CN115123771B - Unloading device with falling object collecting function for chemical transportation - Google Patents

Abstract

The invention belongs to the technical field of discharge devices, in particular to a discharge device with a falling object collecting function for chemical transportation, which comprises a discharge device assembly, wherein the collection device assembly is arranged near the bottom of the discharge device assembly, the collection device assembly comprises a driving mechanism, an anti-falling mechanism, a recovery mechanism, a damping mechanism, a power mechanism, a force storage mechanism, a triggering mechanism, a feedback mechanism and a release mechanism, the anti-falling mechanism is arranged at the inner side of the driving mechanism, the recovery mechanism is also arranged at the inner side of the driving mechanism, the damping mechanism is arranged at the lower side of the driving mechanism, the collection of chemical products packaged by falling snake skin bags can be realized through the collection device assembly, the chemical products packaged by the snake skin bags can be returned to the original discharge point, the workload increased due to falling of the chemical products packaged by the snake skin bags is reduced, and the collection device assembly can be used without additional power on a target place.

Description

Unloading device with falling object collecting function for chemical transportation

Technical Field

The invention belongs to the technical field of discharge devices, and particularly relates to a discharge device with a spilled object collecting function for chemical transportation.

Background

The chemical product transportation is generally packed through iron drum or snake skin bag, when unloading through discharge apparatus, especially when unloading through band conveyer to the chemical product of snake skin bag packing, the condition that takes place to drop easily when the manual work is placed the chemical product of packing on band conveyer and is unloaded, needs the people to run to get back, can delay normal discharge rate because of retrieving work to also can increase intensity of labour.

Disclosure of Invention

To solve the problems set forth in the background art. The invention provides a discharging device with a spilled matter collecting function for chemical product transportation, which has the characteristics of collecting chemical products packaged by falling snake skin bags and returning the chemical products packaged by the snake skin bags to an original discharging point.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a chemical transportation is with discharge apparatus that has spill collection function, includes the discharge apparatus assembly, the collection device assembly has been placed near the bottom of discharge apparatus assembly, the collection device assembly is including actuating mechanism, anticreep mechanism, recovery mechanism, damper, power unit, hold power unit, trigger mechanism, feedback mechanism and release mechanism;

the anti-drop mechanism is installed to actuating mechanism's inboard, actuating mechanism's inboard is still installed retrieve the mechanism, actuating mechanism's downside is installed damper is located left damper's inboard is installed power unit, power unit's one end is connected with hold power unit, hold power unit's one end and install trigger mechanism, hold power unit's front end is installed feedback mechanism, feedback mechanism's one end is connected with release mechanism.

As the unloading device with the function of collecting the spilled objects for the chemical transportation, the invention is preferable, the driving mechanism comprises a frame dragging bracket, a driving shaft and a chain, wherein the driving shaft is rotatably connected to the inner side of the frame dragging bracket, a chain wheel is fixedly connected to the outer side of one end of the driving shaft, and the chain is rotatably connected to the outer side of the chain wheel.

As the unloading device with the falling object collecting function for the chemical transportation, the unloading device with the falling object collecting function is preferable, the anti-disengaging mechanism comprises an adjusting shell, a first sliding limiting block, a first stretching spring, a telescopic bracket and a tensioning wheel, one end of the adjusting shell is fixedly connected with the inner side of one end of the towing frame bracket, the first sliding limiting block is slidingly connected with the inner side of one end of the adjusting shell, the first stretching spring is fixedly connected between the outer side of the bottom end of the first sliding limiting block and the inner side of the bottom end of the adjusting shell, one end of the first sliding limiting block is fixedly connected with the telescopic bracket, and the bottom end of the telescopic bracket is rotationally connected with the tensioning wheel.

The unloading device with the function of collecting the spilled objects for the chemical transportation is preferably arranged, the recycling mechanism comprises a recycling belt pulley and a conveying belt, the central position of the recycling belt pulley is sleeved and fixed on the outer side of one end of the driving shaft, and the outer side of the recycling belt pulley is rotatably connected with the conveying belt.

As the unloading device with the falling object collecting function for the chemical transportation, the unloading device with the falling object collecting function is preferable, the damping mechanism comprises a transmission rod, a second sliding limiting block, a limiting ring, a first compression spring and a damping shell, wherein the outer side of the top end of the transmission rod is fixedly connected to the lower sides of two ends of the towing frame support, the outer side of the bottom end of the transmission rod is fixedly connected with the second sliding limiting block, the top end of the second sliding limiting block is in contact connection with the limiting ring, the outer side of the bottom end of the second sliding limiting block is fixedly connected with the first compression spring, the outer side of the bottom end of the first compression spring is fixedly connected with the damping shell, the inner side of the top end of the damping shell is in sliding connection with the outer side of one end of the transmission rod, and the outer side of one end of the limiting ring is fixedly connected to the inner side of one end of the damping shell.

As the unloading device with the falling object collecting function for the chemical transportation, the unloading device with the falling object collecting function is preferable, the power mechanism comprises a rack, a driving gear, a one-way bearing, an output shaft, a one-way ratchet wheel and a runner bracket, wherein the rack is fixedly connected to the outer side of one end of the transmission rod, one end of the rack is connected with the driving gear in a meshed manner, the one-way bearing is fixedly connected to the central position of the inner side of one end of the driving gear, the inner side of the one-way bearing is fixedly connected with the output shaft, the outer end face of the output shaft is fixedly connected with the one-way ratchet wheel, the outer side of the one-way ratchet wheel is fixedly connected with the runner bracket, and one end of the runner bracket is fixedly connected to the inner side of one end of the buffer shell.

As the unloading device with the falling object collecting function for the chemical transportation, the unloading device with the falling object collecting function is preferable, the force accumulating mechanism comprises a ball bearing, a rotary inner shell, a coil spring, a hollow driving wheel, a first inner arc block, a second inner arc block, a driving belt and a driven belt pulley, wherein the ball bearing is fixedly connected to the other end of the output shaft, the hollow driving wheel is fixedly connected to the outer side of the ball bearing, one end of the output shaft is fixedly connected with the rotary inner shell, the coil spring is fixedly connected to the outer side of one end of the rotary inner shell, the outer side of the other end of the coil spring is fixedly connected with the inner side of the hollow driving wheel, the outer side of the left end of the hollow driving wheel is contacted with the first inner arc block, the outer side of the right end of the hollow driving wheel is contacted with the second inner arc block, the outer sides of the rear ends of the first inner arc block and the second inner arc block are fixedly connected to the inner side of the rear end of the buffer shell, the driving belt is rotatably connected to the outer side of the hollow inner side of the driving belt, the inner side of the other end of the driving belt is rotatably connected to the driven belt, and the inner side of the central driving belt is fixedly connected to the outer side of the driving shaft.

As the unloading device with the falling object collecting function for the chemical transportation, the unloading device with the falling object collecting function is preferable, the triggering mechanism comprises a triggering shell, a third sliding limiting block, a second extension spring, a first single inclined surface clamping strip, a second single inclined surface clamping strip, a fourth sliding limiting block, a mounting shell, a third extension spring, a poking rod and a connecting bracket, wherein the outer side of the left end of the triggering shell is fixedly connected with the outer side of the right end of a second inner arc block, one end of the triggering shell is fixedly connected with the third sliding limiting block in a sliding manner, the outer side of the left end of the third sliding limiting block is fixedly connected with the inner side of the left end of the triggering shell, the outer side of the left end of the third sliding limiting block is fixedly connected with the first single inclined surface clamping strip, the first single inclined surface clamping strip is in sliding connection with the inner side of one end of the triggering shell, the inclined surface of the first single inclined surface clamping strip is fixedly connected with the hollow driving wheel, the inner side of the second single inclined surface clamping strip is in sliding connection with the inner side of the triggering shell, the top end of the fourth sliding rod is fixedly connected with the outer side of the fourth sliding support, the top end of the fourth sliding rod is fixedly connected with the outer side of the top end of the triggering shell, and the top end of the fourth sliding rod is fixedly connected with the inner side of the top end of the fourth sliding rod.

As the unloading device with the falling object collecting function for the chemical transportation, the feedback mechanism comprises a large inclined gear ring, a small bevel gear, a driven shaft, a rotating shaft support, a fan and a connecting pipe, wherein the large inclined gear ring is fixedly connected to the outer side of the front end of a hollow driving wheel, the small bevel gear is connected to the right side of the large inclined gear ring in a meshed mode, the driven shaft is fixedly connected to the outer side of the right end of the small bevel gear, one end outer side of the driven shaft is fixedly connected to the outer side of the front end of a second inner arc block in a rotating mode through the rotating shaft support, the outer side of the right end of the driven shaft is fixedly connected with a starting shaft of the fan, the fan is fixedly installed on the outer side of the front end of the second inner arc block, and an air outlet of the fan is fixedly communicated with the connecting pipe.

The unloading device with the scattered objects collecting function for the chemical transportation is preferable, the unloading mechanism comprises an unloading shell, a piston, a limiting part, a second compression spring, a micropore exhaust valve, a pushing rod and a chute pushing plate, wherein the inner side of the right end of the unloading shell is fixedly connected with the other end of the connecting pipe, the piston is slidingly connected with the inner side of one end of the unloading shell, the limiting part for limiting the movement range of the piston is fixedly connected with the inner side of the unloading shell, the second compression spring is fixedly connected between the outer side of the left end of the piston and the inner side of the left end of the unloading shell, the pushing rod is fixedly connected with the outer side of the right end of the piston, and the chute pushing plate is fixedly connected with the right end of the pushing rod.

Compared with the prior art, the invention has the beneficial effects that: through the collection device assembly that sets up, can realize collecting the chemical product of the snakeskin bag packing that drops to can send back original unloading point with the chemical product of snakeskin bag packing, alleviate the work load that increases because of the chemical product that the snakeskin bag packed drops, and this collection device assembly need not extra circular telegram, places the target site and can use.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention. In the drawings:

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a schematic view of the overall structure of the collection device assembly of the present invention;

FIG. 3 is an enlarged schematic view of the structure of FIG. 2A according to the present invention;

FIG. 4 is a cross-sectional view showing the internal structure of the driving mechanism of the present invention;

FIG. 5 is an enlarged schematic view of the structure of FIG. 4B according to the present invention;

FIG. 6 is a cross-sectional view showing the internal structure of the shock absorbing mechanism of the present invention;

FIG. 7 is a schematic view of the mounting structure of the power mechanism of the present invention;

FIG. 8 is an enlarged schematic view of the structure of FIG. 7 at C in accordance with the present invention;

FIG. 9 is a schematic diagram of a connection structure of a transmission belt according to the present invention;

FIG. 10 is a schematic diagram of the mounting structure of the feedback mechanism of the present invention;

FIG. 11 is a schematic view of the mounting structure of the coil spring of the present invention;

FIG. 12 is a cross-sectional view of the internal structure of the trigger mechanism of the present invention;

FIG. 13 is a schematic diagram of the overall structure of the feedback mechanism of the present invention;

FIG. 14 is a cross-sectional view showing the internal structure of the release mechanism of the present invention;

fig. 15 is a schematic view showing the internal structure of the installation housing in the present invention.

In the figure:

1. a discharge device assembly;

2. a collection device assembly;

3. a driving mechanism; 31. a drag frame bracket; 32. a drive shaft; 33. a sprocket; 34. a chain;

4. an anti-drop mechanism; 41. an adjustment housing; 42. the first sliding limiting block; 43. a first extension spring; 44. a telescopic bracket; 45. a tensioning wheel;

5. a recovery mechanism; 51. recovering the belt pulley; 52. a conveyor belt;

6. a damping mechanism; 61. a transmission rod; 62. the second sliding limiting block; 63. a limiting ring; 64. a first compression spring; 65. a buffer housing;

7. a power mechanism; 71. a rack; 72. a drive gear; 721. a one-way bearing; 73. an output shaft; 731. a one-way ratchet; 74. a runner bracket;

8. a force storage mechanism; 81. a ball bearing; 82. rotating the inner housing; 83. a coil spring; 84. a hollow driving wheel; 85. a first inner arc block; 86. a second inner arc block; 87. a drive belt; 88. a driven pulley;

9. a trigger mechanism; 91. a trigger housing; 92. a third sliding limiting block; 93. a second tension spring; 94. a first single inclined surface clamping strip; 95. a second single inclined surface clamping strip; 96. a fourth sliding stopper; 97. mounting a shell; 98. a third extension spring; 99. a toggle rod; 991. a connecting bracket;

10. a feedback mechanism; 101. large oblique gear ring; 102. bevel pinion; 103. a driven shaft; 104. a rotating shaft bracket; 105. a blower; 106. a connecting pipe;

11. a release mechanism; 111. releasing the housing; 112. a piston; 113. a limit part; 114. a second compression spring; 115. a microporous exhaust valve; 116. a push rod; 117. the chute pushes the plate.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

As shown in fig. 1-15:

the utility model provides a discharge apparatus with spill collection function for chemical transportation, includes discharge apparatus assembly 1, and collection apparatus assembly 2 has been placed near the bottom of discharge apparatus assembly 1, and collection apparatus assembly 2 is including actuating mechanism 3, anticreep mechanism 4, recovery mechanism 5, damper 6, power unit 7, hold power unit 8, trigger mechanism 9, feedback mechanism 10 and release mechanism 11;

the anti-disengaging mechanism 4 is installed on the inner side of the driving mechanism 3, the recovery mechanism 5 is also installed on the inner side of the driving mechanism 3, the damping mechanism 6 is installed on the lower side of the driving mechanism 3, the power mechanism 7 is installed on the inner side of the damping mechanism 6 on the left side, one end of the power mechanism 7 is connected with the power storage mechanism 8, the triggering mechanism 9 is installed on one end of the power storage mechanism 8, the feedback mechanism 10 is installed on the front end of the power storage mechanism 8, and one end of the feedback mechanism 10 is connected with the releasing mechanism 11.

Further, the method comprises the steps of;

in an alternative embodiment, the driving mechanism 3 includes a frame dragging bracket 31, a driving shaft 32 and a chain 34, wherein the driving shaft 32 is rotatably connected to the inner side of the frame dragging bracket 31, a sprocket 33 is fixedly connected to the outer side of one end of the driving shaft 32, and the chain 34 is rotatably connected to the outer side of the sprocket 33.

In an alternative embodiment, the anti-disengaging mechanism 4 includes an adjusting housing 41, a first sliding limiting block 42, a first tension spring 43, a telescopic bracket 44 and a tensioning wheel 45, one end of the adjusting housing 41 is fixedly connected to the inner side of one end of the frame dragging bracket 31, the first sliding limiting block 42 is slidingly connected to the inner side of one end of the adjusting housing 41, the first tension spring 43 is fixedly connected between the outer side of the bottom end of the first sliding limiting block 42 and the inner side of the bottom end of the adjusting housing 41, one end of the first sliding limiting block 42 is fixedly connected with the telescopic bracket 44, and the bottom end of the telescopic bracket 44 is rotatably connected with the tensioning wheel 45.

In an alternative embodiment, the recovery mechanism 5 comprises a recovery pulley 51 and a conveying belt 52, wherein the central position of the recovery pulley 51 is sleeved and fixed on the outer side of one end of the driving shaft 32, and the conveying belt 52 is rotatably connected to the outer side of the recovery pulley 51.

In an alternative embodiment, the damping mechanism 6 includes a transmission rod 61, a second sliding limiting block 62, a limiting ring 63, a first compression spring 64 and a damping shell 65, where the outer side of the top end of the transmission rod 61 is fixedly connected to the lower sides of two ends of the frame support 31, the outer side of the bottom end of the transmission rod 61 is fixedly connected with the second sliding limiting block 62, the top end of the second sliding limiting block 62 is connected with the limiting ring 63 in a contact manner, the outer side of the bottom end of the second sliding limiting block 62 is fixedly connected with the first compression spring 64, the outer side of the bottom end of the first compression spring 64 is fixedly connected with the damping shell 65, the inner side of the top end of the damping shell 65 is slidably connected with the outer side of one end of the transmission rod 61, and the outer side of one end of the limiting ring 63 is fixedly connected to the inner side of one end of the damping shell 65.

In an alternative embodiment, the power mechanism 7 includes a rack 71, a driving gear 72, a one-way bearing 721, an output shaft 73, a one-way ratchet 731 and a runner bracket 74, where the rack 71 is fixedly connected to an outer side of one end of the driving rod 61, one end of the rack 71 is engaged with the driving gear 72, the one-way bearing 721 is fixedly connected to a central position inside one end of the driving gear 72, the output shaft 73 is fixedly connected to an inner side of the one-way bearing 721, an outer end surface of the output shaft 73 is fixedly connected to the one-way ratchet 731, an outer side of the one-way ratchet 731 is fixedly connected to the runner bracket 74, and one end of the runner bracket 74 is fixedly connected to an inner side of one end of the buffer housing 65.

In an alternative embodiment, the force accumulating mechanism 8 comprises a ball bearing 81, a rotary inner shell 82, a coil spring 83, a hollow driving wheel 84, a first inner arc block 85, a second inner arc block 86, a driving belt 87 and a driven pulley 88, wherein the other end of the output shaft 73 is fixedly connected with the ball bearing 81, the outer side of the ball bearing 81 is fixedly connected with the hollow driving wheel 84, one end of the output shaft 73 is fixedly connected with the rotary inner shell 82, one end outer side of the rotary inner shell 82 is fixedly connected with the coil spring 83, the other end outer side of the coil spring 83 is fixedly connected with the inner side of the hollow driving wheel 84, the left end outer side of the hollow driving wheel 84 is contacted with the first inner arc block 85, the right end outer side of the hollow driving wheel 84 is contacted with the second inner arc block 86, the rear end outer sides of the first inner arc block 85 and the second inner arc block 86 are fixedly connected with the rear inner side of the buffer shell 65, the outer side of the hollow driving wheel 84 is rotatably connected with the driving belt 87, the other end inner side of the driving belt 87 is rotatably connected with the driven pulley 88, and the inner side of the central position of the driven pulley 88 is fixedly connected with the outer side of the driving shaft 32 on the left side.

In an alternative embodiment, the triggering mechanism 9 comprises a triggering shell 91, a third sliding limiting block 92, a second stretching spring 93, a first single inclined surface clamping strip 94, a second single inclined surface clamping strip 95, a fourth sliding limiting block 96, a mounting shell 97, a third stretching spring 98, a toggle rod 99 and a connecting bracket 991, wherein the outer side of the left end of the triggering shell 91 is fixedly connected with the outer side of the right end of the second inner arc block 86, the inner side of one end of the triggering shell 91 is slidably connected with the third sliding limiting block 92, the outer side of the left end of the third sliding limiting block 92 is fixedly connected with the second stretching spring 93, the outer side of the left end of the second stretching spring 93 is fixedly connected with the inner side of the left end of the triggering shell 91, the outer side of the left end of the third sliding limiting block 92 is fixedly connected with the first single inclined surface clamping strip 94, the first single inclined plane card strip 94 sliding connection is inboard in the one end of second inner arc piece 86 and trigger shell 91, and the inclined plane department and the hollow drive wheel 84 block of first single inclined plane card strip 94 are connected, the top inboard at trigger shell 91 of second single inclined plane card strip 95 sliding connection, the top outside fixedly connected with fourth slip stopper 96 of second single inclined plane card strip 95, the outside sliding connection of fourth slip stopper 96 has installation shell 97, fixedly connected with third extension spring 98 between the bottom inboard of installation shell 97 and the bottom outside of fourth slip stopper 96, the one end inboard fixedly connected with poke rod 99 of fourth slip stopper 96, the top outside fixedly connected with linking bridge 991 of installation shell 97, the other end fixedly connected with in the right-hand member outside of second inner arc piece 86 of linking bridge 991.

In an alternative embodiment, the feedback mechanism 10 includes a large bevel gear 101, a small bevel gear 102, a driven shaft 103, a rotating shaft bracket 104, a fan 105 and a connecting pipe 106, the large bevel gear 101 is fixedly connected to the outer side of the front end of the hollow driving wheel 84, the small bevel gear 102 is connected to the right side of the large bevel gear 101 in a meshed manner, the driven shaft 103 is fixedly connected to the outer side of the right end of the small bevel gear 102, one end outer side of the driven shaft 103 is fixedly rotated on the outer side of the front end of the second inner arc block 86 through the rotating shaft bracket 104, the outer side of the right end of the driven shaft 103 is fixedly connected with the starting shaft of the fan 105, the fan 105 is fixedly installed on the outer side of the front end of the second inner arc block 86, and an air outlet of the fan 105 is fixedly communicated with the connecting pipe 106.

In an alternative embodiment, the release mechanism 11 includes a release housing 111, a piston 112, a limiting portion 113, a second compression spring 114, a microporous exhaust valve 115, a push rod 116 and a chute push plate 117, wherein the inner side of the right end of the release housing 111 is fixedly connected with the other end of the connecting pipe 106, the inner side of one end of the release housing 111 is slidably connected with the piston 112, the inner side of the release housing 111 is fixedly connected with the limiting portion 113 for limiting the movement range of the piston 112, the second compression spring 114 is fixedly connected between the outer side of the left end of the piston 112 and the inner side of the left end of the release housing 111, the push rod 116 is fixedly connected with the outer side of the right end of the piston 112, and the chute push plate 117 is fixedly connected with the right end of the push rod 116.

In this embodiment: two collecting device assemblies 2 are arranged on two sides of the discharging device assembly 1, the falling chemical products can be collected through the collecting device assemblies 2, the discharging device assembly 1 has a certain height difference with the ground when discharging, when discharging the chemical products packaged by the snake skin bags through the discharging device assembly 1 (can be a belt conveyor), the packaged chemical products are manually arranged on the discharging device assembly 1 to be discharged, once falling, the chemical products fall and smash on the conveying belt 52, the conveying belt 52 suddenly descends, the conveying belt 52 drives the recovery belt pulley 51 to drive the driving shaft 32 to move downwards, the driving shaft 32 drives the towing frame bracket 31 to move downwards, the towing frame bracket 31 drives the driving rod 61 to drive the second sliding limiting block 62 to move downwards, the second sliding limiting block 62 moves downwards to compress the first compression spring 64, so that the second sliding limiting block 62 moves against the elastic force of the first compression spring 64 when moving downwards, thereby realizing the damping effect through the first compression spring 64, and discharging the chemical product through the downward movement of the conveying belt 52 after the chemical product falls on the conveying belt 52, thereby preventing the chemical product from rebounding after falling on the conveying belt 52, preventing the chemical product from being separated from the conveying belt 52, when the transmission rod 61 moves downwards, the transmission rod 61 drives the rack 71 to move downwards together, the rack 71 drives the driving gear 72 to rotate, the driving gear 72 drives the output shaft 73 to rotate through the one-way bearing 721, it should be understood that the driving gear 72 can drive the output shaft 73 to rotate anticlockwise through the one-way bearing 721 when rotating anticlockwise, when the driving gear 72 rotates clockwise, the driving gear 72 drives the one-way bearing 721 to idle; the output shaft 73 can stably rotate at the position through the rotating wheel bracket 74, the output shaft 73 can only rotate anticlockwise and can not rotate clockwise through the unidirectional ratchet wheel 731, when the output shaft 73 wants to rotate clockwise, the output shaft 73 can be blocked and can not rotate, the output shaft 73 rotates to drive the rotating inner shell 82 to rotate, the rotating inner shell 82 rotates to drive one end of the coil spring 83 to move, so that the coil spring 83 stores force, the hollow driving wheel 84 can rotate relative to the output shaft 73 more stably at the outer side of the output shaft 73 through the ball bearing 81, the coil spring 83 stores force at the moment can apply reverse driving force to the rotating inner shell 82, the rotating inner shell 82 has a clockwise rotating trend, the rotating inner shell 82 can drive the output shaft 73 to rotate clockwise, however, the output shaft 73 cannot rotate clockwise due to the influence of the unidirectional ratchet 731, so that the coil spring 83 cannot indirectly drive the output shaft 73 to rotate clockwise, the second sliding limiting block 62 is driven by the transmission rod 61 to move downwards for the maximum stroke and then is upwards influenced by the first compression spring 64, at this time, the transmission rod 61 moves upwards to drive the rack 71 to move upwards, the rack 71 moves upwards to drive the driving gear 72 to rotate clockwise, the unidirectional bearing 721 is influenced by the unidirectional bearing 721, the driving gear 72 drives the unidirectional bearing 721 to idle when rotating clockwise, so that the unidirectional bearing 721 cannot drive the output shaft 73 to rotate clockwise, that is, when a chemical product falls on the conveying belt 52, the coil spring 83 is indirectly driven to store force through the downward movement of the transmission rod 61, the coil spring 83 is driven to store force once every time the chemical product falls, when the force accumulation of the coil spring 83 reaches a certain degree, the elastic force of the coil spring 83 drives the hollow driving wheel 84 to forcibly rotate, and as the hollow driving wheel 84 is clamped by the first single inclined surface clamping strip 94, although the inclined surface part of the first single inclined surface clamping strip 94 is clamped with the inner side of the hollow driving wheel 84, the inclined surface inclination angle of the first single inclined surface clamping strip 94 is not large, when the hollow driving wheel 84 has torsion, the hollow driving wheel 84 cannot easily push the first single inclined surface clamping strip 94 to retract, so when the coil spring 83 accumulates the force, the hollow driving wheel 84 cannot randomly rotate, only the accumulated force of the coil spring 83 reaches enough torsion, the hollow driving wheel 84 can overcome the clamping of the inclined surface of the first single inclined surface clamping strip 94, the hollow driving wheel 84 can push the first single inclined surface clamping strip 94 to forcibly move, the first single inclined surface clamping strip 94 is moved in a direction away from the hollow driving wheel 84 until the first single inclined surface clamping strip 94 is completely not contacted with the hollow driving wheel 84, the hollow driving wheel 84 can rotate at the moment, when the hollow driving wheel 84 rotates, the hollow driving wheel 84 can drive the driving belt 87 to rotate, the driving belt 87 can drive the driven pulley 88 to rotate, the driven pulley 88 can drive the driving shaft 32 to rotate, the driving shaft 32 can drive the chain 33 to drive the chain 34 to rotate, the chain 34 can synchronously rotate the plurality of chain wheels 33, the plurality of driving shafts 32 can synchronously rotate, the plurality of driving shafts 32 can drive the plurality of recovery pulleys 51 to synchronously rotate, the recovery pulleys 51 can drive the conveying belt 52 to rotate, the conveying belt 52 can convey the chemical products at the upper side to the target position, the chemical products can be moved to the vicinity of a carrier, in order to enable the chain 34 to be meshed with the chain wheels 33 better, the anti-disengaging mechanism 4 is arranged near each chain wheel 33, the tension generated by the first tension spring 43 drives the first sliding limiting block 42 to move downwards, the first sliding limiting block 42 drives the telescopic bracket 44 to move downwards, the telescopic bracket 44 drives the tensioning wheel 45 to move downwards, so that the tensioning wheel 45 applies downward force to the chain 34 near the chain wheel 33 downwards, and the chain 34 is meshed with the chain wheel 33 more stably; when the hollow driving wheel 84 is rotated by the elastic force of the coil spring 83, in order to prevent the hollow driving wheel 84 from being limited by the first single inclined clamping strip 94 after the hollow driving wheel 84 rotates, the normal rotation of the hollow driving wheel 84 is affected by the combined action of the trigger mechanism 9, the feedback mechanism 10 and the release mechanism 11, when the hollow driving wheel 84 rotates, the hollow driving wheel 84 drives the large inclined gear ring 101 to rotate, the large inclined gear ring 101 rotates to drive the bevel pinion 102 to rotate, the rotation of the bevel pinion 102 drives the driven shaft 103 to rotate, the driven shaft 103 can be enabled to rotate stably, the rotation of the driven shaft 103 drives the fan 105 to work, the fan 105 works to generate wind force, the wind force is conveyed to the inner side of the release shell 111 through the connecting pipe 106, the gas at the right side part of the piston 112 in the release shell 111 is increased, the gas pressure is increased, the piston 112 moves leftwards under the influence of the gas pressure, the elasticity of the second compression spring 114 is overcome, the fact that the air at the right side part of the piston 112 in the release shell 111 can be driven by the arranged micropore 115 is discharged, the air at the maximum speed of the exhaust valve 115 is prevented from moving the exhaust chute, the exhaust valve 116 is pushed by the air at the same speed as the maximum air pressure of the exhaust valve 116, the exhaust valve 116 is pushed by the exhaust valve 116, and the exhaust valve 116 is pushed to move at the maximum speed of the exhaust chute is pushed by the exhaust valve 116, the exhaust valve 116 is moved to move, the exhaust valve is moved at the maximum speed of the exhaust valve speed is moved, and the exhaust valve is moved at the air at the pressure speed is required, the chute pushing plate 117 moves leftwards and then is separated from the poking rod 99, the poking rod 99 can move without the limitation of the chute pushing plate 117, the fourth sliding limiting block 96 can move downwards under the influence of the elasticity of the third stretching spring 98 at the moment, the fourth sliding limiting block 96 moves downwards and can drive the second single-inclined-plane clamping strip 95 to move downwards, the second single-inclined-plane clamping strip 95 can extend into the inner space of the trigger shell 91, the second single-inclined-plane clamping strip 95 can be clamped with the third sliding limiting block 92, so that the first single-inclined-plane clamping strip 94 is pushed to move when the hollow driving wheel 84 rotates, the first single-inclined-plane clamping strip 94 drives the third sliding limiting block 92 to overcome the elasticity of the second stretching spring 93 to move, the third sliding limiting block 92 is prevented from being clamped with the second single-inclined-plane clamping strip 95, the third sliding limiting block 92 is prevented from moving leftwards, the first single-inclined-plane clamping strip 94 is prevented from being contacted with the hollow driving wheel 84, and the hollow driving wheel 84 can rotate stably after the hollow driving wheel 84 can rotate in a short time even though the hollow driving wheel 84 just rotates; when the elastic potential energy of the coil spring 83 is released almost, the coil spring 83 cannot continuously drive the hollow driving wheel 84 to rotate, according to the principle, the large inclined gear ring 101 cannot rotate, so that the fan 105 cannot work, air cannot be generated when the fan 105 does not work, no air is pushed, air in the right space of the piston 112 in the shell 111 is released and gradually discharged through the microporous exhaust valve 115 by the rightward movement of the piston 112, the power of the rightward movement of the piston 112 is provided by the second compression spring 114, the rightward movement of the piston 112 can drive the push rod 116 to move rightward, the push rod 116 can drive the chute push plate 117 to move rightward, the chute push plate 117 moves rightward and is matched with the stirring rod 99, the stirring rod 99 can move upward along the track of the inner groove of the chute push plate 117, so that the stirring rod 99 moves upward, the fourth sliding limiting block 96 is driven by the upward movement of the stirring rod 99, the second single inclined surface clamping strip 95 is separated from the third sliding limiting block 92, the third sliding limiting block 92 is influenced by the elasticity of the second stretching spring 93 to move leftward, the first single inclined surface clamping strip 94 is driven by the first sliding clamping strip 94 to be blocked with the hollow driving wheel 84 again, and the hollow driving wheel 84 can be understood to rotate immediately when the hollow driving wheel 84 is not rotated, and the hollow driving wheel 84 can be rotated once again.

Finally, it should be noted that: the foregoing description is only a preferred embodiment of the present invention, and the present invention is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present invention has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (4)

1. The utility model provides a discharge apparatus that has a spill thing collection function for chemical transportation, includes discharge apparatus assembly (1), its characterized in that: a collecting device assembly (2) is arranged near the bottom of the discharging device assembly (1), and the collecting device assembly (2) comprises a driving mechanism (3), an anti-falling mechanism (4), a recycling mechanism (5), a damping mechanism (6), a power mechanism (7), a force storage mechanism (8), a triggering mechanism (9), a feedback mechanism (10) and a release mechanism (11);

the anti-drop mechanism (4) is arranged on the inner side of the driving mechanism (3), the recovery mechanism (5) is further arranged on the inner side of the driving mechanism (3), the damping mechanism (6) is arranged on the lower side of the driving mechanism (3), the power mechanism (7) is arranged on the inner side of the damping mechanism (6) on the left side, one end of the power mechanism (7) is connected with the power accumulating mechanism (8), one end of the power accumulating mechanism (8) is provided with the triggering mechanism (9), the front end of the power accumulating mechanism (8) is provided with the feedback mechanism (10), and one end of the feedback mechanism (10) is connected with the release mechanism (11);

the driving mechanism (3) comprises a frame dragging bracket (31), a driving shaft (32) and a chain (34), wherein the driving shafts (32) are rotatably connected to the inner side of the frame dragging bracket (31), a chain wheel (33) is fixedly connected to the outer side of one end of each driving shaft (32), and the chain (34) is rotatably connected to the outer side of each chain wheel (33);

the anti-drop mechanism (4) comprises an adjusting shell (41), a first sliding limiting block (42), a first tension spring (43), a telescopic bracket (44) and a tensioning wheel (45), wherein one end of the adjusting shell (41) is fixedly connected with the inner side of one end of the frame dragging bracket (31), one end of the adjusting shell (41) is connected with the first sliding limiting block (42) in a sliding manner, the first tension spring (43) is fixedly connected between the outer side of the bottom end of the first sliding limiting block (42) and the inner side of the bottom end of the adjusting shell (41), one end of the first sliding limiting block (42) is fixedly connected with the telescopic bracket (44), and the bottom end of the telescopic bracket (44) is rotationally connected with the tensioning wheel (45);

the recovery mechanism (5) comprises a recovery belt pulley (51) and a conveying belt (52), the central position of the recovery belt pulley (51) is sleeved and fixed on the outer side of one end of the driving shaft (32), and the outer side of the recovery belt pulley (51) is rotatably connected with the conveying belt (52);

the damping mechanism (6) comprises a transmission rod (61), a second sliding limiting block (62), a limiting ring (63), a first compression spring (64) and a buffer shell (65), wherein the outer side of the top end of the transmission rod (61) is fixedly connected with the lower sides of two ends of the frame dragging bracket (31), the outer side of the bottom end of the transmission rod (61) is fixedly connected with the second sliding limiting block (62), the top end of the second sliding limiting block (62) is in contact connection with the limiting ring (63), the outer side of the bottom end of the second sliding limiting block (62) is fixedly connected with the first compression spring (64), the outer side of the bottom end of the first compression spring (64) is fixedly connected with the buffer shell (65), the inner side of the top end of the buffer shell (65) is in sliding connection with the inner side of one end of the buffer shell (65), and the outer side of one end of the limiting ring (63) is fixedly connected with the inner side of one end of the buffer shell (65);

the power mechanism (7) comprises a rack (71), a driving gear (72), a one-way bearing (721), an output shaft (73), a one-way ratchet wheel (731) and a rotating wheel bracket (74), wherein the rack (71) is fixedly connected to the outer side of one end of the transmission rod (61), one end of the rack (71) is connected with the driving gear (72) in a meshed manner, the one-way bearing (721) is fixedly connected to the central position of the inner side of one end of the driving gear (72), the output shaft (73) is fixedly connected to the inner side of the one-way bearing (721), the one-way ratchet wheel (731) is fixedly connected to the outer end face of the output shaft (73), the rotating wheel bracket (74) is fixedly connected to the outer side of the one-way ratchet wheel (731), and one end of the rotating wheel bracket (74) is fixedly connected to the inner side of one end of the buffer shell (65);

the force accumulation mechanism (8) comprises a ball bearing (81), a rotary inner shell (82), a coil spring (83), a hollow driving wheel (84), a first inner arc block (85), a second inner arc block (86), a driving belt (87) and a driven pulley (88), wherein the ball bearing (81) is fixedly connected with the other end of the output shaft (73), the hollow driving wheel (84) is fixedly connected with the outer side of the ball bearing (81), one end of the output shaft (73) is fixedly connected with the rotary inner shell (82), one end of the rotary inner shell (82) is fixedly connected with the coil spring (83), the other end of the coil spring (83) is fixedly connected with the inner side of the hollow driving wheel (84), the left end outer side of the hollow driving wheel (84) is in contact with the first inner arc block (85), the right end outer side of the hollow driving wheel (84) is in contact connection with the second inner arc block (86), the rear end outer sides of the first inner arc block (85) and the second inner arc block (86) are fixedly connected with the rear end of the buffer shell (65), the other end of the hollow driving wheel (84) is connected with the inner side of the driving belt (87), the inner side of the center position of the driven pulley (88) is fixedly connected to the outer side of one end of the driving shaft (32) on the left side.

2. The discharge device with a spill collection function for a chemical transportation according to claim 1, characterized in that: the triggering mechanism (9) comprises a triggering shell (91), a third sliding limiting block (92), a second stretching spring (93), a first single inclined surface clamping strip (94), a second single inclined surface clamping strip (95), a fourth sliding limiting block (96), a mounting shell (97), a third stretching spring (98), a poking rod (99) and a connecting bracket (991), wherein the outer side of the left end of the triggering shell (91) is fixedly connected with the outer side of the right end of a second inner arc block (86), the inner side of one end of the triggering shell (91) is slidably connected with the third sliding limiting block (92), the outer side of the left end of the third sliding limiting block (92) is fixedly connected with the second stretching spring (93), the outer side of the left end of the second stretching spring (93) is fixedly connected with the inner side of the left end of the triggering shell (91), the first single inclined surface clamping strip (94) is slidably connected with the inner side of the second inner arc block (86) and the inner side of the triggering shell (91), the first single inclined surface clamping strip (94) is slidably connected with the inner side of the hollow inclined surface (84), the utility model discloses a novel arc-shaped welding machine is characterized in that a fourth sliding limiting block (96) is fixedly connected with the outer side of the top of a second single inclined plane clamping strip (95), the outer side sliding connection of the fourth sliding limiting block (96) is provided with a mounting shell (97), the inner side of the bottom of the mounting shell (97) is fixedly connected with a third tension spring (98) between the outer sides of the bottom of the fourth sliding limiting block (96), one end inner side of the fourth sliding limiting block (96) is fixedly connected with a poking rod (99), the outer side of the top of the mounting shell (97) is fixedly connected with a connecting support (991), and the other end of the connecting support (991) is fixedly connected with the outer side of the right end of a second inner arc block (86).

3. The unloading device with a spill collection function for transporting chemical products according to claim 2, characterized in that: the feedback mechanism (10) comprises a large inclined gear ring (101), a small bevel gear (102), a driven shaft (103), a rotating shaft bracket (104), a fan (105) and a connecting pipe (106), wherein the large inclined gear ring (101) is fixedly connected to the outer side of the front end of the hollow driving wheel (84), the small bevel gear (102) is connected to the right side of the large inclined gear ring (101) in a meshed mode, the driven shaft (103) is fixedly connected to the outer side of the right end of the small bevel gear (102), one outer side of the driven shaft (103) is fixedly connected to the outer side of the front end of the second inner arc block (86) through the rotating shaft bracket (104) in a rotating mode, the outer side of the right end of the driven shaft (103) is fixedly connected with the starting shaft of the fan (105), and the fan (105) is fixedly arranged on the outer side of the front end of the second inner arc block (86) and fixedly communicated with the connecting pipe (106).

4. The unloading device with a spill collection function for transporting chemical products according to claim 3, wherein: the utility model provides a release mechanism (11) is including removing shell (111), piston (112), spacing portion (113), second compression spring (114), micropore discharge valve (115), catch bar (116) and chute push plate (117), the right-hand member inboard of removing shell (111) with the other end fixed connection of connecting pipe (106), the inboard sliding connection of one end of removing shell (111) has piston (112), the inboard fixedly connected with restriction of removing shell (111) limit portion (113) of piston (112) movable range, fixedly connected with between the left end outside of piston (112) with the left end inboard of removing shell (111) second compression spring (114), the right-hand member outside fixedly connected with of piston (112) catch bar (116), the right-hand member fixedly connected with of catch bar (116) chute push plate (117).