CN214266389U

CN214266389U - Production line of latex pillow

Info

Publication number: CN214266389U
Application number: CN202023119819.XU
Authority: CN
Inventors: 伍洪国
Original assignee: Ruian Saibao Latex Technology Co ltd
Current assignee: Ruian Saibao Latex Technology Co ltd
Priority date: 2020-12-22
Filing date: 2020-12-22
Publication date: 2021-09-24
Anticipated expiration: 2030-12-22

Abstract

A production line of latex pillows comprises an annular workbench, an annular conveying belt, a glue injection station, an oven device, a cooling device and a latex pillow mold; the latex pillow mould comprises a base, a lower mould and an upper mould cover, wherein the inner side of the upper mould cover is hinged with the lower mould, and the outer side of the upper mould cover is provided with a mould opening rod; the annular workbench is also provided with an auxiliary conveying belt and a die opening guide rod matched with the die opening rod, the die opening guide rod comprises an ascending section, a transition section and a descending section, the ascending section is that the die opening guide rod bends from the outer side surface of the annular conveying belt to the inner side of the cooling device, the transition section is positioned on the inner side of the cooling device, and the descending section is that the die opening guide rod bends from the inner side of the cooling device to the outer side surface of the annular conveying belt; the lower side of the auxiliary conveying belt is abutted against a base of the latex pillow mold, and the base of the latex pillow mold penetrates through the space between the auxiliary conveying belt and the annular conveying belt; the utility model has the advantages of simple structure, reasonable in design, degree of automation is high, safe and reliable, production efficiency is high, the cost of labor is low.

Description

Production line of latex pillow

Technical Field

The utility model relates to a latex pillow, in particular to a production line of latex pillow.

Background

The latex pillow is prepared by processing juice of a rubber tree through a whole physical process. The latex is a very environment-friendly material, so the application range of the latex is very wide, and the latex is also frequently used in various medical gloves, condoms, space-walking gloves and the like except for natural latex pillows and latex mattresses; the latex pillow mainly has a Denlupu production process at present, and the simple manufacturing process of the natural latex pillow can be divided into: preparing materials, injecting glue, vulcanizing, cooling, cleaning, dehydrating and drying; the latex pillow has the effects of mite prevention and bacteriostasis due to the unique frankincense smell of the rubber juice, and meanwhile, as the latex pillow is usually provided with the honeycomb type air holes in the manufacturing process, compared with other pillows, the latex pillow has stronger air permeability and can discharge sweat and hot air generated by the human body in sleeping through natural circulation.

At present, the popularity of latex bedding in europe and america is very high, and basically, one family has pure natural latex bedding in every 3 families; with the coming of the information era and the importance of people on health, latex bedding also starts to move into more and more Chinese families; along with the demand of latex pillow constantly increases, this has just provided higher requirement to the automation of latex pillow production process, the big many processes of current latex pillow production line still go on through the manual type, including the die sinking and the drawing of patterns of latex pillow wherein, the production efficiency of latex pillow has greatly been influenced, and latex pillow mould overall quality is great, make latex pillow shaping through the oven heating in production process, thereby make the bulk temperature of latex pillow mould high, when manual operation latex pillow mould die sinking, need many people to operate with the help of external equipment, this kind of mode is not only inefficient, and the cost of labor is high, it can be scalded or latex pillow mould hangs shakiness to drop by latex pillow mould carelessly a bit and injures operating personnel, there is certain potential safety hazard.

Disclosure of Invention

The utility model aims to solve the defects of the prior art, the utility model provides a simple structure, reasonable in design, degree of automation is high, safe and reliable, production efficiency is high, the production line of latex pillow that the cost of labor is low.

The utility model provides a technical scheme that its technical problem adopted is: a production line of latex pillows comprises an annular workbench, wherein an annular conveying belt is arranged on the annular workbench;

the rubber pillow mould comprises a base arranged on the annular conveying belt, a lower mould and an upper mould cover are arranged on the base, one side, facing the inner side of the annular conveying belt, of the upper mould cover is hinged with the lower mould, and one side, facing the outer side of the annular conveying belt, of the upper mould cover is provided with a mould opening rod;

an oven device for vulcanizing, drying and injecting the rubber-injected latex pillow and a cooling device for cooling the latex pillow mold are arranged above the annular conveying belt of the annular workbench, and a rubber injection station is arranged on one side of the input end of the oven device of the annular workbench;

the annular workbench is provided with a die opening guide rod on an annular conveying belt on the lower side of the cooling device, the die opening guide rod comprises an ascending section, a transition section and a descending section, the ascending section and the descending section of the die opening guide rod are respectively arranged on two sides of the input end and the output end of the cooling device, the ascending section is formed by bending the die opening guide rod from the outer side surface of the annular conveying belt to the inner side of the cooling device, the transition section is positioned on the inner side of the cooling device, and the descending section is formed by bending the die opening guide rod from the inner side of the cooling device to the outer side surface of the annular conveying belt;

annular workbench is equipped with supplementary conveyer belt at annular conveyer belt outside surface for the ascending section department of die sinking guide arm, the downside direction of delivery of supplementary conveyer belt is the same with annular conveyer belt upside direction of delivery, the downside of supplementary conveyer belt and the base upper surface looks butt of latex pillow mould, the base of latex pillow mould passes from between supplementary conveyer belt and the annular conveyer belt.

Preferably, the endless conveyor includes two linear conveyor belts and two turning conveyor belts for connecting the linear conveyor belts.

As preferred, the lower mould is fixed in directly over the base through the dead lever, form between upper die cover and the lower mould and be used for the fashioned die cavity of latex pillow, be equipped with the hole of moulding plastics that is used for injecting plastics latex into the die cavity on the upper die cover, all evenly be provided with the steel column that is used for forming the round hole on latex pillow surface on the lower surface of upper die cover and the bottom surface of lower mould inner chamber, be equipped with the die sinking gyro wheel on the die opening pole.

Preferably, the annular workbench is sequentially provided with a high-pressure water gun device and a high-pressure air blowing device which are used for flushing the demoulded latex pillow mould on one side of the input end of the cooling device.

Preferably, the oven device and the cooling device are respectively arranged above the two linear conveying belts.

Preferably, the height of the transition section of the mold opening guide rod relative to the annular workbench is the same as that of the cooling device.

Preferably, the annular workbench is provided with an auxiliary guide rod for preventing the upper mold cover of the latex pillow mold from being excessively turned outwards on the inner side of the transition section of the mold opening guide rod.

Preferably, the annular workbench is further provided with a discharge conveyer belt for discharging the latex pillow at the ascending section of the die sinking guide rod.

The utility model discloses a circular conveyer belt drives latex pillow mould and carries out the injecting glue through the injecting glue station in proper order, the oven device carries out the thermoforming, the ascending section of the die sinking guide arm of the input of cooling device carries out the upper die cover and opens, latex pillow drawing of patterns, the high pressure water gun device washs, high pressure blast apparatus clears up, the cooling device cools off after air-drying and continues to carry out the injecting glue by the injecting glue station, the production automation degree and the production efficiency of latex pillow have been improved; the upper die cover is automatically opened through the cooperation of the ascending section of the die opening guide rod and the die opening rod on the upper die cover and the die opening roller, the base of the latex pillow die is pressed when the upper die cover is opened by arranging the auxiliary conveying belt, the lower die of the latex pillow die is prevented from being tilted under the action of the upper die cover when the upper die cover is opened, the upper die cover is kept in a continuously opened state and is prevented from being turned outwards in a transition mode through the transition section of the die opening guide rod and the auxiliary guide rod, the lower die and the upper die cover of the latex pillow die are convenient to clean, clean and air-dry, and finally the air-dried upper die cover is accurately covered on the lower die through the descending section of the die opening guide rod, so that the step of positioning the upper die and the lower die is omitted, only one operator needs to demould the pillow in the whole process, the labor cost is saved, the die opening efficiency and the die cleaning and air-drying efficiency are greatly improved, potential safety hazards are reduced; the utility model has the advantages of simple structure, reasonable in design, degree of automation is high, safe and reliable, production efficiency is high, the cost of labor is low.

Drawings

Fig. 1 is a top view of an embodiment of the present invention;

FIG. 2 is an enlarged view of FIG. 1 at A;

FIG. 3 is an enlarged view of FIG. 1 at B;

fig. 4 is a side view of the upper mold cover of the present invention when opened;

fig. 5 is a sectional view of the latex pillow mold of the present invention.

In the figure: 1. an annular table; 11. a discharge conveyer belt; 2. an endless conveyor belt; 21. a linear conveyor belt; 22. turning the conveyer belt; 3. a latex pillow mold; 31. a base; 32. a lower die; 33. putting a mold cover; 34. opening the mold rod; 35. fixing the rod; 36. a mold cavity; 37. injection molding holes; 38. a steel column; 39. opening the die roller; 4. an oven device; 5. a cooling device; 6. a glue injection station; 7. opening the die guide rod; 71. a rising section; 72. a transition section; 73. a descending section; 74. an auxiliary conveyor belt; 75. an auxiliary guide bar; 8. a high pressure water gun device; 9. high-pressure air blowing device.

Detailed Description

The technical solution of the present invention is further specifically described below by way of specific embodiments and with reference to the accompanying drawings.

Example (b):

the production line of latex pillows as shown in fig. 1 to 5 comprises an annular workbench 1, wherein an annular conveying belt 2 is arranged on the annular workbench 1, and the annular conveying belt 2 comprises two linear conveying belts 21 and two turning conveying belts 22 for connecting the linear conveying belts 21.

Be equipped with a plurality of latex pillow mould 3 on the cyclic annular conveyer belt 2, latex pillow mould 3 is including setting up the base 31 on cyclic annular conveyer belt 2, be equipped with lower mould 32, upper die cover 33 on the base 31, lower mould 32 is fixed in base 31 directly over through dead lever 35, upper die cover 33 is articulated with lower mould 32 towards 2 inboard one sides of cyclic annular conveyer belt, form between upper die cover 33 and the lower mould 32 and be used for the fashioned die cavity 36 of latex pillow, be equipped with on upper die cover 33 and be used for injecting plastics the injection hole 37 of latex in toward die cavity 36, all evenly be provided with the steel column 38 that is used for forming the round hole at latex pillow surface on the lower surface of upper die cover 33 and the bottom surface of lower mould 32 inner chamber, upper die cover 33 is equipped with die rod 34 towards 2 outside one side of cyclic annular conveyer belt, be equipped with the die sinking gyro wheel 39 on the die rod 34.

Annular workstation 1 is equipped with oven device 4 that is used for vulcanizing the latex pillow after drying the injecting glue, is used for cooling off cooling device 5 of latex pillow mould 3 in the top of annular conveyer belt 2, oven device 4 and cooling device 5 set up respectively in the top of two sharp conveyer belts 21, annular workstation 1 is equipped with injecting glue station 6 in oven device 4's input one side, annular workstation 1 is equipped with high-pressure squirt device 8 and the high-pressure blast apparatus 9 that is used for washing behind the 3 drawing of patterns of latex pillow mould in proper order in input one side of cooling device 5.

The annular workbench 1 is provided with a die sinking guide rod 7 on the annular conveyer belt 2 at the lower side of the cooling device 5, the mold opening guide rod 7 comprises an ascending section 71, a transition section 72 and a descending section 73, the ascending section 71 and the descending section 73 of the mold opening guide rod 7 are respectively arranged at two sides of the input end and the output end of the cooling device 5, the ascending section 71 is formed by bending the mold opening guide rod 7 from the outer surface of the annular conveyer belt 2 to the inner side of the cooling device 5, the transition section 72 is positioned at the inner side of the cooling device 5, the height of the transition section 72 of the mold opening guide rod 7 relative to the annular workbench 1 is the same as that of the cooling device 5, the annular workbench 1 is provided with an auxiliary guide rod 75 for preventing the upper mould cover 33 of the latex pillow mould 3 from turning outwards in a transition way at the inner side of a transition section 72 of the mould opening guide rod 7, the descending section 73 is formed by bending the mold opening guide rod 7 from the inner side of the cooling device 5 to the outer surface of the annular conveyer belt 2.

The annular workbench 1 is provided with an auxiliary conveyor belt 74 at the outer side surface of the annular conveyor belt 2 relative to the ascending section 71 of the mold opening guide rod 7, the lower side conveying direction of the auxiliary conveyor belt 74 is the same as the upper side conveying direction of the annular conveyor belt 2, the lower side of the auxiliary conveyor belt 74 is abutted against the upper surface of the base 31 of the latex pillow mold 3, and the base 31 of the latex pillow mold 3 penetrates through the space between the auxiliary conveyor belt 74 and the annular conveyor belt 2.

The annular workbench 1 is also provided with a discharge conveyer belt 11 for discharging the latex pillow at the ascending section 71 of the die sinking guide rod 7.

The above-described embodiments are only preferred embodiments of the present invention, and are not intended to limit the present invention in any way, and other variations and modifications may be made without departing from the scope of the claims.

Claims

1. The utility model provides a production water line of latex pillow which characterized in that: the device comprises an annular workbench (1), wherein an annular conveying belt (2) is arranged on the annular workbench (1);

the latex pillow mould is characterized in that a plurality of latex pillow moulds (3) are arranged on the annular conveying belt (2), each latex pillow mould (3) comprises a base (31) arranged on the annular conveying belt (2), a lower mould (32) and an upper mould cover (33) are arranged on each base (31), one side, facing the inner side of the annular conveying belt (2), of each upper mould cover (33) is hinged to the corresponding lower mould (32), and one side, facing the outer side of the annular conveying belt (2), of each upper mould cover (33) is provided with a mould opening rod (34);

an oven device (4) for vulcanizing, drying and injecting the rubber-injected latex pillow and a cooling device (5) for cooling the latex pillow mold (3) are arranged above the annular conveying belt (2) of the annular workbench (1), and a rubber injection station (6) is arranged on one side of the input end of the oven device (4) of the annular workbench (1);

the annular workbench (1) is provided with a die opening guide rod (7) on an annular conveying belt (2) on the lower side of a cooling device (5), the die opening guide rod (7) comprises an ascending section (71), a transition section (72) and a descending section (73), the ascending section (71) and the descending section (73) of the die opening guide rod (7) are respectively arranged on two sides of the input end and the output end of the cooling device (5), the ascending section (71) is formed by bending the die opening guide rod (7) from the outer side surface of the annular conveying belt (2) to the inner side of the cooling device (5), the transition section (72) is positioned on the inner side of the cooling device (5), and the descending section (73) is formed by bending the die opening guide rod (7) from the inner side of the cooling device (5) to the outer side surface of the annular conveying belt (2);

annular table (1) is equipped with supplementary conveyer belt (74) in annular conveyer belt (2) outside surface for ascending section (71) department of die sinking guide arm (7), the downside direction of delivery of supplementary conveyer belt (74) is the same with annular conveyer belt (2) upside direction of delivery, the downside of supplementary conveyer belt (74) and base (31) upper surface looks butt of latex pillow mould (3), base (31) of latex pillow mould (3) are followed and are passed between supplementary conveyer belt (74) and annular conveyer belt (2).

2. The production line of latex pillows according to claim 1, wherein: the annular conveying belt (2) comprises two linear conveying belts (21) and two turning conveying belts (22) used for connecting the linear conveying belts (21).

3. The production line of latex pillows according to claim 1, wherein: lower mould (32) are fixed in base (31) directly over through dead lever (35), form between upper die cover (33) and lower mould (32) and be used for latex pillow fashioned die cavity (36), be equipped with on upper die cover (33) and be used for injecting plastics injection hole (37) of latex in die cavity (36), all evenly be provided with on the lower surface of upper die cover (33) and the bottom surface of lower mould (32) inner chamber and be used for forming steel column (38) of round hole at latex pillow surface, be equipped with die sinking gyro wheel (39) on die sinking pole (34).

4. The production line of latex pillows according to claim 1, wherein: and a high-pressure water gun device (8) and a high-pressure air blowing device (9) which are used for washing the demoulded latex pillow mould (3) are sequentially arranged on one side of the input end of the cooling device (5) of the annular workbench (1).

5. The production line of latex pillows according to claim 1 or 2, wherein: the oven device (4) and the cooling device (5) are respectively arranged above the two linear conveying belts (21).

6. The production line of latex pillows according to claim 1, wherein: the height of the transition section (72) of the die sinking guide rod (7) relative to the annular workbench (1) is the same as that of the cooling device (5).

7. The production line of latex pillows according to claim 1, wherein: the annular workbench (1) is provided with an auxiliary guide rod (75) for preventing an upper die cover (33) of the latex pillow die (3) from being turned outwards in a transition way at the inner side of a transition section (72) of the die opening guide rod (7).

8. The production line of latex pillows according to claim 1, wherein: the annular workbench (1) is also provided with a discharging conveyer belt (11) for discharging the latex pillow at the ascending section (71) of the die sinking guide rod (7).