CN211464299U - High-efficient iron carbon steel pipe unloading conveyer - Google Patents

Abstract

The utility model belongs to the technical field of unloading conveyer, especially, be a high-efficient iron carbon steel pipe unloading conveyer, including the cell type frame, two location fender platforms of top surface fixedly connected with of cell type frame one end, the bottom surface activity of cell type frame one end is provided with the transfer car, the bilateral symmetry vertical fixation of transfer car top surface has two lift cylinder, two lift cylinder's top is supported and is connected with the jacking crossbeam, two the top surface of jacking crossbeam all is provided with T type guide rail groove, the movable gomphosis has two trapezoidal sliders of relative setting, two in the T type guide rail groove the top of trapezoidal slider all closes to spiral shell and is connected with holding screw. The utility model discloses a two trapezoidal sliders carry out sliding adjustment on the top of jacking crossbeam through T type guide rail groove, and the bottom that closes T type guide rail groove through holding screw spiral after finishing when adjusting realizes locking so that the adaptation blocks the steel pipe of the different diameters that bear, consequently can bear the steel pipe of different specifications.

Description

High-efficient iron carbon steel pipe unloading conveyer

Technical Field

The utility model relates to an unloading conveyer technical field specifically is a high-efficient iron carbon steel pipe unloading conveyer.

Background

The iron-carbon steel pipe is made up by using steel ingot or solid round steel through the processes of punching, hot rolling, cold rolling or cold drawing. Carbon steel pipes have an important position in the steel pipe industry of China, and are classified into hot rolled steel pipes and cold rolled (drawn) steel pipes. The hot-rolled carbon steel pipe is divided into a common steel pipe, a low-medium pressure boiler steel pipe, a medium-pressure boiler steel pipe, a high-pressure boiler steel pipe, an alloy steel pipe, a stainless steel pipe, a petroleum cracking pipe, a geological steel pipe, other steel pipes and the like, the cold-rolled (pulled) carbon steel pipe is divided into a common steel pipe, a low-medium pressure boiler steel pipe, a high-pressure boiler steel pipe, an alloy steel pipe, a stainless steel pipe, a petroleum cracking pipe and other steel pipes, and also comprises a carbon thin-wall steel pipe, an alloy thin-wall steel pipe, a stainless thin-wall steel pipe and a special-shaped steel pipe, the outer diameter of the hot-rolled seamless pipe is generally larger than 32mm, the wall thickness is 2.5-75mm, the outer diameter of the cold-rolled seamless steel; therefore, the steel pipes have various specifications, and the sizes and the weights of the steel pipes with different specifications are greatly different; the iron-carbon steel pipe blanking conveying device adopted at present mainly depends on a rotary arm mechanism, a steel pipe is directly jacked by a pipe jacking cylinder on a pipe placing platform to cross a limiting roller and fall on the rotary arm, a lifting oil cylinder descends, and the steel pipe is threaded.

The current iron-carbon steel pipe blanking conveying device has the following problems:

1. the iron-carbon steel pipe unloading conveyer that adopts at present mainly relies on slewing arm mechanism, and to the little and light in weight's of diameter steel pipe, it is not enough to cross spacing back inertia, can not roll to preset position voluntarily and need artifical supplementary, and to the big and heavy steel pipe of diameter, will be because inertia is big, easy derail.

2. The currently adopted iron-carbon steel pipe blanking conveying device cannot quickly adjust the size of a transmitted steel pipe, and is small in suitable range and low in fault tolerance rate.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

The not enough to prior art, the utility model provides a high-efficient indisputable carbon steel pipe unloading conveyer has solved present indisputable carbon steel pipe unloading conveyer and can not convey the steel pipe of multiple specification to and the problem of the regulation that the steel pipe size that transmits can not be swift.

(II) technical scheme

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a high-efficient iron carbon steel pipe unloading conveyer, includes the cell type frame, the top surface fixedly connected with of cell type frame one end keeps off the platform two location, the bottom surface activity of cell type frame one end is provided with the transfer car, the bilateral symmetry vertical fixation of transfer car top surface has two lift cylinders, two lift cylinder's top support is connected with the jacking crossbeam, two the top surface of jacking crossbeam all is provided with T type guide rail groove, the activity gomphosis has two trapezoidal sliders that set up relatively in the T type guide rail groove, the top of two trapezoidal sliders all spiral shell joint is connected with holding screw, the bottom of holding screw is contradicted and is connected the bottom surface in T type guide rail groove, the bottom push rod bearing frame fixedly connected with horizontal hydro-cylinder of the cell type frame other end, the telescopic shaft fixed connection of horizontal hydro-cylinder the one end of transfer car.

As an optimal technical scheme of the utility model, the middle part fixed mounting of transfer car top surface has the hydraulic pressure station, the top surface fixedly connected with lift hydrovalve and the second hydrovalve at hydraulic pressure station, the oil-out intercommunication at hydraulic pressure station the oil inlet of lift hydrovalve and second hydrovalve, the export of lift hydrovalve communicates two simultaneously lift cylinder's oil inlet, the export intercommunication of second hydrovalve horizontal cylinder's oil inlet.

As a preferred technical scheme of the utility model, two the equal symmetry in both sides of lift cylinder is provided with flexible guide bar, four flexible guide bar supports respectively connects two the bottom surface of jacking crossbeam.

As a preferred technical scheme of the utility model, there is travel switch the avris of cell type frame one end through support fixed mounting, two dogs of one side fixedly connected with of transfer car (buggy), two the dog is pressed in turn and is touched travel switch.

As a preferred technical scheme of the utility model, the top surface interval of cell type frame one end is provided with the model regulation hole, two the bottom surface that the platform was kept off in the location all is equipped with the grafting round pin axle, two the location keeps off the platform and connects through respective grafting round pin axle gomphosis model regulation hole respectively.

(III) advantageous effects

Compared with the prior art, the utility model provides a high-efficient indisputable carbon steel pipe unloading conveyer possesses following beneficial effect:

1. this high-efficient iron carbon steel pipe unloading conveyer through two trapezoidal sliders pass through T type guide rail groove and carry out slide adjusting on the top of jacking crossbeam, and the bottom that closes T type guide rail groove through holding screw spiral after finishing adjusting realizes locking so that the adaptation blocks the steel pipe of the different diameters that bear, consequently can bear the weight of the steel pipe of different specifications.

2. This high-efficient iron carbon steel pipe unloading conveyer, degree of automation is high, suitable pipe diameter scope is big, reducible operating handle amount of labour, reduction intensity of labour to practice thrift the cost of labor, equipment operates steadily, safe and reliable, thereby reduction in production cost and equipment cost of maintenance

Drawings

FIG. 1 is a schematic side view of the subjective structure of the present invention;

FIG. 2 is another side view of the subjective structure of the present invention;

fig. 3 is a schematic view of a partial structure of the present invention.

In the figure: 1. a trough-shaped frame; 2. positioning a blocking platform; 3. a transfer trolley; 4. a lift cylinder; 5. jacking the cross beam; 6. a T-shaped guide rail groove; 7. a trapezoidal slider; 8. tightening the screw; 9. a horizontal oil cylinder; 10. a hydraulic station; 11. a lifting hydraulic valve; 12. a second hydraulic valve; 13. a telescopic guide rod; 14. a travel switch; 15. a stopper; 16. a model adjusting hole; 17. and (6) inserting a pin shaft.

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 in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Examples

Referring to fig. 1-3, the present invention provides the following technical solutions: the utility model provides a high-efficient iron carbon steel pipe unloading conveyer, including cell type frame 1, the top surface fixedly connected with of cell type frame 1 one end keeps off the platform 2 two location, the bottom surface activity of cell type frame 1 one end is provided with transfer car 3, the bilateral symmetry vertical fixation of transfer car 3 top surface has two lift cylinder 4, the top support of two lift cylinder 4 is connected with jacking crossbeam 5, the top surface of two jacking crossbeam 5 all is provided with T type guide rail groove 6, the movable gomphosis has two trapezoidal slider 7 of relative setting in the T type guide rail groove 6, the top of two trapezoidal slider 7 all is screwed and is connected with holding screw 8, the bottom of holding screw 8 is contradicted and is connected the bottom surface of T type guide rail groove 6, the bottom push rod bearing frame fixedly connected with horizontal cylinder 9 of the cell type frame 1 other end, the telescopic shaft fixed connection transfer car 3's of horizontal cylinder.

In the embodiment, the top end of the groove frame 1 rolls and bears the steel pipe to be transported, the steel pipe rolls to the positions of two positioning baffle tables 2 to be blocked and positioned, the transport vehicle 3 is pushed by a telescopic shaft of a horizontal oil cylinder 9 to move in the groove frame 1 in a reciprocating way, meanwhile, two lifting oil cylinders 4 push a jacking cross beam 5 and a pair of trapezoidal sliding blocks 7 at the top end of the jacking cross beam to lift, when the trapezoidal sliding blocks 7 are positioned below the opening surface of the groove frame 1, the steel pipe cannot be blocked from rolling, when hydraulic oil is simultaneously introduced into the two lifting oil cylinders 4, the two lifting oil cylinders 4 push the two jacking cross beams 5 and the trapezoidal sliding blocks 7 to lift, if the opening of the trapezoidal sliding blocks 7 is positioned at the bottom side of the positioning baffle tables 2 at the moment, the trapezoidal sliding blocks 7 lift the steel pipe blocked by the positioning baffle tables 2 in the lifting process until the bottom surface of, at the moment, along with the extension and contraction of the horizontal oil cylinder 9, the transfer trolley 3 carries steel pipes to move horizontally and moves to a set placement area from the groove-shaped frame 1 to finish conveying, the two trapezoidal sliding blocks 7 can be adjusted in a sliding mode at the top end of the jacking cross beam 5 through the T-shaped guide rail groove 6, and after the adjustment is finished, the two trapezoidal sliding blocks are screwed at the bottom of the T-shaped guide rail groove 6 through the set screws 8 to achieve locking so as to be matched with and clamp the steel pipes with different diameters, and therefore the steel pipes with different specifications can be borne.

Specifically, a hydraulic station 10 is fixedly installed in the middle of the top surface of the transfer trolley 3, a lifting hydraulic valve 11 and a second hydraulic valve 12 are fixedly connected to the top surface of the hydraulic station 10, an oil outlet of the hydraulic station 10 is communicated with oil inlets of the lifting hydraulic valve 11 and the second hydraulic valve 12, an outlet of the lifting hydraulic valve 11 is simultaneously communicated with oil inlets of the two lifting oil cylinders 4, and an outlet of the second hydraulic valve 12 is communicated with an oil inlet of the horizontal oil cylinder 9.

In the embodiment, the hydraulic station 10 is used for providing jacking force and thrust, when the hydraulic station 10 is simultaneously communicated with two lifting cylinders 4 through a lifting hydraulic valve 11, telescopic shafts of the two lifting cylinders 4 extend forwards to push the two lifting beams 5 to ascend, the two lifting beams 5 respectively lift a steel pipe through two opposite trapezoidal sliders 7 at the top ends of the two lifting beams, then the hydraulic station 10 is communicated with a horizontal cylinder 9 through an outlet of a second hydraulic valve 12, the telescopic shafts of the horizontal cylinder 9 push a transfer trolley 3 to move to a blanking station, then the lifting hydraulic valve 11 discharges high-pressure oil, at the moment, the two lifting beams 5 and the lifted steel pipe fall onto a set bearing platform under the action of gravity, so that the transfer operation of the steel pipe is completed, then the second hydraulic valve 12 is communicated with an oil inlet at the other end of the horizontal cylinder 9, and the telescopic shafts of the horizontal cylinder 9 retract to an initial position, preparing for a second lifting and transferring operation; the hydraulic station 10 of the utility model adopts a YYYZ-1.5 KW type variable blade pump station.

Specifically, two sides of the two lifting cylinders 4 are symmetrically provided with telescopic guide rods 13, and the four telescopic guide rods 13 are respectively connected with the bottom surfaces of the two jacking cross beams 5 in a supporting manner.

In this embodiment, four flexible guide bars 13 are used for supporting respectively and guide two jacking crossbeams 5 and carry out steady lift to carry out jacking and blanking to the steel pipe.

Specifically, a travel switch 14 is fixedly mounted on the side of one end of the groove-shaped frame 1 through a support, two stop blocks 15 are fixedly connected to one side of the transfer trolley 3, and the two stop blocks 15 alternately press the travel switch 14.

In this embodiment, the travel switch 14 is used for detecting the moving position of the transfer trolley 3, when the position of the transfer trolley 3 reaches the lifting station, the first stop 15 presses the travel switch 14, and the travel switch 14 transmits a lifting signal, and when the position of the transfer trolley 3 reaches the blanking station, the second stop 15 presses the travel switch 14, and the travel switch 14 transmits a blanking signal, wherein the travel switch 14 adopts an adjustable swing arm type touch switch of WLCA12-2 type.

Specifically, model adjusting holes 16 are formed in the top face of one end of the groove-shaped frame 1 at intervals, inserting pin shafts 17 are arranged on the bottom faces of the two positioning baffle platforms 2, and the two positioning baffle platforms 2 are connected with the model adjusting holes 16 through the inserting pin shafts 17 in an embedded mode.

In this embodiment, the two positioning blocking platforms 2 are respectively connected with the model adjusting holes 16 through the respective inserting pin shafts 17 in an embedded manner, so that the top end of the channel frame 1 can be adjusted, and the blocking positions can be adjusted according to the sizes of steel pipes of different models, so that the two jacking cross beams 5 and the trapezoidal sliding blocks 7 can be opposite to the bottom ends of the steel pipes to be conveyed.

The hydraulic station 10 and the travel switch 14 in the present embodiment are known technologies that have been disclosed to be widely used in industrial production and daily life.

The utility model discloses a theory of operation and use flow: the top end of the groove-shaped frame 1 rolls to bear a steel pipe to be transported, the steel pipe rolls to the positions of two positioning baffle tables 2 to be blocked and positioned, the transport vehicle 3 is pushed by a telescopic shaft of a horizontal oil cylinder 9 to move in the groove-shaped frame 1 in a reciprocating manner, meanwhile, two lifting oil cylinders 4 push the jacking cross beams 5 and a pair of trapezoidal sliding blocks 7 at the top end of the jacking cross beams to lift, when the trapezoidal sliding blocks 7 are positioned below the opening surface of the groove-shaped frame 1, the steel pipe cannot be blocked from rolling, when hydraulic oil is introduced into the two lifting oil cylinders 4 simultaneously, the two lifting oil cylinders 4 push the two jacking cross beams 5 and the trapezoidal sliding blocks 7 to lift, if the opening of the trapezoidal sliding blocks 7 is positioned at the bottom side of the positioning baffle tables 2 at the moment, the trapezoidal sliding blocks 7 lift the steel pipe blocked by the positioning baffle tables 2 in the lifting process until the bottom surface of the steel pipe, the transfer trolley 3 carries the steel pipes to move horizontally and moves from the groove-shaped frame 1 to a set placing area to finish the transmission.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing embodiments, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (5)

1. The utility model provides a high-efficient iron carbon steel pipe unloading conveyer, includes cell type frame (1), its characterized in that: the top surface of one end of the groove-shaped frame (1) is fixedly connected with two positioning baffle tables (2), the bottom surface of one end of the groove-shaped frame (1) is movably provided with a transfer trolley (3), two sides of the top surface of the transfer trolley (3) are symmetrically and vertically fixed with two lifting oil cylinders (4), the top ends of the two lifting oil cylinders (4) are supported and connected with jacking cross beams (5), the top surfaces of the two jacking cross beams (5) are respectively provided with a T-shaped guide rail groove (6), two trapezoidal sliding blocks (7) which are oppositely arranged are movably embedded in the T-shaped guide rail groove (6), the top ends of the two trapezoidal sliding blocks (7) are respectively screwed and connected with a set screw (8), the bottom end of the set screw (8) is in butt joint with the bottom surface of the T-shaped guide rail groove (6), and a bottom push rod bearing seat at the other end of the groove, and a telescopic shaft of the horizontal oil cylinder (9) is fixedly connected with one end of the transfer trolley (3).

2. The high-efficiency iron-carbon steel pipe blanking conveying device according to claim 1, characterized in that: the middle part of the top surface of the transfer trolley (3) is fixedly provided with a hydraulic station (10), the top surface of the hydraulic station (10) is fixedly connected with a lifting hydraulic valve (11) and a second hydraulic valve (12), an oil outlet of the hydraulic station (10) is communicated with oil inlets of the lifting hydraulic valve (11) and the second hydraulic valve (12), an outlet of the lifting hydraulic valve (11) is communicated with two oil inlets of the lifting oil cylinder (4), and an outlet of the second hydraulic valve (12) is communicated with an oil inlet of the horizontal oil cylinder (9).

3. The high-efficiency iron-carbon steel pipe blanking conveying device according to claim 1, characterized in that: two sides of the two lifting oil cylinders (4) are symmetrically provided with telescopic guide rods (13), and the four telescopic guide rods (13) are respectively connected with the bottom surfaces of the two jacking cross beams (5) in a supporting manner.

4. The high-efficiency iron-carbon steel pipe blanking conveying device according to claim 1, characterized in that: the side of one end of the groove-shaped frame (1) is fixedly provided with a travel switch (14) through a support, one side of the transfer trolley (3) is fixedly connected with two check blocks (15), and the two check blocks (15) alternately press and contact the travel switch (14).

5. The high-efficiency iron-carbon steel pipe blanking conveying device according to claim 1, characterized in that: the top surface interval of cell type frame (1) one end is provided with model regulation hole (16), two the bottom surface that the platform (2) was kept off in the location all is equipped with grafting round pin axle (17), two the location keeps off platform (2) and connects through respective grafting round pin axle (17) gomphosis model regulation hole (16) respectively.

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