WO2016109912A1 - 一种多动力胶带输送机 - Google Patents
一种多动力胶带输送机 Download PDFInfo
- Publication number
- WO2016109912A1 WO2016109912A1 PCT/CN2015/000800 CN2015000800W WO2016109912A1 WO 2016109912 A1 WO2016109912 A1 WO 2016109912A1 CN 2015000800 W CN2015000800 W CN 2015000800W WO 2016109912 A1 WO2016109912 A1 WO 2016109912A1
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- Prior art keywords
- roller
- power
- tape
- electric
- idler
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Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65G—TRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
- B65G23/00—Driving gear for endless conveyors; Belt- or chain-tensioning arrangements
- B65G23/02—Belt- or chain-engaging elements
- B65G23/04—Drums, rollers, or wheels
- B65G23/08—Drums, rollers, or wheels with self-contained driving mechanisms, e.g. motors and associated gearing
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65G—TRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
- B65G23/00—Driving gear for endless conveyors; Belt- or chain-tensioning arrangements
- B65G23/44—Belt or chain tensioning arrangements
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65G—TRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
- B65G39/00—Rollers, e.g. drive rollers, or arrangements thereof incorporated in roller-ways or other types of mechanical conveyors
- B65G39/02—Adaptations of individual rollers and supports therefor
- B65G39/09—Arrangements of bearing or sealing means
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65G—TRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
- B65G39/00—Rollers, e.g. drive rollers, or arrangements thereof incorporated in roller-ways or other types of mechanical conveyors
- B65G39/10—Arrangements of rollers
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65G—TRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
- B65G43/00—Control devices, e.g. for safety, warning or fault-correcting
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65G—TRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
- B65G43/00—Control devices, e.g. for safety, warning or fault-correcting
- B65G43/02—Control devices, e.g. for safety, warning or fault-correcting detecting dangerous physical condition of load carriers, e.g. for interrupting the drive in the event of overheating
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65G—TRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
- B65G2203/00—Indexing code relating to control or detection of the articles or the load carriers during conveying
- B65G2203/02—Control or detection
- B65G2203/0266—Control or detection relating to the load carrier(s)
- B65G2203/0275—Damage on the load carrier
Definitions
- the invention belongs to the technical field of mechanical transmission, and in particular relates to a multi-power belt conveyor.
- Belt Conveyer also known as a belt conveyor, is a friction driven machine that transports materials in a continuous manner. It can form a material conveying process between the initial feeding point and the final discharging point on a certain conveying line.
- the belt conveyor can be used for horizontal transportation or inclined transportation. Due to its convenient use and low operating cost, it can be widely used in various modern industrial enterprises, such as mine underground roadway, mine ground transportation system, open pit mining and concentrating plant. .
- the traditional long-distance belt conveyors are driven by the drive roller drive belt.
- the rollers only bear the role of the support tape and the material on the tape, and the rollers are passively rotated while the tape is running.
- the safety factor of the tape is very high, so the strength of the tape is required to be large.
- high-power drive rollers, reducers, fluid couplers, motors and other driving components are required, resulting in an increase in investment costs.
- the present invention provides a multi-power belt conveyor.
- a multi-power belt conveyor comprising: a drive roller, a reversing drum, a coupling, a fluid coupling, a speed reducer, an electric motor, a tape, a roller bracket, Intermediate frame and multiple sets of power rollers arranged in parallel;
- the power roller includes a slot-shaped upper power roller and a lower power roller located below the slot-shaped power roller;
- the roller bracket supports the power roller
- the tape is wound around the driving roller, the power roller and the redirecting roller, and is disposed in a track shape;
- the roller bracket is connected to the intermediate frame
- the transmission roller is sequentially connected to the coupling, the reducer, the fluid coupling, and the motor;
- At least one of the plurality of sets of power rollers is an electric idler, and the electric idler is connected to a power source of the motor through a power cord.
- the tape conveyor further comprises: a tape pressing roller and a tape pressing roller mechanical mechanism;
- the tape is disposed between the tape pressing roller and the groove-shaped upper power roller;
- the tape pressing roller is disposed above the groove-shaped upper power roller and located at an edge of the tape;
- the tape pinch roller mechanism is used to secure the tape pinch roller, which is coupled to the roller carrier and/or the intermediate frame.
- the operating voltage of the electric idler is 220v, 380v, 6kv, 10kv and/or voltages of various countries in the world.
- the lower power roller comprises: a parallel lower power roller or a V-shaped lower power roller.
- the lower power idler between the grooved upper power idler and the grooved upper power idler in the electric idler is disposed on a non-straight line.
- the electric roller between the plurality of sets of power rollers Separate settings.
- the power idlers are all electric idlers.
- the opening and closing of the power roller and the driving drum are controlled by a common switch.
- the bearing seat of the electric roller is assembled by a large interference cold assembly process
- the bearings at both ends are sealed by a cavity-type non-contact sealing structure assembly.
- the power roller is provided with a fault alarm device.
- the multi-powered belt conveyor provided by the invention splits the single point or head and tail two-point driving of the traditional driving drum head into multi-point driving, and each power roller can drive the materials on the self-supporting tape and the tape.
- the force solves the problem that the traditional tape conveyor relies on the single point or the two-point driving of the head to reduce the strength of the tape, and reduces the risk of a malignant accident such as a tape break.
- the safety factor of the tape is no longer a major problem in the design.
- the strength of the tape used in the tape conveyor of the invention is reduced by 40% to 90% compared with the strength of the tape used in the conventional tape conveyor, and the service life of the tape is extended by 3 to 5 times, which greatly reduces the investment of the tape. cost.
- the drive components such as the drive roller, reducer and motor can be reduced by 40% to 90% of the specifications, which effectively reduces the space, cost and construction difficulty required for installation and construction.
- the total configuration power can be reduced by about 50%, saving a lot of manpower and material resources, and operating costs are greatly reduced. Long-distance material transportation no longer requires multiple reloading, which further reduces operating costs and avoids environmental pollution caused by dust caused by reloading.
- FIG. 1 is a front view of a specific embodiment of a multi-power belt conveyor provided by the present invention Schematic;
- Figure 2 is a top plan view of Figure 1;
- FIG. 3 is a front perspective view showing a specific embodiment of an electric idler of a multi-power belt conveyor provided by the present invention
- Figure 4 is a side view showing the structure of the embodiment shown in Figure 3;
- FIG. 5 is a top plan view showing another embodiment of an electric idler of a multi-power belt conveyor provided by the present invention.
- Figure 6 is a left side view of the embodiment shown in Figure 5;
- FIG. 7 is a front perspective view showing a specific embodiment of an electric flat-shaped lower power idler disposed in a multi-power belt conveyor provided by the present invention
- Figure 8 is a side elevational view of the embodiment of Figure 7;
- FIG. 9 is a front perspective view showing a specific embodiment of an electric V-row lower power roller configured in a multi-power belt conveyor provided by the present invention.
- Figure 10 is a side elevational view of the embodiment of Figure 9.
- FIG. 11 is a schematic view showing the assembly structure of an electric idler and a bearing housing configured in a multi-power belt conveyor provided by the present invention
- Fig. 12 is a schematic view showing the rough surface of the outer circumference of the steel tube of the electric trough top idler and the flat lower idler (V row lower idler) disposed in the multi-power belt conveyor system of the present invention.
- Figure 13 is a partial structural schematic view of a multi-powered tape conveyor system provided with a tape pressing roller in the present invention.
- the multi-power belt conveyor provided by the present invention comprises: a driving drum 1, a reversing drum 6, a coupling 11, a fluid coupling 9, a speed reducer 10, an electric motor 8, a tape 5, a roller bracket 3, an intermediate frame 12, and Multiple sets of power rollers arranged in parallel.
- the power roller includes a trough-shaped upper power roller 2 and a lower power roller 4 located below the trough-shaped power roller 2.
- the lower power roller 4 comprises: a parallel lower power roller or a V-shaped lower power roller.
- the roller bracket 3 supports the power roller.
- the tape 5 is wound around the drive roller 1, the power roller and the redirecting roller 6, and is disposed in a track shape.
- the roller bracket 3 is connected to the intermediate frame 12.
- the transmission drum 1 is sequentially connected to the coupling 11, the reduction gear 10, the fluid coupling 9 and the electric motor 8.
- the power roller (the upper power roller 2 and/or the lower power roller 4) is provided with a failure alarm device.
- the fault alarm device can be an audible alarm and/or an optical alarm.
- At least one of the plurality of sets of power idlers is an electric idler 16, and the motor in the electric idler 16 is coupled to the power source of the motor 8 via a power cord 13.
- the electric idlers 16 of the plurality of sets of power idlers may be arranged at intervals, that is, a set of electric idlers 16, a set of ordinary idlers, and a set of electric idlers 16 ... arranged alternately in turn. Since the electric roller 16 can overcome the resistance of the length of the tape 5 and the material carried by itself, it is preferable that the power roller is an electric roller, so as to maximize the conveying length and safety of the multi-power belt conveyor. .
- the tape conveyor further includes a tape pressing roller 26 and a tape pressing roller mechanism 29, as shown in FIG.
- the tape 5 is disposed between the tape pressing roller 26 and the groove-shaped upper power roller 2; the tape pressing roller 26 is disposed above the groove-shaped upper power roller 2, and is located at the At the edge of the tape 5; the tape pinch roller mechanism 29 is used to securely support the tape pinch roller 26, which is coupled to the roller carrier 3 and/or the intermediate frame 12.
- the stop rod 28 is used for adjusting the distance between the tape pressing roller 26 and the groove-shaped upper power roller 2, one end of which is connected with the tape pressing roller 26, and the other end is pressed with the tape.
- the tight roller mechanical mechanism 29/ or the roller bracket 3 is connected.
- the tension spring 31 is used to supply pressure to the tape pressing roller 26, one end of which is connected to the tape pressing roller 26, and the other end of which is coupled to the tape pressing roller mechanism 29 and/or the roller holder 3 connection.
- the mechanical mechanism positioning 27 is used to position the tape pressing roller rear connecting member 30 and the tape pressing roller mechanism 29.
- the tape pinch roller rear attachment member 30 may be a motor to drive the tape pinch roller 26 to operate such that the tape pinch roller 26 is aligned with the rotational speed and diameter of the power roller.
- the tape pinch roller rear connector 30 can be selected as a mechanical rotating body.
- the design and manufacturing method combining the power roller and the tape pressing roller 26 can increase the driving force on the tape 5, avoid the slip phenomenon of the power roller when driving the tape 5, and can effectively overcome the tape in the ultra long distance belt conveyor. 5 problem of deviation.
- the direct start of the long-distance multi-power belt conveyor can be realized, and the electrical configuration cost is greatly reduced.
- the conventional long-distance belt conveyor is operated by the single-point driving belt 5 of the driving drum 1, and requires a high strength at the point A of the tape 5, so that it cannot be designed and manufactured by the conventional method.
- the reversing drum 6 is used as a driving drum, the long-distance belt conveyor can be driven to the head and the tail at two points, but the strength at the point A of the tape 5 cannot be lowered.
- At least one set of power idlers in the multi-powered belt conveyor provided by the present invention replaces the ordinary idler (without power) into a rotary power capable of generating rotational power.
- the electric idler 16 splits 40% to 90% of the driving force on the drive roller 1 to all of the configured electric idlers 16.
- the electric roller 16 can overcome the resistance of the length of the tape 5 and the material carried by itself, and the driving roller 1 simultaneously drives the operation of the tape 5, and the strength of the tape 5 can be reduced by 40% to 90%, thus breaking the design.
- the direction of rotation of the electric roller 16 coincides with the direction in which the drive roller 1 drives the tape 5 to operate.
- the operating voltage of the electric roller 16 is 220v, 380v, 6kv, 10kv and/or international standard voltage.
- All of the electric idler 16 and the motor 8 that drives the drive drum 1 are connected to a plurality of transformer and switch controlled power supplies.
- the opening and closing of the electric roller 16 and the drive roller 1 are controlled by a common switch.
- the trough-shaped upper power roller 2 and the lower power roller 4 are controlled by an on-off switch and/or a frequency converter switch. After the switch is started, the electric roller 16 and the drive roller 1 can simultaneously start the driving operation of the tape 5, and the multi-power driven ultra long distance belt conveyor can operate safely and reliably.
- the components of the drive roller 1, the redirecting roller 6, the tensioning device 7, the motor 8, the fluid coupling 9, the speed reducer 10, the coupling 11, etc. can be reduced by 40%. 90% of the specifications and models effectively reduce the space, cost and construction difficulty required for installation and construction.
- the power cord 13 of the electric idler 16 in the multi-power belt conveyor system is led out from the center hole of the idler shaft 17 (refer to FIG. 11) as shown in FIGS. 3 and 4.
- the two sides of the electric idler are grooved.
- the upper power roller 2 and the lower power roller 2 are disposed on a non-linear line as shown in FIGS. 5 and 6.
- the installation of the parallel lower power idler or the V-shaped lower power idler also facilitates the withdrawal of the power cord 13 from the central bore of the idler shaft 17.
- the roller bearing block 24 disposed in the multi-power belt conveyor is assembled by a large interference cold assembly process to ensure the coaxiality of the roller bearings 23 at both ends of the electric roller 16 and to satisfy the intermediate motor rotor 21 The accuracy requirements for assembly with the stator 22.
- the two ends of the roller bearing 23 are sealed by the cavity type non-contact sealing structure assembly 25 to achieve water and dust pollution, thereby ensuring the normal use of the electric roller 16, and realizing the multi-power belt conveyor in a harsh environment. Long-term safe and reliable operation.
- the material of the electric roller 16 disposed in the multi-power belt conveyor is made of a steel pipe material. Further, in order to increase the frictional force with the tape 5, it is preferable to form the rough surface 26 by a method such as a knurling blade and/or a knurling wheel on the outer circumference of the steel pipe. Similarly, the power cord 13 is led out from the center hole of the idler shaft 17.
- the multi-powered belt conveyor provided by the invention replaces the passive idler disposed in the conventional long-distance belt conveyor with an electric roller capable of generating a rotational driving force, and can extend the circumferential friction between the traditional tape strength, the tape and the driving roller. And drive the drive roller 1 motor power 40% to 90% split to the configured electric roller. Can effectively reduce the total configuration power.
- the multi-power belt conveyor provided by the invention can realize ultra-long distance safe transportation of more than 100 kilometers. In particular, after the tape pressing roller structure is added, the motor power of the power roller can be further increased, thereby increasing the driving force on the tape, and effectively improving the efficiency of the ultra long distance, especially the large dip conveying.
- the number of power roller configurations can be appropriately reduced to achieve the purpose of cost saving.
- the power roller drives the tape running or the tape is unloaded, the slippage between the power roller and the tape is reduced or avoided, and the safety and reliability of transportation and transportation are improved.
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Abstract
公开了一种多动力胶带输送机,胶带输送机包括传动滚筒(1)、改向滚筒(6)、联轴器(11)、液力耦合器(9)、减速机(10)、电动机(8)、胶带(5)、托辊支架(3)、中间架(12)和多组平行设置的动力托辊;动力托辊包括槽形上动力托辊(2)和位于槽形上动力托辊(2)下面的下动力托辊(4);托辊支架(3)支撑动力托辊;胶带(5)绕置于传动滚筒(1)、动力托辊和改向滚筒(6)之上,呈履带状设置;托辊支架(3)与中间架(12)相连接;传动滚筒(1)与联轴器(11)、减速机(10)、液力偶合器(9)和电动机(8)依次连接;多组动力托辊中至少一组为电动托辊,电动托辊通过电源线(13)与电动机的电源相连接。该胶带输送机适用于超长距离输送,配置功率小,制造和运营成本低,节能环保。
Description
本发明属于机械传输技术领域,具体地说涉及一种多动力胶带输送机。
带式输送机(Belt Conveyer)又称胶带输送机,是一种摩擦驱动以连续方式运输物料的机械。它可以将物料在一定的输送线上,从最初的供料点到最终的卸料点间形成一种物料的输送流程。带式输送机可用于水平运输或倾斜运输,由于使用方便,运行成本低,广泛应用于现代化的各种工业企业中,如:矿山的井下巷道、矿井地面运输系统、露天采矿场及选矿厂中。
传统的长距离胶带输送机,都是利用传动滚筒驱动胶带运行,托辊只是承担着支承胶带和胶带上物料的作用,在胶带运行时托辊被动地转动。对于输送长度超过1公里,尤其是上运大倾角的长距离胶带输送机而言,胶带的安全系数要求很高,因此就需要胶带的强度很大。相应的,为了驱动高强度胶带的运转,需要大功率的传动滚筒、减速机、液力耦合器、电动机等驱动部件,造成了投资成本的增加。而且,由于功率大,各驱动部件的体积也要相应增加,因此需要比较大的装配位置和空间,在一定程度上给安装施工带来了更大的难度,也大幅提高了后期运营的投入。更为关键的是,对于胶带强度的过大要求,就必然潜在着胶带断裂的隐患,安全可靠性无法得到确切保障。
另外,现有技术已经无法设计制作单带长度超过20公里的胶带输送机,只能通过分段转载的方法完成物料的长距离输送运输,这又进一步造成制造和安装成本的增加;而且转载引起的扬尘还对环境造成了极大地污染。
因此,市场亟需一种胶带强度需求小、胶带与传动滚筒之间需求的摩擦力低、结构简单、成本低廉、安全可靠性更高的多动力胶带输送机。
发明内容
为了解决现有长距离胶带输送机安全性低、结构复杂、成本高、长度距离有限制等问题,本发明提供了一种多动力胶带输送机。
根据本发明的一个方面,提供一种多动力胶带输送机,所述胶带输送机包括:传动滚筒,改向滚筒、联轴器、液力耦合器、减速机、电动机、胶带、托辊支架、中间架和多组平行设置的动力托辊;
所述动力托辊包括槽形上动力托辊和位于槽形上动力托辊下面的下动力托辊;
所述托辊支架支撑所述动力托辊;
所述胶带绕置于所述传动滚筒、所述动力托辊和所述改向滚筒之上,呈履带状设置;
所述托辊支架与所述中间架相连接;
所述传动滚筒与所述联轴器、所述减速机、所述液力偶合器和所述电动机依次连接;
多组动力托辊中至少一组为电动托辊,所述电动托辊通过电源线与所述电动机的电源相连接。
根据本发明的一个具体实施方式,所述胶带输送机还包括:胶带压紧辊和胶带压紧辊机械机构;
所述胶带设置于所述胶带压紧辊和所述槽形上动力托辊之间;
所述胶带压紧辊设置于所述槽形上动力托辊的上方,且位于所述胶带的边缘处;
所述胶带压紧辊机械机构用于固定所述胶带压紧辊,其与所述托辊支架和/或所述中间架相连接。
根据本发明的又一个具体实施方式,所述电动托辊的工作电压是220v、380v、6kv、10kv和/或世界各国标准的电压。
根据本发明的又一个具体实施方式,所述下动力托辊包括:平行下动力托辊或V形下动力托辊。
根据本发明的又一个具体实施方式,所述电动托辊中的两侧槽形上动力托辊和所述槽型上动力托辊之间的下动力托辊设置于非一条直线上。
根据本发明的又一个具体实施方式,多组动力托辊中的所述电动托辊间
隔设置。
根据本发明的又一个具体实施方式,所述动力托辊均为电动托辊。
根据本发明的又一个具体实施方式,所述动力托辊与所述传动滚筒的启闭由一个共同开关进行控制。
根据本发明的又一个具体实施方式,
所述电动托辊的轴承座采用大过盈冷装配工艺装配;
两端轴承采用腔式非接触密封结构组件进行密封。
根据本发明的又一个具体实施方式,所述动力托辊上配置有故障报警装置。
本发明提供的多动力胶带输送机将传统的传动滚筒头部单点或头尾两点驱动拆分为多点驱动,每个动力托辊都可以给自身支承的胶带和胶带上的物料提供驱动力,解决了传统胶带输送机依靠头部单点或头尾两点驱动时胶带强度不足的难题,降低了发生胶带断裂等恶性事故的风险。尤其是对于上运大倾角长距离胶带输送机而言,胶带的安全系数不再是设计中的主要问题。本发明中胶带输送机所使用的胶带强度与传统胶带输送机中使用的胶带强度相比,降低了40%~90%,胶带的使用寿命延长了3~5倍,大幅度降低了胶带的投资成本。由于所需的驱动力小,因此传动滚筒、减速机、电动机等驱动部件都可以降低40%~90%的规格型号,有效减小了安装施工所需的空间、费用以及施工难度。总的配置功率可降低50%左右,节省了大量的人力物力,运营成本大幅度降低。长距离物料输送不再需要多次转载,进一步降低了运营成本,而且避免了转载所引起的扬尘对环境的污染。
由于安装、维护等成本都有所降低,因此可以更有效地替代公路运输和铁路运输等运输方式,既减少了交通事故的发生,又避免了尾气排放和噪音对环境造成的污染,还可保护公路不被过载造成损坏。
通过阅读参照以下附图所作的对非限制性实施例所作的详细描述,本发明的其它特征、目的和优点将会变得更明显:
图1是本发明提供的一种多动力胶带输送机的一个具体实施方式的主视
结构示意图;
图2是图1的俯视结构示意图;
图3是本发明提供的一种多动力胶带输送机的电动托辊的一个具体实施方式的主视结构示意图;
图4是图3所示实施例的侧视结构示意图;
图5是本发明提供的一种多动力胶带输送机的电动托辊的另一个具体实施方式的俯视结构示意图;
图6是图5所示实施例的左视图;
图7是本发明提供的一种多动力胶带输送机中配置的电动平形下动力托辊的一个具体实施方式的主视结构示意图;
图8是图7所示实施例的侧视图;
图9是本发明提供的一种多动力胶带输送机中配置的电动V行下动力托辊的一个具体实施方式的主视结构示意图;
图10是图9所示实施例的侧视图。
图11是本发明提供的一种多动力胶带输送机中配置的电动托辊及轴承座装配结构示意图;
图12是本发明一种多动力胶带输送机系统中配置的电动槽形上托辊、平形下托辊(V行下托辊)钢管管体外圆周制作的粗糙面实物示意图。
图13是本发明提供的一种多动力胶带输送机系统中配置胶带压紧辊后的局部结构示意图。
附图中相同或相似的附图标记代表相同或相似的部件。
附图标记如以下表格中所示:
1 | 传动滚筒 | 2 | 槽形上动力托辊 |
3 | 托辊支架 | 4 | 下动力托辊 |
5 | 胶带 | 6 | 改向滚筒 |
7 | 拉紧装置 | 8 | 电动机 |
9 | 液力偶合器 | 10 | 减速机 |
11 | 联轴器 | 12 | 中间架 |
13 | 电源线 | 14 | 托辊轴中心孔 |
15 | 轴用挡圈 | 16 | 电动托辊 |
17 | 托辊轴 | 18 | 橡胶层 |
19 | 托辊轴端扁方 | 20 | 托辊管体 |
21 | 电机外转子 | 22 | 电机定子 |
23 | 托辊轴承 | 24 | 托辊轴承座 |
25 | 腔式非接触密封结构组件 | 26 | 胶带压紧辊 |
27 | 机械机构定位稍 | 28 | 止位杆 |
29 | 胶带压紧辊机械机构 | 30 | 胶带压紧辊后部连接件 |
31 | 拉力弹簧 |
下文的公开提供了许多不同的实施例或例子用来实现本发明的不同结构。为了简化本发明的公开,下文中对特定例子的部件和设置进行描述。此外,本发明可以在不同例子中重复参考数字和/或字母。这种重复是为了简化和清楚的目的,其本身不指示所讨论各种实施例和/或设置之间的关系。应当注意,在附图中所图示的部件不一定按比例绘制。本发明省略了对公知组件和处理技术及工艺的描述以避免不必要地限制本发明。
参考图1和图2。本发明提供的多动力胶带输送机包括:传动滚筒1、改向滚筒6、联轴器11、液力耦合器9、减速机10、电动机8、胶带5、托辊支架3、中间架12和多组平行设置的动力托辊。
所述动力托辊包括槽形上动力托辊2和位于槽形上动力托辊2下面的下动力托辊4。优选的,所述下动力托辊4包括:平行下动力托辊或V形下动力托辊。
所述托辊支架3支撑所述动力托辊。
所述胶带5绕置于所述传动滚筒1、所述动力托辊和所述改向滚筒6之上,呈履带状设置。
所述托辊支架3与所述中间架12相连接。
所述传动滚筒1与所述联轴器11、所述减速机10、所述液力偶合器9和所述电动机8依次连接。优选的,所述动力托辊(槽形上动力托辊2和/或下动力托辊4)上配置有故障报警装置。故障报警装置可以为声音报警和/或光学报警。
多组动力托辊中至少一组为电动托辊16,所述电动托辊16中的电机通过电源线13与所述电动机8的电源相连接。可选的,当需要均匀分配的驱动力比较小时,多组动力托辊中的电动托辊16可采用间隔设置,即一组电动托辊16、一组普通托辊、一组电动托辊16……依次交替排布。由于电动托辊16可以将自身承载的一段胶带5以及物料的阻力克服,因此优选的,所述动力托辊均为电动托辊,这样可以最大限度提高多动力胶带输送机的输送长度和安全性。
当胶带5需要更大的驱动力时,就进一步增大动力托辊的电机功率,从而增大其对胶带5的驱动力,有效提高超长距离、尤其是上运大倾角输送的效率,优选的,所述胶带输送机还包括:胶带压紧辊26和胶带压紧辊机械机构29,如图13所示。所述胶带5设置于所述胶带压紧辊26和所述槽形上动力托辊2之间;所述胶带压紧辊26设置于所述槽形上动力托辊2的上方,且位于所述胶带5的边缘处;所述胶带压紧辊机械机构29用于固定支撑所述胶带压紧辊26,其与所述托辊支架3和/或所述中间架12相连接。
所述止位杆28用于调整所述胶带压紧辊26与所述槽形上动力托辊2之间的距离,其一端与所述胶带压紧辊26连接,另一端与所述胶带压紧辊机械机构29/或所述托辊支架3相连接。
所述拉力弹簧31用于为胶带压紧辊26提供压力,其一端与所述胶带压紧辊26连接,另一端与所述胶带压紧辊机械机构29和/或所述托辊支架3相连接。
机械机构定位稍27用于将胶带压紧辊后部连接件30与胶带压紧辊机械机构29进行定位。所述胶带压紧辊后部连接件30可以为电机,以驱动胶带压紧辊26运行,使胶带压紧辊26与动力托辊的转速和直径保持一致。而当不需要额外动力支持时,胶带压紧辊后部连接件30可以选择为机械旋转体。
采用动力托辊与胶带压紧辊26结合的设计制造方法,可以增加对胶带5的驱动力,避免动力托辊在驱动胶带5时发生打滑现象,还可以有效克服超长距离胶带输送机中胶带5跑偏的难题。可以实现长距离多动力胶带输送机的直接启动,大幅度降低电器配置成本。
如图1、图2所示,传统长距离胶带输送机是由传动滚筒1单点驱动胶带5运行的,则在胶带5的A点处需要很高的强度,因此采用传统方式目前无法设计制造单带长度在20公里以上的胶带输送机。而如果将改向滚筒6作为传动滚筒使用,可将长距离胶带输送机变成头、尾两点驱动,但是胶带5的A点处强度并不能下降。
因此,本发明提供的多动力胶带输送机中至少一组动力托辊(包括槽形上动力托辊2和下动力托辊4),将普通托辊(无动力)更换成为能够产生旋转动力的电动托辊16,将传动滚筒1上驱动力的40%~90%拆分给所有配置的电动托辊16。电动托辊16可以将自身承载的一段胶带5以及物料的阻力克服,和传动滚筒1同时驱动胶带5运行工作,胶带5的A点处强度即可以下降40%~90%,这样就突破了设计制作超长距离胶带输送机的瓶颈。优选的,所述电动托辊16的旋转方向与所述传动滚筒1驱动所述胶带5运行的方向一致。
优选的,所述电动托辊16的工作电压是220v、380v、6kv、10kv和/或国际各国标准的电压。
所有的电动托辊16和驱动传动滚筒1的电动机8连接在多个变压器和开关控制的电源上。为了使电动托辊16和传动滚筒1同步,优选的,所述电动托辊16与所述传动滚筒1的启闭由一个共同开关进行控制。可选的,槽形上动力托辊2和下动力托辊4由启闭开关和/或变频器开关控制。开关启动后,电动托辊16和传动滚筒1即可同时开始驱动胶带5运行工作,多动力驱动的超长距离胶带输送机即可安全可靠地运行。由于所需的驱动力被有效分配,因此传动滚筒1、改向滚筒6、拉紧装置7、电动机8、液力耦合器9、减速机10、联轴器11等部件都可以降低40%~90%的规格型号,有效减小了安装施工所需的空间、费用以及施工难度。
多动力胶带输送机系统中的电动托辊16的电源线13从托辊轴17(参考图11)的中心孔引出来,如图3和图4所示。为了使电源线13从托辊轴17的中心孔引出来时独立而不相互干扰,优选的,所述电动托辊中的两侧槽形
上动力托辊2和之间的下动力托辊2设置于非一条直线上,如图5和图6所示。
参考图7~图10,平行下动力托辊或V形下动力托辊的安装,也要方便电源线13从托辊轴17的中心孔引出来。
如图11所示,多动力胶带输送机中配置的托辊轴承座24采用大过盈冷装配工艺装配,以保证电动托辊16两端托辊轴承23的同轴度和满足中间电动机转子21和定子22装配的精度要求。两端托辊轴承23密封采用腔式非接触密封结构组件25进行密封,以实现淋水和粉尘不污染,从而保证电动托辊16的正常使用,实现多动力胶带输送机在恶劣污染环境中的长期安全可靠运行。
如图12所示,优选的,多动力胶带输送机中配置的电动托辊16的管体材料采用钢管材料。此外,为了增加其与胶带5之间的摩擦力,优选的,在钢管管体外圆周利用滚花刀和/或滚花轮等方法制作成粗糙面26。同样的,电源线13从托辊轴17的中心孔引出来。
本发明提供的多动力胶带输送机将传统长距离胶带输送机中配置的被动托辊更换成为能够产生旋转驱动力的电动托辊,可将传统胶带强度、胶带与传动滚筒之间的圆周摩擦力、驱动传动滚筒1电机功率的40%~90%拆分给配置的电动托辊。可以有效减小总的配置功率。本发明提供的多动力胶带输送机可实现100公里以上的超长距离安全输送。特别是增加了胶带压紧辊结构之后,可进一步增大动力托辊的电机功率,从而增大其对胶带的驱动力,有效提高超长距离、尤其是上运大倾角输送的效率。通过胶带压紧辊和电动托辊对驱动力的双重提升,还可以适当减少动力托辊配置数量,达到节省成本的目的。此外,在动力托辊驱动胶带运行或胶带空载时,减少或避免动力托辊与胶带之间的打滑现象,提高了输送运输的安全可靠性。
虽然关于示例实施例及其优点已经详细说明,应当理解在不脱离本发明的精神和所附权利要求限定的保护范围的情况下,可以对这些实施例进行各种变化、替换和修改。对于其他例子,本领域的普通技术人员应当容易理解在保持本发明保护范围内的同时,工艺步骤的次序可以变化。
此外,本发明的应用范围不局限于说明书中描述的特定实施例的工艺、机构、制造、物质组成、手段、方法及步骤。从本发明的公开内容,作为本
领域的普通技术人员将容易地理解,对于目前已存在或者以后即将开发出的工艺、机构、制造、物质组成、手段、方法或步骤,其中它们执行与本发明描述的对应实施例大体相同的功能或者获得大体相同的结果,依照本发明可以对它们进行应用。因此,本发明所附权利要求旨在将这些工艺、机构、制造、物质组成、手段、方法或步骤包含在其保护范围内。
Claims (10)
- 一种多动力胶带输送机,所述胶带输送机包括:传动滚筒,改向滚筒、联轴器、液力耦合器、减速机、电动机、胶带、托辊支架、中间架和多组平行设置的动力托辊;其特征在于,所述动力托辊包括槽形上动力托辊和位于槽形上动力托辊下面的下动力托辊;所述托辊支架支撑所述动力托辊;所述胶带绕置于所述传动滚筒、所述动力托辊和所述改向滚筒之上,呈履带状设置;所述托辊支架与所述中间架相连接;所述传动滚筒与所述联轴器、所述减速机、所述液力偶合器和所述电动机依次连接;多组动力托辊中至少一组为电动托辊,所述电动托辊通过电源线与所述电动机的电源相连接。
- 根据权利要求1所述的胶带输送机,其特征在于,所述胶带输送机还包括:胶带压紧辊和胶带压紧辊机械机构;所述胶带设置于所述胶带压紧辊和所述槽形上动力托辊之间;所述胶带压紧辊设置于所述槽形上动力托辊的上方,且位于所述胶带的边缘处;所述胶带压紧辊机械机构用于固定所述胶带压紧辊,其与所述托辊支架和/或所述中间架相连接。
- 根据权利要求1或2所述的胶带输送机,其特征在于,所述电动托辊的工作电压是220v、380v、6kv、10kv和/或国际上各国标准的电压。
- 根据权利要求1所述的胶带输送机,其特征在于,所述下动力托辊包括:平行下动力托辊或V形下动力托辊。
- 根据权利要求1所述的胶带输送机,其特征在于,所述电动托辊中的两侧槽形上动力托辊和所述槽型上动力托辊之间的下动力托辊设置于非一条直线上。
- 根据权利要求1所述的胶带输送机,其特征在于,多组动力托辊中的所述电动托辊间隔设置。
- 根据权利要求1所述的胶带输送机,其特征在于,所述动力托辊均为电动托辊。
- 根据权利要求1所述的胶带输送机,其特征在于,所述动力托辊与所述传动滚筒的启闭由一个共同开关进行控制。
- 根据权利要求1所述的胶带输送机,其特征在于,所述电动托辊的轴承座采用大过盈冷装配工艺装配;两端轴承采用腔式非接触密封结构组件进行密封。
- 根据权利要求1所述的胶带输送机,其特征在于,所述动力托辊上配置有故障报警装置。
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