CN210708109U - Flowmeter production line returns board and encapsulation transport mechanism - Google Patents

Abstract

The utility model discloses a flowmeter production line returns board and encapsulation transport mechanism, including board year frock lift, double-deck transfer chain, packing box strapper, the terminal point butt joint of the input of sending into of board year frock lift and production transfer chain, and the lift mesa of board year frock lift raises the height and produces the transfer chain highly uniform, the lift mesa falls down highly and the lower floor's transfer chain highly uniform of double-deck transfer chain, and the output of board year frock lift and the butt joint of lower floor's transfer chain, the starting point of production transfer chain is connected to lower floor's transfer chain supplies the board transfer chain. Has the advantages that: realize the cyclic utilization of frock, need not to transport or carry midway, the administrator need not handle the frock, and leaves more efforts to the processing of flowmeter, improves production efficiency, and the upper transfer chain can be put into the packing box with the flowmeter by the manual work, is tied up the encapsulation by packing box strapper to it again, just can accomplish the last process of production flowmeter, and occupation space is little, the cost of using the ground sparingly.

Description

Flowmeter production line returns board and encapsulation transport mechanism

Technical Field

The utility model relates to a flowmeter flow direction of packaging line technical field, specific theory relates to a flowmeter production line returns board and encapsulation transport mechanism.

Background

The production and calibration of the flowmeter have realized the assembly line work, send a plurality of spare parts to the operation station in proper order through the assembly line and produce and calibrate, saved the time of transport and transmission greatly. After production of a production line is finished, on one hand, a flowmeter is conveyed to a packaging and packaging area, on the other hand, a tool for bearing the flowmeter on the production line needs to be returned for standby, but the traditional production line usually only considers one of the problems that the end point of the production line is connected with packaging equipment, a certain amount of accumulated flow is conveyed to the starting point of the production line manually after plate returning work and the like, or the end point of the production line is connected with the starting point to finish plate returning conveying, but the packaging needs to be carried out by another line and conveyed, so that the packaging is finished.

In any case, the end point of the production line cannot have the combination of returning plates and packaging, manpower and material resources are consumed, the occupied area of the production line is inevitably increased, the more complex the whole production line is, the more easily the operation failure occurs, and the maintenance cost is also increased.

SUMMERY OF THE UTILITY MODEL

To the above defect, the utility model provides a flowmeter production line returns board and encapsulation transport mechanism, the structure of the detached work of lower floor is realized packing and is returned the board and go on simultaneously about adopting, on board year frock and flowmeter are sent board year frock lift by the production line terminal point, again by arm or manual separation both, the flowmeter packs on the upper strata, board year frock is sent the lower floor and is passed back the starting point for use, area has significantly reduced, and the operating efficiency has been improved, also be convenient for maintain.

In order to achieve the above purpose, the utility model adopts the following specific technical scheme:

a flow meter production line plate returning and packaging transportation mechanism comprises an on-board tool lifter, a double-layer conveying line and a packing box binding machine, wherein the sending end of the on-board tool lifter is butted with the end point of a production conveying line, the lifting height of a lifting table top of the on-board tool lifter is consistent with the height of the production conveying line, the lowering height of the lifting table top is consistent with the height of a lower-layer conveying line of the double-layer conveying line, the output end of the on-board tool lifter is butted with the lower-layer conveying line, and the lower-layer conveying line is connected with the starting point of the production conveying line for a plate;

the binding area of the packing box binding machine is positioned on the upper layer conveying line of the double-layer conveying line.

Through the design, board carries frock of production line endpoint department is received to board year frock lift, after the flowmeter on the standby arm or manual work put the upper transfer chain with the frock, it arrives lower floor's transfer chain to descend board year frock, and finally send to the starting point and supply board department, form the cyclic utilization of frock, need not to transport or carry midway, the administrator need not handle the frock, and reserve more efforts to the processing of flowmeter, improve production efficiency, the upper transfer chain can be put into the packing box with the flowmeter by the manual work, tie up the encapsulation to it by packing box strapper again, just can accomplish the last process of production flowmeter, occupation space is little, practice thrift the land cost.

Further designed, the onboard tooling lifter comprises an outer box, and a lifting frame which can move up and down is installed in the outer box;

the outer container internal fixation is equipped with vertical elevating system for rise/descend the carriage, the carriage lower part is fixed with horizontal transport mechanism for receive board year frock from the production transfer chain, and send out board year frock to lower floor's transfer chain.

Through the design, on the lift frame was transported to on board carried frock, at this moment, put the upper transfer chain by the flowmeter on arm or the manual work on the frock, and the frock descends to lower floor's transfer chain height through vertical elevating system, is delivered to lower floor's transfer chain on by horizontal transport mechanism again, supplies the board department until getting back to the production line, returns the board work and can accomplish automatically, does not need administrator or workman's operation, has saved time and manpower.

Furthermore, the front side and the rear side of the lifting frame are respectively butted with the production conveying line and the double-layer conveying line, two roller mounting seats which are parallel to each other and have the same height are arranged on the left side and the right side of the upper part of the lifting frame, N rollers are horizontally mounted between the roller mounting seats, and the upper end faces of the N rollers form the lifting table board.

In a further design, the horizontal transportation mechanism comprises a transmission motor, the transmission motor is fixed on a bottom plate of the lifting frame, a motor shaft of the transmission motor is parallel to the roller, rotating teeth are sleeved on the motor shaft, roller rotating teeth are correspondingly arranged on one side of the roller, transmission chains are sleeved on the roller rotating teeth of m rollers and the rotating teeth of the transmission motor, and m is greater than or equal to 1 and less than or equal to N.

Through above-mentioned design, when needs horizontal transfer board to carry the frock, conveying motor drives the driving chain and rotates, and the cylinder that the driving chain was lived changes the tooth thereupon and rotates, then m drive the horizontal motion of frock, accomplishes horizontal transmission.

Further, vertical elevating system includes the power telescoping cylinder, and the cylinder body of this power telescoping cylinder is vertical to be fixed in the outer container bottom, and the piston rod of power telescoping cylinder is vertical upwards, and the piston rod top is equipped with the pulley mounting bracket, install flexible pulley on the pulley mounting bracket, around being equipped with the haulage rope on this flexible pulley, the one end of haulage rope is fixed in the outer container bottom, and the other end is connected the lift frame.

Above-mentioned design drags the sash with the haulage rope, and when the piston rod of power telescoping cylinder stretches out, pulley mounting bracket and flexible pulley synchronous rising, because the one end of haulage rope is fixed in the outer container bottom, under the unchangeable circumstances of rope length, the other end of connecting the sash will be followed the rising of flexible pulley and is pulled up, has just realized the lifting of sash, otherwise, when the piston rod withdrawal, the haulage rope will be followed the decline of flexible pulley and put down the sash.

According to a further design, two lifting support bars extend out of one side of the bottom of the lifting frame, which is close to the power telescopic cylinder, the two lifting support bars are respectively close to the front inner wall and the rear inner wall of the outer box, roller mounting plates are vertically arranged on the two lifting support bars, the roller mounting plates are parallel to the front inner wall and the rear inner wall of the outer box, a gap is reserved between the roller mounting plates and the inner wall of the outer box, roller slide rails are arranged in the gap, the roller slide rails are fixedly connected with the inner wall of the outer box, the roller mounting plates are provided with l pairs of sliding rollers, l is larger than or equal to 1, and each pair of sliding rollers clamp the roller slide rails;

and a connecting strip is fixedly connected between the two lifting support strips, a traction tongue is fixed on the connecting strip, and the traction tongue is fixedly connected with the traction rope.

When the traction rope pulls the traction tongue, the lifting support bars and the roller mounting plates on the two sides of the connecting bar can move synchronously, at the moment, the sliding rollers slide on the roller sliding rails, the motion track of the lifting frame is vertical up and down, and the sliding rollers clamp the sliding rails to effectively support the weight of the whole lifting frame.

The double-layer conveying line is further designed to be supported by a plurality of supporting rods, two roller lines are erected at the tops of the supporting rods, and rollers are laid between the two roller lines to form the upper-layer conveying line;

two caterpillar tracks are erected in the middle of the supporting rod, a transmission shaft is arranged at the end point section of each caterpillar track, the transmission shafts and the caterpillar tracks are identical in height and perpendicular to each other, transmission teeth are sleeved at two ends of each transmission shaft, the transmission teeth are opposite to the tracks of the caterpillar tracks, the transmission shafts are fixed on a horizontal mounting strip through bearings, and the horizontal mounting strip is fixedly connected with the caterpillar tracks;

the chain track conveying device is characterized in that chain driving teeth are arranged at the starting point section of the chain track and are fixed on a horizontal mounting base through a bearing, the horizontal mounting base is fixedly connected with the chain track, and a transmission chain is assembled on the chain driving teeth and the transmission teeth to form the lower-layer conveying line.

The bracing piece is double-deck transfer chain bilateral symmetry and distributes, and its quantity is selected according to transport length, generally sets up the bracing piece of a pair of bilateral symmetry distribution at every interval 1.5 meters.

The upper conveying line of the design is an unpowered roller line, the whole process is pushed manually, the lower conveying line can be used for installing a motor to drag a transmission chain for transportation, and the transmission can also be realized by pushing a horizontal transportation mechanism of an onboard tool lifter.

Compared with the prior art, the beneficial effects of the utility model are that: the structure that adopts upper and lower layer part work realizes packing and returns the board and goes on simultaneously, and on board carried frock and flowmeter sent board carried frock lift to by the production line terminal point, again by arm or manual separation both, the flowmeter is packed on the upper strata, and board carried frock is sent the lower floor and is passed the starting point back for use, the area that has significantly reduced, and improved the operating efficiency, also be convenient for maintain.

Drawings

FIG. 1 is a top view of an embodiment;

FIG. 2 is a top view of the lower conveyor line;

FIG. 3 is a right side view of the embodiment;

FIG. 4 is a top view of an on-board tooling elevator;

FIG. 5 is an enlarged view of a portion of FIG. 4;

FIG. 6 is a front view of the lift frame in a raised condition;

FIG. 7 is a left side view of the lift frame in a raised state;

FIG. 8 is a front view of the lifting frame in a lowered position;

fig. 9 is a left side view of the lifting frame in a lowered state.

Detailed Description

The present invention will be further described with reference to the following examples and accompanying drawings.

A flow meter production line plate returning and packaging transportation mechanism is shown in figures 1-3 and comprises an on-board tool lifter 1, a double-layer transportation line 2 and a packing box strapping machine 3, wherein the feeding end of the on-board tool lifter 1 is butted with the end point of a production transportation line A, the rising height of a lifting table top of the on-board tool lifter 1 is consistent with the height of the production transportation line A, the falling height of the lifting table top is consistent with the height of a lower layer transportation line 22 of the double-layer transportation line 2, the output end of the on-board tool lifter 1 is butted with the lower layer transportation line 22, and the lower layer transportation line 22 is connected with the starting point of the production transportation line A to supply a plate transportation line;

the binding area of the packing box binding machine 3 is positioned on the upper layer conveying line 21 of the double-layer conveying line 2, the existing binding machine is selected, the binding mechanism is fixed above one section of the upper layer conveying line 21, and then the binding can be completed after the flowmeter packing box is over against the binding mechanism.

The onboard tooling lifter 1 shown in fig. 4-9 comprises an outer box 13, wherein a lifting frame 14 capable of moving up and down is installed in the outer box 13;

and a vertical lifting mechanism 11 is fixedly arranged in the outer box 13 and used for lifting/lowering the lifting frame 14, and a horizontal transportation mechanism 12 is fixed at the lower part of the lifting frame 14 and used for receiving/sending an onboard tool B from/to the production conveying line A to/from the lower-layer conveying line 22.

The front side and the rear side of the lifting frame 14 are respectively butted with the production conveying line A and the double-layer conveying line 2, two roller mounting seats 141 which are parallel to each other and have the same height are arranged on the left side and the right side of the upper part of the lifting frame 14, N rollers 142 are horizontally mounted between the roller mounting seats 141, and the upper end faces of the N rollers 142 form the lifting table board.

The horizontal transportation mechanism 12 comprises a transportation motor 121, the transportation motor 121 is fixed on the bottom plate of the lifting frame 14, a motor shaft of the transportation motor 121 is parallel to the roller 142, a rotating tooth is sleeved on the motor shaft, a roller rotating tooth is correspondingly arranged on one side of the roller 142, a transmission chain is sleeved on the roller rotating teeth of m rollers 142 and the rotating tooth of the transportation motor 121, and m is greater than or equal to 1 and is less than or equal to N.

Vertical elevating system 11 includes power telescoping cylinder 111, and this power telescoping cylinder 111's cylinder body is vertical to be fixed in outer container 13 bottom, and power telescoping cylinder 111's piston rod is vertical upwards, and the piston rod top is equipped with pulley mounting bracket 112, install flexible pulley 113 on the pulley mounting bracket 112, around being equipped with the haulage rope on this flexible pulley 113, the one end of haulage rope is fixed in outer container 13 bottom, and the other end is connected the carriage 14.

Two lifting support bars 143 extend from one side of the bottom of the lifting frame 14 close to the power telescopic cylinder 111, the two lifting support bars 143 are respectively close to the inner wall of the front side and the inner wall of the rear side of the outer box 13, roller mounting plates 144 are erected on the two lifting support bars 143, the roller mounting plates 144 are parallel to the inner wall of the front side and the inner wall of the rear side of the outer box 13, a gap is reserved between the roller mounting plates 144 and the inner wall of the outer box 13, roller sliding rails 145 are arranged in the gap, the roller sliding rails 145 are fixedly connected with the inner wall of the outer box 13, the roller mounting plates 144 are provided with l pairs of sliding rollers 146, l is larger than or equal to 1, and each pair of sliding rollers 146 clamps the roller sliding rails 145;

a connecting strip 147 is fixedly connected between the two lifting support bars 143, a traction tongue 148 is fixed on the connecting strip 147, and the traction tongue 148 is fixedly connected with the traction rope.

As shown in fig. 3, the double-layer conveying line 2 is supported by a plurality of support rods 23, two roller lines are erected at the tops of the support rods 23, and rollers are laid between the two roller lines to form the upper-layer conveying line 21;

two caterpillar tracks are erected in the middle of the supporting rod 23, a transmission shaft is arranged at the terminal section of each caterpillar track, as shown in fig. 2, the transmission shaft and the caterpillar tracks are identical in height and are perpendicular to each other, transmission teeth are sleeved at two ends of the transmission shaft, the transmission teeth are opposite to the tracks of the caterpillar tracks, the transmission shaft is fixed on a horizontal mounting strip through a bearing, and the horizontal mounting strip is fixedly connected with the caterpillar tracks;

the starting point section of the chain rail is provided with chain driving teeth, the chain driving teeth are fixed on a horizontal mounting seat through a bearing, the horizontal mounting seat is fixedly connected with the chain rail, and the chain driving teeth and the transmission teeth are assembled with a transmission chain to form the lower-layer conveying line 22.

Finally, it should be noted that the above description is only a preferred embodiment of the present invention, and those skilled in the art can make various similar representations without departing from the spirit and the scope of the present invention.

Claims (7)

1. A plate returning and packaging transportation mechanism of a flowmeter production line is characterized by comprising an onboard tool lifter (1), a double-layer conveying line (2) and a packing box strapping machine (3), wherein the feeding end of the onboard tool lifter (1) is butted with the end point of a production conveying line (A), the lifting height of a lifting table top of the onboard tool lifter (1) is consistent with the height of the production conveying line (A), the lowering height of the lifting table top is consistent with the height of a lower-layer conveying line (22) of the double-layer conveying line (2), the output end of the onboard tool lifter (1) is butted with the lower-layer conveying line (22), and the lower-layer conveying line (22) is connected with the starting point of the production conveying line (A) for a plate conveying line (C);

the binding area of the packing box binding machine (3) is positioned on the upper layer conveying line (21) of the double-layer conveying line (2).

2. The flowmeter production line plate returning and packaging transportation mechanism according to claim 1, wherein the plate loading tooling lifter (1) comprises an outer box (13), and a lifting frame (14) which can move up and down is installed in the outer box (13);

the outer container (13) internal fixation is equipped with vertical elevating system (11), is used for rising/descend lift frame (14), lift frame (14) lower part is fixed with horizontal transport mechanism (12), is used for receiving board year frock (B) from production transfer chain (A) to send out board year frock (B) to lower floor's transfer chain (22).

3. The flowmeter production line return plate and packaging transportation mechanism according to claim 2, wherein the front side and the rear side of the lifting frame (14) are respectively butted with the production transportation line (A) and the double-layer transportation line (2), two roller mounting seats (141) which are parallel to each other and have the same height are arranged on the left side and the right side of the upper part of the lifting frame (14), N rollers (142) are horizontally mounted between the two roller mounting seats (141), and the upper end surfaces of the N rollers (142) form the lifting table.

4. The flowmeter production line return plate and packaging conveying mechanism according to claim 3, wherein the horizontal conveying mechanism (12) comprises a conveying motor (121), the conveying motor (121) is fixed on a bottom plate of the lifting frame (14), a motor shaft of the conveying motor (121) is parallel to the rollers (142), rotating teeth are sleeved on the motor shaft, roller rotating teeth are correspondingly arranged on one side of each roller (142), a transmission chain is sleeved on the roller rotating teeth of m rollers (142) and the rotating teeth of the conveying motor (121), and m is greater than or equal to 1 and less than or equal to N.

5. The flowmeter production line plate returning and packaging transportation mechanism according to claim 2, wherein the vertical lifting mechanism (11) comprises a power telescopic cylinder (111), a cylinder body of the power telescopic cylinder (111) is vertically fixed at the bottom of the outer box (13), a piston rod of the power telescopic cylinder (111) is vertically upward, a pulley mounting frame (112) is assembled at the top of the piston rod, a telescopic pulley (113) is installed on the pulley mounting frame (112), a traction rope is wound on the telescopic pulley (113), one end of the traction rope is fixed at the bottom of the outer box (13), and the other end of the traction rope is connected with the lifting frame (14).

6. The flowmeter production line return plate and packaging transportation mechanism of claim 5, two lifting support bars (143) extend out from one side of the bottom of the lifting frame (14) close to the power telescopic cylinder (111), the two lifting support bars (143) are respectively close to the inner wall of the front side and the inner wall of the rear side of the outer box (13), and roller mounting plates (144) are erected on the two lifting support bars (143), the roller mounting plates (144) are parallel to the inner walls of the front side and the rear side of the outer box (13), and a gap is reserved between the roller mounting plate (144) and the inner wall of the outer box (13), a roller sliding rail (145) is arranged in the gap, the roller sliding rail (145) is fixedly connected with the inner wall of the outer box (13), the roller mounting plate (144) is provided with l pairs of sliding rollers (146), l is more than or equal to 1, and each pair of sliding rollers (146) clamps the roller sliding rail (145);

a connecting strip (147) is fixedly connected between the two lifting supporting strips (143), a traction tongue (148) is fixed on the connecting strip (147), and the traction tongue (148) is fixedly connected with the traction rope.

7. The flowmeter production line plate returning and packaging conveying mechanism according to claim 1, wherein the double-layer conveying line (2) is supported by a plurality of supporting rods (23), two roller lines are erected on the tops of the supporting rods (23), and rollers are laid between the two roller lines to form the upper-layer conveying line (21);

two caterpillar tracks are erected in the middle of the supporting rod (23), a transmission shaft is arranged at the end point section of each caterpillar track, the transmission shaft and the caterpillar tracks are identical in height and perpendicular to each other, transmission teeth are sleeved at two ends of the transmission shaft and are opposite to tracks of the caterpillar tracks, the transmission shaft is fixed on a horizontal mounting strip through a bearing, and the horizontal mounting strip is fixedly connected with the caterpillar tracks;

chain driving teeth are arranged at the starting point section of the chain rail and are fixed on a horizontal mounting base through a bearing, the horizontal mounting base is fixedly connected with the chain rail, and a transmission chain is assembled on the chain driving teeth and the transmission teeth to form the lower-layer conveying line (22).

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