CN219765256U - Forming structure of massive biomass fuel - Google Patents

Abstract

The utility model discloses a shaping structure of massive biomass fuel, which comprises a transfer table, a compressor arranged on the transfer table, and further comprises: and (3) a forming mechanism: granulating and forming the raw materials by using the compressor; install the installation axle on the one side inner wall of compressor, one side of installation axle circumference outer wall is equipped with the connecting rod, the opposite side of installation axle circumference outer wall is equipped with the bearing platform, be equipped with the counter weight wheel on the one side outer wall of connecting rod, the connecting rod is close to be connected with on the one side outer wall of counter weight wheel and hit the piece, the bottom of hitting the piece is equipped with hits and hits awl and reset spring, install the contact block on one side inner wall of compressor, be equipped with on the bottom inner wall of compressor and store the box. The shaping structure of the massive biomass fuel disclosed by the utility model has the technical effects of good shaping effect, no waste caused by raw materials adhering to the inside of the compressor and the feed inlet, and strong linkage.

Description

Forming structure of massive biomass fuel

Technical Field

The utility model relates to the technical field of biomass fuel processing, in particular to a shaping structure of massive biomass fuel.

Background

Biomass fuel: the novel clean fuel is prepared by using biomass material as fuel, generally mainly agricultural and forestry waste (such as straw, sawdust, bagasse and rice chaff) and preparing various molded (such as block, granule and the like) clean fuel by crushing, mixing, extruding, drying and the like.

The patent document of application number 202221564769.2 discloses a biomass fuel make-up machine, including shaping case, storage case, passageway and shaping subassembly, storage case and passageway intercommunication, passageway and shaping case's top intercommunication, shaping subassembly includes baffle, movable plate, first cylinder and shaping processing unit, the inner wall fixed connection of first cylinder and shaping case, the output and the movable plate fixed connection of first cylinder, the one end of baffle and the one end fixed connection of movable plate, shaping processing unit sets up on the shaping case.

However, when the traditional massive biomass fuel forming structure is used, in the process that granular raw materials enter a compressor for granulating and forming, the raw materials are easy to adhere to the inner wall of a feed inlet or the inner wall of the compressor, so that waste is caused, and cleaning is inconvenient; for example: in the biomass fuel processing process, granular raw materials are subjected to granule forming through a compressor to form objects with regular shapes and compact structures, in the process, the granular raw materials are easy to adhere to the inner wall of a feed inlet and the inner wall of the compressor, the whole compressor needs to be disassembled and cleaned after long-term use, the process is troublesome, the raw materials cannot be sufficiently formed, and waste is caused.

Disclosure of Invention

The utility model discloses a shaping structure of massive biomass fuel, which aims to solve the technical problems that when the traditional shaping structure of massive biomass fuel is used, raw materials are easy to adhere to the inner wall of a feed inlet or a compressor in the granulating and shaping process of the granulated raw materials entering the compressor, so that waste is caused and cleaning is inconvenient.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

the utility model provides a shaping structure of cubic biomass fuel, includes the switching platform and establishes the compressor on the switching platform still includes:

and (3) a forming mechanism: granulating and forming the raw materials by using the compressor;

install the installation axle on the one side inner wall of compressor, one side of installation axle circumference outer wall is equipped with the connecting rod, the opposite side of installation axle circumference outer wall is equipped with the bearing platform, be equipped with the counter weight wheel on the one side outer wall of connecting rod, the connecting rod is close to be connected with on the one side outer wall of counter weight wheel and hit the piece, the bottom of hitting the piece is equipped with hits and hits awl and reset spring, install the contact block on one side inner wall of compressor, be equipped with on the bottom inner wall of compressor and store the box.

In this scheme, forming mechanism is used for placing fashioned fuel with the fashioned back of graininess raw materials pelletization, under the effect of installation axle, and the counter weight wheel rolls upwards on the inner wall of compressor, when the bearing platform reaches a certain amount, and in the storage box was poured to the shaping fuel, at this moment, counter weight wheel downward movement in the twinkling of an eye, under reset spring's effect, hit the awl and collide the contact block, and then produce vibrations to the inside of compressor, shake down the reshaping to the raw materials of adhesion, the shaping is effectual, and can not cause the waste.

In a preferred scheme, forming mechanism is including establishing the ring membrane on the inner wall of compressor one side, it has a plurality of recess to open on the circumference inner wall of ring membrane, it has a plurality of ring membrane hole to open on the inner wall of recess, be equipped with the compression roller on the inner wall of one side of compressor, be equipped with a plurality of clamp plate on the circumference outer wall of compression roller, the both sides of ring membrane circumference outer wall all are equipped with the baffle, be equipped with the scraper on the inner wall of one side of compressor.

When the forming mechanism works, the press roller rotates, the pressing plate rotates in the groove to drive the annular membrane to synchronously rotate, raw materials in the annular membrane are granulated and formed, the baffle is utilized to enable the raw materials in the annular membrane to be extruded out from the annular membrane hole position at the bottom, formed fuel cannot leak out from the annular membrane hole position blocked by the baffle, and the formed fuel is cut by the scraper, so that the scraper is tightly matched, formed and cut more uniformly.

From the above, a shaping structure of cubic biomass fuel, including switching platform and establish the compressor on the switching platform still includes:

and (3) a forming mechanism: granulating and forming the raw materials by using the compressor;

install the installation axle on the one side inner wall of compressor, one side of installation axle circumference outer wall is equipped with the connecting rod, the opposite side of installation axle circumference outer wall is equipped with the bearing platform, be equipped with the counter weight wheel on the one side outer wall of connecting rod, the connecting rod is close to be connected with on the one side outer wall of counter weight wheel and hit the piece, the bottom of hitting the piece is equipped with hits and hits awl and reset spring, install the contact block on one side inner wall of compressor, be equipped with on the bottom inner wall of compressor and store the box. The shaping structure of the massive biomass fuel provided by the utility model has the technical effects of good shaping effect, no waste caused by raw materials adhering to the inside of the compressor and the feed inlet, and strong linkage.

Drawings

Fig. 1 is a schematic overall structure diagram of a molding structure of a massive biomass fuel according to the present utility model.

Fig. 2 is a schematic diagram of the internal structure of a compressor of a molding structure of a massive biomass fuel according to the present utility model.

Fig. 3 is an enlarged view of a counterweight wheel structure of a molding structure of a massive biomass fuel according to the utility model.

Fig. 4 is a schematic diagram of a loop membrane structure of a molding structure of a massive biomass fuel according to the present utility model.

In the accompanying drawings: 1. a transfer table; 2. a compressor; 3. a storage box; 4. a feed pipe; 5. a feed inlet; 6. a loop membrane; 7. a press roller; 8. a scraper; 9. a mounting shaft; 10. a connecting rod; 11. a support table; 12. a counterweight wheel; 13. a striking cone; 14. a return spring; 15. a baffle; 16. a groove; 17. a pressing plate; 18. and a contact block.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. The components of the embodiments of the present utility model generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the utility model, as presented in the figures, is not intended to limit the scope of the utility model, as claimed, but is merely representative of selected embodiments of the utility model. All other embodiments, which can be made by a person skilled in the art without making any inventive effort, are intended to be within the scope of the present utility model.

The forming structure of the massive biomass fuel disclosed by the utility model is mainly applied to the traditional massive biomass fuel forming structure, and when the traditional massive biomass fuel forming structure is used, in the granulating and forming process of the granulated raw materials entering the compressor, the raw materials are easy to adhere to the inner wall of a feed inlet or the compressor, so that waste and inconvenient cleaning scenes are caused.

Referring to fig. 1, 2 and 3, a molding structure of a massive biomass fuel includes a transfer table 1 and a compressor 2 disposed on the transfer table 1, and further includes:

and (3) a forming mechanism: the method is used for granulating and forming the raw materials by a compressor 2;

the inner wall of one side of the compressor 2 is connected with a mounting shaft 9 through a bearing, one side of the circumferential outer wall of the mounting shaft 9 is connected with a connecting rod 10 through a bearing, the other side of the circumferential outer wall of the mounting shaft 9 is fixedly provided with a supporting table 11, one side outer wall of the connecting rod 10 is provided with a counterweight wheel 12, one side outer wall of the connecting rod 10, which is close to the counterweight wheel 12, is fixedly connected with a beating block, the bottom end of the beating block is fixedly provided with a beating cone 13 and a reset spring 14, one side inner wall of the compressor 2 is fixedly provided with a contact block 18, and the bottom inner wall of the compressor 2 is provided with a storage box 3.

In a specific working process, after the forming mechanism forms granular raw materials into pellets, the pellets are extruded onto the supporting table 11, when the supporting table 11 receives the weight of formed fuel, under the action of the mounting shaft 9, the counterweight wheel 12 rolls upwards on the inner wall of the compressor 2, when the formed fuel on the supporting table 11 reaches a certain weight, the formed fuel can be poured into the storage box 3, at this time, the counterweight wheel 12 moves downwards instantaneously, the impact cone 13 collides with the contact block 18 under the action of the reset spring 14, vibration is generated in the interior of the compressor 2, and the adhered raw materials shake, fall and are formed again.

Wherein, hit and hit the awl 13 and be located the inside of reset spring 14, hit and hit awl 13 and contact block 18 both cooperation use, when reset spring 14 received the extrusion, hit and hit awl 13 and can collide contact block 18, when reset again contact, can be continuous to contact block 18 collision, and then produce vibrations to compressor 2 inside.

Referring to fig. 1 and 2, in a preferred embodiment, a feed pipe 4 is fixedly connected to the top outer wall of the compressor 2, a feed port 5 is opened on the inner wall of one side of the compressor 2, and the feed pipe 4 is communicated with the interior of the compressor 2.

Specifically, the raw material in the form of particles is fed through a feed pipe 4, and then the raw material is granulated and molded through an inclined feed port 5.

Referring to fig. 1, 2 and 4, in a preferred embodiment, the forming mechanism includes a ring membrane 6 provided on an inner wall of one side of the compressor 2, a plurality of grooves 16 are formed in a circumferential inner wall of the ring membrane 6, a plurality of ring membrane holes are formed in an inner wall of the grooves 16, a compression roller 7 is connected to an inner wall of one side of the compressor 2 through a bearing, a plurality of pressing plates 17 are fixedly mounted on an outer circumferential wall of the compression roller 7, baffles 15 are fixedly mounted on both sides of the outer circumferential wall of the ring membrane 6, and a scraper 8 is provided on an inner wall of one side of the compressor 2.

Specifically, the press roller 7 rotates, the press plate 17 rotates in the groove 16 to drive the annular membrane 6 to synchronously rotate, raw materials in the annular membrane 6 are granulated and formed, the raw materials in the annular membrane 6 are formed and extruded through annular membrane holes at the bottom by using the baffle 15, and then the formed fuel is uniformly cut by using the scraper 8.

Wherein, compression roller 7 is located the inside of ring membrane 6, and clamp plate 17 and recess 16 looks adaptation, drives ring membrane 6 and compression roller 7 and rotates simultaneously, and the linkage is strong.

One side of the scraper 8 contacts with the outer side wall of the annular membrane 6, and the molded fuel extruded from the outer side wall of the annular membrane 6 is tightly stuck and cut, so that the cutting is more uniform.

It should be noted that: the bottom of the ring film 6 which is not blocked by the baffle plates 15 on the two sides is positioned on the same horizontal line with the positions of the bearing table 11 and the storage box 3, so that the formed particles extruded by the ring film 6 fall onto the bearing table 11 and then are put into the storage box 3 to be collected, and then the next procedure is carried out through the adapter on one side of the adapter table 1.

Working principle: during the use, carry out the feeding with granular raw materials through inlet pipe 4, the work in leading-in ring membrane 6 of discharge gate 5, then compression roller 7 rotates, clamp plate 17 rotates in recess 16, drive ring membrane 6 synchronous rotation, carry out pelletization shaping to the inside raw materials of ring membrane 6, baffle 15 makes the fuel of shaping extrude by the ring membrane hole site of bottom, the fuel is evenly cut to the scraper 8 again, the fuel after the cutting drops to supporting bench 11, when supporting bench 11 receives the weight of shaping fuel, under the effect of installation axle 9, counterweight wheel 12 rolls upwards on the inner wall of compressor 2, when supporting bench 11 reaches a certain amount, the shaping fuel is poured into in storage box 3, at this moment, counterweight wheel 12 moves downwards in the twinkling of an eye, hit the awl 13 and collide to contact piece 18 under reset spring 14's effect, and then produce vibrations in the inside of compressor 2, shake the raw materials that are on the inner wall of compressor 2 and the feed inlet adhesion falls down the reshaping.

The above description is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto. The substitutions may be partial structures, devices, or method steps, or may be a complete solution. The technical proposal and the utility model concept are equivalent to or changed in accordance with the utility model, and the utility model is covered in the protection scope of the utility model.

Claims (7)

1. The utility model provides a shaping structure of cubic biomass fuel, includes switching platform (1) and establishes compressor (2) on switching platform (1), its characterized in that still includes:

and (3) a forming mechanism: granulating and forming the raw materials by using the compressor (2);

install installation axle (9) on the one side inner wall of compressor (2), one side of installation axle (9) circumference outer wall is equipped with connecting rod (10), the opposite side of installation axle (9) circumference outer wall is equipped with bearing platform (11), be equipped with counterweight wheel (12) on the one side outer wall of connecting rod (10), connecting rod (10) are close to be connected with on the one side outer wall of counterweight wheel (12) and hit the piece, the bottom of hitting the piece is equipped with hits awl (13) and reset spring (14), install contact block (18) on the one side inner wall of compressor (2), be equipped with on the bottom inner wall of compressor (2) and store box (3).

2. The shaping structure of a massive biomass fuel according to claim 1, characterized in that the beating cone (13) is located inside the return spring (14), the beating cone (13) being used in cooperation with both the contact blocks (18).

3. The shaping structure of massive biomass fuel according to claim 2, characterized in that a feeding pipe (4) is arranged on the top outer wall of the compressor (2), a feeding hole (5) is formed on the inner wall of one side of the compressor (2), and the feeding pipe (4) is communicated with the inside of the compressor (2).

4. The shaping structure of massive biomass fuel according to claim 1, characterized in that the shaping mechanism comprises a ring membrane (6) arranged on one side inner wall of the compressor (2), a plurality of grooves (16) are formed in the circumferential inner wall of the ring membrane (6), a plurality of ring membrane holes are formed in the inner wall of the grooves (16), a press roller (7) is arranged on one side inner wall of the compressor (2), and a plurality of pressing plates (17) are arranged on the circumferential outer wall of the press roller (7).

5. The shaping structure of a massive biomass fuel according to claim 4, characterized in that the press roller (7) is located inside the annular membrane (6), and the press plate (17) is adapted to the groove (16).

6. The shaping structure of massive biomass fuel according to claim 5, characterized in that both sides of the circumferential outer wall of the annular membrane (6) are provided with baffle plates (15), and one side inner wall of the compressor (2) is provided with a scraper (8).

7. The shaping structure of a block biomass fuel according to claim 6, characterized in that one side of the scraper (8) is in contact with the outer side wall of the annular membrane (6).