阅读说明：本技术 一种新型风冷式输送带接驳机 (Novel air-cooled conveyer belt machine of plugging into ) 是由 黄振明 于 2021-01-19 设计创作，主要内容包括：本发明公开了一种新型风冷式输送带接驳机,包括上主梁、下主梁和锁紧组件；所述锁紧组件包括两个第一锁紧块、和两个第二锁紧块；两个所述第一锁紧块分别安装在所述上主梁的两端,两个所述第二锁紧块分别安装在所述下主梁的两端；所述第一锁紧块与所述第二锁紧块通过连接件可拆卸连接；本发明优化上主梁及下主梁的设计结构,并在上主梁及下主梁中均设置有用于散热的风机,以此上下同时对接驳机内部进行散热,从而提高接驳机的散热性能,并保证接驳机的使用寿命,且可提高输送带的冷却效率,从而提高生产效率,同时第一加热组件和第二加热组件结构稳定,不易变形,通过第一加热组件和第二加热组件对输送带进行加热,可保证输送带的接驳精度。(The invention discloses a novel air-cooled conveyer belt connecting machine, which comprises an upper main beam, a lower main beam and a locking assembly, wherein the upper main beam is connected with the lower main beam through a connecting rod; the locking assembly comprises two first locking blocks and two second locking blocks; the two first locking blocks are respectively arranged at two ends of the upper main beam, and the two second locking blocks are respectively arranged at two ends of the lower main beam; the first locking block and the second locking block are detachably connected through a connecting piece; according to the invention, the design structures of the upper main beam and the lower main beam are optimized, and the fans for heat dissipation are arranged in the upper main beam and the lower main beam, so that the heat dissipation performance of the connecting machine is improved, the service life of the connecting machine is ensured, the cooling efficiency of the conveying belt can be improved, the production efficiency is improved, meanwhile, the first heating assembly and the second heating assembly are stable in structure and not easy to deform, the conveying belt is heated through the first heating assembly and the second heating assembly, and the connecting precision of the conveying belt can be ensured.)

1. The utility model provides a novel machine of plugging into of air-cooled conveyer belt which characterized in that: comprises an upper main beam, a lower main beam and a locking component; the locking assembly comprises two first locking blocks and two second locking blocks; the two first locking blocks are respectively arranged at two ends of the upper main beam, and the two second locking blocks are respectively arranged at two ends of the lower main beam; the first locking block and the second locking block are detachably connected through a connecting piece;

a first cavity is arranged on the upper main beam, and a first heating assembly for heating the conveying belt is slidably mounted at the lower part of the first cavity; a first heat insulation assembly is arranged in a first cavity at the upper end of the first heating assembly in a sliding mode; a plurality of groups of first fans are arranged in a first cavity at the upper end of the first heat insulation assembly; a first air bag is arranged in a first chamber at the upper end of the first fan;

a second cavity is arranged on the lower main beam, and a second heating assembly for heating the conveying belt is slidably mounted at the upper part of the second cavity; a second heat insulation assembly is arranged in a second cavity at the lower end of the second heating assembly in a sliding mode; a plurality of groups of second fans are arranged in a second chamber at the lower end of the second heat insulation assembly; and a second air bag is arranged in a second chamber at the lower end of the second fan.

2. The novel air-cooled conveyor belt docking machine of claim 1, wherein: a first through hole is formed in one side wall of the upper main beam, and a second through hole is formed in the other side wall of the upper main beam.

3. The novel air-cooled conveyor belt docking machine of claim 2, wherein: an integration cavity is arranged on the upper main beam; the integrated cavity is communicated with the first through hole, the second through hole and the first cavity.

4. The novel air-cooled conveyor belt docking machine of claim 1, wherein: a first notch is formed in the first locking block; the first notch is communicated with the first chamber; a second notch is formed in the second locking block; the second notch communicates with the second chamber.

5. The novel air-cooled conveyor belt docking machine of claim 1, wherein: the first heating assembly comprises a first heating plate and a first balance plate; the first balance plate is slidably mounted at the lower part of the first cavity of the upper main beam, the first heating plate is mounted at the upper end face of the first balance plate, and the upper end face of the first heating plate is in contact with the first heat insulation assembly.

6. The novel air-cooled conveyor belt docking machine of claim 1, wherein: the second heating assembly comprises a second heating plate and a second balance plate; the second balance plate is slidably mounted at the upper part of the second cavity of the lower main beam, the second heating plate is mounted at the lower end face of the second balance plate, and the lower end face of the second heating plate is in contact with the second heat insulation assembly.

7. The novel air-cooled conveyor belt docking machine of claim 1, wherein: the first heat insulation component comprises a first heat insulation plate and a plurality of first cooling fins; the first heat insulation plate is arranged on the upper end face of the first heating assembly, and the plurality of first radiating fins are uniformly arranged on the upper end face of the first heat insulation plate.

8. The novel air-cooled conveyor belt docking machine of claim 1, wherein: the second heat insulation component comprises a second heat insulation plate and a plurality of second cooling fins; the second heat insulation plate is arranged on the lower end face of the second heating assembly, and the plurality of second radiating fins are uniformly arranged on the lower end face of the second heat insulation plate.

Technical Field

The invention relates to the field of conveyer belt production, in particular to a novel air-cooled conveyer belt connecting machine.

Background

At present, in the production of the conveying belt, the connection of the head end and the tail end of the conveying belt can be completed through a connecting machine, namely, the connecting part of the conveying belt is heated through the connecting machine, certain pressure is applied, so that the two ends of the conveying belt can be fused and connected together, and the production of the conveying belt is completed.

However, the existing connecting machine has the problems that the internal heat dissipation performance is poor, high temperature often occurs in the machine, and parts are damaged due to the fact that the existing connecting machine works, meanwhile, the existing connecting machine adopts unidirectional circulation cooling, the cooling efficiency is low, and the production efficiency of a conveying belt can be influenced; the existing connecting machine often has the condition that the products are unevenly pressed, so that the conveying and connecting precision is influenced; .

Disclosure of Invention

The invention aims to provide a novel air-cooled conveyer belt connecting machine aiming at the defects of the prior art so as to achieve the purposes of improving the heat dissipation rate of the connecting machine, ensuring the service life of the connecting machine and ensuring the connecting precision of the conveyer belt.

The technical scheme adopted by the invention is as follows: a novel air-cooled conveyer belt connecting machine comprises an upper main beam, a lower main beam and a locking assembly; the locking assembly comprises two first locking blocks and two second locking blocks; the two first locking blocks are respectively arranged at two ends of the upper main beam, and the two second locking blocks are respectively arranged at two ends of the lower main beam; the first locking block and the second locking block are detachably connected through a connecting piece;

a first cavity is arranged on the upper main beam, and a first heating assembly for heating the conveying belt is slidably mounted at the lower part of the first cavity; a first heat insulation assembly is arranged in a first cavity at the upper end of the first heating assembly in a sliding mode; a plurality of groups of first fans are arranged in a first cavity at the upper end of the first heat insulation assembly; a first air bag is arranged in a first chamber at the upper end of the first fan;

a second cavity is arranged on the lower main beam, and a second heating assembly for heating the conveying belt is slidably mounted at the upper part of the second cavity; a second heat insulation assembly is arranged in a second cavity at the lower end of the second heating assembly in a sliding mode; a plurality of groups of second fans are arranged in a second chamber at the lower end of the second heat insulation assembly; and a second air bag is arranged in a second chamber at the lower end of the second fan.

Furthermore, a first through hole is formed in one side wall of the upper main beam, and a second through hole is formed in the other side wall of the upper main beam.

Furthermore, an integration cavity is arranged on the upper main beam; the integrated cavity is communicated with the first through hole, the second through hole and the first cavity.

Further, a first notch is formed in the first locking block; the first notch is communicated with the first chamber; a second notch is formed in the second locking block; the second notch communicates with the second chamber.

Further, the first heating assembly comprises a first heating plate and a first balance plate; the first balance plate is slidably mounted at the lower part of the first cavity of the upper main beam, the first heating plate is mounted at the upper end face of the first balance plate, and the upper end face of the first heating plate is in contact with the first heat insulation assembly.

Further, the second heating assembly comprises a second heating plate and a second balance plate; the second balance plate is slidably mounted at the upper part of the second cavity of the lower main beam, the second heating plate is mounted at the lower end face of the second balance plate, and the lower end face of the second heating plate is in contact with the second heat insulation assembly.

Further, the first heat insulation component comprises a first heat insulation plate and a plurality of first cooling fins; the first heat insulation plate is arranged on the upper end face of the first heating assembly, and the plurality of first radiating fins are uniformly arranged on the upper end face of the first heat insulation plate.

Further, the second heat insulation component comprises a second heat insulation plate and a plurality of second cooling fins; the second heat insulation plate is arranged on the lower end face of the second heating assembly, and the plurality of second radiating fins are uniformly arranged on the lower end face of the second heat insulation plate.

In conclusion, the invention has the following beneficial effects: according to the invention, the design structures of the upper main beam and the lower main beam are optimized, and the fans for heat dissipation are arranged in the upper main beam and the lower main beam, so that the heat dissipation performance of the connecting machine is improved, the service life of the connecting machine is ensured, the cooling efficiency of the conveying belt can be improved, the production efficiency is improved, meanwhile, the first heating assembly and the second heating assembly are stable in structure and not easy to deform, the conveying belt is heated through the first heating assembly and the second heating assembly, and the connecting precision of the conveying belt can be ensured.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the internal structure of the upper and lower main beams of the present invention;

FIG. 3 is a schematic view of a first heating assembly of the present invention;

FIG. 4 is a side view of the upper main beam of the present invention;

FIG. 5 is a side view of the lower main beam of the present invention;

FIG. 6 is a schematic view of a first insulation assembly of the present invention.

Wherein, 1, an upper main beam; 101. a first through hole; 102. a second through hole; 103. an integration chamber; 104. a first chamber; 2. a lower main beam; 201. a second chamber; 3. a locking assembly; 301. a second notch; 4. a first fan; 5. a first insulation assembly; 501. a first heat sink; 502. a first heat insulation plate; 6. a first heating assembly; 601. a first heating plate; 602. a first balance plate; 7. a second heating assembly; 8. a second air bag; 9. a second fan; 10. a second insulation assembly.

Detailed Description

In order to make the objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below. Several embodiments of the invention are presented in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein.

In the present invention, unless otherwise expressly specified or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can, for example, be fixedly connected, detachably connected, or integrally connected; 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 meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations. The terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature.

In the present invention, unless otherwise expressly stated or limited, "above" or "below" a first feature means that the first and second features are in direct contact, or that the first and second features are not in direct contact but are in contact with each other via another feature therebetween. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature. The terms "vertical," "horizontal," "left," "right," "up," "down," and the like are used for descriptive purposes only and are not intended to indicate or imply that the referenced devices or elements must be in a particular orientation, configuration, and operation, and therefore should not be construed as limiting the present invention.

The invention is further illustrated by the following examples in connection with the accompanying drawings.

As shown in fig. 1-6, the invention provides a novel air-cooled conveyor belt connecting machine, which comprises an upper main beam 1, a lower main beam 2 and a locking assembly 3; the locking assembly 3 comprises two first locking blocks and two second locking blocks; the two first locking blocks are respectively arranged at two ends of the upper main beam 1, and the two second locking blocks are respectively arranged at two ends of the lower main beam 2; the first locking block and the second locking block are detachably connected through a connecting piece; wherein, when the conveyer belt need plug into, first latch segment and second latch segment are screwed up to the accessible connecting piece to make top main beam 1 and 2 zonulae occludens of bottom end girder, with this environment of plugging into of guaranteeing the conveyer belt, and when the conveyer belt was plugged into and is finished, loosen first latch segment and second latch segment through the connecting piece, with this main beam 1 and bottom end girder 2 of loosening, thereby carry out the change of conveyer belt.

A first cavity 104 is arranged on the upper main beam 1, and a first heating assembly 6 for heating the conveying belt is slidably mounted at the lower part of the first cavity 104; a first insulating assembly 5 is arranged in a sliding way in a first chamber 104 at the upper end of the first heating assembly 6; a plurality of groups of first fans 4 are arranged in the first chamber 104 at the upper end of the first heat insulation assembly 5; a first air bag (not shown in the figure) is arranged in the first chamber 104 at the upper end of the first fan 4; wherein, the first heating component 6, the first heat insulation component 5 and the first fan 4 are driven by the first air bag to move along the direction of the lower main beam 2, thereby enabling the first heating component 6 and the second heating component 7 to heat the conveying belt between the two heating components, and the first air bag and the second air bag 8 provide air pressure to enable the first heating component 6 and the second heating component 7 to extrude the heated conveying belt, so that the two ends of the conveying belt are bonded and molded, thereby completing the docking of the conveyor belt, and the first thermal insulation assembly 5 can block the heat on the first heating assembly 6, reduce the heat conduction to the interior of the first chamber 104, thereby ensuring the normal temperature inside the upper main beam 1, and dissipating heat in the upper main beam 1 through the first fan 4, thereby improve the heat dispersion of machine of plugging into, further guarantee the operational environment of 1 inside of girder, finally guarantee the life of each part.

A second chamber 201 is arranged on the lower main beam 2, and a second heating assembly 7 for heating the conveying belt is slidably mounted at the upper part of the second chamber 201; a second insulating assembly 10 is slidably arranged in a second chamber 201 at the lower end of the second heating assembly 7; a plurality of groups of second fans 9 are arranged in the second chamber 201 at the lower end of the second heat insulation assembly 10; a second air bag 8 is arranged in a second chamber 201 at the lower end of the second fan 9; wherein, the second heating component 7, the second heat insulation component 10 and the second fan 9 are driven by the second air bag 8 to move together in the direction of the upper main beam 1, so that the first heating component 6 and the second heating component 7 can heat the conveying belt between the two, and air pressure is provided by the first air bag and the second air bag 8, so that the first heating component 6 and the second heating component 7 can extrude the heated conveying belt, so that the two ends of the conveying belt are bonded and formed, thereby completing the connection work of the conveying belt, the second heat insulation component 10 can obstruct the heat on the second heating component 7, reduce the conduction of the heat to the inside of the second chamber 201, thereby ensuring the normal temperature of the inside of the lower main beam 2, and dissipate the heat in the lower main beam 2 by the second fan 9, thereby improving the heat dissipation performance of the connection machine, and further ensuring the working environment of the inside of the lower main beam 2, finally, the service life of each part is ensured.

Wherein, through first fan 4 and second fan 9, can make the conveyer belt cooling even, and can accelerate the cooling efficiency of conveyer belt to improve the production efficiency of conveyer belt.

Further, a first through hole 101 is arranged on one side wall of the upper main beam 1, and a second through hole 102 is arranged on the other side wall of the upper main beam 1; the first through hole 101 and the second through hole 102 are used for providing an air flowing space for the fan to work.

Further, an integration chamber 103 is arranged on the upper main beam 1; the integration chamber 103 is communicated with the first through hole 101, the second through hole 102 and the first chamber 104; the electric control components such as circuit boards and circuits of the connecting machine are integrally installed in the integrated cavity 103, so that the installation structure of each component is optimized, the overall structure of the connecting machine is optimized, and the connecting machine is small in size and convenient to install after being molded.

Further, a first notch is formed in the first locking block; the first slot communicates with the first chamber 104; a second notch 301 is formed in the second locking block; the second notch 301 is communicated with the second chamber 201; the first notch and the second notch 301 can respectively radiate the first chamber 104 and the second chamber 201 when the connecting machine works, so that the fan discharges hot air of the first chamber 104 and the second chamber 201 out through the first notch and the second notch 301, thereby reducing the heat inside the upper main beam 1 and the lower main beam 2 and ensuring the normal temperature inside the connecting machine.

Further, the first heating assembly 6 includes a first heating plate 601 and a first balance plate 602; the first balance plate 602 is slidably mounted at the lower part of the first chamber 104 of the upper main beam 1, the first heating plate 601 is mounted at the upper end surface of the first balance plate 602, and the upper end surface of the first heating plate 601 is in contact with the first heat insulation assembly 5; wherein, produce the heat through first hot plate 601, but the first balance plate 602 of direct heating, when the machine of plugging into works, the first balance plate 602 of the first gasbag drive of accessible, make first balance plate 602 can live the conveyer belt with the extrusion of second balance plate, thereby heat the conveyer belt, and through the contact of first balance plate 602 and second balance plate and conveyer belt, thereby when gasbag drive first balance plate 602 and second balance plate carry out the extrusion, make the conveyer belt can evenly be atred, thereby guarantee the precision of plugging into of conveyer belt, and guarantee product quality.

Further, the second heating assembly 7 comprises a second heating plate and a second balance plate; the second balance plate is slidably mounted at the upper part of the second chamber 201 of the lower main beam 2, the second heating plate is mounted at the lower end face of the second balance plate, and the lower end face of the second heating plate is in contact with the second heat insulation assembly 10; wherein, generate heat through the second hot plate, but the direct heating second balance plate, when the machine of plugging into carries out the during operation, accessible second gasbag 8 drive second balance plate, make the second balance plate can live the conveyer belt with first balance plate 602 extrusion, thereby heat the conveyer belt, and through the contact of first balance plate 602 and second balance plate and conveyer belt, thereby when gasbag drive first balance plate 602 and second balance plate extrude, make the conveyer belt can the even atress, thereby guarantee the precision of plugging into of conveyer belt, and guarantee product quality.

Further, the first heat insulation assembly 5 comprises a first heat insulation board 502 and a plurality of first cooling fins 501; the first heat insulation board 502 is installed at the upper end surface of the first heating assembly 6, and a plurality of first cooling fins 501 are uniformly installed at the upper end surface of the first heat insulation board 502; the first heat insulation board 502 and the first heat dissipation fins 501 can obstruct the temperature of the first heating board 601, so as to reduce the heat conduction to the inside of the first chamber 104, thereby ensuring the normal temperature inside the upper main beam 1 and ensuring the working environment of each component.

Further, the second heat insulation assembly 10 includes a second heat insulation board and a plurality of second heat dissipation fins; the second heat insulation plate is arranged on the lower end face of the second heating assembly 7, and a plurality of second radiating fins are uniformly arranged on the lower end face of the second heat insulation plate; wherein, through second heat insulating board and second fin, can the temperature of separation second hot plate to reduce the heat and conduct toward second chamber 201 is inside, with this normal of guaranteeing the inside temperature of girder 2 down, thereby guarantee the operational environment of each part.

In the invention, the upper main beam 1 and the lower main beam 2 are made of aviation aluminum alloy, the heights are optimized, and the sizes of the two ends are thickened, so that compared with the existing product, the high-strength high-.

In the invention, the heat radiation fans are arranged in the upper main beam 1 and the lower main beam 2, so that the heat radiation of the connecting machine can be carried out from the upper position and the lower position, and the heat radiation performance is improved.

In the present invention, the first and second air cells 8 are connected to a pressure pump, respectively, to supply gas, thereby generating air pressure.

According to the invention, the design structures of the upper main beam 1 and the lower main beam 2 are optimized, and the fans for heat dissipation are arranged in the upper main beam 1 and the lower main beam 2, so that the heat dissipation performance of the connecting machine is improved, the service life of the connecting machine is ensured, the cooling efficiency of the conveying belt can be improved, the production efficiency is improved, meanwhile, the first heating assembly 6 and the second heating assembly 7 are stable in structure and are not easy to deform, and the conveying belt is heated through the first heating assembly 6 and the second heating assembly 7, so that the connecting precision of the conveying belt can be ensured.

The above description is only a preferred embodiment of the present invention, the present invention is not limited to the above embodiment, and there may be some slight structural changes in the implementation, and if there are various changes or modifications to the present invention without departing from the spirit and scope of the present invention, and within the claims and equivalent technical scope of the present invention, the present invention is also intended to include those changes and modifications.