and the sleeping quality is improved.

Firstly, a first air guide groove 908, a material filling pipe 9012 and a second air guide groove 9013 are communicated, after the operation is started, a worm 902 is driven to transmit through the rotation of a fourth cylindrical gear 901, then a turbine 903 is driven to rotate through meshing, the inclined rotating shaft 905 is driven to transmit by taking the rotating shaft center of the rotating disc 904 as the shaft through the rotation of the rotating disc 904, the inclined rotating shaft 906 assists to prevent the inclined rotating shaft from falling, then the inclined rotating shaft 905 enables the forming chassis 907 to swing in a plane, then the filling in the mould is enabled to be horizontal, meanwhile, the air in the filling can be discharged, the generation of bubbles is reduced, after the forming, cooling air is rapidly introduced into the first air guide groove 908 and the second air guide groove 9013, the formed latex pillow is separated from the mould, meanwhile, a latex top plate 9011 is lifted through the forming, a first spring 9014 and a second spring 9016 respectively push a first demoulding push rod 9015 and a second demoulding push rod 9017 downwards, the formed latex pillow is dropped off and then taken out manually, so that the skin of a person is prevented from being scalded by steam due to overheating of the filling material in the processing.

The rotation of the sixth driving wheel 1001 drives the sixth bevel gear 1002 to rotate, and then the sixth electric push rod 10019 extends out to engage with the rotation of the seventh bevel gear 1003 to drive the seventh driving wheel 1004 to perform transmission, and then the belt drives the rotation of the eighth driving wheel 1005, and then the shifting frame 1007 descends through the second lead screw 1006, and at the same time, through the meshing relationship between the duplicate gear 10016 and the second toothed bar 10017, the shifting frame 1007 moves rightwards on the sliding rail 10010 through the fourth electric push rod 1008 and the fifth electric push rod 1009, and then the molded top plate 9011 is lifted up through the extension of the first inserting rod 10012 and the second inserting rod 10013, and the displacement of the molded top plate 9011 repeatedly operated in the processing process is reached, and the oblique movement of the molded top plate 9011 is matched, so that the steam is prevented from escaping to scald workers due to opening.

The bottom end of the sensor material bearing plate 8027 is set to be concave, and the edge of the top end is inclined to the concave, when the pressure sensor is taken away, other sensors and the sensor slide to the middle position to wait for the next grabbing.

The front end middle part and the rear end middle part of shaping roof 9011 all are provided with cylindrical hole groove to the diameter in hole groove is greater than the external diameter of first grafting stick 10012 and second grafting stick 10013, moves by a wide margin after being convenient for peg graft.

The first inserting rod 10012 and the second inserting rod 10013 are symmetrically arranged front and back at the front end in the shifting frame 1007, and the second inserting rod 10013 is higher than the first inserting rod 10012, and is matched with the inclined forming top plate 9011 to facilitate quick inserting without readjustment.

The front part of the top end of the shifting frame 1007 is provided with a sliding chute, the inside of the sliding chute is connected with the second screw rod 1006 through a sliding block, and when the shifting frame 1007 is pressed down by the second screw rod 1006, the shifting frame 1007 can still move left and right.

The above-mentioned embodiments are intended to illustrate the objects, technical solutions and advantages of the present invention in further detail, and it should be understood that the above-mentioned embodiments are only exemplary embodiments of the present invention, and are not intended to limit the scope of the present invention, and any modifications, equivalent substitutions, improvements and the like made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims

1. A memory latex pillow forming device comprises a supporting frame, a stepping motor, a control display, a material taking cabin door, a safety bolt and a waste gas absorption cover, and is characterized by further comprising an air pump, a sensor mounting mechanism, a liquid homogenizing forming mechanism and a pressing plate follower mechanism; the left part of the bottom end in the supporting frame is connected with a stepping motor through a bolt; the right bottom of the front end of the supporting frame is connected with the control display through a bolt; the top of the right end of the supporting frame is rotatably connected with a material taking cabin door; the middle part of the right end of the supporting frame is welded with a safety bolt, and the top of the left end of the safety bolt is connected with a material taking cabin door; the right part of the top end in the supporting frame is inserted with the waste gas absorption cover; the right middle part of the top end of the support frame is connected with an air pump through a bolt; a sensor mounting mechanism is arranged at the left part of the bottom end in the supporting frame, and the bottom of the right end of the sensor mounting mechanism is connected with a stepping motor; a liquid homogenizing forming mechanism is arranged at the right part of the bottom end in the supporting frame, and the left part of the bottom end of the liquid homogenizing forming mechanism is connected with the sensor mounting mechanism; the left part of the top end of the supporting frame is provided with a pressing plate follower mechanism, and the left part of the bottom end of the pressing plate follower mechanism is connected with the sensor mounting mechanism.

2. The molding apparatus of claim 1, wherein the sensor mounting mechanism comprises a first driving wheel, a second driving wheel, a third driving wheel, a first bevel gear, a second bevel gear, a fourth driving wheel, a fifth driving wheel, a first cylindrical gear, a third bevel gear, a fourth bevel gear, a first electric push rod, a fifth bevel gear, a second electric push rod, a second cylindrical gear, a first screw rod, a bearing block, a first driving rod, a second driving rod, a third driving rod, a fourth driving rod, a third cylindrical gear, a fifth driving rod, a sixth driving rod, a limiting sleeve, a third electric push rod, a spring gripper and a sensor retainer plate; the top end of the first driving wheel is in transmission connection with a second driving wheel through a belt; the top end of the second transmission wheel is in transmission connection with the third transmission wheel through a belt; the middle part of the right end of the second transmission wheel is inserted with the third bevel gear through a round rod; the middle part of the right end of the third driving wheel is inserted with the first bevel gear; the bottom of the right end of the first bevel gear is meshed with the second bevel gear; the middle part of the bottom end of the second bevel gear is spliced with a fourth transmission wheel; the right end of the fourth driving wheel is in transmission connection with the fifth driving wheel through a belt; the middle part of the top end of the fifth transmission wheel is inserted with the first cylindrical gear; the bottom of the right end of the third bevel gear is meshed with the fourth bevel gear; the middle part of the bottom end of the fourth bevel gear is inserted into the first electric push rod; the right part of the top end of the fourth bevel gear is meshed with the fifth bevel gear; the middle part of the top end of the fourth bevel gear is inserted into the first screw rod; the middle part of the right end of the fifth bevel gear is inserted into the second electric push rod through a round rod; the right end of the second electric push rod is inserted with the second cylindrical gear; the bottom of the outer surface of the first screw rod is in transmission connection with the bearing block; the middle part of the top end of the bearing block is rotationally connected with the first transmission rod; the front part of the top end of the bearing block is rotationally connected with a third transmission rod; the rear part of the top end of the bearing block is rotationally connected with a fourth transmission rod; the right part of the top end of the first transmission rod is rotationally connected with the second transmission rod; the right part of the top end of the first transmission rod is in transmission connection with a fifth transmission rod, and the left part of the bottom end of the fifth transmission rod is connected with a third transmission rod; the right part of the bottom end of the second transmission rod is in transmission connection with a sixth transmission rod, the left part of the top end of the sixth transmission rod is connected with a fourth transmission rod, and the fourth transmission rod on the right part of the bottom end of the sixth transmission rod is connected with a fifth transmission rod; the front part of the top end of the fourth transmission rod is inserted with the third cylindrical gear; the bottom end of the sixth transmission rod is inserted into the limiting sleeve; the middle part of the top end in the limiting sleeve is welded with the third electric push rod; the bottom end of the third electric push rod is in transmission connection with the spring gripper; the front end of the spring gripper is provided with a sensor material bearing plate, and the bottom end of the sensor material bearing plate is connected with the bearing block through a long plate; the middle part of the right end of the first driving wheel is connected with a stepping motor; the top end of the third transmission wheel is connected with the pressing plate follower mechanism through a belt; the bottom end of the first electric push rod is connected with the supporting frame; the top of the rear end of the second cylindrical gear is connected with a liquid homogenizing forming mechanism; the top end of the first screw rod is connected with the supporting frame.

3. The molding device of claim 2, wherein the homogenizing molding mechanism comprises a fourth cylindrical gear, a worm wheel, a rotating disc, an inclined rotating shaft, an omnibearing rotating shaft, a molding chassis, a first air guide groove, a first insert rod, a second insert rod, a molding top plate, an inflation pipe, a second air guide groove, a first spring, a first demolding push rod, a second spring and a second demolding push rod; the middle part of the right end of the fourth cylindrical gear is inserted with the worm; the middle part of the rear end of the worm is meshed with the turbine; the middle part of the top end of the turbine is inserted with the rotating disc; the right part of the top end of the rotating disc is rotationally connected with the inclined rotating shaft; the left middle part of the outer surface of the inclined rotating shaft and the right middle part of the outer surface of the inclined rotating shaft are rotatably connected with the omnibearing rotating shaft; welding the top end of the inclined rotating shaft with the forming chassis; a first air guide groove is formed in the inner bottom end of the forming chassis; the right part of the top end of the forming chassis is welded with the first inserted link; the left part of the top end of the forming chassis is welded with the second inserted link; the top of the outer surface of the first inserted link is inserted into the forming top plate, and the left part of the bottom end of the forming top plate is connected with the second inserted link; the left part of the top end of the forming top plate is inserted with the charging pipe; a second air guide groove is formed in the top end in the forming top plate; the right part of the top end in the molded top plate is welded with the first spring; the right part of the top end in the forming top plate is rotatably connected with a first demoulding push rod, and the middle part of the top end of the first demoulding push rod is connected with a first spring; the left part of the top end in the molded top plate is welded with the second spring; the left part of the top end in the forming top plate is rotatably connected with a second demoulding push rod, and the middle part of the top end of the second demoulding push rod is connected with a second spring; the bottom of the front end of the fourth cylindrical gear is connected with the sensor mounting mechanism; the middle part of the bottom end of the turbine is connected with the supporting frame; the middle part of the front end of the omnibearing rotating shaft is connected with the supporting frame through a bracket.

4. The molding device of claim 3, wherein the pressing plate follower comprises a sixth driving wheel, a sixth bevel gear, a seventh driving wheel, an eighth driving wheel, a second lead screw, a shift frame, a fourth electric push rod, a fifth electric push rod, a slide rail, a first limit groove, a first inserting rod, a second inserting rod, a first rack bar, a triangular bent plate, a duplicate gear, a second rack bar and a second limit groove; the middle part of the right end of the sixth driving wheel is inserted with a sixth bevel gear; the top of the right end of the sixth bevel gear is meshed with the seventh bevel gear; the middle part of the top end of the seventh bevel gear is inserted with the sixth electric push rod; the top end of the sixth electric push rod is spliced with the seventh driving wheel; the right end of the seventh driving wheel is in transmission connection with the eighth driving wheel through a belt; the middle part of the bottom end of the eighth driving wheel is spliced with the second screw rod; the bottom end of the second screw rod is rotationally connected with the shifting frame; the left part of the top end of the shifting frame is welded with the fourth electric push rod; the top end of the shifting frame is welded with the fifth electric push rod; the middle part of the front end of the shifting frame is welded with the first limiting groove; the middle right part of the rear end in the shifting frame is spliced with the first splicing bar; the right part of the rear end in the shifting frame is spliced with a second splicing bar; the front middle part of the bottom end of the shifting frame is welded with the first rack bar; the right part of the front end of the first limit groove is in sliding connection with the triangular bent plate; the right bottom of the rear end of the triangular bent plate is rotationally connected with the duplicate gear, and the rear part of the top end of the duplicate gear is connected with the first rack bar; the left bottom of the rear end of the triangular bent plate is in sliding connection with the second limiting groove; the front part of the left end of the duplicate gear is meshed with the second gear rod, and the bottom of the front end of the duplicate gear is connected with the second limiting groove; the middle part of the left end of the sixth driving wheel is connected with the supporting frame; the bottom end of the sixth transmission wheel is connected with the sensor mounting mechanism through a belt; the left part and the right part of the top end of the sliding rail are connected with the supporting frame; the top end of the second rack bar is connected with the supporting frame.

5. The molding apparatus for memory latex pillow as claimed in claim 4, wherein the bottom end of the sensor retainer plate is formed as a recess, and the edge of the top end is inclined toward the recess.

6. The molding apparatus of claim 5, wherein the molding top plate has cylindrical holes in the middle of the front end and the middle of the rear end, and the holes have a diameter larger than the outer diameters of the first and second insertion rods.

7. The molding apparatus of claim 6, wherein the first and second insertion rods are symmetrically disposed in front and rear of the front end of the displacement frame, and the second insertion rod is higher than the first insertion rod.

8. The molding device of claim 7, wherein a sliding groove is formed at the front portion of the top end of the displacement frame, and the inside of the sliding groove is connected to the second screw rod through a sliding block.