CN218808516U - Hanging conveying system - Google Patents

Abstract

The utility model provides a hang conveying system, include: tracks at least comprising turning tracks and uphill and downhill tracks; the carrier comprises a traveling mechanism with a hanging seat, a hanging bracket and a pull rod assembly; the conveying device is used for driving the travelling mechanism to move along the track; further comprising: and the guide plate comprises a turning guide plate and an up-down slope guide plate, the turning guide plate is arranged below the turning track and used for guiding the hanging seat of the traveling mechanism from the inner side of the turning direction, and the up-down slope guide plate is arranged below the up-down slope track and used for guiding the hanging seat of the traveling mechanism from the top side. When the carrier passes through the turning track and the up-down slope track, the hanging seat can be prevented from shaking and keeping stable under the guiding action of the turning guide plate and the up-down slope guide plate, and then the hanging frame connected below the hanging seat can be prevented from shaking. This hang conveying system can reduce rocking when the carrier passes orbital turn, the uphill and downhill path position, guarantees stability, simple structure, and is with low costs, effectual.

Description

Hanging conveying system

Technical Field

The utility model belongs to the technical field of hang and carry, a hang conveying system is related to.

Background

At present, the hanging and conveying system mainly used in clothing factories and business overload generally comprises a rail, a carrier hung on the rail, and a conveying device for driving the carrier to move along the rail, wherein the carrier generally comprises a travelling mechanism with a hanging seat, a hanging bracket arranged below the hanging seat and used for bearing materials, and a pull rod for connecting the hanging seat and the hanging bracket. The existing hanging conveying system mainly has the following defects: the position department lacks the direction facility on current orbital downhill path, turn, when leading to the carrier to pass through these positions, its seat that hangs can take place rocking of great degree, because the seat that hangs is hung in the track below, the gallows is connected in the seat that hangs below through the pull rod again, so, when the seat that hangs produced and rock, the gallows can produce rocking of bigger degree, and then probably leads to the material to drop, has the potential safety hazard.

SUMMERY OF THE UTILITY MODEL

The present invention is made to solve the above problems, and an object of the present invention is to provide a hanging conveyor system.

The utility model provides a hang conveying system, include: tracks at least comprising turning tracks and uphill and downhill tracks; the carrier comprises a travelling mechanism with a hanging seat, a hanging bracket for bearing materials and a pull rod assembly for connecting the hanging seat and the hanging bracket; the conveying device is used for driving the travelling mechanism to move along the track; having such a feature, further comprising: and the guide plate comprises a turning guide plate and an up-down slope guide plate, the turning guide plate is arranged below the turning track and used for guiding the hanging seat of the traveling mechanism from the inner side of the turning direction, and the up-down slope guide plate is arranged below the up-down slope track and used for guiding the hanging seat of the traveling mechanism from the top side.

The utility model provides an among the hanging conveying system, can also have such characteristic: the turning guide plate is arranged below the outlet of the turning track along the conveying direction, and one end of the turning guide plate, which is upstream in the conveying direction, is in a curved shape corresponding to the trend of the turning track.

The utility model provides an among the hanging conveying system, can also have such characteristic: the up-down slope guide plate has a plane portion parallel to the up-down slope rail and guiding the top surface of the hanging seat, and one end of the up-down slope guide plate upstream in the conveying direction is inclined so as to guide the top surface of the hanging seat to the plane portion when contacting with the top surface of the hanging seat.

The utility model provides an among the hanging conveying system, can also have such characteristic: the travelling mechanism further comprises two idler wheels, two hanging rods and three gears, the two idler wheels are respectively connected with the upper ends of the two hanging rods in a rotating mode, the lower ends of the two hanging rods are connected with the hanging seat, a fixed distance is kept between the two hanging rods through a structure on the hanging seat, the three gears are installed on the hanging seat in a side-by-side meshed mode, the two gears located on two sides are respectively connected with the lower ends of the two hanging rods in a rotating mode, and the gear located in the middle is connected with the upper end of the pull rod in a rotating mode.

The utility model provides an among the hanging conveying system, can also have such characteristic: the pull rod assembly comprises a pull rod, a rotary positioning seat, a rotary positioning head, a spring and a limiting pin, wherein the upper end of the pull rod is rotatably connected with the hanging seat, the lower end of the pull rod sequentially penetrates through the rotary positioning seat and the rotary positioning head and then is connected with the rotary positioning head through the limiting pin arranged in the radial direction, the upper part of the rotary positioning seat is rotatably positioned and matched with a joint part formed at the top of the hanging bracket, the lower part of the rotary positioning seat is rotatably positioned and matched with the rotary positioning head, the spring is sleeved on the middle lower part of the pull rod, the upper end of the spring abuts against a protrusion formed on the surface of the pull rod, and the lower end of the spring abuts against the upper end of the joint part; the middle lower part of the pull rod is also provided with a triangular plate for strengthening the structural strength, the lower edge of the triangular plate is propped against the top of the hanging bracket, and the lower edge is provided with a bayonet which is in positioning fit with the lateral direction of the joint part.

Further, in the hanging conveying system provided by the utility model, can also have such characteristics: the joint part is in a square column shape, a square hole which is communicated up and down is formed in the joint part, the upper part of the rotary positioning seat is a cylinder part, the cylinder part is matched and arranged in the square hole of the joint part, and two side edges of a bayonet of the triangular plate are clamped on two adjacent side surfaces of the joint part respectively.

Further, in the hanging conveying system provided by the utility model, can also have such characteristics: the lower part of the rotary positioning seat is a disc body part, and the lower surface of the disc body part is matched with the upper surface of the rotary positioning head through a convex-concave surface to realize rotary positioning matching.

The lower surface of the disk body is provided with two sections of spiral surfaces which are in mirror symmetry with the central axial plane of the disk body, the upper surface of the rotary positioning head is provided with two sections of spiral surfaces which are in mirror symmetry with the central axial plane of the rotary positioning head, and the two sections of spiral surfaces are matched with the two sections of spiral surfaces on the lower surface of the disk body.

Further, in the hanging conveying system provided by the utility model, can also have such characteristics: the rotary positioning seat and the rotary positioning head are both made of rubber materials.

Further, in the hanging conveying system provided by the utility model, can also have such characteristics: the gallows is including hanging the frame and installing and enclose fender and ceiling on hanging the frame, and the top department placed in the middle of hanging the frame is equipped with joint portion, encloses the fender setting and encloses into the upper shed and put the thing chamber in the bottom of hanging the frame, and the ceiling setting is in the top of putting the thing chamber.

Action and effect of the utility model

According to the utility model relates to a hang conveying system, because set up the turn deflector in orbital below of turning, a hanging seat direction of running gear for the running gear from the inboard of turn direction to the carrier, set up the downhill path deflector in orbital below of going up the downhill path, a hanging seat direction of running gear for from the top side to the carrier, when the carrier is through the turn track, when going up the downhill path, the hanging seat can be at the turn deflector, avoid rocking under the guiding action of going up the downhill path deflector, the stability is kept, and then can avoid hanging the gallows of seat below connection and take place to rock, so, this hang conveying system can reduce the carrier through orbital turn, rock when going up the downhill path position, guarantee stability, the simple structure of deflector, easy manufacturing and installation, low cost, and is effectual.

Drawings

Fig. 1 is a schematic structural view of a hanging conveyance system according to embodiment 1 of the present invention;

fig. 2 is a schematic partial structure diagram of an up-down slope guide plate and a vehicle guide in accordance with embodiment 1 of the present invention.

Fig. 3 is a schematic view of the overall structure of a two-wheeled vehicle according to embodiment 1 of the present invention;

fig. 4 is a schematic partial structure view of a two-wheeled vehicle according to embodiment 1 of the present invention;

fig. 5 is an exploded schematic view of the tension rod assembly according to embodiment 1 of the present invention;

description of reference numerals:

10 tracks; 11 a turning track; 12 ascending and descending tracks; 20 a guide plate; 21 a turning guide plate; 22 up-down slope guide plates; a 221 plane portion; 30, a carrier; 31 a running mechanism; 311 a roller; 312 a boom; 313 hanging seats; 314 gear wheel; 32 a hanging bracket; 321, hanging a frame; 3211 a joint part; 322 surrounding and blocking; 323 ceiling; 33 a tie rod assembly; 331 a pull rod; 3311 set square; 33111 bayonet; 332 rotating positioning seat; 3321 a cylindrical portion; 3322 a pan body; 333 rotating the positioning head 334 spring; 335 a spacing pin; 336 flat washers; 337 flat washer.

Detailed Description

In order to make the technical means, creation features, achievement purposes and effects of the present invention easy to understand, the following embodiments are specifically illustrated in conjunction with the accompanying drawings.

Example 1

FIG. 1 is a schematic diagram of a ceiling-mounted conveyor system.

As shown in fig. 1, the present embodiment provides a hanging transportation system, which includes a rail 10, a guide plate 20 for guiding a carrier 30, a carrier 30 hanging on the rail 10, and a transportation device (not shown) for driving the carrier 30 to move along the rail 10. The following is a detailed description of each part.

The track 10 may include a combination of at least two or more of a turning track 11, an up-down slope track 12, and a horizontal straight track, and the track 10 shown in the present embodiment is composed of the turning track 11 and the up-down slope track 12.

The guide plate 20 is designed for turning and up-down-slope positions of the track 10, and includes a turning guide plate 21 corresponding to the turning track 11 and an up-down-slope guide plate 22 corresponding to the up-down-slope track 12, wherein the turning guide plate 21 is disposed below the turning track 11 for guiding the hanging seat 313 of the traveling mechanism of the vehicle 30 from the inner side of the turning direction, and the up-down-slope guide plate 22 is disposed below the up-down-slope track 12 for guiding the hanging seat 313 of the traveling mechanism of the vehicle 30 from the top side.

Specifically, as shown in fig. 1, in the present embodiment, the turn guide 21 is mounted on the side surfaces of two columns and is disposed below the exit of the turn rail 11 in the conveying direction, one end of the turn guide 21 upstream in the conveying direction is curved corresponding to the direction of the turn rail 11, and a spacer (not shown in the figure) for supporting is further provided between the turn guide 21 and the side surface of the column. When the vehicle 30 enters the turning track 11, the inner side surface of the hanging seat 313 of the traveling mechanism is blocked by the turning guide plate 21 at the outlet, so that under the guiding action of the turning guide plate 21, the hanging seat 313 can be prevented from shaking and keeping stable, and further the hanging frame 32 connected below can be prevented from shaking.

Fig. 2 is a partial schematic structural view of the guiding engagement between the uphill and downhill guide plate 22 and the carrier 30.

As shown in fig. 2, in the present embodiment, the up-down guide plate 22 is mounted on the bottom surface of the up-down rail 12, the up-down guide plate 22 has a flat surface portion 221 for guiding the top surface of the hanger 313 in parallel to the up-down rail 12, and one end of the up-down guide plate 22 upstream in the conveying direction is inclined so as to guide the top surface of the hanger 313 to the flat surface portion 321 when contacting the top surface of the hanger 313. The up-down slope guide plates 22 may be provided in plurality at intervals along the up-down slope rail 12 as shown in fig. 1, or may be provided continuously along the up-down slope rail 12. When the vehicle 30 passes through the ascending and descending tracks 12, the top surface of the hanging seat 313 of the traveling mechanism is blocked by the plane portion 321 of the ascending and descending guide plate 22, so that under the guiding action of the ascending and descending guide plate 22, the hanging seat 313 can be prevented from shaking and keeping stable, and further the hanging bracket 32 connected below can be prevented from shaking.

In addition to the stability of the hanger 313 through the turning guide plate 21 and the uphill and downhill guide plate 22, and thus the stability of the hanger 32 during movement, an improvement is made to the structure of the vehicle 30 to improve the stability of the vehicle 30 itself during movement.

Fig. 3 is a schematic view of the carrier 30.

As shown in fig. 3, the vehicle 30 includes a traveling mechanism 31, a hanger 32, and a drawbar assembly 33. The traveling mechanism 31 is used for being hung on the track 10 and moving along the track 10 under the action of the conveying device, the hanger 32 is used for bearing materials, and the upper end and the lower end of the pull rod assembly 33 are respectively connected with the traveling mechanism 31 and the hanger 32. The pull rod assembly 33 not only plays a role in connection, but also plays a role in reducing the shaking and rotation of the hanger 32. The carrier 30 will be described in detail below.

Fig. 4 is a partial structural view of the carrier 30.

As shown in fig. 4, the traveling mechanism 31 includes two rollers 311, two booms 312, a hanger 313, and three gears 314. The two rollers 311 are used for rolling fit with the track 10, and the two rollers 311 are respectively connected with the upper ends of the two suspension rods 312 in a rotating way. The lower ends of the two suspension rods 312 are connected to the suspension holder 313, and the two suspension rods 312 are kept at a fixed distance from each other by a structure on the suspension holder 313. Three gears 314 are meshed side by side and mounted on the hanger 313, two gears 314 at both sides are rotatably connected to the lower ends of the two suspension rods 312, respectively, and a gear 314 at the middle is rotatably connected to the upper end of the drawbar assembly 33. The double-roller design enables the load of the travelling mechanism 31 to be distributed evenly and has good stability during moving.

The structure of the hanger 32 can be adjusted according to the material to be carried. In the present embodiment, as shown in fig. 3, the hanging bracket 32 includes a hanging frame 321, and a surrounding block 322 and a ceiling 323 mounted on the hanging frame 321, wherein the top of the hanging frame 321 is connected to the lower end of the pull rod assembly 33, the surrounding block 322 is disposed on the bottom surface and the peripheral side surface of the bottom of the hanging frame 321, and surrounds a storage cavity with an upper opening, and the ceiling 323 is disposed above the storage cavity.

Fig. 5 is an exploded view of the drawbar assembly 33.

As shown in fig. 4 and 5, the drawbar assembly 33 includes a drawbar 331, a rotational positioning seat 332, a rotational positioning head 333, a spring 334, and a limit pin 335.

The upper end of the pull rod 331 is in the form of a shaft and is rotatably connected to the hanger 313 of the traveling mechanism 31 and the gear 314 located in the middle.

The connection structure between the lower end of the pull rod assembly 33 and the top of the hanging frame 321 is: a joint portion 3211 for connecting the lower end of the pull rod assembly 33 is formed at the center of the top of the hanging frame 321, and the joint portion 3211 is in a square column shape and is provided with a square hole which is through up and down; the rotary positioning seat 332 and the rotary positioning head 333 are respectively provided with a through hole which is vertically penetrated and through which the lower end of the pull rod 331 passes, the rotary positioning seat 332 comprises an upper column part 3321 and a lower disk part 3322, the column part 3321 is matched with the square hole of the joint part 3211 and is arranged in the square hole, the rotary positioning fit between the rotary positioning seat 332 and the joint part 3211 is realized, the upper surface of the disk part 3322 is abutted against the lower end of the joint part 3211, and the lower surface of the disk part 3322 is matched with the upper surface of the rotary positioning head 333 through a convex-concave surface to realize the rotary positioning fit; the lower end of the pull rod 331 and the rotary positioning seat 332 are both provided with pin holes which are through in the radial direction, and the lower end of the pull rod 331 sequentially penetrates through the rotary positioning seat 332 and the rotary positioning head 333 and then is connected with the rotary positioning head 333 through a limiting pin 335.

The fit between the contact surfaces of the rotational positioning seat 332 and the rotational positioning head 333 in this embodiment is specifically as follows: the lower surface of the plate body 3322 is composed of two sections of spiral surfaces which are mirror-symmetrical about the self central axial surface, the upper surface of the rotary positioning head 333 is composed of two sections of spiral surfaces which are mirror-symmetrical about the self central axial surface, and the two sections of spiral surfaces of the upper surface of the rotary positioning head 333 are matched with the two sections of spiral surfaces of the lower surface of the plate body 3322, and because the two sections of spiral surfaces are mirror-symmetrical and have opposite extension directions, relative rotation can be prevented between the matched rotary positioning seat 332 and the rotary positioning head 333, and rotary positioning matching is realized. Of course, it will be apparent to those skilled in the art that the contact surfaces of the rotational positioning seat 332 and the rotational positioning head 333 may be designed as tooth surfaces or other anti-rotation convex-concave structures.

In addition, the rotational positioning seat 332 and the rotational positioning head 333 in this embodiment are preferably made of rubber, so that the component itself has a good damping effect.

The spring 334 is sleeved on the middle lower portion of the pull rod 331, the upper end of the spring 334 abuts against a protrusion formed on the surface of the pull rod 331 through a flat washer 336, the lower end of the spring 334 abuts against the upper end of the joint portion 3211 of the hanging frame 321 through a flat washer 337, and the spring 334 plays a role in reducing the vertical shaking of the hanging bracket 32.

The middle lower part of the pull rod 331 is also provided with a triangle plate 3311, the lower edge of the triangle plate 3311 is propped against the top of the hanging frame 321, and the triangle plate 3311 plays a role in reinforcing the middle lower part of the pull rod 331 connected with the hanging frame 321. Bayonets 33111 have been seted up on the lower border of set-square 3311, and the both sides limit of this bayonet 33111 blocks respectively on two adjacent sides of square column's joint portion 3211, realizes the spacing cooperation of side direction, and set-square 3311 can reduce gallows 32 and shake in the direction (being the side direction) of perpendicular to set-square 3311 like this.

In conclusion, through the above structural design, the connection structure between the pull rod assembly 33 and the hanger 32 is significantly strengthened, and the shaking and rotation of the hanger 32 relative to the pull rod assembly 33 can be effectively reduced, so that the stability of the vehicle 30 itself is well guaranteed.

The conveying device is a chain wheel and chain conveying device, a gear and rack conveying device or other conveying devices used in the existing hanging conveying system, and the description is omitted here.

Effects and effects of the embodiments

According to the hanging conveying system related to the embodiment, the turning guide plate is arranged below the turning track and used for guiding the hanging seat of the travelling mechanism of the carrier from the inner side of the turning direction, the up-down slope guide plate is arranged below the up-down slope track and used for guiding the hanging seat of the travelling mechanism of the carrier from the top side, when the carrier passes through the turning track and the up-down slope track, the hanging seat can avoid shaking and keep stable under the guiding action of the turning guide plate and the up-down slope guide plate, and further can avoid shaking of the hanging frame connected below the hanging seat, so that the hanging conveying system can reduce shaking when the carrier passes through the turning track and the up-down slope position and ensure stability, and the guide plate is simple in structure, easy to manufacture and install, low in cost and good in effect.

Besides setting up the deflector and making the hanging seat remain stable, still improved the structure of carrier self, include: the travelling mechanism adopts a double-wheel travelling mechanism with uniformly distributed load, and has good stability when moving along the track; redesigned pull rod assembly, rock in order to reduce the gallows by a wide margin, rotatory, specifically, pull rod assembly includes the pull rod, the rotational positioning seat, the rotational positioning head, a spring, and the spacer pin, the rotational positioning seat through respectively with the first rotational positioning cooperation of joint portion and the rotational positioning at gallows top, play and reduce the rotatory effect of gallows, the spring plays and reduces the vertical effect of rocking of gallows, the set-square of lower part not only plays the effect of additional strengthening intensity in the pull rod, still through with the cooperation of joint portion side direction location, play and reduce the effect that the gallows side direction rocked. Therefore, the stability of the carrier in the moving process can be further improved by improving the structure of the carrier.

The above embodiments are preferred examples of the present invention, and are not intended to limit the scope of the present invention.

Claims (10)

1. A hanging conveyor system comprising:

tracks at least comprising turning tracks and uphill and downhill tracks;

the carrier comprises a travelling mechanism with a hanging seat, a hanging bracket for bearing materials and a pull rod assembly for connecting the hanging seat and the hanging bracket;

the conveying device is used for driving the travelling mechanism to move along the track;

it is characterized by also comprising:

the guide plate comprises a turning guide plate and an up-down slope guide plate,

the turning guide plate is arranged below the turning track and is used for guiding the hanging seat of the traveling mechanism from the inner side of the turning direction,

the up-down slope guide plate is arranged below the up-down slope track and used for guiding the hanging seat of the traveling mechanism from the top side.

2. The hanging delivery system of claim 1, wherein:

the turning guide plate is arranged below the outlet of the turning track along the conveying direction, and one end of the turning guide plate, which is upstream in the conveying direction, is in a curved shape corresponding to the trend of the turning track.

3. The hanging delivery system of claim 1, wherein:

the ascending and descending guide plate is provided with a plane part which is parallel to the ascending and descending rail and is used for guiding the top surface of the hanging seat, and one end of the ascending and descending guide plate, which is upstream in the conveying direction, is inclined so as to guide the top surface of the hanging seat to the plane part when the ascending and descending guide plate is in contact with the top surface of the hanging seat.

4. The overhead conveying system of claim 1, wherein:

wherein the walking mechanism also comprises two rollers, two hanging rods and three gears,

the two rollers are respectively connected with the upper ends of the two hanging rods in a rotating way,

the lower ends of the two hanging rods are connected with the hanging seat, the two hanging rods keep a fixed distance through the structure on the hanging seat,

the three gears are arranged on the hanging seat in a side-by-side meshed mode, the two gears located on two sides are respectively and rotatably connected with the lower ends of the two hanging rods, and the gear located in the middle is rotatably connected with the upper end of the pull rod.

5. The hanging delivery system of claim 1, wherein:

wherein the pull rod component comprises a pull rod, a rotary positioning seat, a rotary positioning head, a spring and a limit pin,

the upper end of the pull rod is rotatably connected with the hanging seat, the lower end of the pull rod sequentially penetrates through the rotary positioning seat and the rotary positioning head and then is connected with the rotary positioning head through the radially arranged limiting pin,

the upper part of the rotary positioning seat is in rotary positioning fit with a joint part formed at the top of the hanger, the lower part of the rotary positioning seat is in rotary positioning fit with the rotary positioning head,

the spring is sleeved on the middle lower part of the pull rod, the upper end of the spring is propped against a bulge formed on the surface of the pull rod, and the lower end of the spring is propped against the upper end of the joint part;

the middle-lower part of the pull rod is also provided with a triangular plate for reinforcing the structural strength, the lower edge of the triangular plate abuts against the top of the hanging bracket, and the lower edge is provided with a bayonet which is matched with the joint part in a laterally positioned manner.

6. The hanging delivery system of claim 5, wherein:

wherein the joint part is in a square column shape and is provided with a square hole which is communicated up and down,

the upper part of the rotary positioning seat is a cylinder part which is matched and arranged in the square hole of the joint part,

two side edges of the bayonet of the triangular plate are respectively clamped on two adjacent side surfaces of the joint part.

7. The overhead conveying system of claim 5, wherein:

the lower part of the rotary positioning seat is a disc body part, and the lower surface of the disc body part is matched with the upper surface of the rotary positioning head through a convex-concave surface to realize rotary positioning matching.

8. The overhead conveying system of claim 7, wherein:

wherein the lower surface of the disk body part is provided with two sections of spiral surfaces which are in mirror symmetry with the middle axial plane of the disk body part,

the upper surface of the rotary positioning head is provided with two sections of spiral surfaces which are mirror-symmetrical about the middle axial plane of the rotary positioning head, and the two sections of spiral surfaces are matched with the two sections of spiral surfaces on the lower surface of the disc body part.

9. The hanging delivery system of claim 5, wherein:

the rotary positioning seat and the rotary positioning head are both made of rubber materials.

10. The overhead conveying system of claim 5, wherein:

wherein the hanger comprises a hanging frame, and an enclosure and a ceiling which are arranged on the hanging frame,

the joint part is arranged at the center of the top of the hanging frame,

the enclosure is arranged at the bottom of the hanging frame and encloses an object placing cavity with an upper opening,

the ceiling is arranged above the storage cavity.

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