CN218506777U - Drum-type loading auxiliary platform - Google Patents

Abstract

The utility model discloses a drum-type loading auxiliary platform, including the supporting box body, be provided with the delivery board through spacing movable mechanism on the supporting box body, seted up the conveyer trough on the delivery board, rotate through the axis of rotation in the conveyer trough and be provided with a plurality of transport cylinder of arranging in proper order along conveyer trough length direction. The workman will bind good aluminium template and iron set and send through fork truck the utility model discloses on, exert manpower promotion or mechanical promotion, through the laborsaving principle of cylinder roll, can easily push into the carriage that fork truck can't get into with the goods in several hundred kilograms, not only intensity of labour is lower but also does not have the potential safety hazard basically.

Description

Drum-type loading auxiliary platform

Technical Field

The utility model relates to a loading auxiliary platform's technical field especially indicates a drum-type loading auxiliary platform.

Background

In the project is built in the room, need use more aluminium template and the stupefied back of the body of ironware, relevant personnel generally all can bind the packing with aluminium template and stupefied back of the body of ironware, then use fork truck to send these construction tools into in haulage vehicle's the carriage.

The freight train has multiple models, and the carriage size is also different, when meetting some comparatively narrow freight trains in carriage, for example when some small-size express delivery freight trains, fork truck can't send whole bundle's aluminium template and ironware into the carriage, at this moment just needs the mode of artifical transport to carry out loading work, and at the in-process of artifical transport, not only intensity of labour is great but also has certain potential safety hazard.

SUMMERY OF THE UTILITY MODEL

Not enough to in the above-mentioned background art, the utility model provides a drum-type loading auxiliary platform, the workman will bind aluminium template and ironware and send this platform through fork truck on, apply for manpower promotion or mechanical promotion, through the laborsaving principle of cylinder roll, can easily push into the carriage that fork truck can't get into with the goods in several hundred kilograms and do not have the potential safety hazard basically.

The technical scheme of the utility model is realized like this:

the utility model provides a drum-type loading auxiliary platform, includes the supporting box, is provided with the delivery board through spacing movable mechanism on the supporting box, has seted up the conveyer trough on the delivery board, rotates through the axis of rotation in the conveyer trough to be provided with a plurality of transport cylinder of arranging in proper order along conveyer trough length direction.

Furthermore, the conveying plate is positioned at the top of the supporting box body and between the box walls on two sides of the supporting box body, and the limiting movable mechanism comprises a sliding assisting component and a limiting push rod;

the sliding assisting component is arranged between the side end of the conveying plate and the two side box walls of the supporting box body, the sliding assisting component comprises a limiting sliding groove, a limiting sliding rail and a sliding assisting piece, the limiting groove is formed in the two side box walls of the supporting box body, the limiting sliding rail is matched with the limiting groove, the limiting sliding rail is arranged on the two side end faces of the conveying plate and inserted into the limiting groove on the corresponding side, and the sliding assisting piece is arranged between the limiting groove and the limiting sliding rail, so that the conveying plate can slide on the supporting box body more easily;

the limiting push rod is obliquely arranged between the inner box bottom of the supporting box body and the bottom surface of the conveying plate, two ends of the limiting push rod are respectively hinged with the inner box bottom of the supporting box body and the bottom surface of the conveying plate, and the limiting push rod is arranged at one end, close to the supporting box body, in the supporting box body.

Furthermore, the sliding assistant piece is a sliding assistant roller or a universal ball.

Furthermore, the bottom of the supporting box body is provided with universal wheels with a braking function.

Furthermore, the conveying plate is provided with a synchronous groove parallel to the length direction of the conveying groove, the synchronous groove is located on one side of the conveying groove, a rotating shaft, close to the synchronous groove, on the conveying roller penetrates through the wall of the conveying groove and extends into the synchronous groove, a synchronous mechanism capable of achieving synchronous rotation of the conveying roller is arranged in the synchronous groove, and the synchronous mechanism is arranged between the rotating shafts extending into the synchronous groove.

Further, lazytongs includes synchronizing wheel, hold-in range and tensioning axle, and the synchronizing wheel is installed in the axis of rotation that extends the synchronizing groove, and the tensioning axle sets up between two adjacent axis of rotation, and the hold-in range cover is established on the synchronizing wheel and is pasted tightly with the synchronizing wheel under the effect of tensioning axle.

Furthermore, the synchronizing wheel is a wheel body with teeth, the synchronous belt is a belt body provided with tooth sockets on the inner belt surface, and the tooth sockets on the synchronous belt are matched with the teeth on the synchronizing wheel.

Furthermore, a driving assembly capable of driving the conveying roller to rotate through a synchronizing mechanism is arranged in the supporting box body, a driving hole communicated with the supporting box body is formed in the bottom of the synchronizing groove, and the driving hole corresponds to a rotating shaft close to the end part of the synchronizing groove.

Furthermore, the driving assembly comprises a driven wheel, a driving chain and a driving motor, the driven wheel is arranged on a rotating shaft corresponding to the driving hole, the driving motor is positioned in the supporting box and arranged at the bottom of the conveying plate, the driving wheel is arranged on an output shaft of the driving motor and corresponds to the driven wheel, and the driving chain is arranged in the driving hole in a penetrating manner and is sleeved on the corresponding driven wheel and the driving wheel.

Furthermore, the driven wheel and the driving wheel are chain wheels matched with the driving chain.

The beneficial effects of the utility model are that:

1. carry the cylinder more to be convenient for the removal of goods on the delivery board, in the delivery board that slides and set up on the supporting box can extend haulage vehicle's carriage, be convenient for carry the transportation of goods on the cylinder for the staff need not again artifical transport to the carriage when carrying out the transportation of aluminium template and iron part, has not only reduced intensity of labour, has eliminated the potential safety hazard of artifical transport moreover.

2. The sliding-assisting assembly can limit the conveying plate to slide only in the length direction of the supporting box body, and the limiting push rod can prevent the conveying plate from being separated from the supporting box body from two ends of the supporting box body when sliding on the supporting box body.

3. The sliding-assistant piece can facilitate the sliding of the conveying plate on the supporting box body, and the transfer of goods can be easier.

4. The hold-in range can drive all synchronizing wheels in the synchronizing groove and realize synchronous rotation, and then can drive the conveying cylinder synchronous rotation, realizes the transport to carrying the cylinder on the goods, and the tensioning axle can make between hold-in range and the synchronizing wheel the complex more inseparable, avoids appearing the condition of skidding between hold-in range and the synchronizing wheel, guarantees the normal transport of carrying the cylinder on the goods.

5. The driving motor can drive the driven wheel to rotate through the driving wheel and the driving chain, and then drive the corresponding rotating shaft to rotate, and then drive the corresponding synchronizing wheel to rotate, and then drive all conveying rollers to synchronously rotate through the synchronous belt, and then can drive the goods on the conveying rollers to move. Compare and promote in the manual work, drive through driving motor and can further reduce intensity of labour.

Drawings

In order to illustrate the embodiments of the present invention more clearly, the drawings that are needed in the description of the embodiments will be briefly described below, it is obvious that the drawings in the description below are only some embodiments of the present invention, and that other drawings can be obtained by those skilled in the art without inventive effort.

Fig. 1 is an external structure diagram of the present invention;

FIG. 2 is a schematic cross-sectional view of the present invention;

FIG. 3 isbase:Sub>A schematic cross-sectional view taken along the line A-A in FIG. 2;

FIG. 4 is an enlarged schematic view of the portion B in FIG. 3;

fig. 5 is a partial schematic view of the middle conveying roller, the synchronizing mechanism and the driving motor according to the present invention.

In the figure, 1, a supporting box body; 2. a conveying plate; 21. a conveying trough; 22. a conveying roller; 23. a rotating shaft; 3. a sliding aid assembly; 31. a limiting chute; 32. a limiting slide rail; 33. a sliding aid; 4. a limit push rod; 5. a universal wheel; 24. a synchronization slot; 6. a synchronization mechanism; 61. a synchronizing wheel; 62. a synchronous belt; 63. tensioning the shaft; 7. a drive assembly; 71. a driven wheel; 72. a drive wheel; 73. a drive chain; 74. a drive motor; 8. a drive aperture.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

Example 1:

referring to fig. 1 and 2, the drum-type loading auxiliary platform comprises a supporting box body 1, wherein the supporting box body 1 is a hollow box body with an opening at the top. The box plates on the two sides of the supporting box body 1 are higher than the box plates on the two ends of the supporting box body, the conveying plates 2 are arranged between the box plates on the two sides of the supporting box body 1 through the limiting movable mechanisms, and the conveying plates 2 are located above the box plates on the two ends of the supporting box body 1. Conveying board 2 can slide on supporting box 1 through spacing moving mechanism, places the goods that need transport on conveying board 2, and the accessible promotes conveying board 2 will wait to transport goods propelling movement to transport vehicle in the carriage.

Referring to fig. 3 and 4, the limit moving mechanism comprises a sliding-assistant assembly 3 and a limit push rod 4. The sliding-assistant assembly 3 comprises a limit sliding chute 31, a limit sliding rail 32 and a sliding-assistant piece 33. The limiting sliding grooves 31 are formed in the box walls on the two sides of the inner box of the supporting box body 1, and the length direction of the limiting sliding grooves 31 is parallel to the length direction of the supporting box body 1. The limiting slide rails 32 are matched with the limiting slide grooves 31, and the limiting slide rails 32 are fixed on the end surfaces of the two sides of the conveying plate 2 and are respectively inserted into the limiting slide grooves 31 on the corresponding side. Spacing slide rail 32 and spacing spout 31 can play limiting displacement to delivery board 2 for delivery board 2 can only slide along the length direction of spacing spout 31.

The sliding aid 33 is disposed between the limiting sliding groove 31 and the limiting sliding rail 32, so that the conveying plate 2 can slide on the supporting box 1 more easily. The sliding aid 33 can be selected as a sliding aid roller or a universal ball:

when the sliding-assistant piece 33 is selected as the sliding-assistant roller, a plurality of roller grooves are formed in the upper side groove wall and the lower side groove wall of the limiting sliding groove 31, the plurality of roller grooves are uniformly distributed in the corresponding groove walls along the length direction of the limiting sliding groove 31, and the sliding-assistant roller is rotatably arranged in each roller groove. One end of the sliding-assistant roller far away from the bottom of the roller groove extends out of the roller groove notch to be contacted with the rail surface on one side corresponding to the limiting slide rail 32. When the conveying plate 2 slides on the supporting box body 1, the sliding-assistant roller can convert the contact between the surfaces between the upper and lower side rail surfaces of the limiting slide rail 32 and the upper and lower side groove walls of the limiting slide groove 31 into the contact between the line and the surface, so that the conveying plate 2 can slide on the supporting box body 1 more easily.

When the sliding aid 33 is a plurality of universal balls, the plurality of universal balls are uniformly mounted on the upper and lower side walls of the limiting chute 31 along the length direction of the limiting chute 31. One end of the universal ball extending into the limiting chute 31 is in contact with the rail surface on the side corresponding to the limiting slide rail 32. When the conveying plate 2 slides on the supporting box body 1, the universal ball can convert the contact between the surfaces of the upper and lower rail surfaces of the limiting slide rail 32 and the upper and lower groove walls of the limiting slide groove 31 into the contact between the points and the surfaces, so that the sliding resistance of the conveying plate 2 on the supporting box body 1 can be greatly reduced, and the sliding of the conveying plate 2 is enabled to be more relaxed.

No matter the sliding assisting roller or the universal ball is selected for use by the sliding assisting piece 33, the sliding of the conveying plate 2 on the supporting box body 1 can be facilitated, and the goods can be transferred more easily.

In this embodiment, the limit push rod 4 is an electric push rod, and the limit push rod 4 is obliquely arranged between the inner box bottom of the support box body 1 and the bottom surface of the conveying plate 2. Two ends of the limit push rod 4 are respectively hinged with the plate surface on the corresponding side through a hinged plate and a hinged shaft. The limiting push rod 4 can limit the conveying plate 2 in the sliding direction of the conveying plate 2, and the conveying plate 2 is prevented from sliding out of two ends of the supporting box body 1. The limiting push rods 4 can be arranged in the supporting box body 1 in a plurality of numbers, and the limiting push rods 4 are all close to one end of the supporting box body 1.

Because the slope of spacing push rod 4 sets up with articulated, so when spacing push rod 4 extends, can carry out certain angle's rotation in supporting box 1, simultaneously because the limiting displacement of spacing spout 31, spacing slide rail 32, spacing push rod 4 can only promote conveying board 2 to carry out the horizontal slip towards the direction of spacing push rod 4 slope when the extension, has guaranteed the stable transport of goods on the conveying board 2.

Conveying plate 2 is provided with a conveying groove 21 parallel to the length direction of conveying plate 2, and a plurality of conveying rollers 22 sequentially arranged along the length direction of conveying groove 21 are rotatably arranged in conveying groove 21 through a rotating shaft 23 and a bearing. The rotating shafts 23 are fixed to both ends of the conveying roller 22 and are disposed coaxially with the conveying roller 22. The rotating shaft 23 is rotatably connected with the wall of the corresponding conveying groove 21 through a bearing, so that the conveying roller 22 can rotate in the conveying groove 21.

The universal wheels 5 which are convenient for the supporting box body 1 to move and have a braking function are installed at the bottom of the supporting box body 1, the universal wheels 5 are four, and the four universal wheels 5 are close to four end angles of the supporting box body 1 at the bottom of the supporting box body 1 respectively. The four universal wheels 5 can support the supporting box body 1, the supporting box body 1 can move conveniently, and the supporting box body 1 can stop conveniently at any time due to the self-braking function.

Use the utility model discloses a time, at first will treat the transportation, the aluminium template and the iron part that bind place on the delivery roll 22 of delivery board 2 through fork truck, then promote the utility model discloses carriage railway carriage or compartment mouth department to haulage vehicle later starts spacing push rod 4, and spacing push rod 4 extends and then drives in delivery board 2 stretches into the carriage, after spacing push rod 4 extends completely or delivery board 2 has moved to suitable position, promotes the goods on the delivery roll 22, makes the goods break away from delivery board 2 and removes to the carriage in, and then realizes the transportation of goods.

In the whole transfer process, the staff only need put goods on conveying roller 22 through fork truck, then promote supporting box 1, later control the operation of spacing push rod 4, at last with goods from conveying roller 22 push up to the carriage can, easy operation, low in labor strength.

Example 2:

this embodiment is a further improvement on embodiment 1.

Referring to fig. 3 and 4, in the present embodiment, the conveying plate 2 is provided with a synchronization groove 24 parallel to the longitudinal direction of the conveying groove 21, and the synchronization groove 24 is located on one side of the conveying groove 21. A plurality of conveying rollers 22 are rotatably arranged in the conveying trough 21 in sequence along the length direction of the conveying trough 21 through a rotating shaft 23 and a bearing. The rotating shafts 23 are fixed to both ends of the conveying roller 22, and the rotating shafts 23 are disposed coaxially with the conveying roller 22. The rotating shaft 23 is rotatably connected with the wall of the corresponding conveying groove 21 through a bearing, so that the conveying roller 22 can rotate in the conveying groove 21.

Referring to fig. 4 and 5, the rotation shaft 23 of the conveying roller 22 adjacent to the synchronization groove 24 passes through a space portion between the conveying groove 21 and the synchronization groove 24 and extends into the synchronization groove 24. The synchronous groove 24 is internally provided with a synchronous mechanism 6 matched with the conveying roller 22, and the synchronous mechanism 6 comprises a synchronous wheel 61, a synchronous belt 62 and a tensioning shaft 63. The synchronizing wheel 61 is a wheel body with teeth, the synchronizing wheel 61 is installed on the rotating shaft 23 extending to the synchronizing groove 24, a plurality of synchronizing wheels 61 are arranged, and each synchronizing wheel 61 corresponds to one rotating shaft 23. The tension shaft 63 is rotatably connected between both side groove walls of the synchronization groove 24 by a bearing, and the tension shaft 63 is parallel to the longitudinal direction of the transport cylinder 22 and is disposed between the two adjacent rotation shafts 23. The synchronous belt 62 is provided with one belt body, and the inner side belt surface of the synchronous belt 62 is provided with a tooth socket matched with the tooth on the synchronous wheel 61. The synchronous belt 62 is sleeved on the synchronous wheel 61 in the synchronous groove 24, the outer side belt surface of the synchronous belt 62 is located above the tensioning shaft 63 and is tightly abutted to the tensioning shaft 63, and the synchronous belt 62 and the synchronous wheels 61 in the synchronous groove 24 are tightly attached to each other and meshed under the action of the tensioning shaft 63.

Particularly, hold-in range 62 can drive all synchronizing wheels 61 in the synchronizing groove 24 and realize synchronous rotation, and then can drive conveying cylinder 22 synchronous rotation, realizes the transport to the goods on the conveying cylinder 22, and tensioning shaft 63 can make between hold-in range 62 and the synchronizing wheel 61 the complex more inseparable, avoids appearing the condition of skidding between hold-in range 62 and the synchronizing wheel 61, guarantees the normal transport of goods on the conveying cylinder 22.

The notch of the synchronous groove 24 is provided with a cover plate for shielding the synchronous wheel 61 and the synchronous belt 62, the bottom of the synchronous groove 24 is provided with a driving hole 8 communicated with the supporting box body 1, and the driving hole 8 corresponds to the rotating shaft 23 close to the end part of the synchronous groove 24. The supporting box body 1 is internally provided with a driving component 7 which can drive the conveying roller 22 to rotate through the synchronous mechanism 6.

The drive assembly 7 includes a driven pulley 71, a drive pulley 72, a drive chain 73, and a drive motor 74. The driven pulley 71 is mounted on the rotating shaft 23 corresponding to the driving hole 8 and is located on the side of the corresponding timing pulley 61 remote from the conveying roller 22. A driving motor 74 is provided in the support case 1 and is installed at the bottom of the conveying plate 2, and a driving pulley 72 is installed on an output shaft of the driving motor 74 and corresponds to the driven pulley 71. The driving chain 73 is arranged in the driving hole 8 in a penetrating way and sleeved on the corresponding driven wheel 71 and the driving wheel 72. The driven pulley 71 and the driving pulley 72 are sprockets fitted with a driving chain 73.

In this embodiment, the driving motor 74 can drive the driven wheel 71 to rotate through the driving wheel 72 and the driving chain 73, and then drive the corresponding rotating shaft 23 to rotate, and then drive the corresponding synchronizing wheel 61 to rotate, and then drive all the conveying rollers 22 to synchronously rotate through the synchronous belt 62, and then can drive the goods on the conveying rollers 22 to move. Compared with manual pushing, the labor intensity can be further reduced by driving the motor 74.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The utility model provides a drum-type loading auxiliary platform, includes supporting box body (1), its characterized in that: the supporting box body (1) is provided with a conveying plate (2) through a limiting movable mechanism, a conveying groove (21) is formed in the conveying plate (2), and a plurality of conveying rollers (22) which are sequentially arranged along the length direction of the conveying groove (21) are rotatably arranged in the conveying groove (21) through a rotating shaft (23).

2. The drum-type loading auxiliary platform as claimed in claim 1, wherein: the conveying plate (2) is positioned at the top of the supporting box body (1) and between the box walls on two sides of the supporting box body (1), and the limiting movable mechanism comprises a sliding assisting component (3) and a limiting push rod (4);

the sliding assisting component (3) is arranged between the side end of the conveying plate (2) and the two side box walls of the supporting box body (1), the sliding assisting component (3) comprises a limiting sliding groove (31), a limiting sliding rail (32) and a sliding assisting piece (33), the limiting groove is formed in the two side box walls of the supporting box body (1), the limiting sliding rail (32) is matched with the limiting groove, the limiting sliding rail (32) is arranged on the two side end faces of the conveying plate (2) and inserted into the limiting groove on the corresponding side, the sliding assisting piece (33) is arranged between the limiting groove and the limiting sliding rail (32), and the conveying plate (2) can slide on the supporting box body (1) more easily;

the limiting push rod (4) is obliquely arranged between the inner box bottom of the supporting box body (1) and the bottom surface of the conveying plate (2), two ends of the limiting push rod are hinged to the inner box bottom of the supporting box body (1) and the bottom surface of the conveying plate (2) respectively, and the limiting push rod (4) is arranged inside the supporting box body (1) and close to one end of the supporting box body (1).

3. The drum-type loading auxiliary platform as claimed in claim 2, wherein: the sliding-assistant piece (33) is a sliding-assistant roller or a universal ball.

4. A roller-type loading assistant platform as claimed in any one of claims 1 to 3, wherein: the bottom of the supporting box body (1) is provided with a universal wheel (5) with a braking function.

5. The drum-type loading auxiliary platform of claim 4, wherein: the conveying plate (2) is provided with a synchronous groove (24) parallel to the length direction of the conveying groove (21), the synchronous groove (24) is located on one side of the conveying groove (21), a rotating shaft (23) close to the synchronous groove (24) on the conveying roller (22) penetrates through the wall of the conveying groove (21) and extends into the synchronous groove (24), a synchronous mechanism (6) capable of achieving synchronous rotation of the conveying roller (22) is arranged in the synchronous groove (24), and the synchronous mechanism (6) is arranged between the rotating shafts (23) extending into the synchronous groove (24).

6. The drum-type loading auxiliary platform of claim 5, wherein: synchronizing mechanism (6) include synchronizing wheel (61), hold-in range (62) and tensioning axle (63), and install on rotation axis (23) that extends synchronizing groove (24) synchronizing wheel (61), and tensioning axle (63) set up between two adjacent rotation axes (23), and hold-in range (62) cover is established on synchronizing wheel (61) and is pasted tightly with synchronizing wheel (61) under the effect of tensioning axle (63).

7. The drum-type loading auxiliary platform of claim 6, wherein: the synchronous wheel (61) is a wheel body with teeth, the synchronous belt (62) is a belt body with tooth grooves formed in the inner belt surface, and the tooth grooves in the synchronous belt (62) are matched with the teeth on the synchronous wheel (61).

8. The drum-type loading assisting platform as claimed in any one of claims 5 to 7, wherein: the supporting box body (1) is internally provided with a driving component (7) which can drive the conveying roller (22) to rotate through a synchronizing mechanism (6), the bottom of the synchronizing groove (24) is provided with a driving hole (8) communicated with the supporting box body (1), and the driving hole (8) corresponds to a rotating shaft (23) close to the end part of the synchronizing groove (24).

9. The drum-type loading auxiliary platform as claimed in claim 8, wherein: the driving assembly (7) comprises a driven wheel (71), a driving wheel (72), a driving chain (73) and a driving motor (74), the driven wheel (71) is arranged on a rotating shaft (23) corresponding to the driving hole (8), the driving motor (74) is positioned in the supporting box body (1) and arranged at the bottom of the conveying plate (2), the driving wheel (72) is arranged on an output shaft of the driving motor (74) and corresponds to the driven wheel (71), and the driving chain (73) penetrates through the driving hole (8) and is sleeved on the corresponding driven wheel (71) and the driving wheel (72).

10. The drum-type loading auxiliary platform of claim 9, wherein: the driven wheel (71) and the driving wheel (72) are chain wheels matched with a driving chain (73).

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