CN212923179U - Conveyer is used in processing of biomass fuel granule - Google Patents

Abstract

The utility model belongs to the technical field of biomass particle processing, and particularly discloses a conveyor for processing biomass fuel particles, which comprises a conveyor belt, a trapezoidal plate and a cooling cover; the conveying belt is arranged in an upward inclined manner, a driving roller and a driven roller are respectively arranged in the two ends of the conveying belt, and trapezoidal plates are arranged on the two sides of the conveying belt; the two trapezoidal plates are vertically fixed on the surface of the ground, two ends of the driving roller and the driven roller are embedded into the two trapezoidal plates and are rotationally connected with the two trapezoidal plates, and one end of the driving roller penetrates through the trapezoidal plates and is fixedly connected with the output end of the driving motor; a cooling cover is arranged above the conveying belt; the cooling cover is of an arc structure, two sides of the cooling cover are fixedly connected with the inner walls of the two trapezoidal plates, an air inlet pipeline is fixed to one side of the top end of the cooling cover, the top end of the air inlet pipeline is fixedly connected with the output end of an air cooler, and the bottom end of the air inlet pipeline is communicated with the inside of the cooling cover.

Description

Conveyer is used in processing of biomass fuel granule

Technical Field

The utility model relates to a living beings granule processing technology field specifically is a conveyer is used in processing of biomass fuel granule.

Background

The biomass fuel particles are prepared by crushing and granulating raw materials such as wood, straws and the like, and the granulated biomass fuel particles are usually conveyed to the next procedure for packaging by adopting a belt conveying mode. At present, the temperature of biomass fuel particles after granulation reaches 90-100 ℃, cooling equipment is required to be used for cooling, and cooling equipment in the market usually adopts a cold-heat exchanger for refrigeration, so that the cooling cost is high, the energy consumption is large, the biomass fuel particles cannot be selected according to the yield of a granulator, and more energy waste can be caused when the yield of the granulator is small.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a conveyer is used in processing of biomass fuel granule to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: a conveyer for processing biomass fuel particles comprises a conveyer belt, a trapezoidal plate and a cooling cover; the conveying belt is arranged in an upward inclined manner, a driving roller and a driven roller are respectively arranged in the two ends of the conveying belt, and trapezoidal plates are arranged on the two sides of the conveying belt; the two trapezoidal plates are vertically fixed on the surface of the ground, two ends of the driving roller and the driven roller are embedded into the two trapezoidal plates and are rotationally connected with the two trapezoidal plates, and one end of the driving roller penetrates through the trapezoidal plates and is fixedly connected with the output end of the driving motor; a cooling cover is arranged above the conveying belt; the cooling cover is of an arc structure, two sides of the cooling cover are fixedly connected with the inner walls of the two trapezoidal plates, an air inlet pipeline is fixed to one side of the top end of the cooling cover, the top end of the air inlet pipeline is fixedly connected with the output end of an air cooler, and the bottom end of the air inlet pipeline is communicated with the inside of the cooling cover.

Preferably, an air outlet pipeline is fixed on the surface of the bottom end of the cooling cover; the bottom end of the air outlet pipeline is communicated with the interior of the cooling cover, and the top end of the air outlet pipeline is communicated with the output end of the vacuum pump.

Preferably, the vacuum pump and the air cooler are fixed on the surface of the transverse plate, the bottom surface of the transverse plate is symmetrically provided with supporting rods, and the bottom ends of the supporting rods are fixed on the top surfaces of the two trapezoidal plates.

Preferably, the inside cooling nest of tubes that is provided with along the conveyer belt direction of motion of conveyer belt, cooling nest of tubes size and conveyer belt width match, and the outside level extension in cooling nest of tubes both sides is provided with the locating lever, the locating lever other end and trapezoidal plate inner wall fixed connection.

Preferably, both ends of the cooling pipe group are respectively communicated with a water inlet hose and a water outlet hose.

Compared with the prior art, the beneficial effects of the utility model are that: the utility model discloses be provided with air-cooler and vacuum pump, the user can select to cool down through the vacuum pump or the air-cooler cools down according to actual conditions, realizes reducing energy consumption when guaranteeing cooling efficiency.

The utility model discloses be provided with the cooling tube nest, but the circulation has the cooling water in the cooling tube nest, can carry out further cooling to the biofuel granule, strengthens the cooling effect.

Drawings

Fig. 1 is a schematic view of the overall connection of the present invention.

In the figure: 1. a conveyor belt; 2. a drive roll; 3. a driven roller; 4. a trapezoidal plate; 5. a drive motor; 6. a cooling cover; 7. an air inlet pipeline; 8. an air cooler; 9. an air outlet pipeline; 10. a vacuum pump; 11. a transverse plate; 12. a support bar; 13. a cooling tube bank; 14. and (5) positioning the rod.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "vertical", "upper", "lower", "horizontal", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element 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.

In the description of the present invention, it should also be noted that, unless otherwise explicitly specified or limited, the terms "disposed," "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

Referring to fig. 1, the present invention provides a technical solution: a conveyer for processing biomass fuel particles comprises a conveyer belt 1, a trapezoidal plate 4 and a cooling cover 6; the conveying belt 1 is arranged obliquely upwards, a driving roller 2 and a driven roller 3 are respectively arranged in the two ends of the conveying belt 1, and trapezoidal plates 4 are arranged on the two sides of the conveying belt 1; the two trapezoidal plates 4 are vertically fixed on the ground surface, two ends of the driving roller 2 and the driven roller 3 are embedded into the two trapezoidal plates 4 and are rotationally connected with the two trapezoidal plates 4, and one end of the driving roller 2 penetrates through the trapezoidal plates 4 and is fixedly connected with the output end of the driving motor 5; a cooling cover 6 is arranged above the conveying belt 1; the cooling cover 6 is of an arc-shaped structure, the two sides of the cooling cover 6 are fixedly connected with the inner walls of the two trapezoidal plates 4, an air inlet pipeline 7 is fixed to one side of the top end of the cooling cover 6, the top end of the air inlet pipeline 7 is fixedly connected with the output end of an air cooler 8, and the bottom end of the air inlet pipeline 7 is communicated with the inside of the cooling cover 6.

Further, an air outlet pipeline 9 is fixed on the surface of the bottom end of the cooling cover 6; the bottom end of the air outlet pipeline 9 is communicated with the interior of the cooling cover 6, and the top end of the air outlet pipeline 9 is communicated with the output end of the vacuum pump 10.

Further, the vacuum pump 10 and the air cooler 8 are fixed on the surface of the transverse plate 11, the supporting rods 12 are symmetrically arranged on the bottom surface of the transverse plate 11, and the bottom ends of the supporting rods 12 are fixed on the top surfaces of the two trapezoidal plates 4.

Furthermore, a cooling pipe group 13 is arranged in the conveying belt 1 along the moving direction of the conveying belt 1, the size of the cooling pipe group 13 is matched with the width of the conveying belt 1, positioning rods 14 are horizontally extended outwards from two sides of the cooling pipe group 13, and the other ends of the positioning rods 14 are fixedly connected with the inner wall of the trapezoidal plate 4.

Furthermore, both ends of the cooling pipe set 13 are respectively communicated with a water inlet hose and a water outlet hose.

The working principle is as follows: when the biomass fuel granulator works, biomass fuel particles fall into the bottom end of a conveying belt 1 after granulation, a driving roller 2 and a driven roller 3 are respectively arranged inside two ends of the conveying belt 1, one end of the driving roller 2 is fixedly connected with the output end of a driving motor 5, the driving roller 2 is driven by the driving motor 5 to rotate so as to drive the conveying belt 1 and the driven roller 3 to move, the conveying belt 1 can convey the biomass fuel particles upwards when moving, the biomass fuel particles enter a cooling cover 6 in the upwards conveying process, the top end of the cooling cover 6 is communicated with an air inlet pipeline 7, and the top end of the air inlet pipeline 7 is fixedly connected with an air cooler 8; when the output of the granulator is high, cold air enters the cooling cover 6 through the air inlet pipeline 7 by the air cooler 8 and contacts with biomass fuel particles on the surface of the conveying belt 1, so that the biomass fuel particles are cooled; the bottom end of the cooling cover 6 is communicated with an air outlet pipeline 9, the top end of the air outlet pipeline 9 is fixedly connected with a vacuum pump 10, when the output of the granulator is low, the vacuum pump 10 is started to pump out air inside the cooling cover 6 and a small amount of heat of the biomass fuel, so that the air flow inside the cooling cover 6 is accelerated, and the biomass fuel is cooled; the air cooler 8 and the vacuum pump 10 can be simultaneously started, and the vacuum pump 10 can pump away cold air which is in the cooling cover 6 and exchanges heat with the biological fuel particles, so that the cooling efficiency of the air cooler 8 is improved; the interior of the conveying belt 1 is provided with a cooling pipe group 13 along the moving direction of the conveying belt 1, and cooling water can circulate in the cooling pipe group 13 to further cool down the biomass fuel particles.

It is worth noting that: the whole device is controlled by the master control button, and the equipment matched with the control button is common equipment, so that the device belongs to the prior art, and the electrical connection relation and the specific circuit structure of the device are not repeated.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. The utility model provides a conveyer is used in processing of biomass fuel granule which characterized in that: comprises a conveying belt (1), a trapezoidal plate (4) and a cooling cover (6); the conveying belt (1) is arranged in an upward inclined mode, a driving roller (2) and a driven roller (3) are arranged inside two ends of the conveying belt (1) respectively, and trapezoidal plates (4) are arranged on two sides of the conveying belt (1); the two trapezoidal plates (4) are vertically fixed on the ground surface, two ends of the driving roller (2) and the driven roller (3) are embedded into the two trapezoidal plates (4) and are rotatably connected with the two trapezoidal plates (4), and one end of the driving roller (2) penetrates through the trapezoidal plates (4) and is fixedly connected with the output end of the driving motor (5); a cooling cover (6) is arranged above the conveying belt (1); the cooling cover (6) is of an arc-shaped structure, two sides of the cooling cover (6) are fixedly connected with the inner walls of the two trapezoidal plates (4), an air inlet pipeline (7) is fixed to one side of the top end of the cooling cover (6), the top end of the air inlet pipeline (7) is fixedly connected with the output end of an air cooler (8), and the bottom end of the air inlet pipeline (7) is communicated with the interior of the cooling cover (6).

2. The conveyor for processing biomass fuel particles according to claim 1, wherein: an air outlet pipeline (9) is fixed on the surface of the bottom end of the cooling cover (6); the bottom end of the air outlet pipeline (9) is communicated with the interior of the cooling cover (6), and the top end of the air outlet pipeline (9) is communicated with the output end of the vacuum pump (10).

3. The conveyor for processing biomass fuel particles as recited in claim 2, wherein: vacuum pump (10) and air-cooler (8) are fixed in diaphragm (11) surface, and diaphragm (11) bottom surface symmetry is provided with bracing piece (12), and bracing piece (12) bottom mounting is in two trapezoidal plate (4) top surfaces.

4. The conveyor for processing biomass fuel particles according to claim 1, wherein: the conveying belt (1) is internally provided with a cooling pipe group (13) along the moving direction of the conveying belt (1), the size of the cooling pipe group (13) is matched with the width of the conveying belt (1), positioning rods (14) are horizontally extended outwards from two sides of the cooling pipe group (13), and the other ends of the positioning rods (14) are fixedly connected with the inner wall of the trapezoidal plate (4).

5. The conveyor for processing biomass fuel particles as recited in claim 4, wherein: and the two ends of the cooling pipe group (13) are respectively communicated with a water inlet hose and a water outlet hose.

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