CN209128916U - A kind of rotary cone cylinder automatic deploying and retracting machine - Google Patents

Abstract

It is mechanical that a kind of rotary cone cylinder automatic deploying and retracting machine of the utility model is related to a kind of construction of the highway auxiliary, more particularly to a kind of rotary cone cylinder automatic deploying and retracting machine, it is mounted in cone cylinder extension and retraction system and cone cylinder guidance system on running gear including running gear and by rack bogey, the cone cylinder extension and retraction system and cone cylinder guidance system are fixedly linked with rack bogey；The cone cylinder extension and retraction system includes linking arm, and the linking arm both ends are provided with a cone cylinder frame, and the linking arm is rotatedly connected by driving device and rack bogey；The utility model utility model high degree of automation, runs smoothly, and takes linking arm to be rotated by 360 ° completion and collects or lay cone cylinder 2 times, folding and unfolding speed is high；The utility model structure is simple, and can will be folded up headstock in collection main frame, occupies small in size.

Description

A kind of rotary cone cylinder automatic deploying and retracting machine

Technical field

The utility model relates to a kind of construction of the highway auxiliary is mechanical, and in particular to a kind of rotary cone cylinder automatic deploying and retracting machine.

Background technique

Cone cylinder is a kind of using a kind of hollow centrum shape safety sign made of plastics or rubber, cone cylinder bottom opening, and Cone cylinder bottom is provided with outer eaves, is closed for highway or emergency is constructed and traffic tide divided lane shunts in work, often It needs to lay safe cone cylinder part road is isolated, and is recycled after use.It is existing to lay and recycling side Formula is mostly to use manpower, and heavy workload, working efficiency is low, working environment abnormal condition.

Utility model content

The purpose of this utility model is that revolving to solve the above problems, provide a kind of rotary cone cylinder automatic deploying and retracting machine Three-sixth turn is completed to collect or lays cone cylinder twice, and productivity is high, and equipment manufacturing cost is low, stable equipment operation.

A kind of rotary cone cylinder automatic deploying and retracting machine of the utility model, including running gear and carried by rack bogey Cone cylinder extension and retraction system and cone cylinder guidance system on running gear, the cone cylinder extension and retraction system and cone cylinder guidance system are and machine Frame bogey is fixedly linked；

The cone cylinder extension and retraction system includes linking arm, and the linking arm both ends are provided with a cone cylinder frame, the linking arm It is rotatedly connected by driving device and rack bogey；

The cone cylinder guidance system includes guide channel, and a cone cylinder is provided on one end in guide channel and collects/takes off Put device, the other end is provided with a cone cylinder and fell/erection device；

The linking arm is arranged right above guide channel, linking arm rotation, and the cone cylinder frame on one end of linking arm passes through Cone cylinder in guide channel collects/take off device；

The guide channel is arranged along the direction of travel of running gear.

Preferably, it includes the two cone cylinders gear being arranged on the corresponding two sidewalls of guide channel that device is collected/taken off to cone cylinder The central axis of bar, two cone cylinder bars is located along the same line, and two cone cylinder bars are greater than away from the distance of guide channel bottom surface The maximum gauge of taper hole in cone cylinder, less than the diameter of eaves outside cone cylinder, and the distance between two cone cylinder bars are greater than linking arm Width but the diameter for being less than the outer eaves of cone cylinder.

Preferably, cone cylinder fell/erection device includes attachment beam across guide channel, the both ends difference of the attachment beam Two sidewalls corresponding with the guide channel are fixedly linked, and the attachment beam is horizontally disposed；

It further include an active retaining rod, the active retaining rod and attachment beam are arranged in parallel, and the both ends of active retaining rod point Not Tong Guo axis II be connected with attachment beam, the sliding of the attachment beam and axis II is connected, and the central axis of axis II with attachment beam Central axis upright, maximum distance of the active retaining rod apart from guide channel bottom surface are less than eaves diameter outside cone cylinder, active retaining rod Minimum range apart from guide channel bottom surface is greater than the maximum gauge of taper hole in cone cylinder；

A leading truck is also rotatably connected on the axis II, one end of leading truck is connect with II axial restraint of axis, another The one end for collecting/taking off device towards cone cylinder separate on guide channel is held to stretch out, planes intersection, the axis where two leading trucks II central axis is parallel with plane where leading truck, and it is opposite with two on guide channel that leading truck passes through tonicity regulating device The guide channel side wall that distance is nearest in side wall is answered to be connected.

Preferably, tonicity regulating device includes lacing wire hook, and one end of the lacing wire hook and place guide channel side wall rotate It is connected, the other end is connected with the tonicity adjustment hole being arranged on leading truck, sets on same leading truck along the direction that leading truck stretches out Several tonicity adjustment holes are equipped with, the tonicity adjustment hole matches with lacing wire hook.

It preferably, further include optoelectronic switch bracket II and optoelectronic switch bracket I, the setting of optoelectronic switch bracket II is even It connects on beam, optoelectronic switch II is provided on optoelectronic switch bracket II；

Optoelectronic switch I is provided on the optoelectronic switch bracket I, optoelectronic switch bracket I is connected with rack bogey, when Linking arm rotation, linking arm pass through the detection zone of optoelectronic switch I；

The optoelectronic switch I or optoelectronic switch II, model CDD-40N125140105S.

The optoelectronic switch I and optoelectronic switch II are connected by same controller with driving device.

It preferably, further include positioning close to switch I and positioning close to switch II, described position connects close to switch I and positioning Nearly switch II is symmetrical arranged about the rotation axis of linking arm, and when linking arm rotation, linking arm is by positioning close to switch I and determining Detection zone of the position close to switch II.

Preferably, driving device is motor, and a motor shaft is connected on motor, and the motor shaft is fixed with linking arm It is connected, the central axis of the rotation axis of the linking arm and motor shaft is on the same line.

Or preferably, rack bogey includes bracket I and bracket II, and the bracket I is received by main frame and cone cylinder Place system is fixedly linked, and bracket II is fixedly linked with cone cylinder guidance system, and the bracket I and bracket II are fixed with running gear It is connected；

A connecting piece is provided on the main frame on corresponding two sides, headstock appearance is additionally provided on main frame Set slot, the headstock accommodation groove is located between two connection sheets, and two connection sheets pass through axis I to be respectively rotatably connected to one dynamic Power case, two axis I two sidewalls corresponding with headstock are rotatedly connected, and the headstock is respectively set on corresponding two sidewalls There is a lock, latches the position on corresponding main frame and be provided with lock hook, lock and lock hook match；

The motor is arranged in headstock, and motor shaft is stretched out from headstock far from an end face of axis I.

Preferably, the two sides corresponding with main frame of bracket I by bolt I be connected, main frame be connected with bracket I two Several threaded holes I are provided on side, the threaded hole I matches with bolt I.

Preferably, power supply is additionally provided in headstock, the controller is also disposed in headstock, the power supply respectively with Optoelectronic switch I, optoelectronic switch II, position close to switch I and position close to switch II be connected it is rear be connected with controller, controller and Motor is connected.It positions close to switch I or positions close to switch II, model L J18A3-8-Z/BX.

The utility model utility model high degree of automation, runs smoothly, and takes linking arm to be rotated by 360 ° completion and collects Or lay cone cylinder 2 times, folding and unfolding speed is high；

The utility model structure is simple, and can will be folded up headstock in collection main frame, occupies small in size；

The utility model puts the high and low position of linking arm according to the adjustable main stand of height and cone cylinder in compartment, fits It is wide with vehicle range.

The utility model can be mounted on the left side or right side of vehicle, take positive or reverse travel mode can be complete At the collection for boring bucket or work is laid, not by the scope limitation of road, traffic main artery is not take up, is conducive to safe operation.

Detailed description of the invention

Fig. 1 is the cone cylinder automatic deploying and retracting machine schematic view of the front view of utility model.

Fig. 2 is the cone cylinder automatic winding-unwinding system schematic view of the front view of Fig. 1.

Fig. 3 is the headstock schematic view of the front view in Fig. 2.

Fig. 4 is the cone cylinder automatic winding-unwinding system overlooking structure diagram of Fig. 2.

Fig. 5 is the cone cylinder automatic winding-unwinding system left view structural representation of Fig. 2.

Fig. 6 is the cone cylinder guidance system schematic view of the front view of Fig. 1.

Fig. 7 is the cone cylinder guidance system left view structural representation of Fig. 6.

Fig. 8 is the cone cylinder guidance system overlooking structure diagram of Fig. 6.

Fig. 9 is the control system schematic diagram of utility model.

Figure 10 is cone cylinder structural schematic diagram.

Appended drawing reference: 1- guardrail, 2- bolt I, 3- threaded hole I, 4- control cabinet, 5- battery box, 6- lock hook, 7- photoelectricity Switch I, 8- cone cylinder frame I, 9-1- are positioned close to switch I, and 9-2- is positioned close to switch II, 10- linking arm, 11- cone cylinder frame II, 12- motor shaft, 13- lock, 14- headstock, 15- axis I, 16- threaded hole II, 17- bolt II, 18- bolt III, 19- bracket I, 20- wire casing, 21- bolt IV, 22- cone cylinder bar, 23- optoelectronic switch II, 24- axis II, 25- guide plate, 26- leading truck, 27- are drawn Muscle hook, 28- active retaining rod, 29- bracket II, 30- power switch, 31- pole changer I, 32- optoelectronic switch bracket I, the compartment 33- Edge, 34- connection sheet, 35- main frame, 36- optoelectronic switch bracket II, 37- controller, 38- motor drive module, 39- are electronic Machine, 40- cone bottom, the outer eaves of 41- cone cylinder, 42-attachment beams, 43- tonicity adjustment hole, 44- cone cylinder, 45- cone cylinder extension and retraction system, 46- Cone cylinder guidance system, 47- pole changer II, 48- motor brake module.

Specific embodiment

A kind of rotary cone cylinder automatic deploying and retracting machine of the utility model, including running gear and carried by rack bogey Cone cylinder extension and retraction system 45 and cone cylinder guidance system 46 on running gear, the cone cylinder extension and retraction system 45 and cone cylinder guidance system 46 are fixedly linked with rack bogey；

The cone cylinder extension and retraction system 45 includes linking arm 10, and 10 both ends of linking arm are provided with a cone cylinder frame, described Linking arm 10 is rotatedly connected by driving device and rack bogey；

The cone cylinder guidance system 46 includes guide channel, be provided on one end in guide channel a cone cylinder collect/ Take off device, the other end is provided with a cone cylinder and fell/erection device；

The linking arm 10 is arranged right above guide channel, and linking arm 10 rotates, the cone cylinder on one end of linking arm 10 Frame pass through guide channel in cone cylinder collect/take off device；

The guide channel is arranged along the direction of travel of running gear.

It includes two cone cylinder bars 22 being arranged on the corresponding two sidewalls of guide channel that device is collected/taken off to cone cylinder, and two The central axis of a cone cylinder bar 22 is located along the same line, and two distances of the cone cylinder bar 22 away from guide channel bottom surface are greater than cone The maximum gauge of taper hole on cylinder 44, less than the diameter of eaves 41 outside cone cylinder, and the distance between two cone cylinder bars 22 are greater than connection The width of arm 10 but the diameter for being less than the outer eaves 41 of cone cylinder.

Cone cylinder fell/erection device includes attachment beam 42 across guide channel, the both ends of the attachment beam 42 respectively with The corresponding two sidewalls of guide channel are fixedly linked, and the attachment beam 42 is horizontally disposed；

It further include an active retaining rod 28, the active retaining rod 28 and attachment beam 42 are arranged in parallel, and active retaining rod 28 Both ends pass through axis II 24 respectively and be connected with attachment beam 42, the attachment beam 42 is connected with the sliding of axis II 24, and in axis II 24 Central axis upright of the mandrel line with attachment beam 42, maximum distance of the active retaining rod 28 apart from guide channel bottom surface are less than Cone cylinder 41 diameter of outer eaves, it is straight that minimum range of the active retaining rod 28 apart from guide channel bottom surface is greater than the maximum of taper hole in cone cylinder 44 Diameter；

A leading truck 26 is also rotatably connected on the axis II 24, one end of leading truck 26 and II 24 axial restraint of axis connect It connects, the other end is stretched out towards one end that device was collected/taken off to cone cylinder separate on guide channel, two 26 place plane phases of leading truck It hands over, the central axis of the axis II 24 is parallel with 26 place plane of leading truck, and leading truck 26 passes through tonicity regulating device and leads The nearest guide channel side wall of distance is connected in two corresponding side walls on channel.

Tonicity regulating device includes lacing wire hook 27, and one end and the place guide channel side wall of the lacing wire hook 27 rotate phase Even, the other end is connected with the tonicity adjustment hole 43 being arranged on leading truck 26, stretches out on same leading truck 26 along leading truck 26 Direction is provided with several tonicity adjustment holes 43, and the tonicity adjustment hole 43 matches with lacing wire hook 27.

It further include optoelectronic switch bracket II 36 and optoelectronic switch bracket I 32, the setting of optoelectronic switch bracket II 36 is even It connects on beam 42, optoelectronic switch II 23 is provided on optoelectronic switch bracket II 36, the detection zone of optoelectronic switch II 23 always lead by direction Into channel, for detecting the presence of cone cylinder 44；

The optoelectronic switch bracket I 32, which can according to need, is set as two, two I 32 rotation of optoelectronic switch bracket settings There is optoelectronic switch I 7, two optoelectronic switch brackets I 32 are connected with rack bogey, and two optoelectronic switch brackets I 32 are about even The rotation axis for connecing arm 10 is symmetrical arranged, and linking arm 10 rotates, and linking arm 10 passes through the detection zone of optoelectronic switch I 7；Manually collect Or the cone cylinder frame of placement cone cylinder 44 is always positioned in the detection zone of optoelectronic switch I 7, optoelectronic switch I 7 detects on linking arm 10 The presence or absence of cone cylinder frame upper conical-tube 44 for manually placing or collecting cone cylinder 44；

The optoelectronic switch I 7 or optoelectronic switch II 23, Yueqing City all-pass automate Science and Technology Ltd.'s production, model CDD-40N125140105S。

The optoelectronic switch I 7 and optoelectronic switch II 23 are connected by same controller 37 with driving device.Controller 37 Model FX1N10MT.

It further include positioning close to I 9-1 of switch and positioning close to II 9-2 of switch, it is described to position close to I 9-1 of switch and positioning It is symmetrical arranged close to II 9-2 of switch about the rotation axis of linking arm 10, linking arm 10 rotates, and linking arm 10 is close by positioning I 9-1 of switch and the detection zone for positioning close II 9-2 of switch.

Driving device is motor 39, and a motor shaft 12, the motor shaft 12 and linking arm 10 are connected on motor 39 It is fixedly linked, the central axis of the rotation axis of the linking arm 10 and motor shaft 12 is on the same line.

Rack bogey includes bracket I 19 and bracket II 29, and the bracket I 19 passes through main frame 35 and cone cylinder folding and unfolding system System 45 is fixedly linked, and bracket II 29 is fixedly linked with cone cylinder guidance system 46, and the bracket I 19 and bracket II 29 are filled with walking It sets and is fixedly linked；

It is provided with a connecting piece 34 on corresponding two sides on the main frame 35, it is dynamic that one is additionally provided on main frame 35 14 accommodation groove of power case, 14 accommodation groove of headstock are located between two connection sheets 34, and two connection sheets 34 pass through axis I respectively 15 are rotatably connected to a headstock 14, and two axis I 15 two sidewalls corresponding with headstock 14 are rotatedly connected, the headstock 14 A lock 13 is respectively arranged on corresponding two sidewalls, the position on the corresponding main frame 35 of lock 13 is provided with lock extension Hook 6, lock 13 and lock hook 6 match；

The motor 39 is arranged in headstock 14, and motor shaft 12 is stretched from headstock 14 far from an end face of axis I 15 Out.

The two sides corresponding with main frame 35 of bracket I 19 are connected by bolt I 2, and main frame 35 is connected with bracket I 19 Several threaded holes I 3 are provided on two sides, the threaded hole I 3 matches with bolt I 2.

Power supply is additionally provided in headstock 14, the controller 37 is also disposed in headstock 14, the power supply respectively with Optoelectronic switch I 7, optoelectronic switch II 23 are positioned close to I 9-1 of switch and are positioned connected rear with 37 phase of controller close to II 9-2 of switch Even, controller 37 is connected with motor 39.

It positioning close to I 9-1 of switch or positions close to II 9-2 of switch, Yueqing City all-pass automates Science and Technology Ltd.'s production, Model L J18A3-8-Z/BX.

The utility model is illustrated below in conjunction with attached drawing:

Referring to Fig. 1, Fig. 2, cone cylinder extension and retraction system 45 and cone cylinder guidance system 46 are mounted on the compartment edge 33 of automobile side On, compartment is for collecting cone cylinder 44；

As shown in Fig. 2, Fig. 4, Fig. 5, main frame 35 is the rectangle structure being connected to one；1 shape of guardrail is as schemed 4, it shown in Fig. 5, is fixedly mounted on bracket I 19；As shown in Figure 4, Figure 5, bracket I 19 passes through the bolt I 2 and main frame of two sides 35 are fixedly connected, and a certain number of threaded holes I 3 are provided on main frame 35, and can pass through according to the position of threaded hole I 3 Two bolts I 2 adjust the high and low position of main frame 35, meet the requirement of different height of wagon；Bracket I 19 passes through two rows of certain The bolt III 18 of quantity is fixedly connected with the compartment edge 33 of automobile；

Power supply be arranged in battery box 5, referring to fig. 2, the control cabinet 4, battery box 5, headstock 14 from top to bottom according to It is secondary to be mounted on main frame 35, wire casing 20 is installed between control cabinet 4, battery box 5, headstock 14, wire casing 20 is fixedly mounted Among main frame 35, all power and transmitting InfoLine are embedded in wire casing 20；And it can be upward by headstock 14 In 14 accommodation groove of headstock on folding storage main frame 35；

Shown in Figure 5, the control cabinet 4 is made of power switch 30, control system, power supply and control in battery box 5 Power switch 30 in case 4 processed connects, and provides power supply to control system；

As shown in Figure 2 and Figure 3, described 12 one end of motor shaft connect with motor 39 and transmits power, motor by motor 39 12 other end of axis is connect with linking arm 10, is provided with cone cylinder frame I 8 and cone cylinder frame II 11 in 10 left and right ends of linking arm；

As shown in Fig. 2, the cone cylinder frame I 8 or cone cylinder frame II 11 are conical structure；

The headstock 14 be folded up collection main frame 35 on, as shown in figure 5, through headstock 14 axis I 15 with A connection sheet 34 of 14 two sides of headstock is flexibly connected, and connection sheet 34 is mounted on 35 inside of main frame and by two bolts II 17 It is connected and fixed with main frame 35, a certain number of threaded holes II 16 is provided on main frame 35, and can be according to threaded hole II 16 position passes through the high or low position of two II 17 motivation of adjustment casees 14 of bolt, to control the connected linking arm of headstock 14 10 high or low positions；After needing 44 folding and unfolding of cone cylinder, under linking arm 10 is dismantled from motor shaft 12, then with headstock 14 axis I 15 is that axle center rotates upwards, and headstock 14 is made to enter 35 inner face of main frame, the lock being finally arranged on main frame 35 Hook 6 is connect with the lock 13 being arranged on headstock 14, and 14 folding storage of headstock can be completed；

Shown in Figure 9, the control system in the control cabinet 4 is by pole changer I 31, pole changer II 47, controller 37, motor drive module 38, position close to I 9-1 of switch, positioning approach II 9-2 of switch, optoelectronic switch I 7, optoelectronic switch II 23, Motor brake module 48 forms, and power switch 30 is connect with pole changer I 31, pole changer II 47 and controller 37, for control Device 37 is positioned close to I 9-1 of switch, is positioned close to II 9-2 of switch, optoelectronic switch I 7, optoelectronic switch II 23, motor drive module 38, motor brake module 48 provides working power, and controller 37 is for controlling motor drive module 38 or motor brake module 48 Working condition and power supply；Motor drive module 38 be used for provide motor 39 power supply and control drive motor 39 just, Reverse rotation；Motor brake module 48 is used to control the electric brake disk power supply connecting with motor shaft 12 and prevents the used of motor shaft 12 Property rotation.

Pole changer I 31 is set as II 23 two optoelectronic switch I 7, optoelectronic switch instruction switches, is respectively used to optoelectronic switch I 7 or optoelectronic switch II 23 control, and the control instructions signal of optoelectronic switch I 7 or optoelectronic switch II 23 and controller 37 are connected It connects；

Pole changer II 47 is set as positioning close to I 9-1 of switch, positions close to II 9-2 of switch, two instruction switches, respectively For positioning close to I 9-1 of switch or positioning the control of close II 9-2 of switch, and will position close close to I 9-1 of switch or positioning The control instructions signal of II 9-2 of switch is connect with controller 37；

Referring to shown in Fig. 6, Fig. 7, Fig. 8, the cone cylinder guidance system 46 is by bracket II 29, attachment beam 42, a pair of of guiding Plate 25 and a pair of of leading truck 26 form；Bracket II 29 passes through two rows of a certain number of bolts IV 21 and the compartment edge 33 with automobile It is fixedly connected；Guide plate 25 is rectangle mechanism, and the region between two guide plates 25 is guide channel, and attachment beam 42 will be a pair of Guide plate 25 is connected as one, and is fixedly connected with bracket II 29 by bolt pattern, and can be turned up or be turned down by bolt；

It is shown in Figure 8, a pair of of cone cylinder bar 22, cone cylinder bar has been fixedly mounted in the left side top of a pair of of guide plate 25 22 height apart from ground is greater than the diameter at cone bottom 40 less than the diameter of eaves 41 outside cone cylinder, stops cone cylinder 44 from cone cylinder with this It is passed through under bar 22；A pair is greater than II 11 cone bottom 40 of cone cylinder frame I 8 or cone cylinder frame to the distance between cone cylinder bar 22 Diameter, and it is less than the diameter of the outer eaves 41 of cone cylinder, allow cone cylinder frame I 8 or cone cylinder frame II 11 by stopping cone cylinder 44, utilizes one Cone cylinder 44 on cone cylinder frame I 8 or cone cylinder frame II 11 is detached from by cone cylinder bar 22；

It is shown in Figure 8, the left end of a pair of of leading truck 26 is connected into the company of being mounted on by bearing block using two axis II 24 It connects on beam 42；It is shown in Figure 6, active retaining rod 28 is installed on two axis II 24, active retaining rod 28 is on two axis II 24 Can be turned up or turn down movement, the upper and lower scope of activities of active retaining rod 28 apart from ground level be greater than cone bottom 40 diameter and Less than the diameter of eaves 41 outside cone cylinder；A certain number of tonicity adjustment holes 43 are provided on two leading trucks 26, by leading truck 26 The lacing wire hook 27 of upper activity installation is inserted into tonicity adjustment hole 43, and can pass through lacing wire hook according to the position of tonicity adjustment hole 43 The right end opening angle of 27 two leading trucks 26 of adjustment；

Referring to Fig. 3, Fig. 9, the positioning is mounted on headstock 14 close to I 9-1 of switch or positioning close to II 9-2 of switch On, stop at the position for positioning close to I 9-1 of switch or positioning close II 9-2 of switch installation for controlling linking arm 10, that is, connects It connects arm 10 to rotate to positioning close to I 9-1 of switch or position close at II 9-2 of switch, position close close to I 9-1 of switch or positioning Signal is passed to controller 37 by II 9-2 of switch, and controller 37 issues halt-transfer signal, motor to motor drive module 38 The linking arm 10 that 39, which stop rotating, connects motor shaft 12 stops rotating；

Referring to Fig. 9, the motor brake module 48, for controlling the electric brake disk power supply connecting with motor shaft 12 simultaneously The inertial rotation for preventing motor shaft 12, when controller 37 issues halt-transfer signal, then controller to motor drive module 38 37 issue enabling signal to motor brake module 48, and motor brake module 48 opens the electric brake disk power supply that motor shaft 12 connects Dynamic, the linking arm 10 that electric brake disk prevents the inertial rotation of motor shaft 12 from connecting motor shaft 12 stops rotating；

Referring to Fig. 3, Fig. 8, the optoelectronic switch I 7 and optoelectronic switch II 23 are mobile probe, according to laying or collection cone The working condition of cylinder 44, optoelectronic switch I 7 or the movement of optoelectronic switch II 23 are mounted on optoelectronic switch bracket I 32 or optoelectronic switch branch On frame II 36；Optoelectronic switch bracket I 32 is set as two, is distributed in arranged on left and right sides on headstock 14；Specific statement are as follows:；Light Electric switch II 23 detects 44 signal of cone cylinder and signal is passed to controller 37, and controller 37 issues rotating signal counterclockwise, Linking arm 10 rotates counterclockwise.

Embodiment 1

Rotary cone cylinder automatic deploying and retracting machine lays the working method of cone cylinder 44, and rotary cone cylinder automatic deploying and retracting machine is mounted on Vehicle left side, as shown in Fig. 1, the mode for taking vehicle to travel forward lays cone cylinder 44, is following steps:

(1.1) preparation is laid

Before laying the operation of cone cylinder 44, adjusted as shown in figure 8, passing through lacing wire hook 27 according to the position of tonicity adjustment hole 43 first The right end of two leading trucks 26 is parallel position；Optoelectronic switch I 7 is mounted on the optoelectronic switch bracket I 32 on 14 right side of headstock； Optoelectronic switch II 23 is mounted on optoelectronic switch bracket II 36；

(1.2) it rotates clockwise

Starting vehicle moves forwards, and powers on switch 30, and unlatching pole changer I 31 is I 7 indicating positions of optoelectronic switch, Pole changer II 47 is opened simultaneously to be set as positioning close to I 9-1 indicating positions of switch；

As shown in Fig. 2, linking arm 10 is being positioned close to I 9-1 of switch stopping, when manually by 44 sets of cone cylinder in cone cylinder frame I 8 On, optoelectronic switch I 7 detects 44 signal of cone cylinder, and passes the signal along to controller 37, and controller 37 is to motor drive module 38 Sending rotates clockwise signal, and motor 39 starts to rotate and linking arm 10 is driven to rotate clockwise；

(1.3) cone cylinder 44 is taken off

As shown in figure 8, being bored when cone cylinder frame I 8 is rotated clockwise at a pair of of 22 position of cone cylinder bar on guide plate 25 Cylinder bar 22 stops eaves 41 outside cone cylinder, to make cone cylinder 44 be detached from from cone cylinder frame I 8 into guide channel, with vehicle Traveling drives guide plate 25 to run to the left, and then the cone head of cone cylinder 44 is introduced into leading truck 26, and active retaining rod 28 is taken advantage of a situation 41 top of eaves outside cone cylinder is stopped to the left, is taken advantage of a situation 44 righting of cone cylinder using the resistance to the left on 41 top of eaves outside cone cylinder in leading truck In 26, it is that lines formation is integrally said that the cone cylinder 44 after righting is arranged using the guiding of leading truck 26, completes cone cylinder 44 and lays work Make；Shown in Fig. 2, when cone cylinder frame I 8 rotates clockwise 180 degree, i.e. linking arm 10 rotates to positioning close at I 9-1 of switch again, Controller 37 issues halt-transfer signal to motor drive module 38, and motor 39 stops rotating, and then controller 37 is to motor Brake module 48 issues enabling signal, and the electric brake disk power initiation that motor brake module 48 connects motor shaft 12 is electronic The linking arm 10 that brake disc prevents the inertial rotation of motor shaft 12 from connecting motor shaft 12 stops rotating, i.e. completion first time cone cylinder 44 lay work；

(1.4) circulation is laid

When cone cylinder frame I 8 rotates clockwise 180 degree, i.e., cone cylinder frame I 8 and cone cylinder frame II 11 rotate change place, cone cylinder frame II 11 repetitive cyclings are rotated clockwise according to step (1.2), (1.3) take off cone cylinder 44, can complete the continuous cloth of cone cylinder 44 again Work is put, finally turns off the power switch 30.

Embodiment 2

Rotary cone cylinder automatic deploying and retracting machine collects 44 working method of cone cylinder, and rotary cone cylinder automatic deploying and retracting machine is mounted on vehicle On the left of, as shown in Fig. 1, the mode for taking vehicle to fall back traveling backwards collects cone cylinder 44, and cone cylinder 44 is previously positioned at vehicle Behind left side, it is following steps:

(2.1) it collects and prepares

Before collecting the operation of cone cylinder 44, adjusted as shown in figure 8, passing through lacing wire hook 27 according to the position of tonicity adjustment hole 43 first The right end of two leading trucks 26 is opening angle, and the opening angle of two 26 right ends of leading truck is directed at the cone on right ground Cylinder 44；Optoelectronic switch I 7 is mounted on the optoelectronic switch bracket I 32 on 14 right side of headstock；Optoelectronic switch II 23 is mounted on photoelectricity and opens It closes on bracket II 36；

(2.2) rotation counterclockwise

Then starting vehicle reversing back operation, powers on switch 30, opens pole changer I 31 and is set as optoelectronic switch II 23 indicating positions, while opening pole changer II 47 and being set as positioning close to I 9-1 indicating positions of switch；

As shown in figure 8, starting vehicle is fallen back backward, i.e., leading truck 26 runs to the right and cone cylinder 44 is imported into leading truck 26 In, active retaining rod 28, which is taken advantage of a situation to the right, to be stopped and pushes over cone cylinder 44, and 44 bottom opening direction of cone cylinder is lain in towards left side and is led Into plate 25, guide plate 25 continues to move right, when optoelectronic switch II 23 detects 44 signal of cone cylinder in guide plate 25, and general Signal is transmitted to controller 37, and controller 37 issues rotating signal counterclockwise to motor drive module 38, and motor 39 starts to revolve Turn and linking arm 10 is driven to rotate counterclockwise, by 44 sets of cone cylinder on cone cylinder frame II 11；

(2.3) cone cylinder 44 is collected

When rotation 180 degree, i.e. linking arm 10 rotate to positioning stopping rotation close at I 9-1 of switch to cone cylinder frame II 11 counterclockwise Turn, while controller 37 issues enabling signal, the electricity that motor brake module 48 connects motor shaft 12 to motor brake module 48 Dynamic brake disc power initiation, the linking arm 10 that electric brake disk prevents the inertial rotation of motor shaft 12 from connecting motor shaft 12 stop Rotation, then cone cylinder 44 is manually removed be put into from cone cylinder frame II 11 in compartment, completes 44 collection work of first time cone cylinder；

(2.4) circulating collection

When cone cylinder frame I 8 rotates clockwise 180 degree, i.e. cone cylinder frame I 8 and II 11 transposition of cone cylinder frame, I 8 weight of cone cylinder frame According to step (2.2), cone cylinder 44 is collected in rotation, (2.3) to multiple circulation counterclockwise, and continuous cone cylinder 44 of collecting can be completed and work.

Embodiment 3

Rotary cone cylinder automatic deploying and retracting machine lays 44 working method of cone cylinder, and rotary cone cylinder automatic deploying and retracting machine is mounted on vehicle On the left of, as shown in Fig. 1, the mode for taking vehicle to fall back traveling backwards lays cone cylinder 44, is following steps:

(3.1) preparation is laid

It,, i.e., will be original with reference to Fig. 1 first by the left and right directional switching of cone cylinder extension and retraction system 45 before laying the operation of cone cylinder 44 A pair of of guide plate 25 on the left side is adjusted to the right side, and a pair of of leading truck 26 on the originally right side is adjusted to the left side, then logical with bracket II 29 Bolt pattern is crossed to be fixedly connected；It is by the left end that lacing wire hook 27 adjusts two leading trucks 26 according to the position of tonicity adjustment hole 43 Parallel position；The adjustment of optoelectronic switch I 7 is mounted on optoelectronic switch bracket I 32, and optoelectronic switch II 23 is mounted on a left side for headstock 14 On sidelight electric switch bracket II 36, with reference to Fig. 3；10 direction of linking arm is converted, i.e., is adjusted the cone cylinder frame I 8 on original right side It is whole to arrive left side, and keep cone upward, the cone cylinder frame II 11 in original left side is adjusted to right side, and keep cone downward, it manually will be The left side cone cylinder frame I 8 of the utility model places cone cylinder 44；

(3.2) rotation counterclockwise

Starting vehicle falls back traveling backwards, powers on switch 30, opens pole changer I 31 as the instruction of optoelectronic switch II 23 Position, while opening pole changer II 47 and being set as positioning close to II 9-2 indicating positions of switch；Manually by 44 sets of cone cylinder in cone cylinder On frame I 8, optoelectronic switch II 23 detects 44 signal of cone cylinder, and passes the signal along to controller 37, and controller 37 is to motor driven Module 38 issues rotating signal counterclockwise, and motor 39 starts to rotate and linking arm 10 is driven to rotate counterclockwise；

(3.3) cone cylinder is taken off

When cone cylinder frame I 8 rotates counterclockwise at a pair of of 22 position of cone cylinder bar on guide plate 25, cone cylinder bar 22 will The outer eaves 41 of cone cylinder stops, to make cone cylinder 44 be detached from from cone cylinder frame I 8 into guide plate 25, as vehicle reverse travels band Action-oriented plate 25 is run to the right, and then the cone head of cone cylinder 44 is introduced into leading truck 26, and active retaining rod 28 is taken advantage of a situation cone cylinder Outer 41 top of eaves stops to the right, is taken advantage of a situation by 44 righting of cone cylinder in leading truck 26 using the resistance to the right on 41 top of eaves outside cone cylinder, It is that lines formation is integrally said that cone cylinder 44 after righting is arranged using the guiding of leading truck 26, completes cone cylinder 44 and lays work；When The rotation 180 degree counterclockwise of cone cylinder frame I 8, i.e. linking arm 10 rotate to positioning close at II 9-2 of switch again, and controller 37 is to electricity Machine drive module 38 issues halt-transfer signal, and motor 39 stops rotating, and then controller 37 is sent out to motor brake module 48 Enabling signal out, the electric brake disk power initiation that motor brake module 48 connects motor shaft 12, electric brake disk prevent electricity The linking arm 10 that the inertial rotation of arbor 12 connects motor shaft 12 stops rotating, i.e. completion first time cone cylinder 44 lays work；

(3.4) circulation is laid

When cone cylinder frame I 8 rotates clockwise 180 degree, i.e., cone cylinder frame I 8 and cone cylinder frame II 11 rotate change place, cone cylinder frame II According to step (3.2), rotation, (3.3) take off cone cylinder 44 to 11 repetitive cyclings counterclockwise, can complete the continuous cloth of cone cylinder 44 again Work is put, finally turns off the power switch 30.

Embodiment 4

Rotary cone cylinder automatic deploying and retracting machine collects 44 working method of cone cylinder, and rotary cone cylinder automatic deploying and retracting machine is mounted on vehicle On the left of, as shown in Fig. 1, the mode of vehicle direction running facing forward is taken to collect cone cylinder, cone cylinder is previously positioned at the left side of vehicle Front is following steps:

(4.1) it collects and prepares

It,, i.e., will be original with reference to Fig. 1 first by the left and right directional switching of cone cylinder extension and retraction system 45 before collecting the operation of cone cylinder 44 A pair of of guide plate 25 on the left side is adjusted to the right side, and a pair of of leading truck 26 on the originally right side is adjusted to the left side, then logical with bracket II 29 Bolt pattern is crossed to be fixedly connected；It is by the left end that lacing wire hook 27 adjusts two leading trucks 26 according to the position of tonicity adjustment hole 43 Opening angle；The adjustment of optoelectronic switch I 7 is mounted on optoelectronic switch bracket I 32, and optoelectronic switch II 23 is mounted on a left side for headstock 14 On sidelight electric switch bracket II 36, with reference to Fig. 3；10 direction of linking arm is converted, i.e., is adjusted the cone cylinder frame I 8 on original right side It is whole to arrive left side, and keep cone upward, the cone cylinder frame II 11 in original left side is adjusted to right side, and keep cone downward；

(4.2) it rotates clockwise

When vehicle direction running facing forward, i.e. leading truck 26 is moved forwards and cone cylinder 44 is imported into leading truck 26, cone cylinder Bar 22 is taken advantage of a situation to the left to be stopped and pushes over cone cylinder 44, and 44 bottom opening direction of cone cylinder is lain in guide plate 25 towards right side In, the continuation of guide plate 25 is advanced to the left, when optoelectronic switch II 23 detects 44 signal of cone cylinder, and passes the signal along to controller 37, controller 37 rotates clockwise signal to the sending of motor drive module 38, and motor 39 starts to rotate and drives linking arm 10 Rotate clockwise, with vehicle driving by 44 sets of cone cylinder on cone cylinder frame I 8；

(4.3) cone cylinder is collected

When cone cylinder frame II 11 rotates clockwise 180 degree, i.e. linking arm 10 rotates to positioning and stops close at II 9-2 of switch Rotation, then controller 37 issues enabling signal to motor brake module 48, and motor brake module 48 connects motor shaft 12 Electric brake disk power initiation, the linking arm 10 that electric brake disk prevents the inertial rotation of motor shaft 12 from connecting motor shaft 12 stop Spin-ended turn, manually cone cylinder 44 is removed from cone cylinder frame II 11 then and is put into compartment, completes 44 collection work of first time cone cylinder；

(4.4) circulating collection

When cone cylinder frame II 11 rotates clockwise 180 degree, i.e. cone cylinder frame I 8 and II 11 transposition of cone cylinder frame, cone cylinder frame I 8 Repetitive cycling is rotated clockwise according to step (4.2), (4.3) collect cone cylinder 44, and continuous cone cylinder 44 of collecting can be completed and work.

Embodiment 5

Rotary cone cylinder automatic deploying and retracting machine lays the working method of cone cylinder, and rotary cone cylinder automatic deploying and retracting machine is mounted on vehicle Right side, takes the mode of vehicle reverse travel backwards to lay cone cylinder 44, other steps can be completed referring to embodiment 1.

Embodiment 6

Rotary cone cylinder automatic deploying and retracting machine collects cone cylinder working method, and rotary cone cylinder automatic deploying and retracting machine is mounted on vehicle Right side, the mode for taking vehicle to travel forward collect cone cylinder 44, and cone cylinder 44 is previously positioned at before the right side of vehicle, other steps It can be completed referring to embodiment 2.

Embodiment 7

Rotary cone cylinder automatic deploying and retracting machine collects cone cylinder working method, and rotary cone cylinder automatic deploying and retracting machine is mounted on vehicle Right side, the mode for taking vehicle to travel forward lay cone cylinder 44, and other steps can be completed referring to embodiment 3.

Embodiment 8

Rotary cone cylinder automatic deploying and retracting machine collects cone cylinder working method, and rotary cone cylinder automatic deploying and retracting machine is mounted on vehicle Right side takes the mode of vehicle reverse travel backwards to collect cone cylinder, and cone cylinder is previously positioned at behind the right side of vehicle, other steps It can be completed referring to embodiment 4.

Terminate when cone cylinder 44 lays or collects, cut off the power, manual demolition linking arm 10, cone cylinder guidance system 46 will move 14 folding storage of power case；The utility model takes linking arm 10 to be rotated by 360 ° completion and collects or lay cone cylinder 44 twice, raw Yield is high；In addition, the utility model can be mounted on the left side or right side of vehicle, positive or reverse travel mode is taken i.e. The collection of achievable cone bucket lays work, not by the scope limitation of road, is not take up traffic main artery, is conducive to safe operation.

Claims (9)

1. a kind of rotary cone cylinder automatic deploying and retracting machine, including running gear and it is mounted on running gear by rack bogey Cone cylinder extension and retraction system (45) and cone cylinder guidance system (46), the cone cylinder extension and retraction system (45) and cone cylinder guidance system (46) are equal It is fixedly linked with rack bogey；It is characterized in that,

The cone cylinder extension and retraction system (45) includes linking arm (10), and linking arm (10) both ends are provided with a cone cylinder frame, institute Linking arm (10) is stated to be rotatedly connected by driving device and rack bogey；

The cone cylinder guidance system (46) includes guide channel, and a cone cylinder is provided on one end in guide channel and collects/takes off Put device, the other end is provided with a cone cylinder and fell/erection device；

The linking arm (10) is arranged right above guide channel, linking arm (10) rotation, the cone on one end of linking arm (10) Tub pass through guide channel in cone cylinder collect/take off device；

The guide channel is arranged along the direction of travel of running gear.

2. a kind of rotary cone cylinder automatic deploying and retracting machine as described in claim 1, which is characterized in that dress is collected/taken off to the cone cylinder Set two cone cylinder bars (22) including being arranged on the corresponding two sidewalls of guide channel, the central axis of two cone cylinder bars (22) Line is located along the same line, and it is straight that two distances of the cone cylinder bar (22) away from guide channel bottom surface are greater than the maximum of taper hole in cone cylinder Diameter, less than the diameter of eaves outside cone cylinder, and the distance between two cone cylinder bars (22) are greater than the width of linking arm (10) but are less than The diameter of the outer eaves of cone cylinder.

3. a kind of rotary cone cylinder automatic deploying and retracting machine as claimed in claim 2, which is characterized in that the cone cylinder was fallen/righting dress It sets including the attachment beam (42) across guide channel, the both ends of the attachment beam (42) respectively corresponding with the guide channel two Side wall is fixedly linked, and the attachment beam (42) is horizontally disposed；

It further include an active retaining rod (28), the active retaining rod (28) and attachment beam (42) are arranged in parallel, and active retaining rod (28) both ends pass through axis II (24) respectively and are connected with attachment beam (42), and the attachment beam (42) is connected with axis II (24) sliding, And central axis upright of the central axis of axis II (24) with attachment beam (42), the active retaining rod (28) is apart from guide channel The maximum distance of bottom surface is less than the outer eaves diameter of cone cylinder, and minimum range of the active retaining rod (28) apart from guide channel bottom surface is greater than cone cylinder The maximum gauge of upper taper hole；

It is also rotatably connected on the axis II (24) leading truck (26), one end of leading truck (26) and axis II (24) are axially solid Fixed connection, the other end is stretched out towards one end that device was collected/taken off to cone cylinder separate on guide channel, where two leading trucks (26) The central axis of plane intersection, the axis II (24) is parallel with plane where leading truck (26), and leading truck (26) passes through tonicity Regulating device on guide channel in two corresponding side walls the nearest guide channel side wall of distance be connected.

4. a kind of rotary cone cylinder automatic deploying and retracting machine as claimed in claim 3, which is characterized in that the tonicity regulating device includes Lacing wire hook (27), one end and the place guide channel side wall of the lacing wire hook (27) are rotatedly connected, and the other end is being oriented to setting Tonicity adjustment hole (43) on frame (26) is connected, and is provided on same leading truck (26) along the direction that leading truck (26) are stretched out several A tonicity adjustment hole (43), the tonicity adjustment hole (43) match with lacing wire hook (27).

5. a kind of rotary cone cylinder automatic deploying and retracting machine as claimed in claim 3, which is characterized in that further include optoelectronic switch bracket II (36) it is arranged on attachment beam (42) with optoelectronic switch bracket I (32), the optoelectronic switch bracket II (36), optoelectronic switch bracket Optoelectronic switch II (23) is provided on II (36)；

Optoelectronic switch I (7), optoelectronic switch bracket I (32) and rack bogey are provided on the optoelectronic switch bracket I (32) It is connected, when linking arm (10) rotate, linking arm (10) passes through the detection zone of optoelectronic switch I (7)；

The optoelectronic switch I (7) and optoelectronic switch II (23) are connected by same controller (37) with driving device.

6. a kind of rotary cone cylinder automatic deploying and retracting machine as claimed in claim 5, which is characterized in that further include positioning close to switch I It (9-1) and positions close to switch II (9-2), it is described to position close to switch I (9-1) and position close to switch II (9-2) about even The rotation axis for connecing arm (10) is symmetrical arranged, and when linking arm (10) rotate, linking arm (10) is by positioning close to switch I (9-1) With the detection zone for positioning close switch II (9-2).

7. a kind of rotary cone cylinder automatic deploying and retracting machine as claimed in any one of claims 1 to 6, which is characterized in that the driving dress It is set to motor (39), is connected on motor (39) motor shaft (12), the motor shaft (12) and linking arm (10) are fixed It is connected, the central axis of the rotation axis of the linking arm (10) and motor shaft (12) is on the same line.

8. a kind of rotary cone cylinder automatic deploying and retracting machine as claimed in claim 7, which is characterized in that the rack bogey includes Bracket I (19) and bracket II (29), the bracket I (19) are fixedly linked by main frame (35) with cone cylinder extension and retraction system (45), Bracket II (29) is fixedly linked with cone cylinder guidance system (46), and the bracket I (19) and bracket II (29) are solid with running gear It is fixed to be connected；

It is provided with a connecting piece (34) on corresponding two sides on the main frame (35), main frame is additionally provided with one on (35) Headstock (14) accommodation groove, headstock (14) accommodation groove is located between two connection sheets (34), and two connection sheets (34) It is rotatably connected to a headstock (14) by axis I (15) respectively, two axis I (15) two sidewalls corresponding with headstock (14) turn Dynamic to be connected, the headstock (14) is respectively arranged with a lock (13) on corresponding two sidewalls, the corresponding main frame of lock (13) (35) position on is provided with lock hook (6), latches (13) and lock hook (6) matches；

The motor (39) setting in headstock (14), and motor shaft (12) from headstock (14) far from axis I (15) one End face is stretched out.

9. a kind of rotary cone cylinder automatic deploying and retracting machine as claimed in claim 8, which is characterized in that the bracket I (19) and main body The corresponding two sides of frame (35) are connected by bolt I (2), are all provided on the two sides that main frame (35) is connected with bracket I (19) Several threaded holes I (3) are equipped with, the threaded hole I (3) matches with bolt I (2).