CN115674504B - Storage bin of foam board forming machine - Google Patents

Abstract

The application relates to a feed bin of foam sheet forming machine relates to foam sheet former's field, including the storehouse body, the lower extreme fixedly connected with unloading pipe of storehouse body, the inner chamber wall fixedly connected with one deck film of storehouse body forms the transition cavity between the inner chamber wall of film and storehouse body, unloading pipe and transition cavity intercommunication, offered the bleeder vent in intercommunication transition cavity and the storehouse body outside on the surface wall of storehouse body, be equipped with in the transition cavity and receive the wind-force effect to strike the subassembly of beating of film. This application has the smooth unloading of feed bin of being convenient for effect.

Description

Storage bin of foam board forming machine

Technical Field

The application relates to the field of foam board forming equipment, in particular to a storage bin of a foam board forming machine.

Background

Prior foam molding machines typically foam sheet materials by injecting foam pellets into a closed mold assembly and subsequently steam foaming the foam pellets by a steam heating device, the foam pellets being foam molded in the mold. The storage bin of the foam board forming machine is used for temporarily storing foam particles for producing the foam boards and feeding the foam forming machine.

The bottom of the bin in the related art is generally fixedly connected with a blanking pipe, and the inside of the bin is pumped through the blanking pipe so as to finish the blanking of foam particles in the bin.

However, when the temperature in the storage bin is higher, the foam particles in the storage bin can be in a blocking condition, so that the blanking pipe of the storage bin can be blocked.

Disclosure of Invention

In order to facilitate smooth blanking of the bin, the application provides a bin of a foam board forming machine.

The application provides a feed bin of foam sheet molding machine adopts following technical scheme:

the utility model provides a feed bin of foam board make-up machine, includes the storehouse body, the lower extreme fixedly connected with unloading pipe of storehouse body, the inner chamber wall fixedly connected with one deck film of storehouse body forms the transition cavity between film and the inner chamber wall of storehouse body, unloading pipe and transition cavity intercommunication, offered the bleeder vent in intercommunication transition cavity and the storehouse body outside on the surface wall of storehouse body, be equipped with in the transition cavity and receive the wind-force effect to strike the subassembly of beating of film.

Through adopting above-mentioned technical scheme, when the storehouse body unloading, thereby through the unloading pipe to the foam granule completion unloading along unloading pipe in making the storehouse body. In the process, as the blanking pipe is communicated with the transition cavity, when the blanking pipe is pumped, the airflow in the transition cavity moves towards the direction close to the blanking pipe, the component is knocked to knock the film under the action of wind force, and at the moment, the foam particles which are convenient for the agglomeration are scattered due to the vibration of the film, so that the smooth blanking of the blanking pipe is facilitated.

Preferably, the knocking component comprises at least one air box fixedly connected with the outer side wall of the bin body, the air box is communicated with the transition cavity, a wind wheel rotating under the action of wind force is rotationally connected in the air box, the wind wheel comprises a plurality of blades, and one ends of the blades, far away from the axis of the wind wheel, are all contacted with the film.

By adopting the technical scheme, when the blanking pipe is exhausted to drive the airflow in the transition cavity to move, the wind wheel in the wind box rotates, and the wind wheel rotates to drive the blade to knock the film. The wind power control film used in the blanking process is knocked, other power sources are not required to be installed, and resources are saved.

Preferably, the one end that the blade kept away from the wind wheel axis is all fixedly connected with spring, and the one end that the spring kept away from the blade is all fixedly connected with elastic block, and one of them elastic block contacts the film.

Through adopting above-mentioned technical scheme, the blade rotates and drives the elastic block and strike the film, and the elastic block strikes the in-process spring of film and takes place to vibrate, and the spring vibration is convenient for the elastic block to stretch out and draw back and strike the film, can reduce simultaneously that the elastic block produces the condition of damage to the film and takes place.

Preferably, the bin body is internally provided with a scattering assembly, the scattering assembly comprises a driving motor arranged in the bin body, and an output shaft of the driving motor is fixedly connected with a scattering rod.

Through adopting above-mentioned technical scheme, when the foam granule of embracing the group in the storehouse is difficult to disperse through the film vibration, start driving motor, driving motor's output shaft rotates and drives the pole of scattering and rotate, breaks up the pole and rotates and be convenient for break up the foam granule of embracing the group.

Preferably, the output shaft of the driving motor is vertically downwards arranged, a lifting assembly is arranged between the output shaft of the driving motor and the scattering rod, the lifting assembly comprises a fixed block fixedly connected with the output shaft of the driving motor, two first rod bodies are hinged to the fixed block, one end, far away from the fixed block, of each first rod body is hinged to a second rod body, one end, far away from the fixed block, of each second rod body is hinged to the scattering rod, and a servo motor for driving the two first rod bodies to rotate in a direction close to or far away from each other is arranged on the fixed block.

Through adopting above-mentioned technical scheme, when driving motor drives the pole pivoted of breaking up, start servo motor, servo motor drives two first body of rod and rotates to the direction that is close to each other or keep away from, and two first body of rod rotations drive two second body of rod and rotate to the direction that is close to each other or keep away from, so be convenient for adjust the pole of breaking up and go up and down. Be convenient for break up the foam granule of this internal not co-altitude of storehouse, and need not to start lifting unit time, drive through lifting unit and break up the pole and rise and stop in the internal position of keeping away from the unloading pipe in storehouse, reduce and break up the condition emergence that the pole influences foam granule unloading.

Preferably, the upper end of the bin body is fixedly communicated with a feeding pipe, the feeding pipe is communicated with the transition cavity, and the feeding pipe is used for feeding the bin body by blowing air into the feeding pipe.

Through adopting above-mentioned technical scheme, thereby blow to the inside feeding of storehouse body through feeding pipe in, in partial air current along feeding pipe flow direction transition cavity, the air current flow in the transition cavity drives in this moment and beats the subassembly and beat the film, the foam granule that is convenient for get into in the storehouse body is comparatively even to be laid.

Preferably, the bin body is internally fixedly connected with a receiving plate positioned under the feeding pipe, a plurality of air pipes communicated with two sides of the film are fixedly connected to the inner side wall of the film, the air pipes are distributed around the axis of the bin body and positioned at the position, close to the receiving plate, of the film, and each air pipe is gradually inclined downwards along the direction away from the film.

Through adopting above-mentioned technical scheme, get into the foam granule in the storehouse body through the material loading pipe and fall into on the joint board to strike the joint board and thereby to the motion all around of joint board. Foam particles falling from the periphery of the bearing plate can be uniformly distributed inside the bin body under the influence of wind power blown out by the air pipe, and foam particles are reduced to fall from the feeding pipe and then are accumulated near the feeding pipe, so that feeding of the feeding pipe is influenced.

Preferably, the middle part of the receiving plate bulges towards the direction close to the feeding pipe.

Through adopting above-mentioned technical scheme, the foam granule that drops on the accepting can be more smooth to the landing all around of accepting the board to accomplish the unloading on the foam granule from accepting the board.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the knocking component knocks the film, and the vibration of the film is convenient for scattering foam particles of the holding group, so that smooth discharging of the discharging pipe is facilitated;

2. the scattering rod rotates and lifts, so that foam particles with different heights in the bin body can be scattered conveniently;

3. foam particles in the bin body are conveniently and uniformly distributed.

Drawings

Fig. 1 is a schematic diagram of an overall structure of a silo according to an embodiment of the present application.

Fig. 2 is a schematic diagram showing an internal structure of a silo according to an embodiment of the application.

Fig. 3 is a schematic view showing a wind wheel structure according to an embodiment of the present application.

Fig. 4 is a schematic structural diagram of a lifting assembly according to an embodiment of the present application.

Reference numerals illustrate: 1. a bin body; 11. feeding pipes; 111. a vent hole; 12. discharging pipes; 13. ventilation holes; 14. a transition cavity; 15. a connecting rod; 2. a cloth component; 21. a receiving plate; 22. a fixed rod; 23. an air pipe; 3. a film; 4. a striking assembly; 41. a wind box; 42. a wind wheel; 421. a blade; 43. a rotating shaft; 44. a spring; 45. an elastic block; 5. a break-up assembly; 51. a driving motor; 52. scattering the rods; 6. a lifting assembly; 61. a fixed block; 611. a groove; 612. a connecting shaft; 62. a first rod body; 63. a second rod body; 64. a mounting block; 65. a gear; 66. a servo motor.

Detailed Description

The present application is described in further detail below in conjunction with fig. 1-4.

The embodiment of the application discloses a feed bin of foam board forming machine. Referring to fig. 1, the bin includes a bin body 1 for storing foam particles, a feeding pipe 11 is fixedly connected to the upper end of the bin body 1, and the feeding pipe 11 is communicated with the inside of the bin body 1. The lower end of the bin body 1 is fixedly connected with a blanking pipe 12, and the blanking pipe 12 is also communicated with the inside of the bin body 1.

By blowing air into the feeding pipe 11, the produced foam particles are sent into the bin body 1 through the feeding pipe 11 for storage. Through induced draft to unloading pipe 12 to accomplish the unloading of the inside foam granule that stores of storehouse body 1.

Referring to fig. 2, foam particles entering the bin body 1 from the feeding pipe 11 are gradually accumulated just below the feeding pipe 11, and when the foam particles are accumulated higher, a situation that the feeding pipe 11 is influenced to feed into the bin body 1 may occur. In order to facilitate foam particles entering the bin body 1 to be uniformly distributed in the bin body 1, a cloth component 2 is arranged in the bin body 1.

The inner cavity wall of the bin body 1 is connected with a layer of film 3, and a transition cavity 14 is formed between the film 3 and the inner cavity wall of the bin body 1. A plurality of connecting rods 15 are arranged in the transition cavity 14, one ends of the connecting rods 15 are fixedly connected with the inner cavity wall of the bin body 1, and the other ends of the connecting rods are fixedly connected with the film 3. The side wall of the feeding pipe 11 is provided with a plurality of vent holes 111 communicated with the transition cavity 14, and the side wall of the discharging pipe 12 is also provided with a plurality of vent holes 111 communicated with the transition cavity 14. Two air holes 13 are formed in the upper end face of the bin body 1, and each air hole 13 is communicated with the outer side of the bin body 1 through a transition cavity 14.

The cloth component 2 comprises a bearing plate 21 arranged in the bin body 1, the bearing plate 21 is horizontally arranged, the bearing plate 21 is positioned in the bin body 1 and close to the feeding pipe 11, and the middle part of the bearing plate 21 is upwards raised. The upper surface of the bearing plate 21 is fixedly connected with two fixing rods 22, the two fixing rods 22 are vertically upwards arranged, and the upper end of each fixing rod 22 penetrates through the film 3 and is fixedly connected with the inner cavity wall of the bin body 1. A plurality of air pipes 23 are fixedly connected to the inner side wall of the film 3, and the air pipes 23 are communicated with the two sides of the film 3. Each air pipe 23 is gradually inclined downwards along the direction away from the film 3, a plurality of air pipes 23 are uniformly distributed around the axis of the bin body 1, and the air pipes 23 are positioned at the position of the film 3 close to the bearing plate 21.

By blowing air into the feeding pipe 11, foam particles are driven to feed into the bin body 1, and part of air flow enters the transition cavity 14 along the vent hole 111 and is blown into the bin body 1 along the air pipe 23 while blowing air into the feeding pipe 11. After the foam particles entering the bin body 1 in this way fall on the bearing plate 21, the foam particles slide down to the periphery of the bearing plate 21. After the foam particles fall along the bearing plate 21, the foam particles can be uniformly distributed in the bin body 1 under the influence of wind power blown out by the air pipe 23.

The bin body 1 is also provided with a knocking component 4 for knocking the film 3. The rapping assembly 4 comprises at least one bellows 41, the number of bellows 41 in this embodiment being two. The two bellows 41 are fixedly connected with the outer side wall of the bin body 1, and one side, close to the bin body 1, of each bellows 41 is communicated with the transition cavity 14. Referring to fig. 2 and 3, a wind wheel 42 is disposed in each wind box 41, the wind wheel 42 includes a plurality of blades 421, a rotating shaft 43 vertically penetrating the wind wheel 42 is fixedly connected to the middle of the wind wheel 42, and each end of the rotating shaft 43 is rotatably connected to a cavity wall of the wind box 41.

When blowing air into the feeding pipe 11, part of air flow enters the transition cavity 14 and blows the wind wheel 42 to rotate, and the wind wheel 42 rotates to drive each blade 421 of the wind wheel 42 to strike the film 3, so that the vibration of the film 3 is beneficial to the uniform distribution of foam particles falling into the bin body 1. When the discharging pipe 12 is ventilated, the air flow in the transition cavity 14 moves towards the direction close to the discharging pipe 12, and at the moment, the wind wheel 42 also rotates and drives each blade 421 to strike the film 3, so that the foam particles in the bin body 1 can smoothly finish discharging from the discharging pipe 12.

The end of each blade 421 of the wind wheel 42 far away from the rotating shaft 43 is fixedly connected with a spring 44, and one end of the spring 44 far away from the blade 421 is fixedly connected with a hemispherical elastic block 45. When the wind wheel 42 rotates, the elastic block 45 on each blade 421 knocks the film 3, so that the vibration of the spring 44 is convenient to reduce the damage of the elastic block 45 to the film 3, and the vibration of the spring 44 is convenient to knock the film 3.

The storehouse body 1 is transparent material and makes, and the condition that the bubble particle in the storehouse body 1 probably appears embracing the group takes place, if at this moment film 3 vibration is difficult to break up the bubble particle, and the bubble particle of embracing the group gets into in the unloading pipe 12 probably can block up unloading pipe 12. In order to solve the problem, a scattering component 5 is arranged in the bin body 1, and when the fact that the bin body 1 stores foam particles with larger embracing groups is observed, the foam particles with the embracing groups are scattered through the scattering component 5.

The breaking assembly 5 comprises a driving motor 51 fixedly connected with the lower surface of the bearing plate 21, an output shaft of the driving motor 51 is vertically downwards arranged and connected with a lifting assembly 6, and a breaking rod 52 is arranged at the lower end of the lifting assembly 6 in a horizontal direction.

The driving motor 51 is started, the output shaft of the driving motor 51 rotates to drive the scattering rod 52 to rotate through the lifting assembly 6, and the scattering rod 52 rotates to stir and scatter the foam particles of the embracing mass. The lifting component 6 drives the scattering rod 52 to lift so as to stir and scatter foam particles with different heights of the bin body 1, and when the foam particles do not need to be scattered, the scattering rod 52 is controlled to lift through the lifting component 6, and the scattering rod 52 is gradually far away from the blanking pipe 12 in the lifting process, so that the scattering rod 52 does not influence the smooth blanking of the blanking pipe 12.

Referring to fig. 2 and 4, the lifting assembly 6 includes a fixing block 61, two first rod bodies 62 and two second rod bodies 63, the fixing block 61 is fixedly connected with an output shaft of the driving motor 51, a groove 611 is formed in a bottom wall of the fixing block 61, two connecting shafts 612 are rotatably connected in the groove 611, and one ends of the two first rod bodies 62 extend into the groove 611 and are fixedly connected with the corresponding connecting shafts 612. The two first rod bodies 62 are gradually inclined downward in directions away from each other.

One first rod body 62 corresponds to one second rod body 63, one end of each first rod body 62 far away from the fixed block 61 is rotationally connected with one second rod body 63, one end of each second rod body 63 far away from the fixed block 61 is rotationally connected with the same mounting block 64, and the mounting block 64 is fixedly connected with the upper surface of the scattering rod 52. One end of each of the two connecting shafts 612 penetrates through the fixed block 61 and is fixedly connected with the gear 65, and the two gears 65 are meshed. A side wall of the fixed block 61 facing away from the gear 65 is fixedly connected with a servo motor 66, and an output shaft of the servo motor 66 is coaxially fixed with one of the connecting shafts 612.

The servo motor 66 is started, and the output shaft of the servo motor 66 rotates to drive one of the connecting shafts 612 to rotate, and one connecting shaft 612 rotates to drive the other connecting shaft 612 to rotate through the two gears 65. The two first rod bodies 62 are driven by the connecting shaft 612 to move in directions approaching or separating from each other, and the two first rod bodies 62 move to drive the two second rod bodies 63 to move in directions approaching or separating from each other. When the two first rod bodies 62 rotate in the direction approaching each other, the two second rod bodies 63 also rotate in the direction approaching each other, and at this time, the lifting assembly 6 drives the breaking rod 52 to descend, and otherwise drives the breaking rod 52 to ascend.

The implementation principle of the bin of the foam board forming machine is as follows: when the bin body 1 is fed, the blowing is carried out in the feeding pipe 11, so that foam particles after production are fed into the bin body 1 through the feeding pipe 11, meanwhile, air flows enter the transition cavity 14 to blow the wind wheel 42 to rotate, the wind wheel 42 rotates to knock the film 3, and meanwhile, the air pipe 23 blows the foam particles falling into the bin body 1, so that the foam particles entering the bin body 1 can be uniformly distributed in the bin body 1.

When the bin body 1 is subjected to blanking, the blanking pipe 12 is induced to suck, so that foam particles stored in the bin body 1 are conveyed to be separated from the bin body 1, meanwhile, the air flow in the transition cavity 14 moves towards the direction close to the blanking pipe 12 to drive the wind wheel 42 to rotate, the wind wheel 42 rotates to knock the film 3, and the blowing of the foam particles with the holding group is finished from the blanking pipe 12.

When the cohesive foam particles in the bin body 1 need to be scattered, the servo motor 66 is started to rotate so as to drive the scattering rod 52 to lift, and meanwhile the driving motor 51 is started to drive the lifting assembly 6 and the scattering rod 52 to rotate, and the scattering rod 52 rotates to scatter the cohesive foam particles.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (4)

1. The utility model provides a feed bin of foam panel make-up machine, includes storehouse body (1), and the lower extreme fixed intercommunication of storehouse body (1) has unloading pipe (12), its characterized in that: the inner cavity wall of the bin body (1) is fixedly connected with a layer of film (3), a transition cavity (14) is formed between the film (3) and the inner cavity wall of the bin body (1), the blanking pipe (12) is communicated with the transition cavity (14), the surface wall of the bin body (1) is provided with an air vent (13) which is communicated with the transition cavity (14) and the outer side of the bin body (1), and a knocking component (4) which knocks the film (3) under the action of wind force is arranged in the transition cavity (14);

the knocking assembly (4) comprises at least one air box (41) fixedly connected with the outer side wall of the bin body (1), the air box (41) is communicated with the transition cavity (14), a wind wheel (42) which rotates under the action of wind force is rotationally connected to the air box (41), the wind wheel (42) comprises a plurality of blades (421), and one ends, far away from the axis of the wind wheel (42), of the blades (421) are all contacted with the film (3);

the ends, far away from the axis of the wind wheel (42), of the blades (421) are fixedly connected with springs (44), and the ends, far away from the blades (421), of the springs (44) are fixedly connected with elastic blocks (45), wherein one elastic block (45) is in contact with the film (3);

the device is characterized in that a scattering assembly (5) is arranged in the bin body (1), the scattering assembly (5) comprises a driving motor (51) arranged in the bin body (1), and a scattering rod (52) is fixedly connected to an output shaft of the driving motor (51);

the output shaft of driving motor (51) is vertical downwards to be set up, install lifting unit (6) between the output shaft of driving motor (51) and break up pole (52), lifting unit (6) include with output shaft fixed connection's of driving motor (51 fixed block (61), it has two first body of rod (62) to articulate on fixed block (61), the one end that fixed block (61) was kept away from to every first body of rod (62) all articulates there is second body of rod (63), the one end that fixed block (61) was kept away from to every second body of rod (63) all with break up pole (52) articulated, install on fixed block (61) two first body of rod (62) of drive to be close to each other or direction pivoted servo motor (66) that keep away from.

2. A stock bin of a foam board forming machine as claimed in claim 1, wherein: the upper end of the bin body (1) is fixedly communicated with a feeding pipe (11), the feeding pipe (11) is communicated with the transition cavity (14), and the feeding pipe (11) is internally blown to feed the bin body (1).

3. A stock bin of a foam board forming machine as claimed in claim 2, wherein: the utility model discloses a storehouse, including storehouse body (1), film (3) and film (3), fixedly connected with in storehouse body (1) is located accept board (21) under material loading pipe (11), fixedly connected with trachea (23) of a plurality of intercommunication film (3) both sides on the inside wall of film (3), a plurality of trachea (23) are around the axis distribution of storehouse body (1) and trachea (23) are located the position that film (3) is close to accepting board (21), and every trachea (23) all follow the direction of keeping away from film (3) and incline downwards gradually.

4. A stock bin of a foam board forming machine according to claim 3, wherein: the middle part of the bearing plate (21) bulges towards the direction close to the feeding pipe (11).

Images