CN113371316B - BCF yarn transportation and storage equipment - Google Patents

Abstract

The invention relates to storage equipment, in particular to BCF yarn transportation and storage equipment which comprises a hanging mechanism, a protective box mechanism and a garbage discharging mechanism, wherein the equipment can fix a BCF yarn coil, can complete ventilation by using advancing vibration and spirally spray airflow to cool the yarn coil, can discharge impurities, can be used on a trailer and does not fear natural weather such as rainwater, the hanging mechanism is connected with the protective box mechanism, and the protective box mechanism is connected with the garbage discharging mechanism.

Description

BCF yarn transportation and storage equipment

Technical Field

The invention relates to storage equipment, in particular to BCF yarn transportation and storage equipment.

Background

In the transportation of BCF yarn, because the BCF yarn is heated or receives illumination to make its itself take place rotten ageing for too long time, thereby life has been reduced, to some use scenes that need keep the characteristic, need carry out fine saving, prevent to influence efficiency, traditional transportation is transported through the boxcar, the gas permeability is poor, the bearing capacity requirement to the vehicle is higher, must have the box, but the low permeability that the box brought can't satisfy this kind of operation requirement again, so designed this kind of BCF yarn transportation save set.

Disclosure of Invention

The invention mainly solves the technical problem of providing BCF yarn transportation and storage equipment, wherein the equipment can fix a BCF yarn coil, the equipment can complete ventilation by using the advancing vibration and spirally spray airflow to cool the yarn coil, the equipment can discharge impurities, and the equipment can be used on a trailer and has no fear of natural weather such as rainwater.

In order to solve the technical problems, the invention relates to storage equipment, in particular to BCF yarn transportation and storage equipment which comprises a hanging mechanism, a protective box mechanism and a garbage discharging mechanism, wherein the equipment can fix a BCF yarn coil, can complete ventilation by using advancing vibration and spirally spray airflow to cool the yarn coil, can discharge impurities, and can be used on a trailer without fear of natural weather such as rainwater.

The suspension mechanism is connected with the protection box mechanism, and the protection box mechanism is connected with the garbage discharge mechanism;

the suspension mechanism comprises a filter element box I, a communicating pipe, a pressure box, a pull pipe, a suspension seat, a sliding chute, a BCF yarn coil, a compression threaded sleeve, a threaded support rod, a through groove, a bending pipe, a filter element box II, a communicating port I, a double filter element, a single filter element, an air inlet check valve, a rod piston, an air outlet check valve, a spring, a sliding seat and a main air inlet, wherein the filter element box I is connected and communicated with the communicating pipe which is connected and communicated with the pressure box, the pressure box is connected and communicated with the pull pipe, the pull pipe is connected with the suspension seat, the suspension seat is provided with the sliding chute, the BCF yarn coil is sleeved on the threaded support rod, the compression threaded sleeve is in threaded connection with the threaded support rod, the through groove is arranged on the suspension seat, one end of the bending pipe is communicated with the pressure box, the other end of the bending pipe is communicated with the filter element box II, the filter element box II is provided with the communicating port I, the bending pipe is communicated with the communicating port I, the double filter elements are slidably connected in the filter element box II, the single filter element is slidably connected in the filter element box I, the air inlet check valve is arranged in the communicating pipe, the piston with the rod is slidably connected with the pull pipe, the piston with the rod is slidably connected with the suspension seat, the spring is sleeved on the piston with the rod, two ends of the spring are respectively connected on the suspension seat and the sliding seat, the sliding seat is slidably connected in the sliding groove, the sliding seat is connected with the threaded support rod, the main air inlet is arranged on the filter element box I, and the main air inlet is communicated with the communicating pipe;

the protection box mechanism comprises a base, a crawling ladder, a communication port II, an embedded groove, an access hole, a protection box body, a sliding pipeline, a servo motor, a motor belt pulley, a belt I, a belt pulley I, a movable door, an opening, a belt pulley II, a belt pulley III, a discharge channel, a discharge collection box, a bearing seat I, a discharge hole, a discharge port and a bidirectional screw rod, wherein the base is connected with the crawling ladder, the crawling ladder is connected with the protection box body, the protection box body is connected with the base, the communication port II and the embedded groove are arranged on the lower end face of the protection box body, the access hole is formed in the protection box body, the crawling ladder extends to the access hole, the sliding pipeline is in sliding connection with the protection box body, the servo motor is connected with the motor belt pulley, the motor belt pulley is in friction connection with the belt I, the belt I is in friction connection with the belt pulley I, and the movable door is in the protection box body, the movable door is provided with an opening, the belt pulley II and the belt pulley III are both in friction connection with the belt II, the belt pulley II and the belt pulley III are both connected with a bidirectional screw rod, the bidirectional screw rod is rotatably connected with the protective box body, the bidirectional screw rod is in threaded connection with the movable door, the two movable doors are in mutual contact and are mirror images of each other, the discharge channel is connected and communicated with the discharge collecting box, the discharge collecting box is connected with the base, the discharge channel is connected with the protective box body, the bearing seat I is arranged on the protective box body, a plurality of discharge holes are formed in the sliding pipeline, the discharge hole is formed in one side, far away from the crawling ladder, of the protective box body, the discharge hole is communicated with the discharge channel, the pressure box is connected to the base, the pull pipe penetrates through the communication hole II, the lower end face of the suspension seat is connected to the inner wall bottom plate of the protective box body, and the belt pulley I is connected with the bidirectional screw rod on one side;

the garbage discharging mechanism comprises a conveying motor, a coupling, a gear I, a connecting shaft, a bevel gear I, a belt pulley with a shaft, a bearing seat II, a belt III, a walking platform, a passive air injection sleeve, a belt IV, a friction wheel, a belt pulley IV, a passive air injection sleeve I, a rotary support, a main body discharge port, a spiral shaft, an inlet channel, a conveying channel and an exhaust channel, wherein the conveying motor is connected with the coupling, the coupling is connected with the spiral shaft, the spiral shaft is rotatably connected with the walking platform, the gear is connected with the spiral shaft, the gear is meshed with the gear I, the gear I is connected with the connecting shaft, the connecting shaft is connected with the bevel gear, the bevel gear is meshed with the bevel gear I, the belt pulley with the shaft is connected with the belt pulley with the bearing seat II, the bearing seats II are symmetrically arranged at two sides of the walking platform, and the belt pulley with the belt III are in friction connection, belt III and belt pulley IV frictional connection, belt pulley IV links to each other with the friction pulley, friction pulley and belt IV frictional connection, belt IV and passive gas injection cover I frictional connection, the friction pulley supports with rotating to rotate to be connected, it connects on the walking platform to rotate to support, passive gas injection cover and passive gas injection cover I all rotate to be connected on the walking platform, passive gas injection cover and belt IV frictional connection, the main part discharge port sets up on the walking platform, the main part discharge port is linked together with the discharge port, the walking platform links to each other with the protection case body, the connecting axle rotates with the protection case body to be connected, access passage, conveying channel and exhaust passage all set up on the walking platform, access passage is linked together with intercommunication mouth I, passive gas injection cover and passive gas injection cover I all are linked together with exhaust passage.

As a further optimization of the technical scheme, when the bidirectional lead screw rotates, the two movable doors approach or separate from each other, and the approach or separation depends on the rotation direction of the bidirectional lead screw.

As a further optimization of the technical scheme, a gate is arranged at the access hole of the BCF yarn transportation and storage equipment.

As a further optimization of the technical scheme, when the spiral shaft rotates, impurities in the conveying channel are pushed towards the direction of the discharge port of the main body.

The BCF yarn transportation and storage equipment has the beneficial effects that:

according to the BCF yarn transportation and storage equipment, the BCF yarn coil can be fixed by the equipment, the equipment can complete ventilation by using the advancing vibration and spirally spray airflow to cool the yarn coil, the equipment can discharge impurities, and the equipment can be used on a trailer and is free from natural weather such as rainwater.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic structural diagram of BCF yarn transportation and storage equipment according to the present invention.

Fig. 2 is a schematic structural diagram of a BCF yarn transportation and storage device of the present invention.

Fig. 3 is a schematic structural diagram three of BCF yarn transportation and storage equipment of the present invention.

Fig. 4 is a schematic structural diagram of a BCF yarn transportation and storage device of the present invention.

Fig. 5 is a first structural schematic diagram of a suspension mechanism 1 of the BCF yarn transportation and storage device of the present invention.

Fig. 6 is a schematic structural diagram of a suspension mechanism 1 of the BCF yarn transportation and storage device of the present invention.

Fig. 7 is a schematic structural diagram three of a suspension mechanism 1 of the BCF yarn transportation and storage device of the present invention.

Fig. 8 is a first structural schematic diagram of a protection box mechanism 2 of the BCF yarn transportation and storage device of the present invention.

Fig. 9 is a second structural schematic diagram of the protection box mechanism 2 of the BCF yarn transportation and storage device of the present invention.

Fig. 10 is a schematic structural diagram three of a protection box mechanism 2 of the BCF yarn transportation and storage device of the present invention.

Fig. 11 is a fourth structural schematic diagram of a protection box mechanism 2 of the BCF yarn transportation and storage device of the present invention.

Fig. 12 is a first structural schematic diagram of a garbage discharging mechanism 3 of the BCF yarn transportation and storage device.

Fig. 13 is a partially enlarged structural view of part a of fig. 12 of a BCF yarn transportation and storage apparatus of the present invention.

Fig. 14 is a partially enlarged structural view of part B of fig. 12 of a BCF yarn transportation and storage apparatus of the present invention.

Fig. 15 is a schematic structural diagram of a garbage discharging mechanism 3 of the BCF yarn transportation and storage device of the present invention.

Fig. 16 is a schematic structural diagram three of a garbage discharging mechanism 3 of the BCF yarn transportation and storage device of the present invention.

Fig. 17 is a fourth structural schematic diagram of the garbage discharging mechanism 3 of the BCF yarn transportation and storage device.

In the figure: a suspension mechanism 1; the filter element box I1-1; a communicating pipe 1-2; 1-3 of a pressure tank; 1-4 of a pull tube; 1-5 of a suspension seat; 1-6 of a chute; 1-7 of BCF yarn coil; compressing the threaded sleeve by 1-8; 1-9 of threaded support rod; 1-10 of through grooves; bending the pipe 1-11; the filter element box II 1-12; a communication port I1-13; 1-14 of double filter elements; 1-15 parts of a single filter element; air inlet check valves 1-16; pistons with rods 1-17; 1-18 parts of an air outlet one-way valve; springs 1-19; 1-20 of a sliding seat; primary air inlets 1-21; a protection box mechanism 2; a base 2-1; 2-2 of ladder stand; a communication port II 2-3; 2-4 of an embedded groove; 2-5 of an access hole; 2-6 parts of a protection box body; 2-7 of a sliding pipeline; 2-8 of a servo motor; 2-9 parts of a motor belt pulley; a belt I2-10; pulley I2-11; 2-12 parts of a movable door; openings 2-13; pulley II 2-14; belt II 2-15; pulley III 2-16; discharge passages 2 to 17; a discharge collection tank 2-18; bearing seats I2-19; discharge holes 2-20; 2-21 of a discharge port; 2-22 of a bidirectional screw; a garbage discharge mechanism 3; a conveying motor 3-1; 3-2 of a coupler; 3-3 parts of gear; gear I3-4; connecting shafts 3-5; bevel gears 3-6; bevel gear I3-7; belt pulley 3-8 with shaft; bearing seat II 3-9; belt III 3-10; 3-11 parts of a walking table; 3-12 parts of a passive air injection sleeve; belt IV 3-13; 3-14 parts of friction wheel; pulley IV 3-15; a passive air injection sleeve I3-16; 3-17 of a rotary support; a body discharge port 3-18; 3-19 parts of a spiral shaft; 3-20 of an inlet channel; conveying channels 3-21; and exhaust passages 3-22.

Detailed Description

The first embodiment is as follows:

the embodiment is described below with reference to fig. 1 to 17, and the invention relates to a storage device, in particular to a BCF yarn transportation storage device, which comprises a suspension mechanism 1, a protection box mechanism 2 and a garbage discharge mechanism 3, wherein the device can fix a BCF yarn coil, the device can use the advancing vibration to complete ventilation and spirally spray airflow to cool the yarn coil, the device can discharge impurities, and the device can be used on a trailer and has no fear of natural weather such as rainwater.

The suspension mechanism 1 is connected with the protective box mechanism 2, and the protective box mechanism 2 is connected with the garbage discharge mechanism 3;

the suspension mechanism 1 comprises a filter element box I1-1, a communicating pipe 1-2, a pressure box 1-3, a drawing pipe 1-4, a suspension seat 1-5, a chute 1-6, a BCF yarn coil 1-7, a compression threaded sleeve 1-8, a threaded support rod 1-9, a through groove 1-10, a bending pipe 1-11, a filter element box II1-12, a communicating port I1-13, a double filter element 1-14, a single filter element 1-15, an air inlet one-way valve 1-16, a rod piston 1-17, an air outlet one-way valve 1-18, a spring 1-19, a sliding seat 1-20 and a main air inlet 1-21, wherein the filter element box I1-1 is connected and communicated with the communicating pipe 1-2, the communicating pipe 1-2 is connected and communicated with the pressure box 1-3, the pressure box 1-3 is connected and communicated with the drawing pipe 1-4, the drawing pipe 1-4 is connected with the suspension seat 1-5, the suspension seat 1-5 is provided with a sliding groove 1-6, a BCF yarn coil 1-7 is sleeved on a threaded support rod 1-9, a pressing threaded sleeve 1-8 is in threaded connection with the threaded support rod 1-9, a through groove 1-10 is arranged on the suspension seat 1-5, one end of a bending pipe 1-11 is communicated with a pressure tank 1-3, the other end of the bending pipe 1-11 is communicated with a filter element box II1-12, a communication port I1-13 is arranged on the filter element box II1-12, the bending pipe 1-11 is communicated with a communication port I1-13, a double filter element 1-14 is in the filter element box II1-12 in a sliding manner, a single filter element 1-15 is in the filter element box I1-1 in a sliding manner, an air inlet one-way valve 1-16 is arranged in a communication pipe 1-2, a piston 1-17 with a rod is connected with a drawing tube 1-4 in a sliding way, the piston 1-17 with the rod is connected with a suspension seat 1-5 in a sliding way, a spring 1-19 is sleeved on the piston 1-17 with the rod, two ends of the spring 1-19 are respectively connected with the suspension seat 1-5 and a sliding seat 1-20, the sliding seat 1-20 is connected in a sliding way 1-6, a threaded support rod 1-9 is connected with the sliding seat 1-20, a main air inlet 1-21 is arranged on a filter element box I1-1, the main air inlet 1-21 is communicated with a communicating tube 1-2, vibration can be transmitted to a BCF yarn coil 1-7, the gravity of the BCF yarn coil 1-7 can drive the BCF yarn coil 1-7 to move downwards under the cooperation of vibration, and the BCF yarn coil 1-7 can pass through the threaded support rod 1-9, The sliding seat 1-20 drives the piston 1-17 with the rod to move downwards, the spring 1-19 is compressed in the process, then the piston 1-17 with the rod can reset under the rebound action of the spring 1-19, the piston 1-17 with the rod can cause the pressure difference change in the drawing pipe 1-4 in the reciprocating process, so that the outside air enters the pressure tank 1-3 from the air inlet one-way valve 1-16 after being filtered by the single filter element 1-15, then the outside air is pressurized and then rushes the air outlet one-way valve 1-18 to enter the bent pipe 1-11, then enters the inlet channel 3-20 after being secondarily filtered by the double filter elements 1-14, and then enters the exhaust channel 3-22 through the conveying channel 3-21;

the protection box mechanism 2 comprises a base 2-1, a ladder 2-2, a communication port II2-3, an embedded groove 2-4, an inspection port 2-5, a protection box body 2-6, a sliding pipeline 2-7, a servo motor 2-8, a motor belt pulley 2-9, a belt I2-10, a belt pulley I2-11, a movable door 2-12, an opening 2-13, a belt pulley II2-14, a belt II2-15, a belt pulley III2-16, a discharge channel 2-17, a discharge collection box 2-18, a bearing seat I2-19, a discharge hole 2-20, a discharge port 2-21 and a bidirectional screw rod 2-22, wherein the base 2-1 is connected with the ladder 2-2, the ladder 2-2 is connected with the protection box body 2-6, the protection box body 2-6 is connected with the base 2-1, the lower end face of the protection box body 2-6 is provided with a communication port II2-3 and an embedded groove 2-4, the access port 2-5 is arranged on the protection box body 2-6, the ladder 2-2 extends to the access port 2-5, the sliding pipeline 2-7 is in sliding connection with the protection box body 2-6, the servo motor 2-8 is connected with the motor belt pulley 2-9, the motor belt pulley 2-9 is in friction connection with the belt I2-10, the belt I2-10 is in friction connection with the belt pulley I2-11, the movable door 2-12 is in sliding connection with the protection box body 2-6, the movable door 2-12 is provided with an opening 2-13, the belt pulley II2-14 and the belt pulley III2-16 are in friction connection with the belt II2-15, the belt pulleys II2-14 and the belt pulleys III2-16 are connected with a bidirectional screw rod 2-22, the bidirectional screw rod 2-22 is rotatably connected with a protection box body 2-6, the bidirectional screw rod 2-22 is in threaded connection with a movable door 2-12, the two movable doors 2-12 are in mutual contact and mirror images, a discharge channel 2-17 is connected and communicated with a discharge collection box 2-18, the discharge collection box 2-18 is connected with a base 2-1, the discharge channel 2-17 is connected with the protection box body 2-6, a bearing seat I2-19 is arranged on the protection box body 2-6, a plurality of discharge holes 2-20 are arranged on a sliding pipeline 2-7, the discharge holes 2-21 are arranged on one side of the protection box body 2-6 far away from the ladder stand 2-2, and the discharge holes 2-21 are communicated with the discharge channel 2-17, the pressure box 1-3 is connected on the base 2-1, the drawing pipe 1-4 passes through the communicating port II2-3, the lower end face of the suspension seat 1-5 is connected on the inner wall bottom plate of the protection box body 2-6, the belt pulley I2-11 is connected with the bidirectional screw rod 2-22 at one side, when needing to fix the BCF yarn coil, the servo motor 2-8 can be operated to drive the motor belt pulley 2-9 to rotate, the motor belt pulley 2-9 can drive the belt pulley I2-11 to rotate through the belt I2-10, the belt pulley I2-11 can drive the bidirectional screw rod 2-22 at one side to rotate, the bidirectional screw rod 2-22 can drive the bidirectional screw rod 2-22 at the other side to synchronously rotate through the transmission of the belt pulley II2-14, the belt II2-15 and the belt pulley III2-16, the rotation of the two bidirectional screw rods 2-22 can separate the two movable doors 2-12 from each other, then the BCF yarn coil is hoisted into the protective box body 2-6, then a person opens the gate of the access hole 2-5 to enter the auxiliary hoisting, so that the yarn coil is sleeved on the threaded support rod 1-9, then the threaded sleeve 1-8 is tightly pressed, the fixation of the yarn coil is completed, the equipment can be fixed on a trailer, when raining, rainwater can flow into the sliding pipeline 2-7 from the opening 2-13 to be discharged, and the discharge holes 2-20 can exchange heat and exhaust, so that the effect of long-time storage is achieved;

the garbage discharging mechanism 3 comprises a conveying motor 3-1, a coupling 3-2, a gear 3-3, a gear I3-4, a connecting shaft 3-5, a bevel gear 3-6, a bevel gear I3-7, a belt pulley with a shaft 3-8, a bearing seat II3-9, a belt III3-10, a walking platform 3-11, a driven air injection sleeve 3-12, a belt IV3-13, a friction wheel 3-14, a belt pulley IV3-15, a driven air injection sleeve I3-16, a rotary support 3-17, a main body discharge port 3-18, a spiral shaft 3-19, an inlet channel 3-20, a conveying channel 3-21 and an exhaust channel 3-22, wherein the conveying motor 3-1 is connected with the coupling 3-2, the coupling 3-2 is connected with the spiral shaft 3-19, the spiral shaft 3-19 is rotationally connected with the walking platform 3-11, the gear 3-3 is connected with the spiral shaft 3-19, the gear 3-3 is meshed with the gear I3-4, the gear I3-4 is connected with the connecting shaft 3-5, the connecting shaft 3-5 is connected with the bevel gear 3-6, the bevel gear 3-6 is meshed with the bevel gear I3-7, the bevel gear I3-7 is connected with the belt shaft pulley 3-8, the belt shaft pulley 3-8 is rotationally connected with the bearing seat II3-9, the bearing seat II3-9 is symmetrically arranged at two sides of the walking platform 3-11, the belt shaft pulley 3-8 is frictionally connected with the belt III3-10, the belt III3-10 is frictionally connected with the belt pulley IV3-15, the belt pulley IV3-15 is connected with the friction wheel 3-14, the friction wheel 3-14 is frictionally connected with the belt IV3-13, a belt IV3-13 is in frictional connection with a passive air injection sleeve I3-16, a friction wheel 3-14 is in rotational connection with a rotational support 3-17, the rotational support 3-17 is connected on a walking platform 3-11, the passive air injection sleeve 3-12 and the passive air injection sleeve I3-16 are both in rotational connection on the walking platform 3-11, the passive air injection sleeve 3-12 is in frictional connection with the belt IV3-13, a main body discharge port 3-18 is arranged on the walking platform 3-11, the main body discharge port 3-18 is communicated with a discharge port 2-21, the walking platform 3-11 is connected with a protective box body 2-6, a connecting shaft 3-5 is in rotational connection with the protective box body 2-6, an inlet channel 3-20, a conveying channel 3-21 and an exhaust channel 3-22 are all arranged on the walking platform 3-11, the inlet channel 3-20 is communicated with a communication port I1-13, the passive air injection sleeve 3-12 and the passive air injection sleeve I3-16 are communicated with an exhaust channel 3-22, the conveying motor 3-1 can drive the coupling 3-2 to rotate, the coupling 3-2 can drive the screw shaft 3-19 to rotate, the screw shaft 3-19 can directly push some impurities which are not filtered off to the main body discharge port 3-18 and then discharge the impurities into the discharge collection box 2-18 in the rotating process, the screw shaft 3-19 can drive the gear I3-4 to rotate, the gear I3-4 can drive the connecting shaft 3-5 to rotate, the connecting shaft 3-5 can drive the connecting shaft 3-5 to rotate through the bevel gear 3-6, the bevel gear I3-7 and the belt pulley with the shaft 3-8, The belt III3-10 drives the belt pulley IV3-15 to rotate, the belt pulley IV3-15 drives the friction wheel 3-14 to rotate, the friction wheel 3-14 drives the driven air injection sleeve 3-12 and the driven air injection sleeve I3-16 to synchronously rotate through the belt IV3-13, and therefore air flow is discharged in a rotating mode and sprayed to the clamped yarn coil.

The second embodiment is as follows:

the present embodiment is described below with reference to fig. 1 to 17, and the present embodiment further describes the first embodiment, when the bidirectional screw 2 to 22 rotates, the two movable doors 2 to 12 approach or separate from each other, depending on the rotation direction of the bidirectional screw 2 to 22.

The third concrete implementation mode:

the embodiment will be described with reference to fig. 1 to 17, and the embodiment will be further described, wherein a gate is provided at the access opening 2 to 5.

The fourth concrete implementation mode:

the following describes the present embodiment with reference to fig. 1-17, and the present embodiment further describes the first embodiment, in which the screw shafts 3-19 will push the impurities in the conveying channels 3-21 toward the main body discharge ports 3-18 when rotating.

The working principle of the device is as follows: the BCF yarn roll can be fixed by the device, when the BCF yarn roll needs to be fixed, the servo motor 2-8 can be operated to drive the motor belt pulley 2-9 to rotate, the motor belt pulley 2-9 can drive the belt pulley I2-11 to rotate through the belt I2-10, the belt pulley I2-11 can drive the bidirectional lead screw 2-22 on one side to rotate, the bidirectional lead screw 2-22 can drive the bidirectional lead screw 2-22 on the other side to synchronously rotate through the transmission of the belt pulley II2-14, the belt II2-15 and the belt pulley III2-16, so that the two bidirectional lead screws 2-22 rotate to separate the two movable doors 2-12 from each other, then the BCF yarn roll is hoisted into the protection box body 2-6, then a person opens the gate of the overhaul port 2-5 to enter the auxiliary hoisting, and the yarn roll is sleeved on the threaded support rod 1-9, then tightening the pressing thread sleeves 1-8 to complete the fixation of the yarn coil; the device can complete ventilation and air exchange by utilizing the advancing vibration and spirally spray airflow to cool a yarn coil, impurities can be discharged, the vibration can be transmitted to the BCF yarn coil 1-7 in the advancing process of the device along with a vehicle, the gravity of the BCF yarn coil 1-7 can drive the BCF yarn coil 1-7 to move downwards under the coordination of the vibration, the BCF yarn coil 1-7 can drive the rod-carrying piston 1-17 to move downwards through the threaded support rod 1-9 and the sliding seat 1-20, the spring 1-19 is compressed in the process, the rod-carrying piston 1-17 can reset under the rebound action of the spring 1-19, the rod-carrying piston 1-17 can cause the pressure difference change in the drawing pipe 1-4 in the reciprocating motion process, and therefore outside air is filtered by the single filter element 1-15, enters the pressure tank 1-3 from the air inlet one-way valve 1-16 and then is added into the pressure tank 1-3 After being pressed, the air outlet one-way valve 1-18 is flushed to enter a bent pipe 1-11, then the air outlet one-way valve enters an entering channel 3-20 after being subjected to secondary filtration of a double filter element 1-14, then the air outlet one-way valve enters an exhaust channel 3-22 through a conveying channel 3-21, the conveying motor 3-1 can drive the coupler 3-2 to rotate when running, the coupler 3-2 can drive the spiral shaft 3-19 to rotate, the spiral shaft 3-19 can directly push some impurities which are not filtered off to a main body discharge port 3-18 and then discharge the impurities into the discharge collection box 2-18 when rotating, the gear I3-4 can be driven to rotate when the spiral shaft 3-19 rotates, the gear I3-4 can drive the connecting shaft 3-5 to rotate, and the connecting shaft 3-5 can drive the connecting shaft 3-6 through the bevel gears 3-6, The bevel gear I3-7, the belt shaft pulley 3-8 and the belt III3-10 drive the belt pulley IV3-15 to rotate, the belt pulley IV3-15 drives the friction wheel 3-14 to rotate, the friction wheel 3-14 drives the driven air injection sleeve 3-12 and the driven air injection sleeve I3-16 to synchronously rotate through the belt IV3-13, so that air flow is discharged in a rotating manner and is injected to the clamped yarn coil; equipment can use and do not have natural weather such as fear rainwater on the trailer, and equipment can be fixed on the trailer, and when raining, the rainwater can flow in from opening 2-13 and discharge in sliding pipeline 2-7, and discharge hole 2-20 can carry out the heat transfer and exhaust to reach the effect of long-time preservation.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (6)

1. The utility model provides a BCF yarn transportation save set, includes suspension mechanism (1), guard box mechanism (2), rubbish discharge mechanism (3), its characterized in that: the hanging mechanism (1) is connected with the protective box mechanism (2), and the protective box mechanism (2) is connected with the garbage discharging mechanism (3);

the suspension mechanism (1) comprises a filter element box I (1-1), a communicating pipe (1-2), a pressure box (1-3), a drawing pipe (1-4), a suspension seat (1-5), a sliding chute (1-6), a BCF yarn coil (1-7), a pressing thread sleeve (1-8), a threaded support rod (1-9), a through groove (1-10), a bending pipe (1-11), a filter element box II (1-12), a communicating port I (1-13), a double filter element (1-14), a single filter element (1-15), an air inlet one-way valve (1-16), a rod piston (1-17), an air outlet one-way valve (1-18), a spring (1-19), a sliding seat (1-20) and a main air inlet (1-21), wherein the filter element box I (1-1) is connected and communicated with the communicating pipe (1-2), the communicating pipe (1-2) is connected and communicated with the pressure tank (1-3), the pressure tank (1-3) is connected and communicated with the pull pipe (1-4), the pull pipe (1-4) is connected with the suspension seat (1-5), the suspension seat (1-5) is provided with a chute (1-6), a BCF yarn coil (1-7) is sleeved on the threaded support rod (1-9), a pressing threaded sleeve (1-8) is in threaded connection with the threaded support rod (1-9), the through groove (1-10) is arranged on the suspension seat (1-5), one end of the bending pipe (1-11) is communicated with the pressure tank (1-3), the other end of the bending pipe (1-11) is communicated with the filter element tank II (1-12), the filter element tank II (1-12) is provided with a communicating port I (1-13), the bending pipe (1-11) is communicated with the communicating port I (1-13), the double filter elements (1-14) are connected in the filter element box II (1-12) in a sliding way, the single filter element (1-15) is connected in the filter element box I (1-1) in a sliding way, the air inlet one-way valve (1-16) is arranged in the communicating pipe (1-2), the piston (1-17) with a rod is connected with the pull pipe (1-4) in a sliding way, the piston (1-17) with a rod is connected with the suspension seat (1-5) in a sliding way, the spring (1-19) is sleeved on the piston (1-17) with a rod, two ends of the spring (1-19) are respectively connected on the suspension seat (1-5) and the sliding seat (1-20), the sliding seat (1-20) is connected in the sliding groove (1-6), the sliding seat (1-20) is connected with the supporting rod (1-9) with a thread, the main air inlets (1-21) are arranged on the filter element box I (1-1), and the main air inlets (1-21) are communicated with the communicating pipes (1-2).

2. A BCF yarn transportation and storage unit according to claim 1, wherein: the protection box mechanism (2) comprises a base (2-1), a ladder (2-2), a communication port II (2-3), an embedded groove (2-4), an access port (2-5), a protection box body (2-6), a sliding pipeline (2-7), a servo motor (2-8), a motor belt pulley (2-9), a belt I (2-10), a belt pulley I (2-11), a movable door (2-12), an opening (2-13), a belt pulley II (2-14), a belt II (2-15), a belt pulley III (2-16), a discharge channel (2-17), a discharge collection box (2-18), a bearing seat I (2-19), a discharge hole (2-20), a discharge port (2-21) and a bidirectional screw (2-22), the base (2-1) is connected with the crawling ladder (2-2), the crawling ladder (2-2) is connected with the protection box body (2-6), the protection box body (2-6) is connected with the base (2-1), a communication port II (2-3) and an embedded groove (2-4) are arranged on the lower end face of the protection box body (2-6), an access port (2-5) is arranged on the protection box body (2-6), the crawling ladder (2-2) extends to the access port (2-5), a sliding pipeline (2-7) is in sliding connection with the protection box body (2-6), a servo motor (2-8) is connected with the protection box body (2-6), the servo motor (2-8) is connected with a motor belt pulley (2-9), the motor belt pulley (2-9) is in friction connection with a belt I (2-10), the belt I (2-10) is in friction connection with the belt pulley I (2-11), the movable door (2-12) is in sliding connection with the inside of the protection box body (2-6), the movable door (2-12) is provided with an opening (2-13), the belt pulley II (2-14) and the belt pulley III (2-16) are in friction connection with the belt II (2-15), the belt pulley II (2-14) and the belt pulley III (2-16) are connected with the bidirectional screw rod (2-22), the bidirectional screw rod (2-22) is in rotation connection with the protection box body (2-6), the bidirectional screw rod (2-22) is in threaded connection with the movable door (2-12), the two movable doors (2-12) are in mutual contact and mirror image, the discharge channel (2-17) is connected and communicated with the discharge collection box (2-18), the discharge collecting box (2-18) is connected with the base (2-1), the discharge channel (2-17) is connected with the protection box body (2-6), the bearing seat I (2-19) is arranged on the protection box body (2-6), the plurality of discharge holes (2-20) are arranged on the sliding pipeline (2-7), the discharge port (2-21) is arranged on one side of the protection box body (2-6) far away from the ladder stand (2-2), the discharge port (2-21) is communicated with the discharge channel (2-17), the pressure box (1-3) is connected with the base (2-1), the pull pipe (1-4) passes through the communicating port II (2-3), the lower end face of the suspension seat (1-5) is connected with the inner wall bottom plate of the protection box body (2-6), the belt pulleys I (2-11) are connected with a bidirectional screw rod (2-22) on one side.

3. A BCF yarn transportation and storage unit according to claim 2, wherein: the garbage discharging mechanism (3) comprises a conveying motor (3-1), a coupler (3-2), a gear (3-3), a gear I (3-4), a connecting shaft (3-5), a bevel gear (3-6), a bevel gear I (3-7), a belt pulley (3-8) with a shaft, a bearing seat II (3-9), a belt III (3-10), a walking platform (3-11), a driven air injection sleeve (3-12), a belt IV (3-13), a friction wheel (3-14), a belt pulley IV (3-15), a driven air injection sleeve I (3-16), a rotary support (3-17), a main body discharge port (3-18), a spiral shaft (3-19), an inlet channel (3-20), a conveying channel (3-21), An exhaust channel (3-22), a conveying motor (3-1) is connected with a coupling (3-2), the coupling (3-2) is connected with a spiral shaft (3-19), the spiral shaft (3-19) is rotationally connected with a walking platform (3-11), a gear (3-3) is connected with the spiral shaft (3-19), the gear (3-3) is meshed with a gear I (3-4), the gear I (3-4) is connected with a connecting shaft (3-5), the connecting shaft (3-5) is connected with a bevel gear (3-6), the bevel gear (3-6) is meshed with a bevel gear I (3-7), the bevel gear I (3-7) is connected with a belt pulley (3-8) with a shaft, the belt pulley (3-8) with the shaft is rotationally connected with a bearing seat II (3-9), the bearing seats II (3-9) are symmetrically arranged at two sides of the walking platform (3-11), belt pulleys (3-8) with shafts are in friction connection with belts III (3-10), the belts III (3-10) are in friction connection with belt pulleys IV (3-15), the belt pulleys IV (3-15) are connected with friction wheels (3-14), the friction wheels (3-14) are in friction connection with the belts IV (3-13), the belts IV (3-13) are in friction connection with passive air injection sleeves I (3-16), the friction wheels (3-14) are in rotation connection with rotation supports (3-17), the rotation supports (3-17) are connected on the walking platform (3-11), the passive air injection sleeves (3-12) and the passive air injection sleeves I (3-16) are in rotation connection on the walking platform (3-11), the passive air-jet sleeve (3-12) is in friction connection with the belt IV (3-13), the main body discharge port (3-18) is arranged on the walking platform (3-11), the main body discharge port (3-18) is communicated with the discharge port (2-21), the walking platform (3-11) is connected with the protection box body (2-6), the connecting shaft (3-5) is rotationally connected with the protection box body (2-6) and enters the channel (3-20), the conveying channels (3-21) and the exhaust channels (3-22) are arranged on the walking platform (3-11), the inlet channels (3-20) are communicated with the communicating ports I (1-13), and the passive air injection sleeves (3-12) and the passive air injection sleeves I (3-16) are communicated with the exhaust channels (3-22).

4. A BCF yarn transportation and storage unit according to claim 2 or 3, wherein: when the bidirectional screw rod (2-22) rotates, the two movable doors (2-12) are close to or away from each other, and the close to or away from each other depends on the rotating direction of the bidirectional screw rod (2-22).

5. A BCF yarn transportation and storage unit according to claim 2 or 3, wherein: a gate is arranged at the position of the access hole (2-5).

6. A BCF yarn transportation and storage unit according to claim 3, wherein: when the screw shafts (3-19) rotate, impurities in the conveying channels (3-21) are pushed towards the direction of the main body discharge ports (3-18).

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