JPH06156665A - Conveyor device - Google Patents

Abstract

PURPOSE:To provide a conveyor device allowing the carrier force of a belt to be increased easily and tension to be adjusted while keeping the conveyed face length of a load approximately constant. CONSTITUTION:An outer skin body 27 made of elastic synthetic resin is integrally fixed to the outer periphery of a drive roller 12 with a belt 7 wound thereon. The carrier force of the belt 7 is thereby increased, and a tension spring 32 and tension rollers 35 can be internally provided in the vertical width of a conveyor frame. Tension can be also adjusted in the state of the conveyed face length of a load 6 on the upper face side of the belt 7 being kept approximately constant, and the tension roller 35 is brought in proximity to the drive roller 12 so that the belt 7 can be easily brought into contact with the drive roller 12 by the semicircle length of the drive roller 12 or longer.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a conveyor device that constitutes, for example, the floor surface of a truck bed.

[0002]

2. Description of the Related Art Conventionally, driving and driven rollers are rotatably supported between a pair of parallel left and right conveyor frames, endless rubber flat belts are stretched between the rollers, and a load is placed on the upper surface of the belt for conveyance. There was a technique to do it.

[0003]

In the prior art described above, when a heavy object is conveyed, it is necessary to provide a chain or a V-belt to increase the conveying force of the flat belt, and the tension bolts are provided outside the conveyor frame. Since the driven roller is provided and the driven roller is displaced by the bolt to adjust the tension of the flat belt, the horizontal width required to install the flat belt becomes larger than the horizontal width of the left and right conveyor frames, and the flat roller is displaced by the displacement of the driven roller. There are structural and functional problems such as the length of the baggage transport surface changing.

[0004]

SUMMARY OF THE INVENTION Therefore, the present invention provides a conveyor device in which driving and driven rollers are provided on both sides of a conveyor frame to stretch an endless rubber flat belt, and a tension roller elastically presses the tension roller against the belt. A floor frame for integrally fixing an outer cover made of an elastic synthetic resin on the outer periphery of a drive roller around which the belt is wound, and for slidably supporting the load carrying surface on the upper surface side of the belt in a substantially flat state. A tension spring and a tension roller are attached from below from within the vertical width of the conveyor frame between one side of the frame and the drive roller, and the belt conveying force is fixed by fixing the outer cover to the drive roller. The tension spring can be easily added to the space where the conveyor frame is installed. Provided inside to obtain a fine tension roller,
Further, the tension can be adjusted while keeping the length of the belt carrying surface substantially constant, and the tension roller can be brought closer to the driving roller to easily contact the driving roller with the belt over a half circumference or more. Is.

[0005]

Embodiments of the present invention will now be described in detail with reference to the drawings. FIG. 1 is a side view of the flat belt portion, FIG. 2 is a side view of the truck carrier, and FIG. 3 is a plan view of the truck carrier. The square box-shaped truck carrier (1) has a door (2 )
(3) Three endless rubber flat belts (7) which are attached side by side (3) are mounted and the luggage (6) is put in and out of the luggage carrier (1) through the side opening (4) or the rear opening (5).
... is stretched in the front-back direction on the floor of the loading platform (1), the luggage (6) is placed on the belt (7) and transported back and forth, and the partition plate is mounted on the ceiling of the loading platform (1) via the rail (8). (9) is slidably suspended in the front-rear direction, the partition plate (9) prevents the load from collapsing in the front-rear direction, and the partition plate (9) is removed from the rear end of the rail (8) when unnecessary. is doing.

Further, as shown in FIGS. 1, 4 and 5, 1
Two left and right conveyor frames (10) (11) are provided for each flat belt (7), and each frame (10) (1)
Driving and driven pulleys (12) between the front and rear ends of 1)
(13) is pivotally supported, a flat belt (7) is stretched between the pulleys (12) and (13), and each frame (10) is
Connecting plates (14), (14) and (15) are fixed between the front ends of (11) by bolts (16) ...
0) (11) T-shaped support columns (17) (17) are erected and fixed, and adjacent connecting plates (14) (15) and support columns (17) are fixed by bolts (18) ... An electric motor (19) that uses a battery as a power source and an output sprocket (20) are provided in a reduction gear case (21), and the case (21) is fixedly provided on the upper surface of a central connecting plate (15).

Further, as shown in FIG. 6, the driving roller (1
2) Roller shafts (22) and (22) are fixed to both ends, and bearing bearings (23) at the front ends of the frames (10) and (11)
The roller shafts (22) and (22) are pivotally supported by (23), and the adjacent roller shafts (22) and (22) are connected to the shaft coupling (2).
4) Removably key-fit and connect with the shaft coupling (2
4) The input sprocket (25) integrally formed with the output sprocket (20) is interlockingly connected to the output sprocket (20) via the chain (26), and the roller (12) is normally and reversely rotated by the motor (19), and the flat belt (7) upper surface is connected. In order to move the load carrying surface on the side back and forth, an outer cover (27) made of an elastic synthetic resin of substantially the same material as the flat belt (7) is wound around the outer circumference of the metal drive roller (12) and integrally bonded. It is fixed, and the outer skin body (27) prevents the belt (7) and the roller (12) from slipping.

Further, as shown in FIGS. 1 and 7, a horizontal frame (28) is provided between the left and right conveyor frames (10) and (11).
A plurality of horizontal frames (28) provided at substantially equal intervals in the front-rear direction ... A floor frame (29) is stretched and fixed on the plurality of horizontal frames (10) and (11) in parallel with a plurality of floors. The frame (29) is erected, the upper and lower surfaces of the flat belt (7) are brought into sliding contact with the upper surface of the floor frame (29), and the load carrying surface on the upper surface of the flat belt (7) is made substantially flat by the floor frame (29). It is configured to slidably support the state.

Further, as shown in FIGS. 1 and 8, the spring seats (30) are fixed by screws (31) between the left and right conveyor frames (10) and (11), and a pair of tension springs (compression coil springs) are used. 32) (32) spring seat (30)
The spring (32) (32) upper surface is brought into contact with the lower surface of the tension frame (33), and front and rear support shafts (34) (34) are provided on the front and rear sides of the tension frame (33). (34) Tension roller (3
5) The (35) is rotatably supported while the guide grooves (36) (3) inside the conveyor frame (10) (11) are supported.
6) both ends of the support shaft (34) are slidably engaged only in the vertical direction, and the tension roller (35) is vertically guided by the support shaft (34) and the guide groove (36). The tension roller (35) is arranged between the drive roller (12) and the idle roller (37), and the tension roller (35) is arranged between the front end of the floor frame (29) and the drive roller (12) within the vertical width of the conveyor frame (10) (11). The tension spring (32) and the tension roller (35) are attached to the lower side of the flat belt (7), and the lower surface side of the flat belt (7) is attached to the tension roller (3).
5) The tension of the flat belt (7) is maintained above a predetermined level by pushing up by the driving roller (12) and the front tension roller (35) is brought close to the driving roller (12) to drive the driving roller (12).
A flat belt (7) is wrapped around the outer circumference for more than half a round, and the outer skin (2
The antislip force of 7) is further increased. The tension spring (32) may be formed of a leaf spring or the like.

Further, as shown in FIGS. 1, 2 and 3, the front limit plate (3) also serves as a cover for covering the upper surface and the rear surface of the motor (19) and the deceleration case (21).
8), the limit plate (38) is provided with a connecting plate (14)
A front limit switch (40) is provided at (15) so as to be movable in the front-rear direction, and is turned off when the limit plate (38) being moved rearward is moved to the spring (39) by the collision of the load (6). , When the load (6) reaches the front end of the load carrier (1), the forward movement by the motor (19) is stopped, and the limit plate (38) inside the front wall of the load carrier (1) is stopped.
The upper space is closed by the guard frame (41) so that the limit plate (38) and the guard frame (41) when moved forward are substantially flush with each other, and even if the loads (6) are stacked, this forward movement is performed by the frame (41). ) And equipped with photoconductive sensor type rear limit switches (42) and (43) for detecting the load (6) reaching the rear end of the load carrier (1), the load (6) being at the rear end of the load carrier (1). When it reaches the motor (1
The rearward movement of 9) is stopped.

This embodiment is constructed as described above, and the drive roller (12), the driven roller (13) and the idle roller (37) are pivotally supported between the left and right conveyor frames (10) and (11), and each frame is supported. A horizontal frame (28) is connected between (10) and (11) to stretch a floor frame (29), and a flat belt (7) soaked in warm water to soften each roller (12) (13) ( 37) and frame (2
9) The tension roller (35) is attached to the outer circumference, and the tension roller (35) is pressed against the belt (7) from the lower side, and the tension spring (3
2) to insert the spring seat (30) into the conveyor frame (1
0) (11) fixed, connecting plate (14) (15)
Is fixed between the conveyor frames (10) and (11) to form a conveyor unit, and three sets of conveyor units are arranged side by side on the floor of the loading platform (1), and the connecting plates (14) (1
Each frame (10) by connecting 5) with the support (17)
(11) By fixing the front parts to each other, each frame (10) (1
1) The rear parts are connected and fixed to each other by a rod (44) or the like, and the output sprocket (20) and the input sprocket (25) of the reduction case (21) on the connecting plate (15) are connected by a chain (26), The three flat belts (7) form the cargo (1) floor surface of the luggage (6) and the forward and reverse control of the motor (19) and limit switches (40), (42) and (43). The belt (7) is driven by control to convey the load on the belt (7) in the front-rear direction.

[0012]

As is apparent from the above embodiments, according to the present invention, the endless rubber flat belt (7) is stretched by providing driving and driven rollers (12) and (13) on both sides of the conveyor frame (10) (11). Tension spring (3
In a conveyor device for elastically pressing the tension roller (35) against the belt (7) by means of 2), an elastic synthetic resin outer skin (27) is integrally fixed to the outer periphery of a drive roller (12) around which the belt (7) is wound. At the same time, a floor frame (29) for slidably supporting the conveyance surface of the load (6) on the upper surface side of the belt (7) is provided, and one side portion of the floor frame (29) and a drive roller ( 12)
Tension spring (32) and tension roller (35) within the vertical width of the conveyor frame (10) (11) between
Is configured to be attached from the lower side, and the conveyance force of the belt (7) can be easily increased by fixing the outer cover (27) to the drive roller (12) and the conveyor frame (10) ) A tension spring (32) and a tension roller (35) can be installed in the space for installing the (11), and the tension can be adjusted while the length of the belt (7) carrying surface of the luggage (6) is kept substantially constant. Further, the tension roller (35) is brought closer to the drive roller (12) so that the belt (7) can be easily brought into contact with the drive roller (12) with a length of half a circumference or more.

[Brief description of drawings]

FIG. 1 is a side view of a flat belt portion.

FIG. 2 is a side view of a truck carrier.

FIG. 3 is a plan view of the same.

FIG. 4 is a side view of a conveyor frame section.

FIG. 5 is a rear view of the electric motor unit.

FIG. 6 is a sectional view of a drive roller portion.

FIG. 7 is a sectional view of a floor frame portion.

FIG. 8 is a rear view of the tension roller portion.

[Explanation of symbols] (6) Baggage (7) Endless rubber flat belt (10) (11) Conveyor frame (12) Drive roller (13) Driven roller (27) Outer skin (29) Floor frame (32) Tension spring ( 35) Tension roller

Claims (1)

[Claims] 1. An outer periphery of a driving roller for winding the belt in a conveyor device in which driving and driven rollers are provided on both sides of a conveyor frame to stretch an endless rubber flat belt, and a tension roller elastically presses the tension roller against the belt. A floor frame for integrally fixing the outer cover made of elastic synthetic resin to the belt and for slidably supporting the load carrying surface on the upper surface side of the belt is provided between one side portion of the floor frame and the drive roller. The conveyor device is characterized in that the tension spring and the tension roller are attached from below in the vertical width of the conveyor frame.