CN220264665U - Ribbon folding machine with adjusting guide mechanism - Google Patents

Abstract

The utility model relates to the technical field of tape stacking machines, in particular to a tape stacking machine with an adjusting and guiding mechanism, which comprises an operation table, wherein a material guiding frame is arranged at the center of the top of the inner wall of one side of the operation table, the material guiding frame is inclined, a roller is arranged at the higher end of the material guiding frame, the front end of the roller penetrates through the material guiding frame and is provided with a motor, and two groups of limiting rollers are rotatably connected at the lower end of the material guiding frame; according to the utility model, the material guide frame, the material receiving frame, the material stacking plate and the air cylinder are arranged, so that the guided belt is stacked in layers, the unstable stacking condition caused by random belt stacking is reduced, and the belt stacking efficiency is improved; and through setting up stop gear, it cooperates with receiving frame and cylinder, realizes supporting to press the righting to stacking the fore-and-aft end nature of multilayer belt on folding flitch to follow-up belt skew of stacking influences whole stacking effect, further improves folding area efficiency.

Description

Ribbon folding machine with adjusting guide mechanism

Technical Field

The utility model relates to the technical field of tape stacking machines, in particular to a tape stacking machine with an adjusting and guiding mechanism.

Background

The coal mine conveyer belt is suitable for transporting massive and powdery materials under general conditions, the steel wire rope belt used under the coal mine needs to be replaced periodically, and when the steel wire rope belt is replaced, the coiled belt on the ground needs to be stacked on a flat car by utilizing a belt stacking machine, and then transported to the well for replacement.

When the coiled belts are led out and stacked, the belt surface is smooth and the sliding speed is high, if the belts are directly fed and stacked, the lengths of the belts of each group of stacked layers are different, and the folding bending points are not on the same straight line, so that the problems of poor stability and reduced stacking efficiency of the whole belt stack are easily caused, in addition, in the process of stacking and falling of the belts, the belts of partial layers are easily deviated along with the increase of the stacking height to influence the stability of the subsequent stacked belts and the whole belt group stack, and the stacking efficiency is reduced.

Disclosure of Invention

The utility model aims to facilitate layering and stacking of the guided belt by arranging the material guide frame, the material receiving frame, the material stacking plate and the air cylinder, reduce the unstable stacking condition caused by arbitrary stacking of the belt and improve the stacking efficiency of the belt; and through setting up stop gear, it cooperates with receiving frame and cylinder, realizes supporting to press the righting to stacking the fore-and-aft end nature of multilayer belt on stacking the flitch to follow-up belt skew of stacking the transport influences whole stacking effect, further improves and stacks the area efficiency.

The aim of the utility model can be achieved by the following technical scheme: the utility model provides a folding machine with adjust guiding mechanism, includes the operation panel, operation panel one side inner wall is located top center department and is provided with the guide frame, and the guide frame is the slope form, the inside higher one end department that is located of guide frame is provided with the roller, and the front end of roller runs through the guide frame and is provided with the motor, the inside lower one end department that is located of guide frame rotates and is connected with two sets of limiting rollers, and the guide groove has been seted up to guide frame bottom inner wall be located between two sets of limiting rollers;

the inside center department of operation panel is provided with connects the material frame, and connects material frame center department transversely to be provided with the stack flitch, the lower one end of guide frame extends to and connects material frame upper end department, it is provided with the assembly pulley respectively to connect material frame bottom surface to be located fore-and-aft, and connects one side center department that the guide frame was kept away from to the material frame to be provided with the push rod, the one end that the guide frame was kept away from to the push rod is provided with the cylinder, and the frame that the cylinder was passed through the adaptation is installed in operation panel bottom inner wall department.

Furthermore, a chute is transversely formed in the inner wall of the bottom of the operating platform, and a tooth group is arranged at one end of the inner wall of the front end of the chute, which is positioned at the material guiding frame.

Further, the front end face and the rear end face of the stacking plate are respectively provided with a plurality of groups of rectangular clamping grooves, the frames on the upper end face of the material guiding frame are respectively provided with long grooves, and a limiting mechanism is arranged between the two groups of long grooves and at the front end and the rear end.

Further, stop gear includes two sets of slide bars, two sets of slide bars are respectively through the slider sliding connection that bottom surface both sides department set up in two sets of long grooves inside near front and back end department, two sets of slide bar opposite face center department equal fixed mounting has T type to support the pole, and T type support the pole and keep away from the equidistant fixed mounting of one end face of slide bar and have a plurality of groups to support the piece, support the piece and correspond with the rectangle draw-in groove, and support the piece upper and lower extreme and all be curved surface structure.

Further, stop gear still includes the carousel, the carousel passes through the bearing rotation and connects in folding flitch bottom surface center department, the end is toper structure setting about the carousel and articulates respectively has the lifter, two sets of the one end that the carousel was kept away from to the lifter articulates with the slide bar bottom surface one end that corresponds mutually.

Furthermore, the bottom of the bearing penetrates through the turntable and is fixedly provided with a fluted disc which is in sliding connection with the inside of the chute.

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

1. according to the utility model, the guide frame, the receiving frame, the stacking plate and the air cylinder are arranged, the belt reeled outside the winding roller is sequentially guided out and stacked on the surface of the stacking plate, the air cylinder is started, the receiving frame and the stacking plate are driven by the push rod to reciprocate left and right, the stacking plate and the guide groove move relatively and sequentially carry out bearing on the guided belt from left to right, the guided belt is repeatedly stacked at the stacking plate in sequence, the situation that the stacking is unstable due to random stacking of the belt is reduced, and the stacking efficiency of the belt is improved;

2. according to the utility model, the limiting mechanism is matched with the material receiving frame and the air cylinder, when the air cylinder pushes the material receiving frame to reciprocate, the fluted disc linearly slides along the inside of the chute until the fluted disc is meshed with the tooth groups, namely, the fluted disc and the rotary disc simultaneously rotate anticlockwise, two groups of sliding rods are respectively pulled by the lifting rods to be close to each other at two groups of T-shaped supporting rods to be respectively close to the front end and the rear end of the material stacking plate, a plurality of groups of supporting pieces are respectively inserted into the corresponding rectangular clamping grooves until the supporting pieces are pressed, and the front end and the rear end of the material stacking plate are simultaneously pressed by the plurality of groups of supporting pieces, so that intermittent supporting and righting of the front end and the rear end of a plurality of layers of belts stacked on the material stacking plate is realized, the effect of the follow-up stacking conveying belt is prevented from being offset to influence the integral stacking effect, and the belt stacking efficiency is further improved.

Drawings

The present utility model is further described below with reference to the accompanying drawings for the convenience of understanding by those skilled in the art.

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a top view of the operation frame and receiving frame combination of the present utility model;

FIG. 3 is a schematic bottom view of the combination of the receiving frame and the limiting structure of the present utility model;

fig. 4 is a side view of the combination of the T-shaped abutment bar and the abutment sheet of the present utility model.

In the figure: 1. an operation table; 101. a chute; 102. tooth group; 2. a material guiding frame; 201. a roller; 202. a motor; 203. a limit roller; 204. a guide groove; 3. a material receiving frame; 4. stacking plates; 401. a rectangular clamping groove; 402. a long groove; 5. pulley block; 6. a push rod; 7. a cylinder; 8. a limiting mechanism; 801. a slide bar; 802. a T-shaped supporting rod; 803. abutting the sheet; 804. a turntable; 805. a bearing; 806. a lifting rod; 807. a fluted disc.

Detailed Description

The technical solutions of the present utility model will be clearly and completely described in connection with the embodiments, and it is obvious that the described embodiments are only some embodiments of the present utility model, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Embodiment one:

referring to fig. 1-4, a belt stacking machine with an adjusting guide mechanism includes an operation table 1, a chute 101 is transversely provided on an inner wall at a bottom of the operation table 1, a tooth set 102 is provided at one end of an inner wall at a front end of the chute 101 located at a guiding frame 2, a guiding frame 2 is provided at a center of a top of the operation table 1, the guiding frame 2 is inclined, a roller 201 is provided at an inner portion of the guiding frame 2 located at a higher end, a front end of the roller 201 penetrates through the guiding frame 2 and is provided with a motor 202, two sets of limiting rollers 203 are rotatably connected at an inner portion of the guiding frame 2 located at a lower end, and a guiding groove 204 is provided between the two sets of limiting rollers 203;

the inside center department of operation panel 1 is provided with connects material frame 3, and connects material frame 3 center department transversely to be provided with fold flitch 4, and the lower one end of guide frame 2 extends to and connects material frame 3 upper end department, connects material frame 3 bottom surface to be located fore-and-aft the do not to be provided with assembly pulley 5, and connects material frame 3 to be provided with push rod 6 away from a side center department of guide frame 2, and the one end that the material frame 3 was kept away from to push rod 6 is provided with cylinder 7, and cylinder 7 installs in operation panel 1 bottom inner wall department through the frame of adaptation.

During operation, the open ends of the external belts of the roller 201 are pulled between the two groups of limit rollers 203 and are led into one end of the upper end face of the stacking plate 4 through the guide groove 204, the motor 202 is started, the roller 201 is driven to rotate clockwise, the belts rolled outside the roller 201 are sequentially led out and stacked on the surface of the stacking plate 4, the air cylinder 7 is started, the receiving frame 3 and the stacking plate 4 are driven to reciprocate left and right through the push rod 6, the stacking plate 4 and the guide groove 204 move relatively and sequentially support the led-out belts from left to right, the operation is repeated, the led-out belts are sequentially stacked at the stacking plate 4 in layers, the situation that the belts are stacked randomly to cause unstable stacking is reduced, and the stacking efficiency of the belts is improved.

Embodiment two:

referring to fig. 2-4, the front and rear end surfaces of the stacking plate 4 are respectively provided with a plurality of groups of rectangular clamping grooves 401, the frames on the two sides of the upper end surface of the material guiding frame 2 are respectively provided with long grooves 402, and a limiting mechanism 8 is commonly arranged between the two groups of long grooves 402 and at the front and rear ends; the limiting mechanism 8 comprises two groups of slide bars 801, the two groups of slide bars 801 are respectively connected to the front and rear ends of the two groups of long grooves 402 in a sliding manner through sliding blocks arranged on two sides of the bottom surface, T-shaped supporting rods 802 are fixedly arranged at the centers of opposite faces of the two groups of slide bars 801, a plurality of groups of supporting pieces 803 are fixedly arranged at the end faces, far away from the slide bars 801, of the T-shaped supporting rods 802 at equal distances, the supporting pieces 803 correspond to the rectangular clamping grooves 401, and the upper ends and the lower ends of the supporting pieces 803 are of curved surface structures; the limiting mechanism 8 further comprises a rotary table 804, the rotary table 804 is rotatably connected to the center of the bottom surface of the stacking plate 4 through a bearing 805, the left end and the right end of the rotary table 804 are arranged in a conical structure and are respectively hinged with lifting rods 806, and one end, far away from the rotary table 804, of each lifting rod 806 is hinged with one end of the bottom surface of the corresponding sliding rod 801; the bottom of the bearing 805 penetrates through the turntable 804 and is fixedly provided with a fluted disc 807, and the fluted disc 807 is slidably connected inside the chute 101.

In the process that the material receiving frame 3 is pushed to the lower end of the material guiding frame 2, the fluted disc 807 slides linearly along the inside of the chute 101 until the fluted disc 807 is meshed with the tooth group 102, namely, the fluted disc 807 rotates anticlockwise and synchronously drives the rotary disc 804 to rotate in the same direction, in the process, the conical structures at two ends of the rotary disc 804 respectively draw the two groups of sliding rods 801 to be close to each other through the lifting rods 806, the two ends of the lifting rods 806 slide along the elongated slot 402 respectively until the two groups of T-shaped supporting rods 802 respectively approach the front end and the rear end of the stacking plate 4, a plurality of groups of supporting pieces 803 are respectively inserted into the corresponding rectangular clamping slots 401 until the supporting belts are pressed, and the front end and the rear end of the stacking plate 4 are simultaneously supported by the plurality of groups of supporting pieces 803, so that the supporting and supporting of the front ends and the rear ends of the multi-layer belts stacked on the stacking plate 4 are stopped and supported in a batch mode, and the whole stacking effect is prevented from being influenced by the belt offset of subsequent stacking and conveying. When the receiving frame 3 is retracted, the toothed disc 807 slides reversely along the inside of the chute 101 until the toothed disc 807 is engaged with the teeth set 102 reversely, i.e. the toothed disc 807 rotates clockwise and drives the turntable 804 synchronously to rotate in the same direction for homing, so that the two sets of sliding bars 801 are respectively separated from each other and the plurality of sets of abutting pieces 803 are forced to be separated from each other.

Working principle: when the belt winding device is used, firstly, the opening end of the belt outside the winding roller 201 is pulled between two groups of limit rollers 203 and is led into one end of the upper end face of the stacking plate 4 through the guide chute 204, and then the motor 202 is started to drive the winding roller 201 to rotate clockwise, so that the belt wound outside the winding roller 201 is led out and stacked on the surface of the stacking plate 4 in sequence;

secondly, the cylinder 7 is started, the material receiving frame 3 and the material stacking plate 4 are driven to reciprocate left and right through the push rod 6, the material stacking plate 4 and the material guiding groove 204 move relatively and sequentially carry out bearing on the guided-out belts from left to right, the guided-out belts are repeatedly stacked at the material stacking plate 4 in sequence in a layered manner, and uneven stacking and unstable stacking caused by random stacking of the belts are reduced;

then, the material receiving frame 3 is pushed to the lower end of the material guiding frame 2, the fluted disc 807 slides linearly along the inside of the chute 101 until the fluted disc 807 is meshed with the tooth group 102, namely, the fluted disc 807 rotates anticlockwise and synchronously drives the turntable 804 to rotate in the same direction, in the process, the conical structures at two ends of the turntable 804 respectively pull the two groups of sliding rods 801 to approach each other through the lifting rods 806, the two ends of the lifting rods 806 slide along the elongated slot 402 respectively until the two groups of T-shaped supporting rods 802 respectively approach the front end and the rear end of the stacking plate 4, a plurality of groups of supporting pieces 803 are respectively inserted into the corresponding rectangular clamping slots 401 until the supporting belts are pressed, and the front end and the rear end of the stacking plate 4 are simultaneously supported by the plurality of groups of supporting pieces 803 so as to realize supporting and righting the front end and the rear end of the multi-layer belts stacked on the stacking plate 4;

finally, the receiving frame 3 is pulled to return, the fluted disc 807 slides reversely along the inside of the chute 101 until the fluted disc 807 is reversely meshed with the tooth set 102, that is, the fluted disc 807 rotates clockwise and synchronously drives the turntable 804 to return in the same direction, so that the two groups of sliding rods 801 are respectively separated from each other and the plurality of groups of abutting pieces 803 are forced to be separated from each other.

The preferred embodiments of the utility model disclosed above are intended only to assist in the explanation of the utility model. The preferred embodiments are not intended to be exhaustive or to limit the utility model to the precise form disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the utility model and the practical application, to thereby enable others skilled in the art to best understand and utilize the utility model. The utility model is limited only by the claims and the full scope and equivalents thereof.

Claims (6)

1. The utility model provides a folding machine with adjust guiding mechanism, includes operation panel (1), its characterized in that: the automatic feeding device is characterized in that a guide frame (2) is arranged at the center of the top of the inner wall of one side of the operating platform (1), the guide frame (2) is inclined, a roller (201) is arranged at the position, located at the higher end, of the inner part of the guide frame (2), the front end of the roller (201) penetrates through the guide frame (2) and is provided with a motor (202), two groups of limit rollers (203) are rotatably connected at the position, located at the lower end, of the inner wall of the bottom of the guide frame (2), located between the two groups of limit rollers (203), of the guide groove (204) is formed;

the utility model discloses a material receiving frame, including material receiving frame (3), material guiding frame (2), material receiving frame (3) and material receiving frame (3), material receiving frame (3) bottom surface is located the front and back and is provided with assembly pulley (5) respectively, and material receiving frame (3) is kept away from a side center department of material receiving frame (2) and is provided with push rod (6), one end that material receiving frame (3) was kept away from to push rod (6) is provided with cylinder (7), and cylinder (7) are installed in operation panel (1) bottom inner wall department through the frame of adaptation.

2. The belt stacking machine with the adjusting and guiding mechanism according to claim 1, wherein a chute (101) is transversely formed in the inner wall of the bottom of the operating platform (1), and a tooth group (102) is arranged at one end, located at the material guiding frame (2), of the inner wall of the front end of the chute (101).

3. The belt stacking machine with the adjusting and guiding mechanism according to claim 1, wherein a plurality of groups of rectangular clamping grooves (401) are respectively formed in the front end face and the rear end face of the material stacking plate (4), long grooves (402) are respectively formed in the side frames of the upper end face of the material guiding frame (2), and a limiting mechanism (8) is jointly arranged between the two groups of long grooves (402) and at the front end and the rear end.

4. The belt stacking machine with the adjusting and guiding mechanism according to claim 3, wherein the limiting mechanism (8) comprises two groups of sliding rods (801), the two groups of sliding rods (801) are respectively connected to the front end and the rear end of the two groups of long grooves (402) through sliding blocks arranged on two sides of the bottom surface in a sliding mode, T-shaped supporting rods (802) are fixedly arranged at the centers of opposite faces of the two groups of sliding rods (801), a plurality of groups of supporting pieces (803) are fixedly arranged at the positions, far away from one end face of each sliding rod (801), of each T-shaped supporting rod, the supporting pieces (803) correspond to the rectangular clamping grooves (401), and the upper ends and the lower ends of the supporting pieces (803) are of curved structures.

5. A belt stacking machine with an adjusting and guiding mechanism according to claim 3, wherein the limiting mechanism (8) further comprises a rotary table (804), the rotary table (804) is rotatably connected to the center of the bottom surface of the stacking plate (4) through a bearing (805), the left end and the right end of the rotary table (804) are arranged in a conical structure and are respectively hinged with lifting rods (806), and one ends of two groups of lifting rods (806) far away from the rotary table (804) are hinged with one ends of the bottom surface of the corresponding sliding rod (801).

6. The belt stacker with an adjusting and guiding mechanism according to claim 5, wherein the bottom of the bearing (805) penetrates through the turntable (804) and is fixedly provided with a fluted disc (807), and the fluted disc (807) is slidingly connected inside the chute (101).