TWM418903U - Conveyor belt guide device with offset correcting function - Google Patents

Description

M418903 • V. New description: [New technical field], this product provides a wheeled belt guide with corrective offset capability, especially for the transmission conveyor belt and the roller for controlling the tension of the conveyor belt, && • Drives that drive the side of the drum and involve sensors that sense the correct position of the belt. [Prior Art] At present, the electrical or optoelectronic products on the market must be baked into the baking oven for high-temperature baking in the production process to facilitate the next stage of processing; in addition, the above products are required during the drying process. Entering the feeding furnace to receive heating and baking; the above products are generally conveyed by a continuous conveyor belt to a baking furnace, infrared or ultraviolet light, etc., and the surface of the conveyor belt is generally flat. Or mesh. It is also known that the conventional conveyor belt is usually wound around a plurality of rollers and drives the conveyor belt through a driving roller of the power, so that the belt is cyclically driven around the drum, thereby arranging along the direction of the rollers. Passing the Luss electrical or optoelectronic product; in addition, the drum also contains a number of rollers capable of controlling the tension of the conveyor belt, these tension control rollers are usually only available. A specific tension collapses the conveyor belt 'to prevent the conveyor belt A skew occurs during the transmission process. However, when the conventional conveyor belt is applied to a high temperature environment of a baking oven, an infrared ray or an ultraviolet ray, etc., since the conveyor belt itself is usually made of a flexible material, it is easy to cause expansion and expansion after baking. 'Image, resulting in the correct position of the conveyor belt offset drive'. The correct position is the direction of the arrangement of the drum; at present, the tension control 3 M418903 drum must be adjusted synchronously during heating to control the tension of the conveyor belt to guide The conveyor belt returns to the correct position, but after the heating is stopped, the conveyor belt will naturally produce a contraction recovery phenomenon, which will again cause the conveyor belt to shift to the correct position. Therefore, it is necessary to repeatedly adjust the heating and the unheated. It has the opportunity to adjust to the position that can adapt to the cold and heat changes of the conveyor belt at the same time, which causes inconvenience in use and affects the efficiency of continuous operation of the conveying equipment. [New content] The purpose of this creation is to overcome the above-mentioned prior art, in the case of heating and unheating of the conveyor belt, repeatedly adjusting the tension of the conveyor belt to guide the conveyor belt to return to the correct position, resulting in inconvenience in use and A problem that affects the efficiency of continuous operation of the conveying equipment. In order to achieve the above object, the present invention provides a conveyor guiding device with corrective offset capability, comprising: a first roller and a second roller, respectively pivoted on a carrier, and the first and second A conveyor belt is disposed between the rollers to form a transmission path; a first driver and a second driver are disposed on the carrier on both sides of the conveyor belt; a tension control roller is disposed on the first The carrier between the second roller and the second roller, the conveyor belt is wound around the tension control roller, and the tension control roller double end can respectively receive the first and second drivers along the transmission path One of the lateral drives; and one or more sensors disposed on the carrier to sense a correct position of the conveyor belt drive, and to cause the first and second actuators to be offset when the conveyor belt is offset The side ends of the tension control drum are each driven to guide the belt 4 M418903 to return the correct position. According to this, the conveyor belt can adjust the belt tension at any time through the tension control drum in a fully automatic manner by using the first and second actuators in the case of heating and unheating, and the belt guide is responsive. The correct position, which improves the convenience of use and further improves the efficiency of the continuous operation of the conveying equipment. In a specific implementation, the rack has two side plates, and the first roller, the second roller and the tension control roller are respectively disposed between the side plates, and the first and second drivers are respectively disposed on the side plates; The sensor is placed adjacent to the side panel. In order to enable the sensor to sense the situation that the conveyor belt is offset early, the first roller or the second roller may be a driving roller, and the sensor is disposed on the driving roller to transmit the conveying. An output with an output. Alternatively, the first roller or the second roller may also be a driven roller. In another embodiment, the conveyor belt has a first surface and a second surface that contacts the first and second rollers, the first surface contacting the tension control roller. In still another implementation, the first and second actuators are cylinders, and the tension control drums are respectively pivotally disposed on one of the cylinder rods of the cylinder. Moreover, the sensor may actually include a first sensor and a second sensor disposed on both sides of the conveyor belt, and each senses both sides of the conveyor belt. However, in order to clearly and fully disclose the present invention, and to illustrate the preferred embodiment, the embodiment will be described in detail as follows: [Embodiment] 5. M418903 The first view of Figure 1 reveals that the present invention is preferably implemented. The configuration diagram of the example, and with reference to FIG. 2 to FIG. 4, the belt guiding device for correcting the offset capability of the present invention is arranged in a conveying bracket! The first roller 2 includes a second roller 22, a first driver 31, a second driver, a tension control roller 4, and one or more sensors 51, %; Passing through the inside of the high-temperature stove 8 and forming the -feed end U and the discharge end 12 of the stove 8 at the double end of the rack, the stove 8 may actually be a baking oven or a conveying furnace And the support between the feed end u and the discharge end 12! There are a plurality of rollers 2, 2a in sequence (4), and a conveyor belt 9 is disposed between the rollers 2 and & 2, and includes the first and second rollers 21, 22; The first and second rollers 2 are respectively pivotally placed at the feeding end n of the frame i, and the conveyor belt 9 is disposed between the first and second rollers 2, 22 A transmission path 9〇 of the conveyor belt 9 is formed between the first and second pads 22. 3 The first and second actuators 31, 32 are arranged on the two sides of the frame; the tension control cylinder 4 is arranged to be placed on the carrier 1 between the second roller = 22, and the conveyor belt 9 is Winding on the tension control drum 4, the tension control drum 4 can be double-ended ends 41, 42

Each of the four (4)-one devices 31, 32 is laterally driven along one of the transmission paths 9 (in conjunction with FIG. 5 to FIG. 8 , the two sides of the two sides 4 42 are in the top _ tip === 51 The present invention includes a -th-sensor 51 and a sensor 52, respectively disposed on the double-support frame of the conveyor belt 9; between the driver 31 and the 'sensor 51 The first driver 31 is controlled by the image signal, and the second driver 32 and the second sensor are controlled by the external sensor-controlled drawing. The control unit is capable of receiving the 6 M418903 image signal of the first sensor Μ. The controllers 52 can also be electrically connected to each other via the control unit. The control unit can also receive the image signal* of the second sensor 52, and control the second driver 32 by the image signal; the first and the The j sensors 51, 52 can each sense the two sides of the conveyor belt 9, and thereby sense a correct position of the conveyor belt 9 transmission, the correct position refers to the conveyor belt 9. During the normal transmission, the rollers 2, 2a The range of movement on the first and second rollers 21, 22 and the tension control roller 4; in other words, the axis of the correct position Tube 2, 2a, a first, a second roller 21 and the tension control roller 4 to the arrangement direction of the rack 1. In a specific implementation, the rack 1 has two side plates 23, 24, and the first rollers 21, 22 and the tension control roller 4 are respectively disposed between the side plates 23, 24, and the side plates 23, 24 A guide groove 23丨, 241 is formed on each of the guide grooves 23 (shown in FIG. 7 and FIG. 8), and the tension-control rollers 4 are respectively slidably disposed in the guide grooves 231 and 241 to carry the tension control roller. 4, and guide the tension control roller 4 to move along the transmission path 9; the first and second drivers 31, 32 are placed on the side plate 23, and the first and second senses The detectors 51, 52 are respectively disposed adjacent to the side plates 23, 24, respectively adjacent to the two sides of the conveyor belt 9; when the conveyor belt 9 is driven at the correct position, the first and second sensors 51 , 52 are not able to sense the conveyor belt 9, when the conveyor belt 9 transmission shifts (shown in Figures 9 and 10), the first or second sensor 51, 52 can sense the wheel The one end 93 of the belt 9 is fed, and the control unit judges that the belt 9 is displaced due to the image of the side end 93 of the belt 9 . In another implementation, the first or second rollers 21, 22 may be 7 driving rollers, and the first and second cartridges transmit the routing belt 9 to the core detector 5 52. The second roller 22 is smashed out of the wheel end 13; in this embodiment, the second roller 22' is provided with a motor 6' provided with a belt or a chain 7 Between the shafts 61 and up to 6 drives; thus, the -rolling 22 stages of the n (four) conveyor belt 9 that receives the line conveyor 9 from the chain 7 can be early sensed, in yet another embodiment,兮-second surface 92 (with the second wheel of the second wheel and the second surface of the surface of the first and second sub-cylinders 21 Q 7), the second surface 92 is connected to the control drum 4; ?:================================================================================================== The m-cylinder is removed, and in the present embodiment, a belt or a single end 4b 42 is respectively dragged and placed on the double side 8 of the air tension control roller 4, and the second fish 31 is accepted. The upper part is matched with the first drive 31, 32. According to the above-mentioned component composition, it can be used to implement the continuous transmission and receive the heating during the heating of the stove 8: the transmission belt. 9 51, 52 each shred / 3⁄4 And the second sensor 24 continuously senses whether the conveyor belt 9 is properly driven when the conveyor belt 9 is driven at the correct position, the first and second senses. The detectors 51, 52 are all shown in Fig. 7 and Fig. 8), and the spit has not sensed the conveyor belt 9, and the first and second drives H3b 32 stop driving the tension controller conveyor belt. 9 When the transmission is offset (matching, s, Taguchi y夂 shown in FIG. 10), the cymbal 18903 苐 or the first sensors 51, 52 sense the side end 93 of the belt 9 to hold the conveyor belt 9 In the case of continuing the transmission, the first and second actuators 31, 32 are each driven to drive the two ends 41, 42 of the tension control drum 4 (as shown in Figs. 5 and 6); for example, when the conveyor belt 9 goes When the direction of the drive 31 is shifted, the first driver 31 drives the side end 4 of the tension control roller 4 toward the feed end 11 to partially release the tension control. The cylinder 4 is applied to the pressure of the side end of the conveyor belt 9; at the same time, the second actuator 32 is driven to the side end 42 of the tension control drum 4 in the opposite direction to the feed end u, and the tension control roller 4 is applied to the side of the conveyor belt 9 The pressure at the end; thereby, the guide belt 9 is returned to the correct position. After the stove 8 stops heating the conveyor belt 9, the first and first sensors 51, 52 each continuously sense whether the conveyor belt 9 is in the correct position, when the carriage belt 9 is in the correct position. And causing the first and second actuators 31, 32 to stop driving the tension control roller 4; when the conveyor belt 9 is again offset from the correct position by cooling, the first and second drivers 31, 32 are each driven to drive tension The double ends 41, 42 of the drum 4 are controlled to return the correct position by the guide belt 9. According to this, the conveyor belt 9 can be used to automatically convey the conveyor belt through the tension control drum 4 in a fully automatic manner by the first and second actuators 31, 32 under the condition that the furnace 8 is heated and unheated. 9 tension adjustment, @正导正带9 return to the correct position to overcome the above-mentioned prior art 'in the case of the belt heating and unheating, repeatedly adjust the tension of the conveyor belt to guide the conveyor belt back correctly The location causes problems in use and affects the efficiency of the continuous operation of the conveying equipment, thereby improving the convenience of use and improving the efficiency of the continuous operation of the conveying equipment. Alternatively, the first rollers 21a, 21b and the second rollers 22a, 22b M418903 may also be respectively pivoted to the discharge end 12 of the rack 1 (shown in Figures 11 and 12), and the first roller The 21a, 21b or second rollers 22a, 22b may also be driven rollers that, in an implementation, accept that the first and second drivers 31, 32 are driven along a horizontal axis, and the tension control roller 4 In another implementation, the first and second actuators 31, 32 are also acceptable for driving along a vertical axis, and the remaining component components and embodiments are equivalent to the above embodiments. Furthermore, in practice, it is also possible to provide a single 〆# sensor only on the carrier 1 and use the single sensor to sense both sides of the conveyor belt 9 and offset the conveyor belt 9 At this time, the first and second driving H 31, 32 are each driven to drive the side end of the tension control drum 4 to guide the conveyor belt 9 to return to the correct position. In addition, the creation can also be implemented in an environment where the high temperature stove 8 is not provided, thereby improving convenience and processing efficiency. In summary, the present invention is only a preferred embodiment of the present invention, and is not intended to limit the creation of the present invention; any equivalent modification or replacement that has been completed without departing from the spirit of the present invention should be included in the following description. Within the scope of the patent application. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic view of a preferred embodiment of the present invention; FIG. 2 is a partial enlarged view of FIG. 1; FIG. 3 is a side view of FIG. FIG. 6 is a partial enlarged view of FIG. 4; FIG. 8 is another partial enlarged view of FIG. 4; FIG. 9 is a use state diagram of FIG. Fig. 10 is a view showing the state of use of Fig. 8; Fig. 11 is a schematic view showing the configuration of an additional embodiment of the present invention; Fig. 12 is a view showing the configuration of another embodiment of the present invention. [Main component symbol description]

11 12 13 2 ' 2a 21, 21a, 21b 22, 22a, 22b 221 23, 24 231 ' 241 31 311 > 321 32 4 41, 42 51 Shelf feed end discharge end output end roller first roller second Roller shaft side plate guide groove first drive cylinder rod second drive tension control roller side end first sensor M418903 52 second sensor 6 motor 61 shaft 7 chain 8 stove 9 conveyor belt 90 transmission path 91 first surface 92 Second surface 93 side end 12

Claims (1)

M418903 VI. Patent Application Range: 1. A conveyor belt guiding device with correcting offset capability, comprising: a first roller and a second roller, respectively pivoted on a carrier, and the first and the first a conveyor belt is disposed between the two rollers to form a transmission path; a first driver and a second driver are disposed on the carrier on both sides of the conveyor belt; a tension control roller is disposed in the first a carrier between the first roller and the second roller, the conveyor belt being wound around the tension control roller, and the tension control roller double-side end can respectively receive the first and second drivers along the transmission One of the paths is laterally driven; and one or more sensors are disposed on the carrier to sense a correct position of the conveyor belt drive, and the first and second portions are caused when the conveyor belt is offset The drivers each drive the side ends of the tension control drum to direct the belt to return to the correct position. 2. A conveyor belt guiding device with corrective offset capability as described in claim 1 wherein the carrier has two side panels. 3. The conveyor belt guiding device with corrective offset capability according to claim 2, wherein the first roller, the second roller and the tension control roller are respectively disposed between the side plates. 4. The conveyor belt guiding device with corrective offset capability according to claim 1, wherein the first roller or the second roller is a driving roller, and the sensor is disposed on the driving roller to transmit the An output of the conveyor output. 5. Transport with corrective offset capability as described in item 1 of the patent application.