CN217349347U - Rotary sorting mechanism for conveying belt - Google Patents

Abstract

The utility model relates to a conveying mechanism, in particular to rotatory letter sorting mechanism of conveyor belt has solved conveying structure's design problem. Including the main frame that bears the weight of the main part, set up in the rotating belt subassembly of central point position, from the input belt subassembly of taking independent motor, from the output belt subassembly of taking independent motor, from the reposition of redundant personnel belt subassembly of taking independent motor and drive rotating belt subassembly pivoted rotating electrical machines, rotating electrical machines and main frame fixed assembly, still be equipped with the telescopic cylinder that props up and asks lift input belt subassembly, output belt subassembly and reposition of redundant personnel belt subassembly on the main frame, application scope is wide, does not confine to the letter sorting of special shape to be carried, and structural design is simple, ingenious, mainly utilizes belt drive's characteristic, convenient production, reduce cost and use widely.

Description

Rotary sorting mechanism for conveying belt

Technical Field

The utility model relates to a conveying mechanism, in particular to rotatory letter sorting mechanism of conveyor belt.

Background

At present, conveying equipment or products on the market are various in types, and even equipment with a rotary flow dividing function is available. However, many conveyors can only meet the requirements of conveying goods in specific shapes, or can be conveniently realized by using trays, cartons and the like. In addition, most of the products have complex structures, high cost, inconvenient maintenance and narrow application range, can be only applied to large-scale enterprises and special scenes, and are difficult to meet the use requirements of the existing users.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art, the utility model provides a rotatory letter sorting mechanism of conveyor belt.

In order to realize the purpose, the utility model adopts the technical scheme that: the utility model provides a rotatory letter sorting mechanism of conveyer belt, includes the main frame that bears the main part, sets up in the rotatory belt subassembly of central point position, from the input belt subassembly of taking independent motor, from the output belt subassembly of taking independent motor, from the reposition of redundant personnel belt subassembly of taking independent motor and drive rotatory belt subassembly pivoted rotating electrical machines, rotating electrical machines and main frame fixed assembly, still be equipped with the telescopic cylinder that props up and asks lift input belt subassembly, output belt subassembly and reposition of redundant personnel belt subassembly on the main frame, input belt subassembly and output belt subassembly set up respectively and constitute linear transfer passage in the relative both sides of rotatory belt subassembly, through gear engagement transmission between rotating electrical machines and the rotatory belt subassembly.

The main frame is a frame-shaped structure consisting of a plurality of connecting rods.

The main frame is provided with a plurality of groups of guide rails, and the input belt assembly, the output belt assembly and the shunt belt assembly respectively comprise guide blocks in limited sliding fit with the guide rails.

The conveying distance between the conveyor belts of the input belt assembly, the output belt assembly and the shunt belt assembly is smaller than that of the rotating belt assembly.

The input belt assembly, the output belt assembly and the shunt belt assembly are respectively provided with an interval with the rotating belt assembly, and the interval between the shunt belt assembly and the rotating belt assembly is larger than the distance between the input belt assembly and the output belt assembly and the distance between the shunt belt assembly and the rotating belt assembly and the distance between the shunt belt assembly and the rotating belt assembly and the distance between the input belt assembly and the output belt assembly and the rotating belt assembly and the distance between the shunt belt assembly and the rotating belt assembly.

The rotary belt assembly is provided with a positioning groove at one end of the conveying inlet and outlet, positioning blocks are arranged at one ends of the input belt assembly, the output belt assembly and the shunt belt assembly, which face the rotary belt assembly respectively, and the positioning blocks are connected with the positioning grooves to be matched and limited.

The positioning block and the positioning groove are in an elliptic straight shape with semicircular ends and a square and straight center.

The input belt assembly, the output belt assembly and the shunt belt assembly respectively comprise a conveying belt, a roll shaft, a driving wheel, a driving motor and a mounting frame.

The mounting bracket at least comprises limiting plates, and the roll shaft is movably assembled between the two limiting plates.

Still including setting up the drive mechanism between rotating electrical machines and rotatory belt subassembly, drive mechanism includes rotatory linkage gear.

Still including the tilting mechanism that promotes belt subassembly corotation or reversal, tilting mechanism is including articulated upset connection push rod, the linear sliding assembly push rod sliding seat and the upset servo motor on the main frame of connecting one side on input belt subassembly, output belt subassembly and reposition of redundant personnel belt subassembly, input belt subassembly, output belt subassembly and reposition of redundant personnel belt subassembly rotate the assembly on the main frame through the hub connection separately, the linkage assembly between upset servo motor and the push rod sliding seat, the articulated connection between upset connection push rod and the push rod sliding seat.

The utility model has the advantages that: the utility model provides a rotatory letter sorting mechanism of conveyor belt application scope is wide, does not confine the letter sorting of special shape to carry, and structural design is last simple, ingenious, mainly utilizes belt drive's characteristic, convenient production, reduce cost and use widely.

Drawings

Fig. 1 is a schematic structural diagram of embodiment 1 of the present invention;

fig. 2 is a schematic view of a matching structure of a guide rail and a guide block according to embodiment 1 of the present invention;

fig. 3 is a schematic view of a matching structure of a positioning block and a positioning groove according to embodiment 1 of the present invention;

fig. 4 is an exploded schematic view of embodiment 2 of the present invention.

Detailed Description

Example 1: as shown in fig. 1-3, a conveyor belt rotary sorting mechanism comprises a main frame 1 for supporting a main body component, a rotary belt component 2 arranged at a central position, an input belt component 3 with an independent motor, an output belt component 4 with an independent motor, a diversion belt component 5 with an independent motor and a rotary motor 6 for driving the rotary belt component 2 to rotate, wherein the independent motors are favorable for maintenance and subsequent steering design and are respectively independent units for use and replacement. The rotary motor 6 and the main frame 1 are fixedly assembled, a telescopic cylinder 7 which supports the lifting input belt assembly 3, the output belt assembly 4 and the shunt belt assembly 5 is further arranged on the main frame 1, the input belt assembly 3 and the output belt assembly 4 are respectively arranged on two opposite sides of the rotary belt assembly 2 to form a linear conveying channel, and the rotary motor 6 and the rotary belt assembly 2 are in gear engagement transmission. The rotating belt assembly 2 is the core part, which is centrally arranged and can be driven in rotation by a rotating electric machine 6, while the other belt parts are designed separately around the rotating belt assembly 2. The rotating motor 6 and the rotating belt assembly 2 are in meshing transmission through the large gear 8, the large gear 8 and the whole width of the rotating belt assembly 2 are close to each other in the embodiment, on one hand, the large gear 8 is utilized to play a supporting role, on the other hand, the surface connection is firmer and more reliable to point connection or line connection, and the rotation is stable. The telescopic cylinder 7 drives the input belt assembly 3, the output belt assembly 4 and the shunt belt assembly 5 to lift, so that the original conveying channel is thoroughly isolated, and conveying errors are avoided.

Under normal conditions, the materials directly flow away, enter the belt assembly 3, pass through the rotating belt assembly 2 and are output by the output belt assembly 4; when needing to decompose, input belt subassembly 3 and output belt subassembly 4 can be down to the position of settlement under telescopic cylinder 7's drive, and rotatory belt subassembly 2 rotates 90 degrees and reposition of redundant personnel belt subassembly 5 butt joints under the cooperation of rotating electrical machines 6 and gear wheel 8 afterwards, finally realizes the purpose of reposition of redundant personnel, and is different and cut off with former delivery path.

The main frame 1 is a frame structure consisting of a plurality of connecting rods 11, and the relatively hollow structure is beneficial to reducing the cost on the premise of ensuring the structural strength and facilitating the assembly.

Be equipped with a plurality of groups guide rail 9 on the main frame 1, input belt subassembly 3, output belt subassembly 4 and reposition of redundant personnel belt subassembly 5 all include with the spacing sliding fit's of guide rail 9 guide block 10, are favorable to accurately guiding the lift of input belt subassembly 3 and output belt subassembly 4. The conveying distance of the conveying belts of the input belt assembly 3, the output belt assembly 4 and the shunt belt assembly 5 is smaller than that of the rotating belt assembly 2, safe transmission is facilitated due to the arrangement of the conveying belts at intervals, and collision and damage caused by emergency are avoided.

The input belt assembly 3, the output belt assembly 4 and the shunt belt assembly 5 respectively have intervals with the rotating belt assembly 2, and the interval between the shunt belt assembly 5 and the rotating belt assembly 2 is greater than the distance between the input belt assembly 3 and the output belt assembly 4 and the rotating belt assembly 2. Typically, the rotary belt assembly 2 is transported over a longer distance, while other belt portions are transported over a shorter distance only for transitional purposes.

Rotatory belt subassembly 2 is equipped with constant head tank 12 in the import and export one end of conveying, input belt subassembly 3, output belt subassembly 4 and reposition of redundant personnel belt subassembly 5 are equipped with locating piece 13 towards the one end of rotatory belt subassembly 2 separately, locating piece 13 meets the cooperation spacing with constant head tank 12. The design of the positioning block 13 and the positioning groove 12 is beneficial to the transmission stability, and generally only a single positioning block is designed. The positioning block 13 is in an elliptical shape with semicircular ends and a straight center, and the shape is favorable for smooth and quick butt joint. The positioning groove 12 is matched with the positioning block 13 in shape, but one end of the positioning groove 12 is opened for the positioning block 13 to enter when ascending and descending.

The input belt assembly 3, the output belt assembly 4 and the shunt belt assembly 5 respectively comprise a conveying belt, a roll shaft, a driving wheel, a driving motor and a mounting frame. The mounting frame at least comprises limiting plates, and the roll shaft is movably assembled between the two limiting plates. Similar to most belt drive structures, some basic components are included, and only a special driving motor is provided, which is not described herein. The belt conveyor is characterized by further comprising a transmission mechanism arranged between the rotating motor 6 and the rotating belt component 2, wherein the transmission mechanism comprises a rotary linkage gear, and the transmission mechanism is not limited to only adopting a gear, can be matched with other structures for transmission, is convenient to assemble and is arranged as the transmission mechanism.

Example 2: as shown in fig. 4, unlike embodiment 1, the present invention further includes a turnover mechanism for pushing the belt assembly to rotate forward or backward, and forward or backward rotation can be performed by the turnover mechanism. Tilting mechanism connects push rod 14, the linear sliding assembly push rod sliding seat 15 and the upset servo motor 16 on main frame 1 including the upset of one side on input belt subassembly 3, output belt subassembly 4 and reposition of redundant personnel belt subassembly 5 of articulated connection, input belt subassembly 3, output belt subassembly 4 and reposition of redundant personnel belt subassembly 5 rotate the assembly on main frame 1 through the hub connection separately, the linkage assembly between upset servo motor 16 and the push rod sliding seat 15, the upset is connected between push rod 14 and the push rod sliding seat 15 is articulated. The input belt assembly 3, the output belt assembly 4 and the shunt belt assembly 5 use a guide block 10 on a guide rail 9 of the main frame, and the shaft connection is adopted, namely the guide block 10 is a single shaft, so that the belt assemblies can be turned over. Meanwhile, the push rod sliding seat 15 is driven by the overturning servo motor 16 to perform linear reciprocating movement, and drives the overturning connecting push rod 14 to pull the belt assembly to overturn. It should be noted that the supporting function of the telescopic cylinder 7 on the belt assembly may be an abutting linkage or other movable connection manner, and in this embodiment, the telescopic cylinder 7 may be directly assembled on the push rod sliding seat 15 to be more flexible for turning and lifting adjustment, but is by no means limited thereto and is only described as an embodiment.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate the position or positional relationship based on the position or positional relationship shown in the drawings, and are only for convenience of description, and are not intended to indicate or imply that the device or element referred to must have a specific position, be constructed and operated in a specific orientation, and therefore, are not to be considered as limitations of the present invention, and the fundamental principles, main features, and advantages of the present invention have been shown and described above, as would be understood by those skilled in the art.

Claims (10)

1. The utility model provides a rotatory letter sorting mechanism of conveyer belt, its characterized in that, including the main frame that bears the main part, set up in the rotatory belt subassembly of central point position, the input belt subassembly of taking independent motor certainly, the output belt subassembly of taking independent motor certainly, the reposition of redundant personnel belt subassembly of taking independent motor certainly and drive rotatory belt subassembly pivoted rotating electrical machines, rotating electrical machines and main frame fixed assembly, still be equipped with the telescopic cylinder of bracketing lift input belt subassembly, output belt subassembly and reposition of redundant personnel belt subassembly on the main frame, input belt subassembly and output belt subassembly set up respectively and constitute linear transfer passage in the relative both sides of rotatory belt subassembly, through gear engagement transmission between rotating electrical machines and the rotatory belt subassembly.

2. The conveyor belt rotary sorter of claim 1 wherein said main frame is a frame-like structure comprised of a plurality of connecting rods.

3. The conveyor belt rotary sorter mechanism of claim 1 or 2 wherein the main frame has a plurality of sets of guide tracks, and the input belt assembly, the output belt assembly and the splitter belt assembly each include guide blocks in limited sliding engagement with the guide tracks.

4. The conveyor belt rotary sorter mechanism of claim 3 wherein the conveyor belt transport distance of the input belt assembly, the output belt assembly and the diverter belt assembly is less than the rotary belt assembly.

5. The conveyor belt rotary sorter mechanism of claim 4 wherein the input belt assembly, the output belt assembly and the diverter belt assembly are each spaced from the rotary belt assembly by a distance greater than the distance of the input belt assembly from the output belt assembly.

6. The rotary belt sorting mechanism according to claim 1, wherein the rotary belt assembly has a positioning groove at one end of the transfer inlet and outlet, and the respective ends of the input belt assembly, the output belt assembly and the diversion belt assembly facing the rotary belt assembly have positioning blocks, and the positioning blocks are connected to the positioning groove for positioning.

7. The rotary belt sorting mechanism as claimed in claim 6, wherein the positioning block and the positioning groove are formed in an elliptical shape with semicircular ends and a straight center.

8. The rotary sorting mechanism for conveyor belts according to claim 1, wherein the input belt assembly, the output belt assembly and the splitting belt assembly each comprise a conveyor belt, a roller shaft, a transmission wheel, a driving motor and a mounting frame, the mounting frame comprises at least two limiting plates, and the roller shaft is movably assembled between the two limiting plates.

9. The conveyor belt rotary sorter mechanism of claim 1 further comprising a transmission disposed between the rotary motor and the rotary belt assembly, the transmission including a rotary linkage gear.

10. The conveyor belt rotary sorting mechanism of claim 1, further comprising a turnover mechanism for pushing the belt assembly to rotate forward or backward, wherein the turnover mechanism comprises a turnover connecting push rod hinged to one side of the input belt assembly, the output belt assembly and the splitter belt assembly, a push rod sliding seat linearly and slidably mounted on the main frame, and a turnover servo motor, wherein the input belt assembly, the output belt assembly and the splitter belt assembly are rotatably mounted on the main frame through respective shaft connections, the turnover servo motor and the push rod sliding seat are assembled in a linkage manner, and the turnover connecting push rod and the push rod sliding seat are hinged to each other.

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