CN115231211B

CN115231211B - Belt dust removal tensioning structure

Info

Publication number: CN115231211B
Application number: CN202210855060.6A
Authority: CN
Inventors: 陈义强; 陈天崚; 陈云鹏
Original assignee: Anhui Jiuyu Intelligent Equipment Co ltd
Current assignee: Anhui Jiuyu Intelligent Equipment Co ltd
Priority date: 2022-07-20
Filing date: 2022-07-20
Publication date: 2024-07-05
Anticipated expiration: 2042-07-20
Also published as: CN115231211A

Abstract

The invention discloses a belt dust removal tensioning structure, which comprises a supporting mechanism, wherein the supporting mechanism is arranged on one end of an electric roller mounting shaft, which is far away from an electric roller; the support mechanism is capable of supporting a portion of the belt beyond the electric drum. According to the invention, the sliding friction of the belt is changed into roller friction at one end of the electric roller, so that the edges at the two ends of the cylinder body of the electric roller are prevented from extruding the belt, and the service life of the belt is prolonged; in the process of forward rotation of the electric roller, static electricity can be generated by contact friction between the first connecting rod and the belt, the static electricity can absorb the wrapped dust and surrounding dust, when the electric roller reversely rotates, after the third connecting rod is in contact with the belt, the static electricity on the belt is released into the ground, at the moment, the cylinder body can absorb the dust on the belt, when the electric roller rotates forward again, the cylinder body automatically discharges dust-containing gas, and the automatic static electricity elimination and automatic dust removal of the belt are realized.

Description

Belt dust removal tensioning structure

Technical Field

The invention relates to a belt dedusting tensioning structure, and belongs to the technical field of logistics sorting equipment.

Background

The logistics sorting trolley uses the electric roller driving belt to transversely sort cargoes, but because the trolley is tightly arranged into a ring shape, gaps between the trolley and the trolley are very narrow, and therefore, the installation shaft of the electric roller of the trolley cannot protrude outwards, as shown in fig. 3, so that the length of the barrel body of the existing electric roller is slightly narrower than the width of the belt, and when the electric roller operates, the edges of the two ends of the barrel body of the electric roller can squeeze the belt, so that the service life of the belt is greatly shortened.

In addition, in order to prolong the service life of the electric roller, the outer surface of the electric roller is often wrapped with a plastic layer, and the belt in a logistics workshop is made of rubber, so that static electricity is easily generated between the plastic layer on the outer surface of the electric roller and the belt due to friction, and if the static electricity is not eliminated in time, potential safety hazards such as fire disaster are easily caused.

Furthermore, the surface that includes has a lot of dust, leads to the air pollution in commodity circulation letter sorting workshop easily and the dust gets into inside the letter sorting equipment after easily leads to the problem such as letter sorting equipment heat dissipation inadequately.

Disclosure of Invention

The invention aims to solve the technical problems that: the utility model provides a belt dust removal tensioning structure to solve the length of the shaft of current electric cylinder and slightly narrow than the width of belt, when electric cylinder was operated, the both ends edge of the shaft of electric cylinder can extrude the belt, makes belt life shorten the problem greatly.

The technical scheme adopted by the invention is as follows: the belt dedusting and tensioning structure comprises a supporting mechanism, wherein the supporting mechanism is arranged on one end of an electric roller mounting shaft, which is far away from an electric roller; the support mechanism is capable of supporting a portion of the belt beyond the electric drum.

Preferably, the belt conveyor further comprises a driving mechanism, wherein when the electric roller rotates, the driving mechanism enables the supporting mechanism to support the belt and the supporting mechanism is insulated from the contact part of the belt; when the electric drum stops rotating, the driving mechanism conducts electricity to the contact part of the supporting mechanism and the belt.

Preferably, the driving mechanism comprises a sleeve coaxially fixed with the electric roller, a gear is fixedly sleeved on the periphery of the sleeve, a rack is connected to the electric roller mounting shaft in a sliding manner, the rack can only slide along the vertical direction, and the gear is meshed with the rack; the electric roller mounting shaft is connected with a cylindrical cam, the axis of the cylindrical cam is arranged in the horizontal direction and can only slide in the horizontal direction, the periphery of the cylindrical cam is provided with an arc chute, a spherical clamping block matched with the arc chute is fixed on the rack, and the spherical clamping block is clamped into the arc chute and can slide along the arc chute.

Preferably, the supporting mechanism comprises a first connecting rod hinged with the electric roller mounting shaft, one end of the first connecting rod, which is far away from the electric roller mounting shaft, is hinged with a second connecting rod, and one end of the second connecting rod, which is far away from the first connecting rod, can only slide along the horizontal direction; the middle part of first connecting rod is fixed with the third connecting rod, is fixed with the fixed block on the electric cylinder installation axle, when the second connecting rod drives the rotatory in-process of third connecting rod, when the second connecting rod is located vertical direction, the fixed block restriction the third connecting rod continues the rotation downwards.

Preferably, one end of the first connecting rod far away from the electric roller mounting shaft is insulated; one end, far away from the first connecting rod, of the third connecting rod is conductive; the conductive portion of the third link is grounded.

Preferably, the device further comprises a cylinder body, wherein the cylinder body is fixed on the electric roller mounting shaft, a piston is connected in a sliding and sealing manner in the cylinder body, a one-way air suction valve and a one-way air discharge valve are arranged on the cylinder body, and a filter screen is arranged at the outlet end of the one-way air discharge valve; the driving mechanism drives the piston to slide back and forth in the cylinder body.

Preferably, a piston rod is fixed on the piston, and the piston rod is fixed at the lower end of the rack

The invention has the beneficial effects that: compared with the prior art, the invention is added at one end of the electric roller, so that the sliding friction of the belt is changed into roller friction, the edges at the two ends of the cylinder body of the electric roller are prevented from extruding the belt, and the service life of the belt is prolonged; in the process of forward rotation of the electric roller, static electricity can be generated by contact friction between the first connecting rod and the belt, the static electricity can absorb wrapping and surrounding dust, when the electric roller reversely rotates, after the third connecting rod is in contact with the belt, the static electricity on the belt is released into the ground, at the moment, the cylinder body can absorb the dust on the belt, when the electric roller reversely rotates again, dust-containing gas in the cylinder body is automatically discharged to clean gas after being filtered by the filter screen, and automatic static electricity elimination and automatic dust removal of the belt are realized.

Drawings

FIG. 1 is a schematic view of the overall structure of the left-hand limit position of the cylindrical cam according to the present invention;

FIG. 2 is a schematic view of the overall structure of the right-hand limit position of the cylindrical cam according to the present invention;

Fig. 3 is a schematic view of a conventional electric drum and belt structure.

Detailed Description

The invention will be further described with reference to the accompanying drawings and specific examples.

Example 1: the utility model provides a belt removes dust tensioning structure, including supporting mechanism and actuating mechanism, as shown in fig. 1, supporting mechanism includes the dead lever 20 of "T" type of installing on the left end of electric cylinder 10 installation axle, and the upper end of dead lever 20 articulates has first connecting rod 31, and the upper end of first connecting rod 31 is fixed with insulating ball 32, and insulating ball 32 is stainless steel material and the outer cover is equipped with the soft plastics material of one deck wear-resisting, thereby the upper end of first connecting rod 31 is insulating; the upper end of the first link 31 is hinged with a third link 35, one end of the third link 35 far away from the first link 31 is in sliding connection with the horizontal end of the fixed link 20, and the third link 35 can only slide along the horizontal direction, in order to reduce the sliding friction of the third link 35, the right end of the third link 35 is arranged in a sphere shape, and the sliding friction is changed into rolling friction in the embodiment; the middle part of the left side of the first connecting rod 31 is fixed with a second connecting rod 33, the upper end of the second connecting rod 33 is fixed with a conductive ball 34, the conductive ball 34 is made of stainless steel, and the stainless steel is not suitable for being used as a lead for conveying large current, but can be used as a conductor for discharging static electricity; the distance between the hinge centers of the fixed link 20 and the first link 31 and the upper end of the second link 33 in this embodiment is greater than the distance between the fixed link 20 and the hinge center of the first link 31 and the upper end of the first link 31, so that the second link 33 is always positioned on the left side of the fixed link 20 due to the blocking of the belt 40 when the first link 31 rotates rightward, and the second link 33 moves at most to contact with the belt 40; as shown in fig. 1, a "U" shaped fixing block 30 is fixed at the upper end of the fixing rod 20, and when the second link 33 drives the second link 33 to rotate, the groove of the fixing block 30 limits the second link 33 to continue to rotate leftwards and downwards when the first link 31 is located in the vertical direction.

In this embodiment, as shown in fig. 1, the driving mechanism further comprises a sleeve 12 coaxially fixed with the electric roller 10, the sleeve 12 is sleeved on the periphery of the installation shaft of the electric roller 10, a gear 13 is coaxially and fixedly sleeved on the periphery of the sleeve 12, a rack 14 is slidably connected to the installation shaft of the electric roller 10, the rack 14 can only slide along the vertical direction, and the gear 13 is meshed with the rack 14; the electric roller 10 is connected with a cylindrical cam 21 on the installation shaft, the axis of the cylindrical cam 21 is arranged along the horizontal direction, the cylindrical cam 21 is located above the gear 13, an external spline is arranged at the horizontal end of the fixing rod 20, the cylindrical cam 21 is sleeved on the horizontal end of the fixing rod 20, an internal spline matched with the external spline is arranged in the cylindrical cam 21, the cylindrical cam 21 can only slide along the horizontal direction due to the matching of the internal spline and the external spline, an arc chute is arranged on the periphery of the cylindrical cam 21, a spherical clamping block 22 matched with the arc chute is fixed on the rack 14, the spherical clamping block 22 is clamped into the arc chute and can slide along the arc chute, and the diameter of the spherical clamping block 22 is larger than the width of the opening of the arc chute, so that the spherical clamping block 22 cannot slide out of the arc chute and can only slide along the arc chute. The right end of the fixed rod 20 is fixed with a cylindrical limiting block 23, and the setting of the limiting block 23 can avoid the separation of the cylindrical cam 21 and the horizontal end of the fixed rod 20.

As shown in fig. 2, when the electric drum 10 is stationary, the cylindrical cam 21 is located at the right limit position and the third link 35 slides rightward under its own weight to drive the first link 31 and the second link 33 to rotate rightward, and at this time, the insulating ball 32 on the second link 33 abuts against the belt 40. As shown in fig. 1, when the electric roller 10 rotates, the electric roller 10 drives the gear 13 to rotate through the sleeve 12, the gear 13 drives the rack 14 to move upwards, the spherical clamping block 22 on the rack 14 cooperates with the arc-shaped groove on the cylindrical cam 21 to drive the cylindrical cam 21 to slide leftwards to the left limit position, the cylindrical cam 21 pushes the third connecting rod 35 to move leftwards, the third connecting rod 35 drives the first connecting rod 31 and the second connecting rod 33 to rotate leftwards, when the second connecting rod 33 rotates to abut against the fixed block 30, the first connecting rod 31 is located in the vertical direction, the insulating balls 32 on the first connecting rod 31 support the belt 40, and as the cylindrical cam 21 abuts against the first connecting rod 31 through the third connecting rod 35, the first connecting rod 31 can firmly support the part of the belt 40 beyond the left side of the electric roller 10, the left side of the belt 40 is prevented from being cut, and the left side of the electric roller 10 is prevented from being tensioned. Since the insulating balls 32 at the upper end of the first link 31 are insulated, the belt 40 is electrostatically charged by friction between the insulating balls 32 at the upper end of the first link 31 and the belt 40, and dust can be adsorbed by the static electricity, so that the belt 40 can be used to adsorb and wrap dust on the outer surface and in the air, thereby achieving a dust removing effect. When the first connecting rod 31 is positioned in the vertical direction, the belt 40 is moved to a designated position at this time, sorting of packages is completed, at this time, the electric roller 10 reversely rotates to reset the belt 40, in the process, the gear 13 and the rack 14 are reset, the cylindrical cam 21 slides rightwards, the third connecting rod 35 slides rightwards under the self gravity to drive the first connecting rod 31 and the second connecting rod 33 to rotate rightwards, at this time, the second connecting rod 33 is propped against the belt 40, and static electricity on the belt 40 can be discharged into the ground through the second connecting rod 33 because the conductive ball 34 at the upper end of the second connecting rod 33 is a conductor and the conductive ball 34 is grounded, so that the static electricity is prevented from being accumulated on the belt 40; in this embodiment, the first link 31 is also grounded, so that static electricity on the first link 31 can be transferred to the ground, thereby avoiding static electricity from accumulating on the first link 31.

After the static electricity on the belt 40 disappears, the dust is not adsorbed by the static electricity on the belt 40 any more, and thus the dust on the belt 40 is easily removed.

Therefore, as shown in fig. 1-2, the embodiment further includes a cylinder 50, the cylinder 50 is fixed below the installation shaft of the electric roller 10, the axis of the cylinder 50 is arranged along the vertical direction, a piston 51 is connected in a sliding and sealing manner inside the cylinder 50, a piston rod is fixed at the upper end of the piston 51, the upper end of the piston rod is fixed at the lower end of the rack 14, a unidirectional suction valve 52 and a unidirectional discharge valve 53 are arranged at the top of the cylinder 50, the inlet end of the unidirectional suction valve 52 is close to the upper surface of the belt 40 through a pipeline, and a filter screen is arranged at the inlet end of the unidirectional discharge valve 53.

When the electric roller 10 rotates reversely, the belt 40 is not charged with static electricity, the rack 14 moves downwards, negative pressure is generated in the cylinder 50, the one-way suction valve 52 is opened, the one-way exhaust valve 53 is closed, and dust and air above the belt 40 are sucked into the cylinder 50; when the electric roller 10 rotates forward, the rack 14 moves upward, the cylinder 50 is slightly positive in pressure, the one-way suction valve 52 is closed, the one-way exhaust valve 53 is opened, dust-containing gas is discharged from the cylinder 50 and filtered by the filter screen, clean air is discharged, dust is left in the cylinder 50, and the cylinder 50 is only required to be opened periodically to clean the dust in the cylinder, so that a cock is connected to the bottom of the cylinder 50 in the embodiment, and the cylinder 50 can be cleaned by opening the cock. Thereby realizing automatic dust removal and dust discharge of the belt 40.

The foregoing is merely illustrative of the present invention, and the scope of the present invention is not limited thereto, and any person skilled in the art can easily think about variations or substitutions within the scope of the present invention, and therefore, the scope of the present invention shall be defined by the scope of the appended claims.

Claims

1. The utility model provides a belt dust removal tensioning structure which characterized in that: comprises a supporting mechanism which is arranged on one end of an electric roller mounting shaft far away from the electric roller (10); the supporting mechanism can support the part of the belt (40) beyond the electric roller (10); further comprising a driving mechanism which, when the electric drum (10) rotates, causes the supporting mechanism to support the belt (40) and insulates a portion of the supporting mechanism that is in contact with the belt (40); when the electric drum (10) stops rotating, the driving mechanism conducts electricity to the contact part of the supporting mechanism and the belt (40); the driving mechanism comprises a sleeve (12) coaxially fixed with the electric roller (10), a gear (13) is fixedly sleeved on the periphery of the sleeve (12), a rack (14) is connected to the electric roller mounting shaft in a sliding manner, the rack (14) can only slide along the vertical direction, and the gear (13) is meshed with the rack (14); a cylindrical cam (21) is connected to the electric roller mounting shaft, the axis of the cylindrical cam (21) is arranged in the horizontal direction and can only slide in the horizontal direction, an arc chute is arranged at the periphery of the cylindrical cam (21), a spherical clamping block (22) matched with the arc chute is fixed on the rack (14), and the spherical clamping block (22) is clamped into the arc chute and can slide along the arc chute; the supporting mechanism comprises a first connecting rod (31) hinged with the electric roller mounting shaft, one end of the first connecting rod (31) far away from the electric roller mounting shaft is hinged with a second connecting rod (33), and one end of the second connecting rod (33) far away from the first connecting rod (31) can only slide along the horizontal direction; a third connecting rod (35) is fixed in the middle of the first connecting rod (31), a fixed block (30) is fixed on the electric roller mounting shaft, and when the second connecting rod (33) is positioned in the vertical direction in the process of driving the third connecting rod (35) to rotate, the fixed block (30) limits the third connecting rod (35) to continuously rotate downwards; the electric roller mounting device further comprises a cylinder body (50), wherein the cylinder body (50) is fixed on the electric roller mounting shaft, and a piston (51) is connected inside the cylinder body (50) in a sliding and sealing manner; the piston (51) is fixed with a piston (51) rod, and the piston (51) rod is fixed at the lower end of the rack (14).

2. A belt dusting tensioning apparatus as set forth in claim 1 wherein: one end of the first connecting rod (31) far away from the electric roller mounting shaft is insulated; one end, far away from the first connecting rod (31), of the third connecting rod (35) is conductive; the conductive part of the third connecting rod (35) is grounded.

3. A belt dusting tensioning apparatus as set forth in claim 1 wherein: a one-way air suction valve (52) and a one-way air discharge valve (53) are arranged on the cylinder body (50), and a filter screen is arranged at the inlet end of the one-way air discharge valve; the driving mechanism drives the piston (51) to slide reciprocally in the cylinder (50).