CN218578832U - Annular conveying device based on linear belt - Google Patents

Abstract

The utility model discloses an annular conveying device based on a linear belt, which comprises a frame, wherein a substrate is arranged on the frame, mandrels are arranged at two ends of the substrate, a driving component is arranged on the frame or at the bottom of the substrate, the mandrels are provided with two rollers capable of rotating independently and are respectively sleeved with a first linear belt and a second linear belt, and the first linear belt and the second linear belt rotate oppositely under the driving of the driving component; the base plate both ends are equipped with first arc guide plate and second arc guide plate respectively, and first arc guide plate extends to second linear belt one side from the first side of second linear belt, and second arc guide plate extends to first linear belt one side from the first side of second linear belt to all there is the clearance between first arc guide plate and second arc guide plate and first linear belt, the second linear belt, do not hinder linear belt's normal operating.

Description

Annular conveying device based on linear belt

Technical Field

The utility model relates to a conveyor especially relates to an annular conveyor based on linear belt.

Background

At present, the existing food in the market sometimes needs to stay or be stored for a period of time after being baked or before being packaged, so that the subsequent production operation is convenient. The universal method is that the manual work is carried out in time on tools such as a trolley or a turnover box, the occupied space is large, and the labor is wasted. Therefore, it is an urgent problem for those skilled in the art to develop an endless conveyor based on a linear belt.

Disclosure of Invention

The utility model provides an solve above-mentioned not enough, provide an annular conveyor based on sharp belt.

The above object of the present invention is achieved by the following technical solutions: the utility model provides an annular conveyor based on linear belt, includes the frame, is equipped with the base plate in the frame, the base plate both ends are equipped with the dabber, in the frame or the base plate bottom is equipped with drive assembly, its characterized in that: the mandrel is provided with two rollers capable of rotating independently, a first linear belt and a second linear belt are sleeved on the rollers respectively, and the first linear belt and the second linear belt rotate in opposite directions under the drive of the driving assembly; the base plate both ends are equipped with first arc guide plate and second arc guide plate respectively, and first arc guide plate extends to second linear belt one side from the first side of second linear belt, and second arc guide plate extends to first linear belt one side from the first side of second linear belt to all there is the clearance between first arc guide plate and second arc guide plate and first linear belt, the second linear belt, do not hinder linear belt's normal operating.

Further, the first arc-shaped guide plate and the second arc-shaped guide plate are fixed on the base plate.

Furthermore, the roller is arranged on the mandrel through a bearing, so that the rolling resistance of the roller is smaller and smoother.

Further, drive assembly includes box support, be equipped with driving motor, drive roll and driven voller on the box support, drive roll and driven voller stagger each other to correspond the position of first sharp belt and second sharp belt respectively, driving motor passes through belt pulley subassembly or sprocket assembly and connects and drive the drive roll, the drive roll drives driven voller reverse rotation through drive gear, the drive roll is overlapped in first sharp belt inboard, and the driven voller is overlapped in second sharp belt inboard.

Furthermore, a first belt guide roller and a second belt guide roller are respectively arranged on the upper sides of the driving roller and the driven roller.

Further, the bottom side of the substrate is provided with at least one belt-shared tension roller.

Further, the dabber passes through scalable adjusting screw and installs at the base plate both ends, scalable adjusting screw includes lead screw portion and axle hole portion, install the nut on the lead screw portion, the pull hole at base plate both ends is inserted to lead screw portion one end to can make a round trip freely twitch in the pull hole, lead screw portion other end connecting axle hole portion, axle hole portion are equipped with the shaft hole that is used for installing the dabber.

Furthermore, a guide wheel is arranged on the base plate.

Compared with the prior art, the utility model the advantage be:

1. the device drives the two straight belts to move in opposite directions through a driving motor, and under the action of the arc-shaped guide plate, products on the belts do annular movement, so that the products are always kept and stored on the equipment, and subsequent manual operation is facilitated.

2. This device reasonable in design is ingenious, and the usage is wide, and is with low costs, and maintenance are convenient, compares traditional turn machine with the preparation of endless belt more for simple, practical, and the overall cost is lower.

Drawings

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

Fig. 2 is an exploded view of the present invention.

Fig. 3 is a schematic structural view of the telescopic adjusting screw of the present invention.

Fig. 4 is a plan view of the present invention.

Fig. 5 is a side view schematic diagram of the present invention.

Fig. 6 is a schematic diagram of the internal structure of the driving mechanism of the present invention.

Fig. 7 is an exploded schematic view of the driving mechanism of the present invention.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings.

As shown in fig. 1 to 7, an annular conveying device based on a linear belt comprises a frame 1, a substrate 2 is arranged on the frame 1, a head mandrel 3 and a tail mandrel 4 are arranged at two ends of the substrate 2, a driving assembly 5 is arranged on the frame 1 or at the bottom of the substrate 2, the head mandrel 3 is provided with a first head roller 6 and a second head roller 7 which can rotate independently through bearings, the tail mandrel 4 is provided with a first tail roller 8 and a second tail roller 9 which can rotate independently through bearings, and a common tensioning roller 10 for two belts is arranged at the bottom side of the substrate 2; the driving assembly 5 comprises a box-type support 501, a driving motor 502, a driving roller 503, a driven roller 504, a first belt guide roller 505 and a second belt guide roller 506 are arranged on the box-type support 501, the driving roller 503 and the driven roller 504 are staggered with each other, the driving motor 502 is connected with and drives the driving roller 503 through a belt pulley assembly or a chain wheel assembly 507, and the driving roller 503 drives the driven roller 504 to rotate reversely through a transmission gear 508; the driving roller 503, the first head roller 6 and the first tail roller 8 are sleeved with a first linear belt 11, and the outer side of the first linear belt 11 bypasses a common tensioning roller 10 and a first belt guide roller 505; the driven roller 504, the second head roller 7 and the second tail roller 9 are sleeved with a second linear belt 12, and the outer side of the second linear belt 12 bypasses the common tensioning roller 10 and the second belt guide roller 506; the first linear belt 11 is parallel to the second linear belt 12, and the first linear belt 11 and the second linear belt 12 are driven by the driving roller 503 and the driven roller to rotate oppositely.

As shown in fig. 1 and 2, a first arc-shaped guide plate 13 and a second arc-shaped guide plate 14 fixed on the substrate 2 are respectively arranged at two ends of the substrate 2, the first arc-shaped guide plate 13 extends to one side of a second linear belt 12 from one side of the first linear belt 11, the second arc-shaped guide plate 14 extends to one side of the first linear belt 11 from one side of the second linear belt 12, and gaps are respectively arranged between the first arc-shaped guide plate 13 and the second arc-shaped guide plate 14 and between the first linear belt 11 and the second linear belt 12, so that the normal operation of the linear belts is not hindered.

As shown in fig. 2 and 3, in order to conveniently adjust the tightness of the linear belt, the head mandrel 3 and the tail mandrel 4 are respectively installed at two ends of the base plate 2 through a telescopic adjusting screw 15, the telescopic adjusting screw 15 comprises a screw portion 1501 and a shaft hole portion 1502, a nut 1503 is installed on the screw portion 1501, one end of the screw portion 1501 is inserted into the drawing hole 201 at two ends of the base plate 2 and can freely move back and forth in the drawing hole 201, the other end of the screw portion 1501 is connected with the shaft hole portion 1502, and the shaft hole portion 1502 is provided with a shaft hole 1504 for installing the mandrels. When the linear belt is tightened, the nut 1503 only needs to be rotated to extend the screw rod portion 1501 outwards for lengthening, and when the linear belt is loosened, the nut 1503 also needs to be rotated reversely to retract the screw rod portion 1501 into the drawing hole under the elastic contraction pressure of the belt for shortening.

As shown in fig. 1 and 2, for auxiliary guiding, a head guide wheel 16 and a tail guide wheel 17 are arranged on the substrate 2, and both the head guide wheel 16 and the tail guide wheel 17 are located at a gap between the first linear belt 11 and the second linear belt 12 and are not in contact with the first linear belt 12 and the second linear belt 12; a product flow channel 18 is formed between the head guide wheel 16 and the tail guide wheel 17 and the first arc-shaped guide plate 13 and the second arc-shaped guide plate 14 respectively.

The utility model discloses a structure adopts two ordinary sharp belts to make product 19 can realize the circular motion, makes product 19 stop all the time and store on equipment, the follow-up manual work of being convenient for. The device has the advantages of simple design, wide application, low cost, convenient replacement and maintenance, and lower overall cost compared with the traditional turning machine made of the annular belt, and is simple and practical.

The above only is the embodiment of the present invention, not limiting the patent scope of the present invention, all the equivalent structures or equivalent processes that are used in the specification and the attached drawings or directly or indirectly applied to other related technical fields are included in the patent protection scope of the present invention.

Claims (8)

1. The utility model provides an annular conveyor based on sharp belt, includes the frame, is equipped with the base plate in the frame, the base plate both ends are equipped with the dabber, in the frame or the base plate bottom is equipped with drive assembly, its characterized in that: the mandrel is provided with two rollers capable of rotating independently, a first linear belt and a second linear belt are respectively sleeved on the two rollers, and the first linear belt and the second linear belt are driven by the driving assembly to rotate in opposite directions; the base plate both ends are equipped with first arc guide plate and second arc guide plate respectively, and first arc guide plate extends to second sharp belt one side from first sharp belt one side, and second arc guide plate extends to first sharp belt one side from second sharp belt one side to all there is the clearance between first arc guide plate and second arc guide plate and first sharp belt, the sharp belt of second.

2. An endless conveyor based on a linear belt as claimed in claim 1, wherein: first arc guide plate and second arc guide plate are fixed on the base plate.

3. An endless conveyor based on a linear belt as claimed in claim 1, wherein: the roller is mounted on the mandrel through a bearing.

4. An endless conveyor based on a linear belt as claimed in claim 1, wherein: drive assembly includes box support, be equipped with driving motor, drive roll and driven voller on the box support, drive roll and driven voller stagger each other to correspond first sharp belt and second sharp belt's position respectively, driving motor passes through belt pulley subassembly or sprocket assembly and connects and drive the drive roll, the drive roll drives driven voller reverse rotation through drive gear, the drive roll is overlapped in first sharp belt inboard, and the driven voller is overlapped in second sharp belt inboard.

5. An endless conveyor based on a linear belt as claimed in claim 4, wherein: and a first belt guide roller and a second belt guide roller are respectively arranged on the upper sides of the driving roller and the driven roller.

6. An endless conveyor based on a linear belt as claimed in claim 5, wherein: the bottom side of the substrate is provided with at least one belt shared tensioning roller.

7. An endless conveyor based on a linear belt as claimed in claim 1, wherein: the dabber passes through scalable adjusting screw and installs at the base plate both ends, scalable adjusting screw includes lead screw portion and axle hole portion, install the nut on the lead screw portion, the pull hole at base plate both ends is inserted to lead screw portion one end to can make a round trip freely twitch in the pull hole, lead screw portion other end connecting axle hole portion, axle hole portion are equipped with the shaft hole that is used for installing the dabber.

8. An endless conveyor based on a linear belt as claimed in claim 1, wherein: and the base plate is provided with a guide wheel.

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