CN115674504A

CN115674504A - Stock bin of foam sheet forming machine

Info

Publication number: CN115674504A
Application number: CN202211712283.3A
Authority: CN
Inventors: 刘海军
Original assignee: Qian'an Junwang Thermal Insulation Material Co ltd
Current assignee: Qian'an Junwang Thermal Insulation Material Co ltd
Priority date: 2022-12-30
Filing date: 2022-12-30
Publication date: 2023-02-03
Anticipated expiration: 2042-12-30
Also published as: CN115674504B

Abstract

The utility model relates to a feed bin of foam board make-up machine relates to foam board former's field, including the storehouse body, the fixed intercommunication of lower extreme of storehouse body has the unloading pipe, 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, the bleeder vent in intercommunication transition cavity and the storehouse body outside is seted up with transition cavity intercommunication on the table wall of storehouse body to the unloading pipe, is equipped with the subassembly that strikes the film by the effect of wind-force in the transition cavity. This application has the effect of the smooth unloading of the feed bin of being convenient for.

Description

Stock bin of foam plate forming machine

Technical Field

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

Background

The prior art foam molding machine generally forms a foam sheet by injecting foam particles into a mold assembly after closing the mold, and then performing steam foaming on the foam particles by a steam heating device, wherein the foam particles are formed in the mold. And the storage bin of the foam plate forming machine is used for temporarily storing foam particles for producing the foam plates and feeding the foam forming machine.

The generally equal fixedly connected with unloading pipe in the bottom of feed bin among the correlation technique, thereby accomplish the unloading of foam particle in the feed bin through the unloading pipe to inside pumping of feed bin.

However, when the temperature in the silo is high, the foam particles in the silo may be agglomerated, so that the blanking pipe of the silo may be blocked.

Disclosure of Invention

In order to facilitate the smooth unloading of feed bin, this application provides a foam sheet forming machine's feed bin.

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

the utility model provides a feed bin of foam sheet forming machine, includes the storehouse body, and the fixed intercommunication of the lower extreme of storehouse body has the unloading pipe, 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 set up the bleeder vent in intercommunication transition cavity and the storehouse body outside on the table wall of storehouse body, are equipped with the subassembly that strikes the film that receives the wind force effect in the transition cavity.

By adopting the technical scheme, when the bin body is discharged, the discharging pipe is pumped so that the foam particles in the bin body can be discharged along the discharging pipe. In this in-process, because unloading pipe and transition cavity intercommunication, when bleeding the unloading pipe, the air current in the transition cavity is to the direction motion that is close to the unloading pipe, receives the effect of wind to strike the subassembly and strikes the film, and the film vibration is convenient for to hold the foam particle of group and is dispersed this moment to do benefit to the smooth unloading of unloading pipe.

Preferably, strike the subassembly include with the lateral wall fixed connection's of storehouse body at least one bellows, bellows with transition cavity intercommunication, the bellows internal rotation is connected with receives the wind force effect pivoted wind wheel, and the wind wheel includes a plurality of blades, and the blade is kept away from the equal contact film of one end of wind wheel axis.

Through adopting above-mentioned technical scheme, thereby when driving the air current motion in the transition cavity to unloading pipe convulsions, the wind wheel in the bellows takes place to rotate, thereby the wind wheel rotates and drives the blade and strikes the film. The film is controlled to be knocked through wind power used in the blanking process, other power sources do not need to be installed, and resources are saved.

Preferably, the end, far away from the axis of the wind wheel, of each blade is fixedly connected with a spring, the end, far away from the blades, of each spring is fixedly connected with an elastic block, and one elastic block contacts with the film.

Through adopting above-mentioned technical scheme, the blade rotates and drives the elastic block and strikes the film, and the in-process spring that the elastic block struck the film takes place to vibrate, and the elastic block that the spring vibration is convenient for is flexible strikes the film, can reduce the condition emergence that the elastic block produced the damage to the film simultaneously.

Preferably, this internal installation of storehouse breaks up the subassembly, breaks up the subassembly including installing the driving motor in the storehouse body is inside, and fixedly connected with breaks up the pole on driving motor's the output shaft.

Through adopting above-mentioned technical scheme, when this internal foam particle of holding a group in storehouse was difficult to scatter through the film vibration, start driving motor, driving motor's output shaft rotates and drives the pole rotation of breaing up, and the pole rotation of breaing up is convenient for break up the foam particle of holding a group.

Preferably, driving motor's output shaft is vertical to be set up downwards, installs lifting unit between driving motor's output shaft and the break up pole, lifting unit include with driving motor's output shaft fixed connection's fixed block, it has two first body of rods to articulate on the fixed block, the one end that the fixed block was kept away from to every first body of rod all articulates there is the second body of rod, every second body of rod keep away from the fixed block one end all with break up the pole and articulate, install two first bodies of rod of drive on the fixed block to the direction pivoted servo motor that is close to each other or keeps away from.

Through adopting above-mentioned technical scheme, when driving motor drives the pole pivoted of breaing up, start servo motor, servo motor drives two first body of rods and rotates to the direction that is close to each other or keeps away from, and two first body of rods rotate and drive two second body of rods and rotate to the direction that is close to each other or keeps away from, so be convenient for adjust the pole oscilaltion of breaing up. Be convenient for break up the foam particle of this internal co-altitude in storehouse, and when need not to start lifting unit, drive through lifting unit and break up the pole and rise and stop the position of keeping away from the unloading pipe in the storehouse body, reduce and break up the condition emergence that the pole influences the foam particle 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 air is blown into the feeding pipe to feed materials into the bin body.

Through adopting above-mentioned technical scheme, thereby through blowing to the inside feeding of feed pipe in to the feed bin body, partial air current drives the subassembly of strikeing and strikes the film along the feed pipe flow direction transition cavity in, the air current flow in the transition cavity this moment, is convenient for get into comparatively even the laying of this internal foam particle in storehouse.

Preferably, the interior fixedly connected with of storehouse body is located the material loading pipe directly below and accepts the board, fixedly connected with the trachea of a plurality of intercommunication film both sides on the inside wall of film, a plurality of tracheas distribute around the axis of storehouse body and the trachea is located the film and is close to the position of accepting the board, and every trachea all inclines down gradually along the direction of keeping away from the film.

Through adopting above-mentioned technical scheme, the foam particle that gets into in the storehouse body through the material loading pipe falls into and accepts the board on to thereby the striking is accepted the board and is to accepting the motion all around of board. The foam particles falling from the periphery of the bearing plate can be uniformly distributed in the bin body under the influence of wind force blown out by the air pipe, so that the phenomenon that the foam particles are accumulated near the feeding pipe after falling from the feeding pipe is reduced, and the feeding condition of the feeding pipe is influenced.

Preferably, the middle part of the bearing plate is raised towards the direction close to the feeding pipe.

Through adopting above-mentioned technical scheme, the foam particle that drops on accepting can be more smooth to accepting the landing all around of board to accomplish the unloading of foam particle from accepting on 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 film vibrates to facilitate the dispersion of the agglomerated foam particles, so that smooth blanking of the blanking 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. the foam particles in the cabin body can be conveniently and uniformly distributed.

Drawings

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

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

Figure 3 is a schematic diagram of a wind wheel structure embodied by 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.

Description of reference numerals: 1. a bin body; 11. feeding a material pipe; 111. a vent hole; 12. a discharging pipe; 13. air holes are formed; 14. a transition cavity; 15. a connecting rod; 2. a cloth component; 21. a bearing plate; 22. fixing the rod; 23. an air tube; 3. a film; 4. a knocking component; 41. a bellows; 42. a wind wheel; 421. a blade; 43. a rotating shaft; 44. a spring; 45. an elastic block; 5. breaking up the components; 51. a drive motor; 52. breaking up 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. mounting blocks; 65. a gear; 66. a servo motor.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses feed bin of foam sheet forming machine. Referring to fig. 1, the storage bin includes a bin body 1 for storing foam particles, an upper end fixedly connected with feeding pipe 11 of the bin body 1, and the feeding pipe 11 communicates with the inside of the bin body 1. The lower extreme fixedly connected with unloading pipe 12 of storehouse body 1, unloading pipe 12 also communicates the inside of storehouse body 1.

The produced foam particles are sent into the bin body 1 through the feeding pipe 11 for storage by blowing air into the feeding pipe 11. The air suction is performed on the discharging pipe 12, so that the discharging of the foam particles stored in the bin body 1 is completed.

Referring to fig. 2, foam particles entering the silo body 1 from the feeding pipe 11 are gradually accumulated right below the feeding pipe 11, and when the foam particles are highly accumulated, the feeding of the feeding pipe 11 into the silo body 1 may be affected. In order to facilitate the foam particles entering the bin body 1 to be uniformly distributed in the bin body 1, the distributing 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 end of each connecting rod 15 is fixedly connected with the inner cavity wall of the bin body 1, and the other end of each connecting rod 15 is fixedly connected with the membrane 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 blanking 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 transition cavity 14 and the outer side of the bin body 1.

The distributing component 2 comprises a bearing plate 21 arranged inside 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 of the bearing plate 21 is bulged upwards. Two fixing rods 22 are fixedly connected to the upper surface of the bearing plate 21, the two fixing rods 22 are vertically arranged upwards, 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 two sides of the film 3 are communicated through the air pipes 23. Each air pipe 23 is gradually inclined downwards along the direction far away from the thin film 3, the 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 positions, close to the bearing plates 21, of the thin film 3.

The foam particles are driven to feed into the bin body 1 by blowing air into the feeding pipe 11, and when the air is blown into the feeding pipe 11, part of air flow enters the transition cavity 14 along the air holes 111 and is blown into the bin body 1 along the air pipe 23. The foam particles thus introduced into the silo body 1 fall onto the receiving plate 21 and then slide down around the receiving plate 21. After the foam particles fall down along the bearing plate 21, the foam particles can be uniformly distributed in the bin body 1 under the influence of wind force blown out from the air pipe 23.

The bin body 1 is also provided with a knocking component 4 for knocking the thin film 3. The rapping assembly 4 comprises at least one bellows 41, the number of bellows 41 in this embodiment being two. Two bellows 41 all with the lateral wall fixed connection of storehouse body 1, and one side that every bellows 41 is close to storehouse body 1 all communicates with transition cavity 14. Referring to fig. 2 and 3, a wind wheel 42 is arranged in each wind box 41, each wind wheel 42 includes a plurality of blades 421, a rotating shaft 43 vertically penetrating through 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 with the cavity wall of the wind box 41.

When air is blown into the feeding pipe 11, part of air flow enters the transition cavity 14 and blows the wind wheel 42 to rotate, the wind wheel 42 rotates to drive each blade 421 of the wind wheel 42 to knock the film 3, and the film 3 vibrates to be beneficial to the uniform distribution of foam particles falling into the bin body 1. When the air is sucked to the feeding pipe 12, the air flow in the transition cavity 14 moves towards the direction close to the feeding pipe 12, and at the moment, the wind wheel 42 also rotates and drives each blade 421 to knock the film 3, so that the foam particles in the bin body 1 can be smoothly discharged from the feeding 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 blocks 45 on each blade 421 knock the film 3, so that the vibration of the springs 44 is convenient for reducing the damage of the elastic blocks 45 to the film 3, and the vibration of the springs 44 is beneficial to knocking the film 3 to vibrate.

The storehouse body 1 is made for transparent material, and the condition that the foam particle in the storehouse body 1 probably appears holding a group takes place, if the vibration of film 3 is difficult to break up the foam particle this moment, holds a group's foam particle and gets into down the interior feed pipe 12 that probably blocks up of feed pipe 12. In order to solve this problem, install in the storehouse body 1 and break up subassembly 5, when observing that the great foam particle of cohesion is stored in the storehouse body 1, break up the foam particle of cohesion through breaking up subassembly 5.

The scattering 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 arranged downwards and is connected with a lifting assembly 6, and a scattering rod 52 arranged in the horizontal direction is mounted at the lower end of the lifting assembly 6.

Starting drive motor 51, drive motor 51's output shaft rotates and drives through lifting unit 6 and breaks up pole 52 and rotate, breaks up pole 52 and rotates and can stir the foam particle who holds a group and break up. Lifting unit 6 drives breaks up pole 52 and goes up and down and can stir the not co-altitude foam particle of storehouse body 1 and break up, and when the foam particle need not to break up the operation, breaks up pole 52 through lifting unit 6 control and rises, breaks up the in-process that pole 52 rises and keeps away from down pipe 12 gradually, breaks up pole 52 so and does not influence the unloading smoothly of down 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 to the output shaft of the driving motor 51, a groove 611 is formed in the bottom wall of the fixing block 61, two connecting shafts 612 are rotatably connected to the groove 611, and one end of each of the two first rod bodies 62 extends into the groove 611 and is fixedly connected to the corresponding connecting shaft 612. The two first rods 62 are gradually inclined downward in directions away from each other.

A first body of rod 62 corresponds a second body of rod 63, and the one end that fixed block 61 was kept away from to every first body of rod 62 all rotates with a second body of rod 63 to be connected, and the one end that fixed block 61 was kept away from to every second body of rod 63 all rotates and is connected with same installation piece 64, installation piece 64 and the last fixed surface who breaks up pole 52 and be connected. One end of each of the two connecting shafts 612 penetrates through the fixing block 61 and is fixedly connected with a gear 65, and the two gears 65 are meshed with each other. A servo motor 66 is fixedly connected to a side wall of the fixing block 61 away from the gear 65, 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, 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. Thus, the two first rod bodies 62 are driven by the connecting shaft 612 to move toward or away from each other, and the two first rod bodies 62 drive the two second rod bodies 63 to move toward or away from each other. When the two first rods 62 rotate in the direction of approaching each other, the two second rods 63 also rotate in the direction of approaching each other, and at this time, the lifting assembly 6 drives the scattering rod 52 to descend, otherwise, the scattering rod 52 is driven to ascend.

The embodiment of the application adopts the implementation principle that a storage bin of a foam plate forming machine is as follows: when feeding the bin body 1, the air is blown into the feeding pipe 11, so that foam particles produced are fed into the bin body 1 through the feeding pipe 11, meanwhile, the air flow enters the transition cavity 14 to blow the wind wheel 42 to rotate, the wind wheel 42 rotates to knock the film 3, meanwhile, the air pipe 23 blows the foam particles falling into the bin body 1, and the foam particles convenient to enter the bin body 1 can be uniformly distributed in the bin body 1.

When unloading to storehouse body 1, induced draft through managing 12 to unloading to transport the foam particle of storehouse body 1 inside storage to breaking away from storehouse body 1, thereby the air current in the transition cavity 14 drives wind wheel 42 to the direction motion that is close to unloading pipe 12 and rotates simultaneously, and wind wheel 42 rotates and beats film 3, does benefit to the foam particle who holds a group and accomplishes the unloading from unloading pipe 12.

When needs are broken up the foam particle of uniting in the storehouse body 1, thereby start servo motor 66 and rotate the drive and break up pole 52 and go up and down, start driving motor 51 simultaneously and drive lifting unit 6 and break up pole 52 and rotate, break up pole 52 and rotate and break up the foam particle of uniting.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims

1. The utility model provides a foam board make-up machine's feed bin, includes storehouse body (1), and the fixed intercommunication of lower extreme of storehouse body (1) has unloading pipe (12), its characterized in that: inner chamber wall fixedly connected with one deck film (3) of storehouse body (1), form transition cavity (14) between the inner chamber wall of film (3) and storehouse body (1), feed pipe (12) and transition cavity (14) intercommunication have seted up bleeder vent (13) in intercommunication transition cavity (14) and the storehouse body (1) outside on the table wall of storehouse body (1), are equipped with in transition cavity (14) and strike subassembly (4) that strike film (3) by the wind-force effect.

2. The storage bin of a foam plank forming machine of claim 1, wherein: strike subassembly (4) including with at least one bellows (41) of the lateral wall fixed connection of storehouse body (1), bellows (41) with transition cavity (14) intercommunication, bellows (41) internal rotation are connected with receives wind power effect pivoted wind wheel (42), and wind wheel (42) include a plurality of blades (421), and the one end that wind wheel (42) axis was kept away from in blade (421) all contacts film (3).

3. The storage bin of a foam plank forming machine of claim 2, wherein: the blade (421) is kept away from the equal fixedly connected with spring (44) of one end of wind wheel (42) axis, and spring (44) is kept away from the equal fixedly connected with elastic block (45) of one end of blade (421), and one of them elastic block (45) contact film (3).

4. The storage bin of a foam plank forming machine as claimed in any one of claims 1 to 3, wherein: install in storehouse body (1) and break up subassembly (5), break up subassembly (5) including installing driving motor (51) inside storehouse body (1), fixedly connected with breaks up pole (52) on the output shaft of driving motor (51).

5. The storage bin of a foam plank forming machine of claim 4, wherein: the output shaft of driving motor (51) sets up vertically downwards, 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) were kept away from in every first body of rod (62) all articulates there is the second body of rod (63), the one end that fixed block (61) were kept away from in every second body of rod (63) all with break up pole (52) articulated, install on fixed block (61) and drive two first body of rod (62) to being close to each other or the orientation pivoted servo motor (66) of keeping away from.

6. The storage bin of a foam plank forming machine as claimed in any one of claims 1 to 3, 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 air is blown into the feeding pipe (11) to feed materials into the bin body (1).

7. The storage bin of a foam plank forming machine of claim 6, wherein: fixedly connected with accepts board (21) under being located material loading pipe (11) in storehouse body (1), trachea (23) of a plurality of intercommunication film (3) both sides of fixedly connected with on the inside wall of film (3), a plurality of trachea (23) distribute and trachea (23) are located film (3) and are close to the position of accepting board (21) around the axis of storehouse body (1), and every trachea (23) all inclines down gradually along the direction of keeping away from film (3).

8. The storage bin of a foam plank forming machine of claim 7, wherein: the middle part of the bearing plate (21) bulges towards the direction close to the feeding pipe (11).