CN214566364U - Semi-automatic stacking and binding machine for cement support - Google Patents

Abstract

The utility model discloses a semi-automatic stacking and binding machine for cement support, which comprises a placing platform, an integral pushing component, a row-dividing pushing component, a binding machine, a control electric box, a stacking component, a stacking conveying component and a single row pushing component, wherein the placing platform is sequentially provided with the integral pushing component, the row-dividing pushing component and the single row pushing component from top to bottom, the left side of the single row pushing component is provided with the stacking conveying component, the front side of the stacking conveying component is provided with the stacking component, the right side of the stacking component is provided with the binding machine, the control electric box is arranged above the binding machine, the integral pushing component pushes the single row cement support to the row-dividing pushing component through time difference in the pushing process, the row-dividing pushing component conveys the cement support of a unit to the stacking conveying component by utilizing the time difference, the cement support of the unit is conveyed to the stacking component by the stacking conveying component to be stacked, and finally the cement support completed by stacking is stacked, thereby completing the stacking and bundling of the cement support.

Description

Semi-automatic stacking and binding machine for cement support

Technical Field

The utility model relates to an automatic change processing equipment technical field specifically is a cement supports uses semi-automatic pile up neatly strapper.

Background

At present, the cement supports need use in a large number at the concrete placement in-process, nevertheless support for the difficult neat pile up neatly of strip because of the cement, and transport under the circumstances of not tying up and easily appear phenomenon such as damage, nevertheless support the operation of carrying out pile up neatly and tying up the packing to the cement, mainly go on through the manual work, this kind of operation effective rate is low, workman intensity of labour is big, increases shortcomings such as cost of labor, is unfavorable for the enterprise to improve production efficiency and reduce cost.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to overcome current defect, provide a cement and support with semi-automatic pile up neatly strapper, through branch row propelling movement subassembly, strapper, pile up neatly subassembly, pile up neatly conveying component and single row propelling movement subassembly, can effectively solve the problem in the background art.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a cement supports uses semi-automatic pile up neatly strapper, including putting the platform, whole propelling movement subassembly, branch row propelling movement subassembly, the strapper, the control electronic box, the pile up neatly subassembly, pile up neatly conveying subassembly and single row propelling movement subassembly, it is equipped with whole propelling movement subassembly to be followed to down in proper order to put the platform, branch row propelling movement subassembly and single row propelling movement subassembly, single row propelling movement subassembly left side is equipped with pile up neatly conveying subassembly, pile up neatly conveying subassembly front side is equipped with the pile up neatly subassembly, pile up neatly subassembly right side is equipped with the strapper, and the strapper is located the left side of whole propelling movement subassembly, the strapper top is equipped with the control electronic box.

Furthermore, the whole pushing assembly comprises a bottom plate, a pushing plate is arranged on the right side of the bottom plate, and the pushing plate is connected with a gear on an output shaft of the first transmission motor through a rack.

Furthermore, the single-row pushing assembly comprises a first conveying belt, two sides of the first conveying belt are connected with two groups of first connecting rods through connecting pieces, the lower surfaces of the two groups of first connecting rods are connected with the rotating shaft through bearings, the two groups of first rotating shafts are connected with a first pushing chain through gears, the upper end of the first left connecting rod is provided with a first driving motor, the gear on the output shaft of the first driving motor is connected with the gear on one end of each rotating shaft through the first driving chain, and the tail of the first conveying belt is connected with the adjusting rod through an L-shaped connecting piece.

Further pile up neatly conveying component includes the fixed bolster, the fixed bolster inboard is connected with adjusting the leg joint through four groups of bolts, the fixed bolster right-hand member passes through the connecting block and is connected with driving motor two, the gear on the output shaft of driving motor two is equipped with corresponding propelling movement rack, and the propelling movement rack is located inside the fixed bolster, and the fixed bolster upper end is equipped with conveyer belt two, two both sides of conveyer belt are connected with two sets of connecting rods two through the connecting piece, two lower extremes of two sets of connecting rods pass through the bearing and are connected with pivot two, pass through gear and propelling movement chain two on two sets of pivots and be connected, and the gear of two tip of a set of pivot passes through driving chain two and is connected with driving motor two, and driving motor two is connected with the fixed bolster.

Furthermore, the two groups of pushing chains are provided, the two ends of the two groups of pushing chains are provided with horizontal pushing plates through bolts, and the structures of the first pushing chains and the second pushing chains in the single-row pushing assembly are consistent.

Furthermore, the left end of the pushing rack is a spring telescopic push plate.

Further, the pile up neatly subassembly includes lift platform, and lift platform is located inside the fixed bolster, and the push rack in lift platform right side and the pile up neatly conveying component is corresponding, and the lift platform upper end is equipped with corresponding induction system.

Furthermore, the binding machine comprises a binding shell, wherein the front side of the binding shell is provided with a binding hole, and the front side of the binding shell is provided with a binding platform corresponding to the binding hole.

Furthermore, a plurality of groups of control buttons are arranged on the control electric box.

Compared with the prior art, the beneficial effects of the utility model are that: this semi-automatic pile up neatly strapper is used in cement support has following benefit:

1. the utility model discloses on set up whole propelling movement subassembly, through the control electronic box for the transmission motor in the whole propelling movement subassembly is slower than the functioning speed who arranges pusher, with this through the time difference with single drainage mud support carry live on arranging the propelling movement subassembly, simple easy operation accomplishes the transport of first step.

2. The utility model discloses on set up single propelling movement subassembly, made the first reciprocating motion of conveyer belt through the control electronic box to this makes the cement of single row support the delivery to pile up neatly conveying component of subelement on, and can change the width that cement supported the conveyer belt one through adjusting the pole, is applicable to the not transport that unidimensional cement supported, increases the application scope of equipment, carries with this completion second.

3. The utility model discloses on set up pile up neatly conveying component, supported the cement of unit through propelling movement chain and conveyer belt two and carry to the pile up neatly subassembly on, and when the pile up neatly was accomplished, transmission motor two-pass propelling movement rack supported propelling movement to the corresponding position of strapper with the cement that the pile up neatly was accomplished, and the propelling movement rack right side is the flexible push pedal of spring, and the inside spring compresses along with the adjustment of adjusting the support to accomplish the propelling movement that different width cement supported, with this transport of accomplishing the third time.

The utility model discloses on set up the pile up neatly subassembly, through the induction system in the pile up neatly subassembly for lift platform is in throughout and carries the corresponding height of subassembly with the pile up neatly, makes the conveying that supports cement more accurate swift.

Drawings

FIG. 1 is a schematic structural view of the present invention;

fig. 2 is a schematic structural view of the integral pushing assembly of the present invention;

FIG. 3 is a schematic structural view of the single-row pushing assembly of the present invention;

fig. 4 is a schematic structural view of the stacking pushing assembly of the present invention;

FIG. 5 is a schematic structural view of the stacking assembly of the present invention;

FIG. 6 is a schematic view of the strapping machine of the present invention;

fig. 7 is a schematic view of the structure of the pushing rack of the present invention.

In the figure: the automatic stacking device comprises a placement platform 1, an integral pushing assembly 2, a 201 pushing plate, a 202 rack, a 203 bottom plate, a 204 transmission motor I, a 3-row pushing assembly, a 4-binding machine, a 401-binding shell, a 402-binding hole, a 403-binding platform, a 5-control electric box, a 6-stacking assembly, a 601 lifting platform, a 602 sensing device, a 7-stacking conveying assembly, a 701 connecting rod II, a 702-pushing chain II, a 703-rotating shaft II, a 704 transmission motor II, a 705-pushing rack, a 706-driving chain II, a 707-driving motor II, a 708-conveying belt II, a 709 fixing support, a 710-adjusting support, an 8-row pushing assembly, a 801-conveying belt I, an 802-connecting rod I, a 803-pushing chain I, 804-driving motor I, 805-driving chain I, a 806-rotating shaft I and 806-adjusting rods.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, rather than all embodiments, and all other embodiments obtained by a person of ordinary skill in the art without creative work belong to the protection scope of the present invention based on the embodiments of the present invention.

Referring to fig. 1-7, the present invention provides a technical solution: a semi-automatic stacking and binding machine for supporting cement comprises a placing platform 1, an integral pushing assembly 2, a row-dividing pushing assembly 3, a binding machine 4, a control electric box 5, a stacking assembly 6, a stacking conveying assembly 7 and a row-dividing pushing assembly 8, wherein the placing platform 1 is sequentially provided with the integral pushing assembly 2, the row-dividing pushing assembly 3 and the row-dividing pushing assembly 8 from top to bottom, the left side of the row-dividing pushing assembly 8 is provided with the stacking conveying assembly 7, the front side of the stacking conveying assembly 7 is provided with the stacking assembly 6, the right side of the stacking assembly 6 is provided with the binding machine 4, the binding machine 4 is positioned on the left side of the integral pushing assembly 2, the control electric box 5 is arranged above the binding machine 4, a plurality of groups of rows of cement supports are placed on the placing platform 1, a plurality of groups of rows of cement supports are manually pushed to the integral pushing assembly 2, the integral pushing assembly 2 pushes the row-dividing pushing assembly 3 through time difference, the sub-row pushing assembly 3 conveys a unit of cement support to the stacking conveying assembly 7 by using time difference, the stacking conveying assembly 7 conveys the unit of cement support to the stacking assembly 6 for stacking, and finally an operator bundles the cement support by using a bundling strip in the bundling machine 4 to complete the stacking and bundling of the cement support, the whole pushing assembly 2 comprises a bottom plate 203, a push plate 201 is arranged at the right side of the bottom plate 203, the push plate 201 is connected with a gear on an output shaft of a first transmission motor 204 through a rack 202, an input end of the first transmission motor 204 is electrically connected with an output end of a control electric box 5, the gear on the output end of the first transmission motor 204 is meshed with the rack 202 through a gear on the output end of the first transmission motor 204, so that a plurality of groups of cement supports with multiple rows are driven to move through the push plate 201, and the conveying speed of the sub-row pushing assembly 3 is higher than the first transmission motor 204 through the control electric box 5, so that the plurality of groups of cement supports with multiple rows are grouped, the single-row pushing assembly 8 comprises a first conveyor belt 801, two sides of the first conveyor belt 801 are connected with a first two-group connecting rod 802 through connecting pieces, the lower surfaces of the first two-group connecting rod 802 are connected with a rotating shaft 806 through bearings, the first two-group rotating shaft 806 is connected with a first pushing chain 803 through a gear, a first driving motor 804 is arranged at the upper end of the first left connecting rod 802, the gear on an output shaft of the first driving motor 804 is connected with the gear at the end part of the first rotating shaft 806 through a first driving chain 805, the tail part of the first conveyor belt 801 is connected with an adjusting rod 807 through an L-shaped connecting piece, the width of a cement support for transportation can be adjusted through the connecting rod 807, the application range is wider, the input end of the first driving motor 804 is electrically connected with the output end of the control electric box 5, the first driving motor 804 drives the first rotating shaft 806 to rotate through the first driving chain 805, and the first driving motor 804 makes reciprocating rotation through the control electric box 5, and therefore a horizontal pushing plate on the first driving chain 803 pushes the cement support of the unit to be pushed to the stacking conveying assembly 7 The stacking conveying assembly 7 comprises a fixed support 709, the inner side of the fixed support 709 is connected with an adjusting support 710 through four groups of bolts so as to adjust the width of the conveying, so as to enlarge the range of cement supporting stacking bundling, the right end of the fixed support 709 is connected with a second transmission motor 704 through a connecting block, a gear on an output shaft of the second transmission motor 704 is provided with a corresponding pushing rack 705, the pushing rack 705 is positioned inside the fixed support 709, the upper end of the fixed support 709 is provided with a second conveyor belt 708, two sides of the second conveyor belt 708 are connected with two groups of connecting rods 701 through connecting pieces, the lower ends of the two groups of connecting rods 701 are connected with a second rotating shaft 703 through bearings, the two groups of rotating shafts 703 are connected with a second pushing chain 702 through gears, the gears at the end parts of the two groups of rotating shafts are connected with a second driving motor 707 through a second driving chain 706, and the second driving motor 707 is connected with the fixed support 709, the input ends of a second transmission motor 704 and a second driving motor 707 are electrically connected with the output end of the control electronic box 5, the second driving motor 707 drives the rotating shaft 703 to move through a second driving chain 706, so that the horizontal pushing plate on the second pushing chain 702 supports and pushes the cement of the unit to the stacking assembly 6, the two pushing chains 707 are two groups in total, two ends of the two groups of second pushing chains 707 are provided with the horizontal pushing plates through bolts, a first pushing chain 803 in the single-row pushing assembly 8 is consistent with the structure of the second pushing chain 707, the left end of the pushing rack 705 is a spring telescopic pushing plate, the width of the spring telescopic pushing plate at the end part of the pushing rack 705 is changed along with the change of the adjusting bracket 710, the stacking assembly 6 comprises a lifting platform 601, the lifting platform 601 is positioned inside a fixed bracket 709, the right side of the lifting platform 601 corresponds to the pushing rack 705 in the stacking assembly 7, the upper end of the lifting platform 601 is provided with a corresponding sensing device 602, the output end of the sensing device 602 is electrically connected with the input end of the control electric box 5, when the stacking conveying assembly 7 pushes a unit of cement support to the lifting platform 601, the lifting platform 601 automatically descends to a certain height through the sensing device 602, when the stacking of the cement support on the lifting platform 601 is completed, the sensing device 602 transmits a signal to the control electric box 5, then the control electric box 5 is connected with a second transmission motor 704 in the stacking conveying assembly 7, and then the second transmission motor 704 drives a pushing rack 705 to move, so that the stacked cement support is pushed to a position corresponding to the binding machine 4, the binding machine 4 comprises a binding shell 401, a binding hole 402 is arranged on the front side of the binding shell 401, a binding platform 403 corresponding to the binding hole 402 is arranged on the front side of the binding shell 401, the stacked cement support corresponds to the binding hole 402, and an operator puts a binding strip into the binding hole 402 to complete binding, the control electronic box 5 is provided with a plurality of groups of control buttons so as to complete the control of the whole device.

When in use: placing a plurality of groups and a plurality of rows of cement supports on the placing platform 1, pushing the plurality of groups and the plurality of rows of cement supports to the push plate 201 in the integral pushing assembly 2 by an operator, controlling the connection between the electric box 5 and the transmission motor 204 to enable the transmission motor 204 to drive the push plate 201 to move through the rack 202, enabling the operation speed of the transmission motor 204 to be less than that of the row pushing assembly 3, enabling the push plate 201 to convey a single row of cement supports to the row pushing assembly 3 through the time difference between the two rows of cement supports, enabling the row pushing assembly 3 to convey the single row of cement supports to the first conveyor belt 801 through the first drive chain 805, then enabling the first drive motor 804 to drive the first rotating shaft 806 to move through the first drive chain 805, enabling the two groups of horizontal push plates on the first push chain 803 to push the single row of cement supports to the stacking conveying assembly 7, and enabling the first drive motor 804 to do reciprocating motion, so as to convey the single row of cement supports to the stacking conveying assembly 7, the width of the cement support conveyor belt I801 can be changed through the adjusting rod 807, the cement support conveyor belt I is suitable for conveying cement supports of different sizes, the application range of equipment is enlarged, then the driving motor II 707 drives the rotating shaft II 703 to rotate through the driving chain II 706, so that two groups of horizontal pushing plates on the pushing chain II 702 push the cement supports of the units to the stacking assembly 6, meanwhile, the distance between the adjusting bracket 710 and the fixing bracket 709 can be adjusted to be suitable for the cement support through four groups of fastening bolts, the width of a spring telescopic push plate on the left side of the pushing rack 705 is changed along with the adjustment of the adjusting bracket 710 at the moment, then the sensing device 602 senses the cement supports, and when the stacking of the cement supports is completed, the driving motor II 704 pushes the cement supports to the position corresponding to the binding machine 4 through the spring telescopic push plate at the end of the pushing rack 705, the cement that the pile up neatly was accomplished supports and is corresponding with bunding hole 402 this moment, and the operator will tie up the strip and put into bunding hole 402 at last to this completion is supported the pile up neatly and is tied up to cement, and this device is simple easy to operate, uses manpower and materials sparingly, provides convenience for people.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (9)

1. The utility model provides a cement supports uses semi-automatic pile up neatly strapper, includes puts platform (1), whole propelling movement subassembly (2), branch row propelling movement subassembly (3), strapper (4), control electronic box (5), pile up neatly subassembly (6), pile up neatly conveying component (7) and single row propelling movement subassembly (8), its characterized in that: put platform (1) from last to being equipped with whole propelling movement subassembly (2) down in proper order, divide row propelling movement subassembly (3) and single row propelling movement subassembly (8), single row propelling movement subassembly (8) left side is equipped with pile up neatly conveying component (7), pile up neatly conveying component (7) front side is equipped with pile up neatly subassembly (6), pile up neatly subassembly (6) right side is equipped with strapper (4), and strapper (4) are located the left side of whole propelling movement subassembly (2), strapper (4) top is equipped with control electronic box (5).

2. The semi-automatic concrete support stacking and strapping machine of claim 1, wherein: the integral pushing assembly (2) comprises a bottom plate (203), a pushing plate (201) is arranged on the right side of the bottom plate (203), and the pushing plate (201) is connected with a gear on an output shaft of a first transmission motor (204) through a rack (202).

3. The semi-automatic concrete support stacking and strapping machine of claim 1, wherein: the single-row pushing assembly (8) comprises a first conveying belt (801), two sides of the first conveying belt (801) are connected with a first two groups of connecting rods (802) through connecting pieces, the lower surfaces of the first two groups of connecting rods (802) are connected with a first rotating shaft (806) through bearings, the first two groups of rotating shafts (806) are connected with a first pushing chain (803) through gears, a first driving motor (804) is arranged at the upper end of the first left connecting rod (802), the gears on the output shafts of the first driving motor (804) are connected with the gears at the end parts of the first rotating shafts (806) through a first driving chain (805), and the tail part of the first conveying belt (801) is connected with an adjusting rod (807) through an L-shaped connecting piece.

4. The semi-automatic concrete support stacking and strapping machine of claim 1, wherein: the stacking conveying assembly (7) comprises a fixed support (709), the inner side of the fixed support (709) is connected with an adjusting support (710) through four groups of bolts, the right end of the fixed support (709) is connected with a second transmission motor (704) through a connecting block, a gear on an output shaft of the second transmission motor (704) is provided with a corresponding pushing rack (705), the pushing rack (705) is positioned inside the fixed support (709), the upper end of the fixed support (709) is provided with a second conveyor belt (708), two sides of the second conveyor belt (708) are connected with two groups of second connecting rods (701) through connecting pieces, the lower ends of the two groups of second connecting rods (701) are connected with a second rotating shaft (703) through bearings, the two groups of second rotating shafts (703) are connected with a second pushing chain (702) through gears, and the gears at the end parts of the second group of rotating shafts (703) are connected with a second driving motor (707) through a second driving chain (706), and the second driving motor (707) is connected with a fixed bracket (709).

5. The semi-automatic concrete support stacking and strapping machine of claim 4, wherein: the two pushing chains (702) are two groups, horizontal pushing plates are arranged at two ends of the two groups of pushing chains (702) through bolts, and the structures of the first pushing chains (803) in the single-row pushing assembly (8) are consistent with those of the second pushing chains (702).

6. The semi-automatic concrete support stacking and strapping machine of claim 4, wherein: the left end of the pushing rack (705) is provided with a spring telescopic push plate.

7. The semi-automatic concrete support stacking and strapping machine of claim 4, wherein: the stacking assembly (6) comprises a lifting platform (601), the lifting platform (601) is located inside a fixed support (709), the right side of the lifting platform (601) corresponds to a pushing rack (705) in the stacking conveying assembly (7), and a corresponding sensing device (602) is arranged at the upper end of the lifting platform (601).

8. The semi-automatic concrete support stacking and strapping machine of claim 4, wherein: the binding machine (4) comprises a binding shell (401), a binding hole (402) is formed in the front side of the binding shell (401), and a binding platform (403) corresponding to the binding hole (402) is arranged on the front side of the binding shell (401).

9. The semi-automatic concrete support stacking and strapping machine of claim 4, wherein: a plurality of groups of control buttons are arranged on the control electric box (5).

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