CN216641321U - Vertical plate machine - Google Patents

Abstract

The utility model provides a plate erecting machine, which comprises: a frame; the traction device is arranged on the frame; the telescopic device is arranged on the rack and corresponds to the traction device; wherein, draw gear includes the haulage rope, and the haulage rope cover is established on the plate, promotes the haulage rope and can make the plate stand subaerial aslope, and telescoping device can stretch out along the first direction with the plate butt to the bottom that promotes the plate removes and makes its vertical stand subaerial. Based on the technical scheme of the utility model, the plate can be obliquely lifted by the traction rope of the traction device, and the plate can be righted by the telescopic device to vertically stand on the ground. Therefore, the plate is erected by matching the traction device with the telescopic device. Thereby simplifying the installation steps, improving the installation efficiency of the vertical plate and saving the installation cost.

Description

Vertical plate machine

Technical Field

The utility model relates to the technical field of plate erecting equipment, in particular to a plate erecting machine.

Background

At present, in the installation process of the light partition board, because the light partition board is generally large, workers need to perform vertical plates by means of vertical plate tools. Generally, a group of 3-4 persons is needed, however, the installation operation of the existing riser tool is complicated, a certain working surface is needed between floors, and the operation of workers is difficult. The installation efficiency of the light partition board is low, and the installation cost is high.

In other words, the riser tool in the related art has the problems of low installation efficiency and high installation cost.

SUMMERY OF THE UTILITY MODEL

To the problem among the above-mentioned prior art, this application has provided a riser machine, has solved the installation effectiveness that riser instrument exists low, the high problem of installation cost.

The utility model relates to a plate erecting machine, which comprises: a frame; the traction device is arranged on the frame; the telescopic device is arranged on the rack and corresponds to the traction device; wherein, draw gear includes the haulage rope, and the haulage rope cover is established on the plate, promotes the haulage rope and can make the plate stand subaerial aslope, and telescoping device can stretch out along the first direction with the plate butt to the bottom that promotes the plate removes and makes its vertical stand subaerial.

In one embodiment, the traction device is located at the top end of the frame and the retraction device is located at the bottom of the frame. Through this embodiment, draw gear is convenient for lift by crane the plate slope, makes its slope stand subaerial, and telescoping device is convenient for promote the bottom of plate, makes its vertical stand subaerial. Thereby ensuring that the plate erecting machine can work normally.

In one embodiment, the draft gear further includes a main draft assembly, the main draft assembly including: the sliding traction shell is connected with the rack; the sliding traction wheel is rotatably arranged on the sliding traction shell, and the traction rope is wound on the sliding traction wheel. According to the embodiment, the plate is obliquely lifted by utilizing the lifting principle of the fixed pulley and the traction rope. Thereby the traction function of the traction device is realized, and the vertical plate machine can normally work.

In one embodiment, the traction device further comprises a hoist connected to one end of the traction rope for tightening the traction rope. Through this embodiment, the lifting machine provides traction force for the haulage rope to ensure that the haulage rope can hoist the plate smoothly, and then ensure that draw gear can normally work.

In one embodiment, the towing attachment further comprises an auxiliary towing assembly comprising: the upper slideway is connected with the sliding traction shell in a sliding manner, and the sliding traction shell can slide on the upper slideway along a second direction; one end of the reinforced connecting plate is connected with the upper slideway, and the other end of the reinforced connecting plate is connected with the rack. Through this embodiment, supplementary subassembly that draws is used for sliding the plate side direction to make things convenient for it to assemble with other plates. And then realized the side direction of riser machine and assembled the function to satisfy the multi-functional requirement of riser machine.

In one embodiment, the main draft assembly further includes a top stop slidably connected to the upper run and the draft housing is fixedly attached to the top stop.

In one embodiment, a telescopic device comprises: the bottom telescopic rod is arranged on the rack in a telescopic manner along a first direction; the bottom baffle is connected with the bottom telescopic rod and used for pushing the plate. Through this embodiment, the bottom telescopic link can stretch out along first direction and with the plate butt to the bottom that promotes the plate removes and makes its vertical stand on subaerial. Thereby realize telescoping device's righting function, and then ensure that the riser can normally work.

In one embodiment, the telescoping device further comprises a bottom slide slidably connected to the bottom barrier, the bottom slide being slidable in the second direction on the bottom barrier. Through this embodiment, the bottom slide is used for sliding the plate lateral direction to make things convenient for it to assemble with other plates. And then realized the side direction of riser machine and assembled the function to satisfy the multi-functional requirement of riser machine.

In one embodiment, the plate clamping device is arranged on the frame and used for clamping the plate. Through this embodiment, the plate can be fixed in the centre gripping to the splint device to can drive the plate lateral sliding, thereby make things convenient for it to assemble with other plates. And then realized the side direction of riser machine and assembled the function to satisfy the multi-functional requirement of riser machine.

In one embodiment, the rack comprises: the telescopic device is arranged on the base; the upper support is arranged on the base in a telescopic mode along the third direction, and the traction device is arranged on the upper support.

The features mentioned above can be combined in various suitable ways or replaced by equivalent features as long as the object of the utility model is achieved.

Compared with the prior art, the plate erecting machine provided by the utility model at least has the following beneficial effects:

the plate can be lifted obliquely by the traction rope of the traction device, and the plate can be righted by the telescopic device to vertically stand on the ground. Therefore, the plate is erected by matching the traction device with the telescopic device. Therefore, the automatic plate erecting function of the plate erecting machine can be realized subsequently, the mounting steps are simplified, the mounting efficiency of the vertical plate is improved, and the mounting cost is saved.

Drawings

The utility model will be described in more detail hereinafter on the basis of embodiments and with reference to the accompanying drawings. Wherein:

FIG. 1 shows a schematic perspective view of a riser of the present invention (the pull line is not shown);

FIG. 2 shows a partial schematic view of the telescopic device of FIG. 1;

FIG. 3 shows a partial schematic view of the cleat device of FIG. 1;

FIG. 4 shows a partial schematic view of the draft gear of FIG. 1;

FIG. 5 shows a partial schematic view of the counterweight arrangement of FIG. 1;

FIG. 6 shows a partial schematic view of the height extension and retraction apparatus of FIG. 1;

fig. 7 shows a schematic view of the construction of the traction rope of fig. 1.

In the drawings, like parts are provided with like reference numerals. The drawings are not to scale.

Reference numerals:

11. a base; 12. an upper bracket; 121. a vertical rod; 13. a height telescopic device; 131. a telescopic adjusting rod; 132. a diagonal brace; 20. a traction device; 21. a hauling rope; 22. a primary traction assembly; 221. sliding the traction case; 222. sliding the traction wheel; 223. a top baffle; 224. a traction wheel pin shaft; 23. a hoist; 24. an auxiliary traction assembly; 241. an upper slide way; 242. reinforcing the connecting plate; 30. a telescoping device; 31. a bottom telescoping rod; 32. a bottom baffle; 33. a bottom slide plate; 34. a bottom chute; 40. a clamping plate device; 41. a retractable splint; 411. a telescopic sliding plate; 412. an upper splint; 413. a lower splint; 414. the splint can be used for stretching the rod; 42. a middle slide way; 50. a counterweight device; 51. a balancing weight; 52. and (4) weighting corner pads.

Detailed Description

The utility model will be further explained with reference to the drawings.

In the present application, the first direction refers to a longitudinal direction of the pallet erecting machine in fig. 1, the second direction refers to a width direction of the pallet erecting machine in fig. 1, and the third direction refers to a height direction of the pallet erecting machine in fig. 1. The plate in the application refers to an autoclaved aerated concrete slab, and belongs to a light partition board. Of course, the plate member is not limited thereto, and other types of plate members may be employed.

As shown in fig. 1 and 7, the present invention provides a plate erecting machine, which comprises a frame, a traction device 20 and a telescopic device 30. Wherein, draw gear 20 sets up in the frame, and telescoping device 30 sets up in the frame, and corresponds the setting with draw gear 20, and draw gear 20 includes haulage rope 21, and haulage rope 21 cover is established on the plate, promotes haulage rope 21 and can make the plate stand subaerial aslope, and telescoping device 30 can stretch out along the first direction with the plate butt to the bottom that promotes the plate removes and makes its vertical stand subaerial.

In the above arrangement, the plate can be obliquely lifted by the traction rope 21 of the traction device 20, and the plate can be righted by the telescopic device 30 to vertically stand on the ground. Thus, the plate is erected by using the traction device 20 and the telescopic device 30 together. Therefore, the automatic plate erecting function of the plate erecting machine can be realized subsequently, the mounting steps are simplified, the mounting efficiency of the vertical plate is improved, and the mounting cost is saved.

It should be noted that the plate erecting machine may integrate a control system, which is used for automatically controlling the traction device 20 and the telescopic device 30 to cooperate with each other, so as to realize the automatic plate erecting function of the plate erecting machine.

Specifically, as shown in fig. 7, in one embodiment, the hauling rope 21 is a steel rope.

Specifically, as shown in FIG. 1, in one embodiment, the draft gear 20 is located at the top of the frame and the telescoping gear 30 is located at the bottom of the frame.

In the above arrangement, the traction device 20 is convenient for obliquely lifting the plate, so that the plate can obliquely stand on the ground, and the telescopic device 30 is convenient for pushing the bottom of the plate, so that the plate can vertically stand on the ground. Thereby ensuring that the plate erecting machine can work normally.

Specifically, as shown in fig. 1 and 4, in one embodiment, traction device 20 further includes a main traction assembly 22, main traction assembly 22 including a sliding traction housing 221 and a sliding traction sheave 222. Wherein, the sliding traction shell 221 is connected with the frame, the sliding traction wheel 222 is rotatably arranged on the sliding traction shell 221, and the traction rope 21 is wound on the sliding traction wheel 222.

In the above arrangement, the plate is obliquely lifted by the traction rope 21 by utilizing the lifting principle of the fixed pulley. Thereby realizing the traction function of the traction device 20 and further ensuring that the vertical plate machine can work normally.

Specifically, as shown in fig. 1 and 4, in one embodiment, the traction device 20 further includes a hoist 23, and the hoist 23 is connected to one end of the traction rope 21 for tightening the traction rope 21.

In the above arrangement, the hoisting machine 23 provides traction force for the traction rope 21, so as to ensure that the traction rope 21 can smoothly hoist the panel, and further ensure that the traction device 20 can normally work.

Specifically, in one embodiment, the hoist 23 employs an electric hoist.

Specifically, as shown in fig. 1 and 4, in one embodiment, draft gear 20 further includes an auxiliary draft assembly 24, auxiliary draft assembly 24 including an upper skid 241 and a reinforcing web 242. The upper slide way 241 is slidably connected to the sliding traction casing 221, the sliding traction casing 221 can slide on the upper slide way 241 along the second direction, one end of the reinforcing connecting plate 242 is connected to the upper slide way 241, and the other end of the reinforcing connecting plate is connected to the frame.

In the above arrangement, the auxiliary traction assembly 24 is used to slide the panel laterally, thereby facilitating assembly with other panels. And then realized the side direction of riser machine and assembled the function to satisfy the multi-functional requirement of riser machine.

Specifically, as shown in fig. 1 and 4, in one embodiment, main draft assembly 22 further includes a top dam 223, top dam 223 slidably coupled to upper run 241, and sliding draft housing 221 fixedly coupled to top dam 223.

Specifically, as shown in fig. 1 and 2, in one embodiment, the telescoping device 30 includes a bottom telescoping rod 31 and a bottom barrier 32. Wherein, the bottom telescopic rod 31 is telescopically arranged on the frame along a first direction; the bottom baffle 32 is connected with the bottom telescopic rod 31, and the bottom baffle 32 is used for pushing the plate.

In the above arrangement, the bottom extension rod 31 can extend in the first direction to abut against the plate, and push the bottom of the plate to move so that the plate stands on the ground vertically. Thereby realizing the function of righting of telescoping device 30 and then ensuring that the riser can normally work.

Specifically, as shown in fig. 1 and 2, in one embodiment, the telescopic device 30 further comprises a bottom sliding plate 33, the bottom sliding plate 33 is slidably connected with the bottom baffle 32, and the bottom sliding plate 33 can slide on the bottom baffle 32 in the second direction.

In the above arrangement, the bottom sliding plate 33 is used to slide the plate laterally, so as to facilitate assembly with other plates. And then realized the side direction of riser machine and assembled the function to satisfy the multi-functional requirement of riser machine.

Specifically, as shown in fig. 1 and 3, in one embodiment, the plate erecting machine further comprises a clamping device 40, and the clamping device 40 is arranged on the frame and used for clamping the plate.

In the above arrangement, the clamping plate device 40 can clamp the fixed plate and can drive the plate to slide laterally, thereby facilitating the assembly of the plate with other plates. And then realized the side direction of riser machine and assembled the function to satisfy the multi-functional requirement of riser machine.

Specifically, as shown in fig. 1 and 3, in one embodiment, the clamping device 40 includes a telescopic clamping plate 41 and a middle slide rail 42, the telescopic clamping plate 41 is slidably connected with the middle slide rail 42 and can slide on the middle slide rail 42 along the second direction, and the middle slide rail 42 is disposed on the frame.

Specifically, as shown in fig. 1 and 3, in one embodiment, the telescopic clamp 41 includes a telescopic sliding plate 411, an upper clamp 412, a lower clamp 413, and a clamp telescopic rod 414.

Wherein, flexible slide 411 and middle part slide 42 sliding connection, upper splint 412 is connected with flexible slide 411, and lower splint 413 slides and sets up on upper splint 412, and splint telescopic link 414 is used for the fixed sliding position of lower splint 413 on upper splint 412.

Specifically, as shown in FIG. 1, in one embodiment, the frame includes a base 11 and an upper support 12. Wherein, the telescoping device 30 is arranged on the base 11, the upper support 12 is arranged on the base 11 in a telescoping manner along a third direction, and the traction device 20 is arranged on the upper support 12.

In the arrangement, the height of the rack is adjustable, so that the plate erecting machine can hoist and erect plates of different sizes, and the application range of the plate erecting machine is widened.

Specifically, as shown in fig. 1, in one embodiment, the frame further comprises a height extension device 13, and the height extension device 13 is disposed between the base 11 and the upper bracket 12 for adjusting the height of the frame.

In the above arrangement, the height telescopic device 13 is used for adjusting the height of the frame, so that the plate erecting machine can hoist and erect plates with different sizes, and the application range of the plate erecting machine is widened.

Specifically, as shown in fig. 1 and 6, in one embodiment, the height telescopic device 13 includes a telescopic adjustment lever 131 and a diagonal brace 132.

Wherein, one end of the telescopic adjusting rod 131 is connected with the upper bracket 12, the other end is connected with the base 11, one end of the diagonal brace 132 is connected with the telescopic adjusting rod 131, and the other end is connected with the base 11 for supporting the telescopic adjusting rod 131.

Specifically, as shown in fig. 1, in one embodiment, the telescopic adjustment rod 131 comprises an outer cylinder and an inner cylinder slidably disposed in the outer cylinder, the outer cylinder is connected with the base 11, and the inner cylinder is connected with the upper bracket 12.

Specifically, as shown in fig. 1 and 5, in one embodiment, the plate erecting machine further includes a counterweight device 50, the counterweight device 50 is located at the bottom of the machine frame, the counterweight device 50 includes a counterweight block 51 and a counterweight corner pad 52, and the counterweight corner pad 52 is disposed on the machine frame and used for installing and positioning the counterweight block 51.

A full embodiment of the present application is described in detail below with reference to fig. 1-7:

the utility model provides a plate erecting machine which comprises a moving device (not shown in the drawing and arranged at the bottom of a base 11), a traction device 20, a clamping plate device 40, a height expansion device 13, a counterweight device 50, an upper bottom plate (arranged on an upper support 12), a lower bottom plate (arranged on the base 11) and an expansion device 30. The moving means is preferably an existing movable caster.

Specifically, traction device 20 includes a primary traction assembly 22 and an auxiliary traction assembly 24. Main draft assembly 22 includes a top dam 223, a draft gear pin 224, a sliding draft housing 221 and a sliding draft gear 222.

Specifically, the sliding traction wheel 222 is hinged to the sliding traction housing 221 through a traction wheel pin 224, and the sliding traction wheel 222 is matched with the traction wheel pin 224, so that the sliding traction wheel 222 can rotate freely. The sliding traction shell 221 is arranged below the top baffle 223 and welded with the top baffle 223, and the top baffle 223 is connected with the upper slide way 241 in a sliding mode, so that the main traction assembly 22 slides in the upper slide way 241. The auxiliary tow assembly 24 includes an upper skid 241, a reinforcing attachment plate 242, and reinforcing bolts.

Specifically, one end of the reinforcing connecting plate 242 is connected to the upper slide 241 through a reinforcing bolt, and the other end of the reinforcing connecting plate 242 is welded to the vertical rod 121 (a part of the upper bracket 12), so that reliable connection is achieved.

Further, by providing the reinforcing connecting plate 242, the load-bearing capacity and strength of the upper runner 241 are enhanced. The clamping device 40 includes a telescopic clamp 41 and a middle slide 42. The retractable clamping plate 41 includes a clamping plate retractable rod 414, an upper clamping plate 412, a lower clamping plate 413, and a retractable sliding plate 411.

Specifically, lower plate 413 keeps parallel with punch holder 412, and the one end setting of splint telescopic link 414 is on lower plate 413, and the other end setting of splint telescopic link 414 is on flexible slide 411, and flexible slide 411 and middle part slide 42 sliding connection, lower plate 413 stretch out and draw back through splint telescopic link 414, slide in the slide of one side of flexible splint 41, have further realized the regulation to the distance between punch holder 412 and the lower plate 413.

Specifically, the height retracting device 13 includes a telescopic adjustment lever 131 and a diagonal stay 132. The bottom of the telescopic adjusting rod 131 is welded with the upper portion of the lower bottom plate to achieve reliable connection, one end of the inclined supporting rod 132 is welded with the upper portion of the lower bottom plate, the other end of the inclined supporting rod is welded with the bottom of the telescopic adjusting rod 131, strength of the telescopic adjusting rod 131 in the telescopic adjusting process is guaranteed, the telescopic adjusting rod 131 stretches out and draws back, and adjustment of the vertical height of the whole device is further achieved.

Specifically, the counterweight device 50 includes a counterweight block 51 and a counterweight corner pad 52. The counterweight angle pad 52 is arranged on the lower base plate and is in threaded connection with the lower base plate, the counterweight block 51 is arranged on the counterweight angle pad 52, the counterweight angle pad 52 is arranged at the positions of four base angles of the counterweight block 51, and the limiting effect on the counterweight block 51 is further realized.

Specifically, an electric hoist is arranged on the upper base plate, a threaded hole is formed in the bottom of the electric hoist, and the upper base plate is in threaded connection with the electric hoist.

Specifically, the telescopic device 30 includes a bottom telescopic rod 31, a bottom baffle 32, a bottom chute 34 and a bottom sliding plate 33. Bottom telescopic link 31 sets up in one side of lower plate, with lower plate welded connection, and the top setting of bottom telescopic link 31 is in one side of bottom baffle 32, with bottom baffle 32 welded connection, and bottom spout 34 sets up on the upper portion of bottom baffle 32, and bottom slide 33 sets up on bottom baffle 32, bottom slide 33 and bottom spout 34 sliding fit. Further, the free sliding of the bottom slide 33 on the bottom flap 32 is achieved. The telescopic extension of the bottom telescopic rod 31 further realizes the position adjustment of the bottom baffle 32 and the bottom sliding plate 33 along the telescopic direction.

Specifically, the electric hoist bypasses the sliding traction wheel 222 on the traction device 20 through a steel wire rope, the end of the steel wire rope is connected around one circle of the autoclaved aerated concrete slab through the hook, the electric hoist rotates to tighten the steel wire rope to realize the inclined standing of the autoclaved aerated concrete slab, the bottom expansion link 31 stretches and retracts to drive the bottom baffle 32 to move, and the bottom baffle 32 further pushes the bottom of the autoclaved aerated concrete slab, so that the autoclaved aerated concrete slab stands vertically. At this point, the bottom of the autoclaved aerated concrete slab is in contact with the bottom slide plate 33. The clamping device 40 clamps the autoclaved aerated concrete slab through the clamping telescopic rod 414, realizes the sliding of the telescopic clamping plate 41 on the middle slideway 42 through an electric device system (control system),

in the present application, a specific electrical connection method or communication connection method is adopted in the related art, and the present embodiment is not particularly limited. The main traction assembly 22 slides in the upper slide way 241, so that the autoclaved aerated concrete slab moves in the horizontal direction, and the autoclaved aerated concrete slab is accurately assembled.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "bottom", "top", "front", "rear", "inner", "outer", "left", "right", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, should not be construed as limiting the present invention.

Although the utility model herein has been described with reference to particular embodiments, it is to be understood that these embodiments are merely illustrative of the principles and applications of the present invention. It is therefore to be understood that numerous modifications may be made to the illustrative embodiments and that other arrangements may be devised without departing from the spirit and scope of the present invention as defined by the appended claims. It should be understood that features described in different dependent claims and herein may be combined in ways different from those described in the original claims. It is also to be understood that features described in connection with individual embodiments may be used in other described embodiments.

Claims (10)

1. A riser machine, comprising:

a frame;

the traction device is arranged on the rack;

the telescopic device is arranged on the rack and corresponds to the traction device;

the plate is obliquely stood on the ground, the telescopic device can extend out of the plate in the first direction and abut against the plate, and the bottom of the plate is pushed to move so that the plate stands vertically on the ground.

2. The riser of claim 1, wherein the traction device is located at a top end of the frame and the telescoping device is located at a bottom of the frame.

3. The riser of claim 2, wherein the pulling device further comprises a main pulling assembly, the main pulling assembly comprising:

the sliding traction shell is connected with the rack;

the sliding traction wheel is rotatably arranged on the sliding traction shell, and the traction rope is wound on the sliding traction wheel.

4. A board erecting machine according to claim 3, wherein said traction means further comprises a hoist connected to one end of said traction rope for tightening said traction rope.

5. A board machine according to claim 3, characterized in that the pulling device further comprises an auxiliary pulling assembly, which comprises:

the upper slideway is connected with the sliding traction shell in a sliding manner, and the sliding traction shell can slide on the upper slideway along a second direction;

and one end of the reinforced connecting plate is connected with the upper slideway, and the other end of the reinforced connecting plate is connected with the rack.

6. The board machine of claim 5, wherein the main tractor assembly further includes a top stop plate slidably coupled to the upper run, the sliding tractor shell being fixedly coupled to the top stop plate.

7. The riser of claim 2, wherein the telescoping device comprises:

the bottom telescopic rod is arranged on the rack in a telescopic manner along a first direction;

the bottom baffle is connected with the bottom telescopic rod and used for pushing the plate.

8. A board machine according to claim 7, characterized in that the telescopic device further comprises a bottom slide plate, which is slidably connected with the bottom flap, and which is slidable in the second direction on the bottom flap.

9. A plate erecting machine according to any one of claims 1 to 8 and also comprising a clamping plate device arranged on said frame for clamping said plate.

10. A riser as claimed in any one of claims 1 to 8, wherein the frame comprises:

the telescopic device is arranged on the base;

the upper support is arranged on the base in a telescopic mode along a third direction, and the traction device is arranged on the upper support.

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