CN114014251B - Filling system of buckwheat filling pillow based on Internet of things - Google Patents

Abstract

The invention belongs to the field of pillow production and filling, and relates to a filling system of a buckwheat filling pillow based on the Internet of things. Before the system operates, the pillowcase is torn to form a gap through the adhesive layer, so that the pillowcase is more easily sleeved into the elastic adhesive sleeve. Keep the notch vertical upwards all the time when filling the buckwheat granule for it is more convenient to fill, is difficult to make mistakes. The pillowcase is fixed and loosened by controlling air intake, so that labor force is saved.

Description

Filling system of buckwheat filling pillow based on Internet of things

Technical Field

The invention belongs to the field of pillow production and filling, and particularly relates to a filling system for filling a pillow with buckwheat based on the Internet of things.

Background

The pillow is used as an essential bedding in our daily life, and the demand is very large. The types of pillows are various, and some people like to use the pillows filled with the buckwheat particles, but the filling of the pillows is troublesome in the production process, and the filling amount and time need to be manually controlled. Therefore, a filling system for filling the pillow with buckwheat based on the internet of things needs to be designed, and the following aspects are solved and achieved:

1. before the system is operated, the pillowcase is torn by the adhesive layer to form a gap, so that the pillowcase can be more easily sleeved into the elastic adhesive sleeve.

2. Keep the notch vertical upwards all the time when filling the buckwheat granule for it is more convenient to fill, is difficult to make mistakes.

3. The pillowcase is fixed and loosened by controlling air intake, so that labor force is saved.

Disclosure of Invention

The invention aims to provide a buckwheat filling pillow filling system based on the Internet of things, aiming at the problems in the prior art. Before the system operates, the pillowcase is torn to form a gap through the adhesive layer, so that the pillowcase is more easily sleeved into the elastic adhesive sleeve. Keep the notch vertical upwards all the time when filling the buckwheat granule for it is more convenient to fill, is difficult to make mistakes. The pillowcase is fixed and loosened by controlling air intake, so that labor force is saved.

In order to achieve the purpose, the invention adopts the following technical scheme:

the utility model provides a filling system of pillow is filled to buckwheat based on thing networking, includes the unable adjustment base of fixed mounting on the floor, the last fixed mounting of unable adjustment base is equipped with the work module that has the rotation function that admits air, the work module is located the cover bag module that one side fixed mounting was equipped with towards the work module on the unable adjustment base, the relative cover bag module one side fixed mounting that is located the work module on the unable adjustment base is equipped with and loads the module.

Preferably, the fixed base comprises a base housing fixedly mounted on the ground.

Preferably, the working module comprises a second support rod fixedly mounted on the base shell, a rotating drum rotating clockwise is fixedly mounted on the second support rod, an air inlet pipeline is arranged in the rotating drum, and the air inlet pipeline is positioned in the rotating drum and is provided with a fan-shaped air inlet channel facing one side of the filling module; the rotary drum is uniformly provided with three connecting rods along the circumferential direction, gas guide pipes are arranged in the connecting rods, a movable groove is arranged below the connecting rods, a movable telescopic rod is connected between the connecting rods and the movable groove shell, and an automatic sewing and cutting part is connected below the movable groove; the tail end of each connecting rod is connected with a connecting pipe, one side of each connecting pipe, which is opposite to the rotary drum, is connected with a notch which rotates on a horizontal plane where the rotary drum is positioned after a certain force is applied, an air inlet pipe which is communicated with an air guide pipe and enters the notch is arranged in each connecting pipe, an elastic rubber sleeve which is made of rubber and has certain tension is connected below the notch, and an air outlet pipeline which faces downwards in the elastic rubber sleeve is arranged in the notch; the air outlet pipeline is positioned on the outer side of the elastic rubber sleeve and is communicated with an air outlet pipe, the air outlet pipe is positioned below the movable groove and is fixedly connected with a fixed rod piece, the air outlet pipe is positioned in the fixed rod piece and is communicated with a three-way pipe, and the outer side of the fixed rod piece is provided with a sealed rubber clamping sleeve which can expand in small amplitude after air inlet is carried out.

Preferably, the bagging module comprises a first support rod fixedly mounted on the base shell, a bagging shell with an opening facing the working module direction in the middle is fixedly mounted on the first support rod towards the working module direction, a sliding groove is formed in the opening in the bagging shell, a pressure plate sliding in the sliding groove is arranged in the sliding groove, the pressure plate is fixedly connected and arranged in the bagging shell and is provided with a pressure spring, a pressure block is fixedly connected and arranged below the pressure plate, and the pressure block is connected and arranged on the bagging shell and is provided with a telescopic spring; the pressure plate is located the cover bag casing dorsad pressure spring direction and is close to the pressure block direction and offer the flexible groove towards the pressure plate, flexible inslot fixed is equipped with the hydraulic pump, the hydraulic pump is equipped with the telescopic link towards the pressure plate, it is equipped with the push pedal to be located flexible inslot fixed connection on the telescopic link, the push pedal is equipped with slight viscidity towards pressure plate direction one side and just can be with the viscose layer that the pillowcase was glued and was torn open just.

Preferably, the filling module comprises a third support rod fixedly mounted on the base shell, a filler shell is fixedly mounted on the third support rod, a storage tank is arranged in the filler shell, a control motor is arranged below the storage tank in the filler shell, the filler shell is fixedly connected with a telescopic pipe towards the working module direction, a filling hopper is arranged on one side of the telescopic pipe towards the working module direction, and a filling opening is formed below the filling hopper.

Advantageous effects

The invention provides a buckwheat filling pillow filling system based on the Internet of things by improvement, and compared with the prior art, the buckwheat filling pillow filling system has the following improvements and advantages:

1. before the system operates, the pillowcase is torn to form a gap through the adhesive layer, so that the pillowcase is more easily sleeved into the elastic adhesive sleeve.

2. The invention always keeps the notch vertically upward when filling buckwheat grains, so that the filling is more convenient and the mistake is not easy to make.

3. The invention fixes and releases the pillowcase by controlling air intake, thereby saving labor force.

Drawings

Fig. 1 is an isometric schematic of the present invention.

Fig. 2 is a schematic view of the overall structure of the present invention.

Fig. 3 is a sectional view taken along line D-D in fig. 2.

Fig. 4 is an enlarged view of the structure at a in fig. 2.

Fig. 5 is an enlarged view of the structure at B in fig. 2.

Fig. 6 is an enlarged view of the structure at C in fig. 5.

In the figure, 10, the base housing; 11. a first support bar; 12. a bagging housing; 13. a second support bar; 14. a third support bar; 15. a drum; 16. an air intake duct; 17. a fan-shaped air inlet channel; 18. a connecting rod; 19. a filling hopper; 20. a feed conduit; 21. a telescopic pipe; 22. a packing housing; 23. a material storage tank; 24. controlling the motor; 25. a filling opening; 26. a pressure plate; 27. a pressure spring; 28. a pressure block; 29. a tension spring; 30. a sliding groove; 31. a telescopic groove; 32. a hydraulic pump; 33. a telescopic rod; 34. pushing the plate; 35. an adhesive layer; 36. a movable telescopic rod; 37. a movable groove; 38. a notch; 39. a connecting pipe; 40. an air inlet pipe; 41. an air outlet pipe; 42. an elastic rubber sleeve; 43. an air outlet pipe; 44. a three-way pipe; 45. fixing the rod piece; 46. a rubber ferrule; 47. automatically suturing the cutting member; 49. a gas-guide tube; 81. a fixed base; 82. a working module; 83. a bagging module; 84. and (5) filling the module.

Detailed Description

The following are specific embodiments of the present invention and are further described with reference to the drawings, but the present invention is not limited to these embodiments.

In the description of the present invention, it should be noted that the terms "inside", "below", and the like refer to orientations or positional relationships based on the orientations or positional relationships shown in the drawings or orientations or positional relationships that the products of the present invention conventionally place when used, and are used only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the devices or elements referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like are used merely to distinguish one description from another, and are not to be construed as indicating or implying relative importance.

As shown in fig. 1 to 6, a filling system for a buckwheat-filled pillow based on the internet of things comprises a fixed base 81 fixedly installed on a floor, a working module 82 with an air inlet rotation function is fixedly installed on the fixed base 81, a bagging module 83 facing the working module 82 is fixedly installed on one side of the working module 82 on the fixed base 81, and a filling module 84 is fixedly installed on one side of the fixed base 81, opposite to the bagging module 83, of the working module 82.

Further, the stationary base 81 includes a base housing 10 fixedly installed on the ground.

Further, the working module 82 includes a second support rod 13 fixedly mounted on the base housing 10, a rotating drum 15 rotating clockwise is fixedly mounted on the second support rod 13, an air inlet duct 16 is disposed in the rotating drum 15, and the air inlet duct 16 is located in the rotating drum 15 and is provided with a sector air inlet channel 17 facing one side of the filling module 84; the rotary drum 15 is uniformly provided with three connecting rods 18 along the circumferential direction, gas guide pipes 49 are arranged in the connecting rods 18, movable grooves 37 are arranged below the connecting rods 18, movable telescopic rods 36 are connected between the connecting rods 18 and the shells of the movable grooves 37, and automatic sewing and cutting parts 47 are connected below the movable grooves 37; the tail end of each connecting rod 18 is connected with a connecting pipe 39, one side of the connecting pipe 39, which is back to the rotary drum 15, is connected with a notch 38 which rotates on the horizontal plane of the rotary drum 15 after being subjected to a certain force, an air inlet pipe 40 which is communicated with an air guide pipe 49 and enters the notch 38 is arranged in the connecting pipe 39, an elastic rubber sleeve 42 which is made of rubber and has a certain tension is connected below the notch 38, and an air outlet pipeline 41 which is downward in the elastic rubber sleeve 42 is arranged in the notch 38; the air outlet pipe 41 is positioned on the outer side of the elastic rubber sleeve 42 and is communicated with an air outlet pipe 43, the air outlet pipe 43 is positioned below the movable groove 37 and is fixedly connected with a fixing rod piece 45, the air outlet pipe 43 is positioned in the fixing rod piece 45 and is communicated with a three-way pipe 44, and the outer side of the fixing rod piece 45 is provided with a rubber clamping sleeve 46 which is sealed and can expand in a small range after air inlet is formed on the outer side of the elastic rubber sleeve 42.

Further, the bagging module 83 includes a first support rod 11 fixedly mounted on the base housing 10, the first support rod 11 is fixedly mounted on the working module 82, a bagging housing 12 with an opening facing the working module 82 is provided in the middle of the first support rod 11, a sliding groove 30 is provided in the opening in the bagging housing 12, a pressure plate 26 sliding in the sliding groove 30 is provided in the sliding groove 30, the pressure plate 26 is fixedly connected and provided with a pressure spring 27 in the bagging housing 12, a pressure block 28 is fixedly connected below the pressure plate 26, and the pressure block 28 is connected and provided with a telescopic spring 29 on the bagging housing 12; the pressure plate 26 is located in the bag housing 12 in a direction opposite to the pressure spring 27 and close to the pressure block 28, and is provided with a telescopic groove 31 facing the pressure plate 26, a hydraulic pump 32 is fixedly arranged in the telescopic groove 31, the hydraulic pump 32 is provided with a telescopic rod 33 facing the pressure plate 26, a push plate 34 is fixedly connected in the telescopic groove 31 on the telescopic rod 33, and the push plate 34 is provided with an adhesive layer 35 which is slightly adhesive and can stick and tear the pillowcase right away towards one side of the pressure plate 26.

Further, the filling module 84 includes a third support rod 14 fixedly mounted on the base housing 10, a filling housing 22 is fixedly mounted on the third support rod 14, a storage tank 23 is disposed in the filling housing 22, a control motor 24 is disposed below the storage tank 23 and in the filling housing 22, the filling housing 22 is fixedly connected to an extension tube 21 facing the working module 82, a filling hopper 19 is disposed on one side of the extension tube 21 facing the working module 82, and a filling opening 25 is disposed below the filling hopper 19.

Principle of operation

Before the filling system of the buckwheat filling pillow based on the Internet of things is started to fill the buckwheat filling pillow, the operation of the equipment is checked. Firstly, whether the power supply of each device is intact and whether safety measures are in place are checked. The connection between each equipment is ensured to be good and effective, and the equipment can normally run by opening each equipment switch.

Before the system is operated, the opening direction of the piled pillow case is placed toward the lower side of the pressure plate 26 toward the telescopic groove 31, and the pressure plate 26 presses the pillow case between the pressure plate 26 and the bag housing 12. The internet of things background control hydraulic pump 32 pushes the telescopic rod 33 to extend forwards to stick the adhesive layer 35 on the pillow case and then retract back, so that the pillow case is opened with a gap into which the elastic rubber sleeve 42 can be inserted. A predetermined amount of buckwheat grains is filled in the stock tank 23.

When the system starts to work, the drum 15 rotates clockwise to rotate the connecting rod 18, and simultaneously to rotate the notch 38 and the elastic rubber sleeve 42 connected to the connecting rod 18. As the elastic gel 42 passes through the pillow case between the pressure plate 26 and the adhesive layer 35, the single pillow case is carried along to rotate. As notch 38 passes pressure block 28, pushing pressure block 28 moves pressure plate 26 and the pillow case together inward, and pressure plate 26 and pressure block 28 return to their original positions after notch 38 is rotated out of bag housing 12.

When the connecting rod 18 rotates to the direction of the fan-shaped air inlet 17, air in the air inlet pipe 16 enters the air guide pipe 49 from the fan-shaped air inlet 17 and passes through the air outlet pipe 41 from the air inlet pipe 40 to enter the elastic rubber sleeve 42, the pillowcase is expanded, meanwhile, air enters the rubber sleeve 46 from the air outlet pipe 43 through the three-way pipe 44, and the rubber sleeve 46 is expanded and simultaneously fixes the pillowcase on the outer side of the elastic rubber sleeve 42.

When the pillow case rotates to the direction of the filling module 84, the terminal control motor 24 moves the filling hopper 19 to the position above the notch 38 and always follows the position above the notch 38, buckwheat particles are simultaneously fed into the pillow case, and when the pillow case is filled with buckwheat particles, the notch 38 is driven to rotate and always keeps the opening upward. When a certain amount of buckwheat particles completely enter the pillow case, the terminal controls the automatic sewing and cutting component 47 to sew and cut the bag mouth, so that the pillow is placed at a corresponding position and conveyed away through the conveyor belt. When the rotary drum 15 continues to rotate so that the connecting rod 18 rotates to the position for interrupting the continuous ventilation of the fan-shaped air inlet 17, the elastic rubber sleeve 42 retracts, and the pillow sleeve remained on the elastic rubber sleeve falls into the corresponding collecting frame and is subjected to centralized treatment.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (2)

1. The utility model provides a filling system of pillow is filled to buckwheat based on thing networking, includes fixed base (81) of fixed mounting on the floor, fixed mounting is equipped with work module (82) that have the rotation function that admits air on fixed base (81), its characterized in that: a bagging module (83) facing the working module (82) is fixedly arranged on one side, located on the fixed base (81), of the working module (82), and a filling module (84) is fixedly arranged on one side, located on the working module (82) and opposite to the bagging module (83), of the fixed base (81);

the working module (82) comprises a second supporting rod (13) fixedly mounted on the base shell (10), a rotating drum (15) rotating clockwise is fixedly mounted on the second supporting rod (13), an air inlet pipeline (16) is arranged in the rotating drum (15), and the air inlet pipeline (16) is positioned in the rotating drum (15) and is provided with a fan-shaped air inlet channel (17) facing one side of the filling module (84) in the direction; the rotary drum (15) is uniformly provided with three connecting rods (18) along the circumferential direction, gas guide pipes (49) are arranged in the connecting rods (18), movable grooves (37) are arranged below the connecting rods (18), movable telescopic rods (36) are connected between the connecting rods (18) and the movable groove (37) shell, and automatic sewing and cutting parts (47) are connected below the movable grooves (37); the tail end of each connecting rod (18) is connected with a connecting pipe (39), one side, back to the rotary drum (15), of each connecting pipe (39) is connected with a notch (38) which rotates on the horizontal plane where the rotary drum (15) is located after a certain force is applied, an air inlet pipe (40) which is communicated with an air guide pipe (49) and enters the notch (38) is arranged in each connecting pipe (39), an elastic rubber sleeve (42) which is made of rubber and has a certain tension is connected below the notch (38), and an air outlet pipeline (41) which faces downwards and is arranged in the elastic rubber sleeve (42) is arranged in each notch (38); the air outlet pipeline (41) is positioned on the outer side of the elastic rubber sleeve (42) and is communicated with an air outlet pipe (43), the air outlet pipe (43) is positioned below the movable groove (37) and is fixedly connected with a fixed rod piece (45), the air outlet pipe (43) is positioned in the fixed rod piece (45) and is communicated with a three-way pipe (44), and a rubber clamping sleeve (46) which can expand in a small range after air is sealed and arranged on the outer side of the fixed rod piece (45) and the outer side of the elastic rubber sleeve (42);

the bagging module (83) comprises a first supporting rod (11) fixedly mounted on a base shell (10), the first supporting rod (11) is fixedly mounted on the base shell in a direction towards a working module (82) and provided with a bagging shell (12) with an opening towards the working module (82) in the middle, a sliding groove (30) is formed in the opening in the bagging shell (12), a pressure plate (26) sliding in the sliding groove (30) is arranged in the sliding groove (30), the pressure plate (26) is positioned in the bagging shell (12) and fixedly connected with a pressure spring (27), a pressure block (28) is fixedly connected below the pressure plate (26), and the pressure block (28) is positioned on the bagging shell (12) and connected with a telescopic spring (29); the pillow cover is characterized in that a telescopic groove (31) facing the pressure plate (26) is formed in the pressure plate (26) and is back to the direction of the pressure spring (27) and located in the bag covering shell (12) and close to the direction of the pressure block (28), a hydraulic pump (32) is fixedly arranged in the telescopic groove (31), a telescopic rod (33) facing the pressure plate (26) is arranged on the hydraulic pump (32), a push plate (34) is fixedly connected in the telescopic groove (31) on the telescopic rod (33), and one side, facing the direction of the pressure plate (26), of the push plate (34) is provided with an adhesive layer (35) which is slightly adhesive and can just adhere and tear the pillow cover open;

the filling module (84) comprises a third supporting rod (14) fixedly mounted on a base shell (10), the third supporting rod (14) is fixedly mounted with a filler shell (22), a storage tank (23) is arranged in the filler shell (22), a control motor (24) is arranged below the storage tank (23) and positioned in the filler shell (22), the filler shell (22) is provided with a telescopic pipe (21) towards the direction fixed connection of a working module (82), the telescopic pipe (21) is provided with a filling hopper (19) towards one side of the direction of the working module (82), and a filling opening (25) is arranged below the filling hopper (19).

2. The Internet of things-based buckwheat pillow filling system according to claim 1, wherein the Internet of things-based buckwheat pillow filling system comprises: the fixed base (81) comprises a base shell (10) fixedly installed on the ground.

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