CN217050139U - Unpowered Fulai wheel bevel connection machine - Google Patents

Abstract

The utility model belongs to the technical field of conveying equipment, in particular to an unpowered Fulai wheel bevel connection machine, which comprises a bevel connection frame, wherein the bevel connection frame comprises a first frame side, a second frame side and a third frame side, the first frame side and the second frame side are arranged in parallel, one end of the first frame side is aligned with one end of the second frame side, and one end of the first frame side is connected with one end of the second frame side through a first supporting gear; the other end of the first frame edge and the other end of the second frame edge are respectively connected with two ends of the third frame edge; a plurality of rows of circular shafts are arranged between the first rack side and the second rack side and between the third rack side and the second rack side, a plurality of Fulai wheels are arranged on the circular shafts along the length direction of the circular shafts, and the Fulai wheels can freely rotate relative to the circular shafts; the Fowler wheels on the adjacent circular shafts are arranged in a staggered mode. The utility model discloses a bevel connection machine adopts a plurality of fortune wheels, and area of contact is few and roll from the area, and the friction does not influence the original speed of goods for a short time, and need not power and control, reduces the cost.

Description

Unpowered Fulai wheel bevel connection machine

Technical Field

The utility model belongs to the technical field of conveying equipment, concretely relates to unpowered fortune comes round bevel connection machine.

Background

The bevel connection machine is used for a curve part or a flow dividing and converging part of a conveying system. Most of the prior beveled edge machines in the market adopt a common roller, a poly-V-belt and a power roller for combined use, have large contact area, need power and control and have higher cost.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the problems and providing an unpowered Fulai wheel bevel connection machine.

In order to realize the technical purpose, the utility model adopts the following technical proposal:

an unpowered Fulai wheel bevel connection machine comprises a bevel connection machine frame, wherein the bevel connection machine frame comprises a first machine frame side, a second machine frame side and a third machine frame side, the first machine frame side and the second machine frame side are arranged in parallel, the length of the first machine frame side is smaller than that of the second machine frame side, one end of the first machine frame side is aligned with one end of the second machine frame side, and one end of the first machine frame side is connected with one end of the second machine frame side through a first supporting baffle; the other end of the first frame side and the other end of the second frame side are respectively connected with two ends of a third frame side; a plurality of rows of circular shafts are arranged between the first rack side and the second rack side and between the third rack side and the second rack side, a plurality of Fulai wheels are arranged on the circular shafts along the length direction of the circular shafts, and the Fulai wheels can freely rotate relative to the circular shafts; the Foley wheels on the adjacent circular shafts are arranged in a staggered mode.

Furthermore, a second supporting baffle and a third supporting baffle are arranged between the second rack side and the third rack side; the second supporting gear and the third supporting gear are parallel to the first supporting gear, and the second supporting gear is positioned between the first supporting gear and the third supporting gear.

Furthermore, the bevel frame also comprises a first clapboard parallel to the first frame side, one end of the first clapboard is connected with the first supporting rail, and the other end of the first clapboard is connected with the second supporting rail; the circular shaft corresponding to the first partition board penetrates through the first partition board.

Furthermore, the bevel frame also comprises a second clapboard parallel to the first frame side, one end of the second clapboard is connected with the first supporting rail, and the other end of the second clapboard is connected with the third supporting rail; the circular shaft corresponding to the second partition board penetrates through the second partition board.

Furthermore, the first frame side is a channel steel and comprises a first bottom plate and two first side plates, and a groove opening defined by the first bottom plate and the two first side plates faces away from the coming wheel.

Furthermore, the second frame side is a channel steel and comprises a second bottom plate and two second side plates, and a groove opening formed by the second bottom plate and the two second side plates in a surrounding mode faces back to the coming wheel.

Furthermore, one end of the first supporting rail is connected with the first bottom plate, and the other end of the first supporting rail is connected with the second bottom plate.

Furthermore, one end of the circular shaft between the first rack side and the second rack side is connected with the first bottom plate, and the other end of the circular shaft is connected with the second bottom plate.

Furthermore, the third frame side comprises a flat plate, and two ends of the flat plate are respectively connected with the first bottom plate and the second bottom plate.

Furthermore, the flat plate is provided with a plurality of convex supporting plates along the length direction, one end of a circular shaft between the third frame edge and the second frame plate is connected with the supporting plates, and the other end of the circular shaft is connected with the second bottom plate.

Furthermore, one end of the second supporting rail is connected with the flat plate, and the other end of the second supporting rail is connected with the second bottom plate; one end of the third supporting gear is connected with the flat plate, and the other end of the third supporting gear is connected with the second bottom plate.

Compared with the prior art, the beneficial effects of the utility model are that:

the utility model discloses a bevel connection machine adopts a plurality of fortune wheels, and area of contact is few and roll from the area, and the friction does not influence the original speed of goods for a short time, and need not power and control, reduces the cost.

Drawings

Fig. 1 is an overall structure diagram of an unpowered furcal wheel beveling machine according to the present embodiment.

In the figure, 1 a first frame edge, 2 a second frame edge, 3 a third frame edge, 4 a second supporting rib, 5 a third supporting rib, 6 a first partition plate, 7 a second partition plate, 8 a round shaft, 9 a Fulai wheel, 10 a first bottom plate, 11 a first side plate, 12 a second bottom plate, 13 a second side plate, 14 a flat plate and 15 supporting plates.

Detailed Description

The invention will be further described with reference to specific examples, but the scope of the invention is not limited thereto.

As shown in fig. 1, the present embodiment is an unpowered forfei wheel 9 bevel machine, which comprises a bevel frame. The bevel opening frame comprises a first frame side 1, a second frame side 2 and a third frame side 3, the first frame side 1 and the second frame side 2 are arranged in parallel, the length of the first frame side 1 is smaller than that of the second frame side 2, one end of the first frame side 1 is aligned with one end of the second frame side 2, and one end of the first frame side 1 is connected with one end of the second frame side 2 through a first supporting baffle (not shown in the figure); the other end of the first frame side 1 and the other end of the second frame side 2 are respectively connected with the two ends of the third frame side 3. A plurality of rows of round shafts 8 are arranged between the first frame side 1 and the second frame side 2 and between the third frame side 3 and the second frame side 2, and the distance between the adjacent round shafts is 60-90 mm. The circular shaft 8 is provided with a plurality of Fowler wheels 9 along the length direction thereof, and the Fowler wheels 9 can freely rotate relative to the circular shaft 8. The Fulai wheels 9 on the adjacent circular shafts 8 are arranged in a staggered way. In the embodiment, a main frame of the bevel rack is formed by a first rack side 1, the first rack side 1 and a third rack side 3, the third rack side 3 is connected with a total conveying system, goods can be gathered to the total conveying system by the bevel rack or can be shunted to the bevel rack by the total conveying system, the bevel rack adopts a structure similar to the size of a Deltat G5 rack as a frame, a conveying surface adopts a round pipe with a plurality of intervals as a round shaft 8, Fulai wheels 9 uniformly distributed on the shaft in a crossed manner form a conveying surface, the multiple Fulai wheels 9 have few contact surfaces with the goods and roll along the self, the friction is small, the original speed of the goods is not influenced, the goods can be conveyed only through the Fulai wheels 9, power and control are not needed, and the cost is saved.

In order to ensure the connection strength between the second frame side 2 and the third frame side 3, a second supporting rail 4 and a third supporting rail 5 are arranged between the second frame side 2 and the third frame side 3. The second supporting rib 4 and the third supporting rib 5 are both parallel to the first supporting rib, and the second supporting rib 4 is located between the first supporting rib and the third supporting rib 5. The first, second and third support bars 4, 5 are all parallel to the circular axis 8. In order to ensure the supporting strength of the circular shaft 8, the bevel frame further comprises a first partition plate 6 parallel to the first frame edge 1, one end of the first partition plate 6 is connected with the first supporting baffle, and the other end of the first partition plate is connected with the second supporting baffle 4. The circular shaft 8 corresponding to the first partition 6 penetrates the first partition 6. The bevel opening frame further comprises a second partition plate 7 parallel to the first frame side 1, one end of the second partition plate 7 is connected with the first supporting rail, and the other end of the second partition plate 7 is connected with the third supporting rail 5. The circular shaft 8 corresponding to the second partition 7 penetrates the second partition 7. The length of the second partition 7 is greater than the length of the first partition 6 to ensure that more of the circular shaft 8 penetrates the second partition 7. When the first partition plate 6 is installed, the first partition plate 6 is placed on the first supporting rail and the second supporting rail 4, and then one end of the first partition plate 6 is connected with the first supporting rail and the other end is connected with the second supporting rail 4. When the second partition plate 7 is installed, the second partition plate 7 is placed on the first support rail and the third support rail 5, and then one end of the second partition plate 7 is connected with the first support rail and the other end is connected with the second support rail 4. The first supporting rib, the second supporting rib 4 and the third supporting rib 5 are all located on the same horizontal plane, and the second supporting rib 4 can be connected with the second partition plate 7.

In order to ensure the structural strength of the first frame side 1, the first frame side 1 is a channel steel and comprises a first bottom plate 10 and two first side plates 11, and a groove opening formed by the first bottom plate 10 and the two first side plates 11 in a surrounding mode faces away from the coming wheel 9. In order to ensure the structural strength of the second frame edge 2, the second frame edge 2 is a channel steel and comprises a second bottom plate 12 and two second side plates 13, and a groove opening formed by the second bottom plate 12 and the two second side plates 13 faces back to the coming wheel 9. One end of the first supporting rail is connected to the first base plate 10, and the other end is connected to the second base plate 12. One end of the circular shaft 8 between the first frame side 1 and the second frame side 2 is connected with the first bottom plate 10, and the other end is connected with the second bottom plate 12.

The third frame side 3 comprises a flat plate 14, and two ends of the flat plate 14 are respectively connected with the first bottom plate 10 and the second bottom plate 12. In order to facilitate the mounting of the circular shaft 8 on the third frame side 3, the flat plate 14 is provided with a plurality of protruding support plates 15 along the length direction thereof, one end of the circular shaft 8 between the third frame side 3 and the second frame plate is connected with the support plates 15, and the other end is connected with the second bottom plate 12. One end of the second supporting rail 4 is connected with the flat plate 14, and the other end is connected with the second bottom plate 12. One end of the third supporting rail 5 is connected with the flat plate 14, and the other end is connected with the second bottom plate 12.

The above detailed description of the embodiments of the present invention provides those skilled in the art with changes in the detailed description and the drawings, and such changes should be considered as within the scope of the present invention.

Claims (10)

1. An unpowered Fulai wheel bevel connection machine is characterized in that:

the bevel connection device comprises a bevel connection rack, wherein the bevel connection rack comprises a first rack side, a second rack side and a third rack side, the first rack side and the second rack side are arranged in parallel, the length of the first rack side is smaller than that of the second rack side, one end of the first rack side is aligned with one end of the second rack side, and one end of the first rack side is connected with one end of the second rack side through a first supporting baffle; the other end of the first frame edge and the other end of the second frame edge are respectively connected with two ends of the third frame edge;

a plurality of rows of circular shafts are arranged between the first rack side and the second rack side and between the third rack side and the second rack side, a plurality of Fulai wheels are arranged on the circular shafts along the length direction of the circular shafts, and the Fulai wheels can freely rotate relative to the circular shafts; the Fowler wheels on the adjacent circular shafts are arranged in a staggered mode.

2. The unpowered Foley wheel mule as defined in claim 1 wherein: a second supporting baffle and a third supporting baffle are arranged between the second frame side and the third frame side; the second supporting gear and the third supporting gear are parallel to the first supporting gear, and the second supporting gear is positioned between the first supporting gear and the third supporting gear.

3. The unpowered Foley wheel mule as defined in claim 2 wherein: the bevel opening frame also comprises a first partition plate parallel to the first frame side, one end of the first partition plate is connected with the first supporting rail, and the other end of the first partition plate is connected with the second supporting rail; the circular shaft corresponding to the first partition board penetrates through the first partition board.

4. The unpowered Foley wheel mule as defined in claim 2 wherein: the bevel opening frame also comprises a second partition plate parallel to the first frame side, one end of the second partition plate is connected with the first supporting rail, and the other end of the second partition plate is connected with the third supporting rail; the circular shaft corresponding to the second partition board penetrates through the second partition board.

5. The unpowered Foley wheel mule as defined in claim 2 wherein: the first frame side is a channel steel and comprises a first bottom plate and two first side plates, and a groove opening formed by the first bottom plate and the two first side plates in a surrounding mode faces back to the coming wheel.

6. The unpowered Fulai wheel beveling machine of claim 5 wherein: the second frame side is a channel steel and comprises a second bottom plate and two second side plates, and a groove opening formed by the second bottom plate and the two second side plates in a surrounding mode faces back to the coming wheel.

7. The unpowered Foley wheel mule as recited in claim 6, wherein: one end of the first supporting rail is connected with the first bottom plate, and the other end of the first supporting rail is connected with the second bottom plate.

8. The unpowered Foley wheel mule as recited in claim 6, wherein: one end of the round shaft between the first rack side and the second rack side is connected with the first bottom plate, and the other end of the round shaft is connected with the second bottom plate.

9. The unpowered Foley wheel mule as recited in claim 6, wherein: the third rack side comprises a flat plate, and two ends of the flat plate are respectively connected with the first bottom plate and the second bottom plate.

10. The unpowered forfei wheel mule as defined in claim 9 wherein: the flat board is provided with a plurality of convex supporting plates along the length direction, one end of a circular shaft between the third frame side and the second frame plate is connected with the supporting plates, and the other end of the circular shaft is connected with the second bottom plate.

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