A kind of glass tube feedway
The invention belongs to Production of Glass technical field, more particularly, the present invention relates to a kind of feedway of glass tube.
In the existing Production of Glass course of processing, normally glass tube is carried out a series of operations such as preheating, cutting, sealing by root by workman, this traditional manual manipulation method, there is many problems in batch manufacturing, what not only need is artificial many, labour intensity is large, and work efficiency ground, productive costs is high.
In order to enhance productivity, the production and processing of people to glass tube improves, adopt by chain Transfer pipe conveying glass tube, the manual operation by root that this method is more traditional is significantly improved, but still need workman to put on position corresponding to Transfer pipe by neat for glass tube, just can carry out the conveying of glass tube, waste time and energy.
Summary of the invention
The invention provides a kind of labour intensity that can alleviate workman, increase work efficiency, reduce the glass tube feedway of productive costs.
To achieve these goals, the technical scheme that the present invention takes is: a kind of glass tube feedway, comprise frame and be located at the transmission path in described frame, described transmission path is driven by driver train, it is characterized in that: establish delivery cylinder at the initiating terminal of described transmission path, be evenly distributed with some delivery grooves along described delivery cylinder circumference, described frame established one end of delivery cylinder be provided with to deposit the collector frame of glass tube.
For making technique scheme more perfect, the present invention also provides following further optimal technical scheme, to obtain satisfied practical function:
Described transmission path comprises two endless belt conveyers be arranged in parallel and is placed in the rotating shaft vertical with described belt conveyor of described frame two ends, and described belt conveyor is connected to be located on the transmission sprocket wheel at rotating shaft two ends.
Described delivery cylinder is located between the transmission sprocket wheel of described rotating shaft, is provided with the rotatingcylindrical drum of through hole centered by described delivery cylinder, and described rotating shaft is fixedly connected with in described delivery cylinder through described through hole.
Described delivery groove is the strip shape groove of the V-shaped structure in cross section.
Described delivery cylinder two ends are provided with the brace panel matched with end surface shape.
Described belt conveyor is provided with some spaced blocks successively.
Described collector frame is connected in frame by two and forms from the horizontal by the outward extending diagonal ligament of certain angle.
Baffle plate is provided with in the side of described diagonal ligament.
Described driver train comprises electrical motor, the input end of the mouth connection reducer of described electrical motor, and the mouth of described retarder is connected at the drive sprocket in rotating shaft by chain.
The present invention compared with prior art, frame is provided with collector frame, the initiating terminal of transmission path establishes delivery cylinder, together many glass tubes can be put into collector frame, delivery cylinder and transmission path synchronous axial system, send into transmission path by orderly successively for glass tube by collector frame by delivery groove, this glass tube feedway makes operation more convenient, alleviate the labour intensity of workman, increase work efficiency, reduce productive costs.
Accompanying drawing explanation
Below the content expressed by each width accompanying drawing of this specification sheets and the mark in figure are briefly described:
Fig. 1 is glass tube transport conveyor constructions schematic diagram of the present invention;
Fig. 2 is the delivery roller frame schematic diagram of glass tube feedway of the present invention.
Be labeled as in figure:
1, frame, 2, belt conveyor, 3, block, 4, baffle plate, 5, diagonal ligament, 6, delivery cylinder, 7, glass tube, 8, rotating shaft, 9, transmit sprocket wheel, 10, drive sprocket, 11, electrical motor, 12, retarder, 13, delivery groove, 14, brace panel.
Detailed description of the invention
Contrast accompanying drawing below, by the description to embodiment, the specific embodiment of the present invention is described in further detail.
Glass tube feedway as shown in Figure 1, the transmission path comprising frame 1 and be located in frame 1, transmission path is driven by driver train.Transmission path comprises two endless belt conveyers be arranged in parallel 2, and the two ends that frame 1 two ends are connected with rotating shaft 8, two rotating shafts 8 are respectively equipped with transmission sprocket wheel 9, and belt conveyor 2 and rotating shaft 8 are arranged vertically, and are connected on sprocket wheel 9.Delivery cylinder 6 is established at the initiating terminal of transmission path, be provided with the rotatingcylindrical drum of through hole centered by delivery cylinder 6, be fixedly connected with rotating shaft 8 by through hole, between the transmission sprocket wheel 9 being placed in rotating shaft 8 two ends, under the drive of rotating shaft 8, delivery cylinder 6 can be synchronized with the movement with transmission path.Be provided with some spaced blocks 3 successively on conveyor belt 2, what delivery cylinder 6 was orderly is delivered in the gap between block 3 by glass tube 7 by delivery groove 13, fixed pedestal effect can be played to the glass tube 7 be transported on belt conveyor 2 in gap between block 3, convenient to glass tube 7 process for further processing.Block 3 can be designed as cylindrical roller shape, makes glass tube 7 can transmit conveying more smoothly.
Frame 1 establishes one end of delivery cylinder 6 to be provided with to deposit the collector frame of glass tube 7.Collector frame is connected to by two the diagonal ligament 5 that frame 1 extends laterally from the horizontal by certain angle and forms, and the gradient of diagonal ligament makes glass tube 7 concentrate near delivery cylinder 6, againsts delivery cylinder 6 outside wall surface, facilitates delivery groove 13 delivery.Baffle plate 4 is provided with, so that by the end part aligning of glass tube 7 in the side of diagonal ligament 5.
As shown in Figure 2, be delivery cylinder 6 structural representation, be evenly distributed with some delivery grooves 13 along delivery cylinder 6 circumference, delivery groove 13 is the strip shape groove of the V-shaped structure in cross section, can better adaptive glass tube 7.Delivery cylinder 6 can select wood materials to make, and rough surface easilier can bring glass tube 7 into delivery groove 13, in order to increase the intensity of delivery cylinder 6, can install the brace panel 14 matched with end surface shape additional at two ends.
The driver train of this device comprises electrical motor 11, and the mouth of electrical motor 11 is connected by the input end of belt pulley with retarder 12, and rotating shaft 8 is provided with drive sprocket 10, and the mouth of retarder 12 connects drive sprocket 10 by chain.Rational layout, can be opened in drive sprocket 10 and 6 points, delivery cylinder in two rotating shafts 8.Electrical motor 11 drives the rotating shaft 8 being provided with drive sprocket 10 to rotate by retarder 12, thus drives belt conveyor 2 to move by transmitting sprocket wheel 9, and delivery cylinder 6 is synchronized with the movement with whole transmission path under the drive of rotating shaft 8.Glass tube 7 is deposited on collector frame, placement direction is vertical with throughput direction, delivery cylinder 6 rotates, glass tube 7 embeds delivery groove 13, moves, when turning to belt conveyor 2 end with the delivery cylinder 6 rotated, glass tube 7 is placed in the gap between block 3, depart from delivery groove 13, complete transmission, carry via transmission path.
Glass tube feedway of the present invention, frame is established collector frame, the initiating terminal of transmission path establishes delivery cylinder 6, together many glass tubes 7 can be put into collector frame, driver train drives transmission path motion, delivery cylinder 6 and transmission path synchronous axial system, delivery cylinder 6 circumferential well-distributed delivery groove 13 sends into transmission path by orderly successively for glass tube 7 by collector frame, thus can to glass tube process for further processing in transmission path.This glass tube feedway alleviates the labour intensity of workman to a certain extent, increases work efficiency, reduces productive costs.
Above by reference to the accompanying drawings to invention has been exemplary description; obvious specific implementation of the present invention is not subject to the restrictions described above; as long as have employed the improvement of various unsubstantialities that method of the present invention design and technical scheme carry out or directly apply to other occasion, all within protection scope of the present invention.