CN209009507U - Slant rubber belt transmission distributing machine - Google Patents

Abstract

The utility model discloses slant rubber belt transmission distributing machines, its structure includes chamber door, transmit host, directive wheel, support leg, hinge is welded in transmission host front surface left end, chamber door is fixedly mounted on transmission host front surface left end by hinge, it transmits host right end and is equipped with directive wheel, support leg upper end is welded in transmission host bottom, first elevating mechanism, which rises, drives transmission belt to rise, main drive gear drives the second elevating mechanism to rise simultaneously, so that transmission belt end rises, adjust the height of transmission belt end, it is just more convenient in the transmission process in warehouses different to height in this way, transmission belt end is reinforced by tensile machine simultaneously, prevent transmission belt end from falling easily, after height adjustment, the mechanism that turns on the power makes transmission belt start to transmit, by damper mechanism to being generated in power mechanism operational process Vibration weakened, it is ensured that article will not be excessive and fall because vibrating during transmission belt transmits.

Description

Slant rubber belt transmission distributing machine

Technical field

The utility model relates to slant rubber belt transmission distributing machine fields, transmit and distribute particularly with regard to a kind of inclined rubber Machine.

Background technique

In relevant industries such as many large and medium-sized logistics sortation hubs, especially in postal sorting center, express delivery processing There is a large amount of required segregating articles lich in the places such as the warehouse logistics center of the heart in the main transfer passage of logistics transmission daily It is to be transmitted, but the prior art slant rubber belt transmission distributing machine is during being transmitted in channel, general glue It is welded, can not adjust with all fixations of transmission upper end, the height in each warehouse is inconsistent, just extremely numb in warehouse transmission in this way It is tired, it is not adjustable the angle of transmission, needs to use other equipment padded, or reduce, can accurately just be transferred to the every of warehouse A position, and certain vibration can be generated in transmission process will lead to falling for article in transmission process if vibration is excessive It falls, so that article damages.

Utility model content

In view of the deficiencies of the prior art, the utility model is achieved through the following technical solutions: inclined rubber transmits Dispenser, structure include chamber door, transmission host, directive wheel, support leg, hinge, and the chamber door is mutually welded with hinge, the hinge Chain is welded in transmission host front surface left end, and the chamber door is fixedly mounted on transmission host front surface left end by hinge, described It transmits host right end and is equipped with directive wheel, the support leg upper end is welded in transmission host bottom.

The transmission host includes host housing, power mechanism, damper mechanism, driving mechanism, main drive gear, first liter Descending mechanism, the second elevating mechanism, tensile machine, the host housing bottom are welded with support leg, the fixed peace of the power mechanism Mounted in right end inside host housing, the damper mechanism upper end is mounted on power mechanism upper right side, the fixed peace of the driving mechanism Mounted in upper right side inside host housing, the driving mechanism left end is flexibly connected with main drive gear upper end, the main transmission machine Structure lower end by embedded mode be mounted on inside the first elevating mechanism lower end, the main drive gear lower end and the second elevator Structure bottom righthand side is connected, and first elevating mechanism upper end is connected with power mechanism, second elevating mechanism upper end and dynamic Force mechanisms left end is connected, and second elevating mechanism upper end is connected with tensile machine left end, the tensile machine right end with It is flexibly connected in the middle part of driving mechanism.

As advanced optimizing for the technical program, the power mechanism include motor, motor shaft, worm screw, driving gear, Drive belt, drive shaft, transmission belt, fixed interlayer, the motor are fixedly mounted on right end inside host housing, the motor Axis left end is mounted on inside motor and is mechanically connected by embedded mode, and the motor shaft right end is mutually welded with worm screw left end, The worm screw is meshed with driving gear, and the driving gear is flexibly connected by drive belt with drive shaft, the drive shaft It is fixedly mounted on directive wheel and is located at the same center of circle, the transmission belt is flexibly connected with directive wheel, the transmission belt It is flexibly connected with the first elevating mechanism upper end, the transmission belt is flexibly connected with the second elevating mechanism upper end, the drive shaft It is connected with damper mechanism and is gap-matched.

As advanced optimizing for the technical program, the damper mechanism includes support plate, support rod, stressed plate, piston Bar, reinforces pedestal at shock-absorbing spring, and the support plate is connected and is gap-matched with drive shaft by pin shaft, the branch Fagging lower surface is welded with support rod, and the support rod lower end is mutually welded with stressed plate upper surface, and the piston rod upper end passes through Embedded mode is mounted on inside stressed plate middle-end and is gap-matched, and shock-absorbing spring is equipped with outside the piston-rod lower end, The shock-absorbing spring upper end fits with stressed plate lower surface, and the shock-absorbing spring lower end fits with base upper surface is reinforced, The piston-rod lower end is fixedly mounted on reinforcing chassis interior, and the reinforcing base lower surface is fixedly mounted on inside host housing Right end bottom surface.

As advanced optimizing for the technical program, the driving mechanism includes motor, motor drive shaft, axle bed, the first spiral Bar, serrated disks, the second screw rod, connection shaft, the motor are fixedly mounted on upper right side inside host housing, the motor Axis and motor are mechanically connected, and the motor drive shaft is through inside axle bed and being gap-matched, the motor drive shaft left end and the One screw rod right end is mutually welded and is mechanically connected, and first screw rod left end is meshed with serrated disks, the sawtooth circle Disk is meshed with the second screw rod right end, and second screw rod is through connection shaft inside and is mechanically connected, the company Switch through axis to be flexibly connected with main drive gear.

As advanced optimizing for the technical program, the main drive gear includes linkage belt, linkage shaft, track turn Bar, drive rod, sliding block, fixed glides, pneumaticpiston bar, guiding piece, the linkage shaft by linkage belt with connect shaft It is flexibly connected, track bull stick left end is through linkage shaft inside and is mechanically connected, the track bull stick and drive rod Upper end is gap-matched, and sliding block is welded in the middle part of the drive rod, and the sliding block is mounted on inside fixed glides and uses Clearance fit, the drive rod lower end are welded in pneumaticpiston bar right end, and pneumaticpiston bar left end is equipped with guiding piece.

As advanced optimizing for the technical program, first elevating mechanism include the first air-pressure chamber, the first elevating lever, First fixed plate, the first auxiliary guide wheels, pneumaticpiston bar left end are mounted on the first air-pressure chamber bottom right by embedded mode End is internal, and first elevating lever lower end is mounted on inside the first air-pressure chamber upper end by embedded mode, first elevating lever Upper end is welded with the first fixed plate, and first fixed plate is connected with the first auxiliary guide wheels by pin shaft and using gap Cooperation, first auxiliary guide wheels are flexibly connected with transmission belt.

As advanced optimizing for the technical program, second elevating mechanism include rope, ball, reset spring, Second air-pressure chamber, the second elevating lever, the second fixed plate, the second auxiliary guide wheels, the rope right end are fixedly connected with guiding piece, It is connected in the middle part of the rope with ball, the rope left end is connected with reset spring, and the reset spring is mounted on the Inside two air-pressure chambers, the reset spring upper end fits with the second elevating lever lower end, and second elevating lever lower end passes through embedding Enter mode to be mounted on inside the second air-pressure chamber, second elevating lever upper end is welded with the second fixed plate, second fixed plate It is connected and is gap-matched with the second auxiliary guide wheels by pin shaft, second auxiliary guide wheels and transmission belt is living Dynamic connection.

As advanced optimizing for the technical program, the tensile machine includes traction rope, the first traction wheel, the first fixation Seat, the second traction wheel, the second fixing seat, rope folding and unfolding shaft, the traction rope left end is fixedly connected with the second fixed plate, described Traction rope is connected with the first traction wheel, and first traction wheel is fixedly mounted on the first fixing seat lower end, and described first is fixed Seat upper end is fixedly mounted on host housing inside upper surface, and the traction rope is connected with the second traction wheel, second traction Wheel is fixedly mounted on the second fixing seat left end, and the second fixing seat right end is fixedly mounted on host housing inner right side surface, The traction rope left end is mounted in rope folding and unfolding shaft, the rope folding and unfolding shaft be fixedly mounted on inside serrated disks and Positioned at the same center of circle.

The utility model has the beneficial effects that: the utility model slant rubber belt transmission distributing machine, machine is placed on properly Position on, make motor shaft turn by opening motor, motor drive shaft has driven the first screw rod to rotate, at this moment with the first spiral The serrated disks that bar is meshed start to rotate, and the second screw rod being meshed with serrated disks and then rotates, and at this moment connect shaft Also it starts turning, by the transmission of the belt that links so that linkage shaft starts turning, at this moment track bar rotation, to drive rod work Make, so that drive rod is moved inside fixed glides, it is ensured that the movement rail of drive rod toward moving left by the sliding block on drive rod Mark, at this moment pneumaticpiston bar has driven guiding piece toward moving left, pneumaticpiston bar is turned left inside the first air-pressure chamber toward moving left Mobile, so that the first elevating lever drives the first fixed plate to move up toward rising, at this moment the first auxiliary guide wheels are also and then moved up, and are led to Guiding piece is crossed toward moving left so that rope loosens, at this moment reset spring resets, and the second elevating lever is up pushed up, and at this moment second is fixed Strip is moved the second auxiliary guide wheels and is moved up, and the height of the second auxiliary guide wheels is adjusted, while serrated disks rotate so that sawtooth circle Rope folding and unfolding shaft inside disk is rotated, and is packed up to traction rope, and at this moment traction rope pulls the second fixed plate to rise, really Protecting the second auxiliary guide wheels will not fall easily, adjust the position of transmission belt upper end, in this way in the transmission process in warehouse just It is more convenient, the height of transmission belt can be arbitrarily adjusted, so that transmission is more convenient, after regulating height, opening motor makes Motor shaft rotation is obtained, has driven worm screw rotation, the driving gear being meshed with worm screw starts to rotate, and passes through the transmission of drive belt So that drive shaft rotates, drive shaft rotates so that directive wheel rotates, and at this moment transmission belt starts to transmit article, by solid Determine interlayer to separate article, prevent article from colliding, while being weakened by the vibration that damper mechanism generates directive wheel rotation, Prevent article from vibrating in transmission process excessive, there is a situation where fall.

For the prior art, the utility model, which is used, passes main drive gear by opening driving mechanism Dynamic, at this moment the first elevating mechanism, which rises, drives transmission belt to rise, while main drive gear drives the second elevating mechanism to rise, and makes It obtains transmission belt end to rise, the height of adjusting transmission belt end, in the transmission process in warehouses different to height so just It is more convenient, while transmission belt end is reinforced by tensile machine, prevent transmission belt end from falling easily, height After adjusting, the mechanism that turns on the power makes transmission belt start to transmit, by damper mechanism to generating in power mechanism operational process Vibration weakened, it is ensured that article will not be excessive and fall because vibrating during transmission belt transmits.

Detailed description of the invention

Upon reading the detailed description of non-limiting embodiments with reference to the following drawings, other spies of the utility model Sign, objects and advantages will become more apparent upon:

Fig. 1 is the structural schematic diagram of the utility model slant rubber belt transmission distributing machine.

Fig. 2 is the cross-sectional view of the utility model slant rubber belt transmission distributing machine.

Fig. 3 is the detailed construction schematic diagram of the utility model slant rubber belt transmission distributing machine.

Fig. 4 is the detailed construction schematic diagram of the utility model slant rubber belt transmission distributing machine.

Fig. 5 is the partial enlarged view one of Fig. 3.

Fig. 6 is the partial enlarged view two of Fig. 4.

In figure: chamber door -1, transmission host -2, directive wheel -3, support leg -4, hinge -5, host housing -21, power mechanism - 22, damper mechanism -23, driving mechanism -24, main drive gear -25, the first elevating mechanism -26, the second elevating mechanism -27, pulling force Mechanism -28, motor shaft -222, worm screw -223, driving gear -224, drive belt -225, drive shaft -226, passes motor -221 Defeated belt -227, fixed interlayer -228, support plate -231, support rod -232, stressed plate -233, piston rod -234, shock-absorbing spring - 235, pedestal -236, motor -241, motor drive shaft -242, axle bed -243, the first screw rod -244, serrated disks -245, the are reinforced Two screw rods -246, connection shaft -247, linkage belt -251, linkage shaft -252, track bull stick -253, drive rod -254, Sliding block -255, fixed glides -256, pneumaticpiston bar -257, guiding piece -258, the first air-pressure chamber -261, the first elevating lever - 262, the first fixed plate -263, the first auxiliary guide wheels -264, rope -271, ball -272, reset spring -273, the second gas Pressure chamber -274, the second elevating lever -275, the second fixed plate -276, the second auxiliary guide wheels -277, traction rope -281, the first traction Take turns the -282, first fixing seat -283, the second traction wheel -284, the second fixing seat -285, rope folding and unfolding shaft -286.

Specific embodiment

To be easy to understand the technical means, creative features, achievement of purpose, and effectiveness of the utility model, below In conjunction with specific embodiment and Detailed description of the invention, the preferred embodiment of the utility model is further described.

Embodiment

Fig. 1-Fig. 6 is please referred to, the utility model provides slant rubber belt transmission distributing machine, and structure includes chamber door 1, transmission master Machine 2, directive wheel 3, support leg 4, hinge 5, the chamber door 1 are welded with 5 phase of hinge, and the hinge 5 is welded in table before transmission host 2 Face left end, the chamber door 1 are fixedly mounted on transmission 2 front surface left end of host by hinge 5, and 2 right end of transmission host is equipped with Directive wheel 3,4 upper end of support leg are welded in transmission 2 bottom of host.

The transmission host 2 includes host housing 21, power mechanism 22, damper mechanism 23, driving mechanism 24, main transmission machine Structure 25, the first elevating mechanism 26, the second elevating mechanism 27, tensile machine 28,21 bottom of host housing are welded with support leg 4, the power mechanism 22 is fixedly mounted on 21 inside right end of host housing, and 23 upper end of damper mechanism is mounted on power mechanism 22 upper right sides, the driving mechanism 24 are fixedly mounted on 21 inside upper right side of host housing, 24 left end of driving mechanism and master 25 upper end of transmission mechanism is flexibly connected, and 25 lower end of main drive gear is mounted on and the first elevating mechanism 26 by embedded mode Inside lower end, 25 lower end of main drive gear is connected with 27 bottom righthand side of the second elevating mechanism, first elevating mechanism 26 Upper end is connected with power mechanism 22, and 27 upper end of the second elevating mechanism is connected with 22 left end of power mechanism, and described second 27 upper end of elevating mechanism is connected with 28 left end of tensile machine, and 28 right end of tensile machine and 24 middle part activity of driving mechanism are even It connects, the power mechanism 22 includes motor 221, motor shaft 222, worm screw 223, driving gear 224, drive belt 225, drive shaft 226, transmission belt 227, fixed interlayer 228, the motor 221 are fixedly mounted on 21 inside right end of host housing, the motor 222 left end of axis is mounted on 221 inside of motor by embedded mode and is mechanically connected, 222 right end of motor shaft and worm screw 223 Left end is mutually welded, and the worm screw 223 is meshed with driving gear 224, and the driving gear 224 is by drive belt 225 and drives Moving axis 226 is flexibly connected, and the drive shaft 226 is fixedly mounted on directive wheel 3 and is located at the same center of circle, the transmission belt 227 are flexibly connected with directive wheel 3, and the transmission belt 227 is flexibly connected with 26 upper end of the first elevating mechanism, the transmission belt 227 are flexibly connected with 27 upper end of the second elevating mechanism, and the drive shaft 226 is connected with damper mechanism 23 and is matched using gap It closes, the damper mechanism 23 includes support plate 231, support rod 232, stressed plate 233, piston rod 234, shock-absorbing spring 235, reinforces Pedestal 236, the support plate 231 are connected and are gap-matched with drive shaft 226 by pin shaft, the support plate 231 Lower surface is welded with support rod 232, and 232 lower end of support rod is mutually welded with 233 upper surface of stressed plate, the piston rod 234 Upper end is mounted on inside 233 middle-end of stressed plate and is gap-matched by embedded mode, outside 234 lower end of piston rod Equipped with shock-absorbing spring 235,235 upper end of shock-absorbing spring fits with 233 lower surface of stressed plate, under the shock-absorbing spring 235 End fits with 236 upper surface of pedestal is reinforced, and 234 lower end of piston rod, which is fixedly mounted on, to be reinforced inside pedestal 236, described to add Gu 236 lower surface of pedestal is fixedly mounted on 21 inside right end bottom surface of host housing, the driving mechanism 24 includes motor 241, horse Up to axis 242, axle bed 243, the first screw rod 244, serrated disks 245, the second screw rod 246, connection shaft 247, the motor 241 are fixedly mounted on 21 inside upper right side of host housing, and the motor drive shaft 242 is mechanically connected with motor 241, the motor drive shaft 242 through the inside of axle bed 243 and are gap-matched, and 242 left end of motor drive shaft is mutually welded with 244 right end of the first screw rod It connects and is mechanically connected, 244 left end of the first screw rod is meshed with serrated disks 245, the serrated disks 245 and second 246 right end of screw rod is meshed, and second screw rod 246 is through 247 inside of connection shaft and is mechanically connected, the company Switch through axis 247 to be flexibly connected with main drive gear 25, the main drive gear 25 include linkage belt 251, linkage shaft 252, Track bull stick 253, drive rod 254, sliding block 255, fixed glides 256, pneumaticpiston bar 257, guiding piece 258, the linkage turn Axis 252 by linkage belt 251 with connect shaft 247 flexible connection, 253 left end of track bull stick through link shaft It inside 252 and is mechanically connected, the track bull stick 253 is gap-matched with 254 upper end of drive rod, the drive rod 254 Middle part is welded with sliding block 255, and the sliding block 255 is mounted on 256 inside of fixed glides and is gap-matched, the drive rod 254 lower ends are welded in 257 right end of pneumaticpiston bar, and 257 left end of pneumaticpiston bar is equipped with guiding piece 258, and described first liter Descending mechanism 26 includes the first air-pressure chamber 261, the first elevating lever 262, the first fixed plate 263, the first auxiliary guide wheels 264, described 257 left end of pneumaticpiston bar is mounted on inside 261 bottom righthand side of the first air-pressure chamber by embedded mode, first elevating lever 262 Lower end is mounted on inside 261 upper end of the first air-pressure chamber by embedded mode, and it is solid that 262 upper end of the first elevating lever is welded with first Fixed board 263, first fixed plate 263 are connected and are gap-matched with the first auxiliary guide wheels 264 by pin shaft, institute It states the first auxiliary guide wheels 264 to be flexibly connected with transmission belt 227, second elevating mechanism 27 includes rope 271, ball 272, reset spring 273, the second air-pressure chamber 274, the second elevating lever 275, the second fixed plate 276, the second auxiliary guide wheels 277, 271 right end of rope is fixedly connected with guiding piece 258, and 271 middle part of rope is connected with ball 272, the rope 271 left ends are connected with reset spring 273, and the reset spring 273 is mounted on inside the second air-pressure chamber 274, the reset bullet 273 upper end of spring fits with 275 lower end of the second elevating lever, and 275 lower end of the second elevating lever is mounted on by embedded mode Inside two air-pressure chambers 274,275 upper end of the second elevating lever is welded with the second fixed plate 276, and second fixed plate 276 is logical It crosses pin shaft and is connected and is gap-matched with the second auxiliary guide wheels 277, second auxiliary guide wheels 277 and transmission skin Band 227 is flexibly connected, and the tensile machine 28 is led including traction rope 281, the first traction wheel 282, the first fixing seat 283, second Running wheel 284, the second fixing seat 285, rope folding and unfolding shaft 286,281 left end of traction rope and the second fixed plate 276 are fixed to be connected It connects, the traction rope 281 is connected with the first traction wheel 282, and first traction wheel 282 is fixedly mounted on the first fixing seat 283 lower ends, 283 upper end of the first fixing seat are fixedly mounted on 21 inside upper surface of host housing, the traction rope 281 and Two traction wheels 284 are connected, and second traction wheel 284 is fixedly mounted on 285 left end of the second fixing seat, second fixing seat 285 right ends are fixedly mounted on 21 inner right side surface of host housing, and 281 left end of traction rope is mounted on rope folding and unfolding shaft On 286, the rope folding and unfolding shaft 286 is fixedly mounted on 245 inside of serrated disks and is located at the same center of circle.

Machine is put in place, by opening motor 241 motor drive shaft 242 is rotated, motor drive shaft 242 drives The rotation of first screw rod 244, the serrated disks 245 being at this moment meshed with the first screw rod 244 start to rotate, with serrated disks 245 the second screw rods 246 being meshed and then rotate, and at this moment connect shaft 247 and also start turning, and pass through linkage belt 251 So that linkage shaft 252 starts turning, at this moment track bull stick 253 is rotated, and works drive rod 254, so that drive rod 254 for transmission Toward moving left, moved inside fixed glides 256 by the sliding block 255 on drive rod 254, it is ensured that the movement rail of drive rod 254 Mark, at this moment pneumaticpiston bar 257 has driven guiding piece 258 toward moving left, pneumaticpiston bar 257 is in the first air pressure toward moving left 261 inside of room is toward moving left, so that the first elevating lever 262 is toward rising, the first fixed plate 263 of drive is moved up, at this moment the first auxiliary Directive wheel 264 also and then moves up, and by guiding piece 258 toward moving left so that rope 271 loosens, at this moment reset spring 273 resets, Second elevating lever 275 is up pushed up, at this moment the second fixed plate 276 drives the second auxiliary guide wheels 277 to move up, and adjusts the second auxiliary The height of directive wheel 277, while the rotation of serrated disks 245 is so that the rope folding and unfolding shaft 286 inside serrated disks 245 is revolved Turn, traction rope 281 is packed up, at this moment traction rope 281 pulls the second fixed plate 276 to rise, it is ensured that the second auxiliary guide wheels 277 will not fall easily, adjust the position of 227 upper end of transmission belt, just more convenient in this way in the transmission process in warehouse, can Arbitrarily to adjust the height of transmission belt 227, so that transmission is more convenient, after regulating height, opens motor 221 and make motor Axis 222 rotates, and worm screw 223 has been driven to rotate, and the driving gear 224 being meshed with worm screw 223 starts to rotate, and passes through drive belt 225 transmission is so that drive shaft 226 rotates, and drive shaft 226 rotates so that directive wheel 3 rotates, and at this moment transmission belt 227 starts pair Article is transmitted, and is separated article by fixed interlayer 228, is prevented article from colliding, while passing through 23 pairs of damper mechanism guiding The vibration that 3 rotation of wheel generates is weakened, and prevents article from vibrating in transmission process excessive, there is a situation where fall.

Rope described in the utility model is after being reinforced by the modes such as turning round or compile, to be linked to be the fiber of certain length, draw It is fine but without compressive strength to stretch intensity, can be used to the tool for connecting, drawing, B.C. 2800, Chinese grasped The technology of the rope made of hemp is created, and is started with hemp rope making.

The utility model solves the problems, such as to be slant rubber belt transmission distributing machine general adhesive tape during being transmitted The all fixations of transmission upper end are welded, and can not be adjusted, and the height in each warehouse is inconsistent, just extremely numb in warehouse transmission in this way It is tired, it is not adjustable the angle of transmission, needs to use other equipment padded, or reduce, can accurately just be transferred to the every of warehouse A position, and certain vibration can be generated in transmission process will lead to falling for article in transmission process if vibration is excessive It falls, so that article damages, the utility model is combined with each other by above-mentioned component, is equipped with power mechanism 22, damper mechanism 23, is driven Motivation structure 24, main drive gear 25, the first elevating mechanism 26, the second elevating mechanism 27, tensile machine 28, by opening driving machine Structure 24 is driven main drive gear 25, and at this moment the first elevating mechanism 26, which rises, drives transmission belt 227 to rise, main simultaneously Transmission mechanism 25 drives the second elevating mechanism 27 to rise, so that 227 end of transmission belt rises, adjusts 227 end of transmission belt Height, it is just more convenient in the transmission process in warehouses different to height in this way, while passing through 28 pairs of transmission skins of tensile machine 227 end of band is reinforced, and prevents 227 end of transmission belt from falling easily, and after height adjustment, the mechanism that turns on the power 22 to pass Defeated belt 227 starts to transmit, and is weakened by damper mechanism 23 to the vibration generated in 22 operational process of power mechanism, it is ensured that Article will not be fallen because of vibrating excessive during transmission belt 227 transmits.

Claims (8)

1. slant rubber belt transmission distributing machine, structure includes chamber door (1), transmission host (2), directive wheel (3), support leg (4), hinge Chain (5), it is characterised in that: the chamber door (1) is mutually welded with hinge (5), and the hinge (5) is welded in table before transmission host (2) Face left end, the chamber door (1) are fixedly mounted on transmission host (2) front surface left end, the transmission host (2) by hinge (5) Right end is equipped with directive wheel (3), and support leg (4) upper end is welded in transmission host (2) bottom；

The transmission host (2) includes host housing (21), power mechanism (22), damper mechanism (23), driving mechanism (24), master Transmission mechanism (25), the first elevating mechanism (26), the second elevating mechanism (27), tensile machine (28), the host housing (21) Bottom is welded with support leg (4), and the power mechanism (22) is fixedly mounted on the internal right end of host housing (21), the vibration damping machine Structure (23) upper end is mounted on power mechanism (22) upper right side, and it is internal that the driving mechanism (24) is fixedly mounted on host housing (21) Upper right side, driving mechanism (24) left end are flexibly connected with main drive gear (25) upper end, under the main drive gear (25) End by embedded mode be mounted on inside the first elevating mechanism (26) lower end, main drive gear (25) lower end and second liter Descending mechanism (27) bottom righthand side is connected, and the first elevating mechanism (26) upper end is connected with power mechanism (22), and described second Elevating mechanism (27) upper end is connected with power mechanism (22) left end, the second elevating mechanism (27) upper end and tensile machine (28) left end is connected, and is flexibly connected in the middle part of tensile machine (28) right end and driving mechanism (24).

2. slant rubber belt transmission distributing machine according to claim 1, it is characterised in that: the power mechanism (22) includes electricity Machine (221), motor shaft (222), worm screw (223), driving gear (224), drive belt (225), drive shaft (226), transmission skin Band (227), fixed interlayer (228), the motor (221) are fixedly mounted on the internal right end of host housing (21), the motor shaft (222) left end is mounted on motor (221) inside by embedded mode and is mechanically connected, motor shaft (222) right end and snail Bar (223) left end is mutually welded, and the worm screw (223) is meshed with driving gear (224), and the driving gear (224) passes through drive Dynamic belt (225) are flexibly connected with drive shaft (226), and the drive shaft (226) is fixedly mounted on directive wheel (3) and is located at The same center of circle, the transmission belt (227) are flexibly connected with directive wheel (3), the transmission belt (227) and the first elevating mechanism (26) upper end is flexibly connected, and the transmission belt (227) is flexibly connected with the second elevating mechanism (27) upper end, the drive shaft (226) it is connected and is gap-matched with damper mechanism (23).

3. slant rubber belt transmission distributing machine according to claim 1, it is characterised in that: the damper mechanism (23) includes branch Fagging (231), stressed plate (233), piston rod (234), shock-absorbing spring (235), reinforces pedestal (236) at support rod (232), institute It states support plate (231) to be connected and be gap-matched with drive shaft (226) by pin shaft, support plate (231) following table Face is welded with support rod (232), and support rod (232) lower end is mutually welded with stressed plate (233) upper surface, the piston rod (234) upper end is mounted on inside stressed plate (233) middle-end and is gap-matched, the piston rod by embedded mode (234) shock-absorbing spring (235) are equipped with outside lower end, shock-absorbing spring (235) upper end is affixed with stressed plate (233) lower surface It closes, shock-absorbing spring (235) lower end fits with pedestal (236) upper surface is reinforced, the fixed peace in piston rod (234) lower end Internal mounted in pedestal (236) are reinforced, reinforcing pedestal (236) lower surface is fixedly mounted on host housing (21) internal right end bottom Face.

4. slant rubber belt transmission distributing machine according to claim 1, it is characterised in that: the driving mechanism (24) includes horse Up to (241), motor drive shaft (242), axle bed (243), the first screw rod (244), serrated disks (245), the second screw rod (246), Connect shaft (247), the motor (241) is fixedly mounted on the internal upper right side of host housing (21), the motor drive shaft (242) with Motor (241) mechanical connection, the motor drive shaft (242) is internal through axle bed (243) and is gap-matched, the motor Axis (242) left end is mutually welded and is mechanically connected with the first screw rod (244) right end, the first screw rod (244) left end with Serrated disks (245) are meshed, and the serrated disks (245) are meshed with the second screw rod (246) right end, second spiral Bar (246) is internal through connection shaft (247) and is mechanically connected, the connection shaft (247) and main drive gear (25) It is flexibly connected.

5. slant rubber belt transmission distributing machine according to claim 1, it is characterised in that: the main drive gear (25) includes It links belt (251), linkage shaft (252), track bull stick (253), drive rod (254), sliding block (255), fixed glides (256), pneumaticpiston bar (257), guiding piece (258), the linkage shaft (252) by linkage belt (251) with connect turn Axis (247) is flexibly connected, and track bull stick (253) left end is internal through linkage shaft (252) and is mechanically connected, described Track bull stick (253) is gap-matched with drive rod (254) upper end, is welded with sliding block in the middle part of the drive rod (254) (255), the sliding block (255) is mounted on fixed glides (256) inside and is gap-matched, under the drive rod (254) End is welded in pneumaticpiston bar (257) right end, and pneumaticpiston bar (257) left end is equipped with guiding piece (258).

6. slant rubber belt transmission distributing machine according to claim 5, it is characterised in that: the first elevating mechanism (26) packet Include the first air-pressure chamber (261), the first elevating lever (262), the first fixed plate (263), the first auxiliary guide wheels (264), the gas Pressure piston rod (257) left end is mounted on inside the first air-pressure chamber (261) bottom righthand side by embedded mode, first elevating lever (262) lower end is mounted on inside the first air-pressure chamber (261) upper end by embedded mode, the first elevating lever (262) upper end weldering It is connected to the first fixed plate (263), first fixed plate (263) is connected simultaneously by pin shaft with the first auxiliary guide wheels (264) And be gap-matched, first auxiliary guide wheels (264) are flexibly connected with transmission belt (227).

7. slant rubber belt transmission distributing machine according to claim 1, it is characterised in that: the second elevating mechanism (27) packet Include rope (271), ball (272), reset spring (273), the second air-pressure chamber (274), the second elevating lever (275), second solid Fixed board (276), the second auxiliary guide wheels (277), rope (271) right end are fixedly connected with guiding piece (258), the rope (271) middle part is connected with ball (272), and rope (271) left end is connected with reset spring (273), the reset Spring (273) is mounted on the second air-pressure chamber (274) inside, reset spring (273) upper end and the second elevating lever (275) lower end It fitting, the second elevating lever (275) lower end is mounted on inside the second air-pressure chamber (274) by embedded mode, and described second Elevating lever (275) upper end is welded with the second fixed plate (276), and second fixed plate (276) is led by pin shaft and the second auxiliary It is connected and is gap-matched to wheel (277), second auxiliary guide wheels (277) and transmission belt (227) activity is even It connects.

8. slant rubber belt transmission distributing machine according to claim 1, it is characterised in that: the tensile machine (28) includes leading Messenger (281), the first traction wheel (282), the first fixing seat (283), the second traction wheel (284), the second fixing seat (285), rope Rope folding and unfolding shaft (286), traction rope (281) left end are fixedly connected with the second fixed plate (276), the traction rope (281) It is connected with the first traction wheel (282), first traction wheel (282) is fixedly mounted on the first fixing seat (283) lower end, described First fixing seat (283) upper end is fixedly mounted on host housing (21) inside upper surface, the traction rope (281) and the second traction Wheel (284) is connected, and second traction wheel (284) is fixedly mounted on the second fixing seat (285) left end, second fixing seat (285) right end is fixedly mounted on host housing (21) inner right side surface, and traction rope (281) left end is mounted on rope folding and unfolding In shaft (286), the rope folding and unfolding shaft (286) is fixedly mounted on serrated disks (245) inside and is located at the same center of circle.