CN205928458U - Wave detector closing cap device - Google Patents

Abstract

The utility model discloses a wave detector closing cap device, include: the bracket component includes the body, and the top of body is first base, is the second base on the first base, the transfer dish is on the second base, and for second base rotation setting, the transfer dish includes: the portion of holding is along the circumference setting of transfer dish, and accomodate the groove and the groove is accomodate to the second including first, and they set up on the disc wall of transfer dish, and the first wheel profile who accomodates the groove is for gradually bursting at the seams, and the wheel profile that the groove was accomodate to the second is the arc, and the second is accomodate the groove and is used for wrapping up the wave detector, the portion of compressing tightly sets up on the second base, and the portion of compressing tightly compresses tightly the cylinder butt in the portion of holding including compressing tightly the cylinder, the closing cap subassembly sets up in the upside of transfer dish, accomodates the central corresponding of groove with the second, and power component, power component sets up in the upside of closing cap subassembly, and power component acts on the closing cap subassembly. The utility model discloses reduce operator's working strength effectively, improved assembly efficiency.

Description

A kind of cymoscope capping apparatus

Technical field

This utility model is related to cymoscope assembly equipment technical field and in particular to a kind of cymoscope capping apparatus.

Background technology

Geophone is the sensor special for geological prospecting and engineering survey, is that ground vibration is changed into by one kind The sensor of the signal of telecommunication, or perhaps mechanical energy is converted into the energy conversion device of electric energy.

Due to the environment rather harsh residing for cymoscope, need capping compression fit in the top of cymoscope, existing Assembly method is using simple hold down gag manual assembly, and this kind of assembling mode efficiency of assembling is low, and staff labor intensity is larger.

Utility model content

This utility model aims to solve the problem that existing cymoscope capping operation efficiency of assembling is low, the larger skill of staff labor intensity Art problem, proposes a kind of cymoscope capping apparatus, significantly reduces the working strength of operator, improve efficiency of assembling.

For achieving the above object, technical solution of the present utility model is：

A kind of cymoscope capping apparatus, including carriage assembly, transfer dish, closure assemblies and Power Component；

Described carriage assembly includes body, and described body top is provided with the first pedestal, and described first pedestal is provided with Second pedestal；

Described transfer dish is arranged on described second pedestal, and described transfer dish rotates setting with respect to described second pedestal, Described transfer dish includes receiving portion and compressed part；

Described accommodation section is circumferentially disposed along described transfer dish, and described accommodation section includes the first accommodating groove and the second storage Groove, described first accommodating groove and described second accommodating groove are arranged on the Pan Bi of described transfer dish, the wheel of described first accommodating groove Profile is involute, and the contour line of described second accommodating groove is arc, and described second accommodating groove is used for wrapping up cymoscope；

Described compressed part is arranged on described second pedestal, and described compressed part includes compression cylinder, and described compression cylinder is supported It is connected on described accommodation section；

Described closure assemblies are arranged at the upside of described transfer dish, the center of described closure assemblies and described second accommodating groove Corresponding；

Described Power Component is arranged at the upside of described closure assemblies, and described Power Component acts on described closure assemblies On.

Further, described accommodation section also includes the first storage arm and the second storage arm；

Described first storage arm is connected on the Pan Bi of described transfer dish；

Described second storage arm is connected to described first storage arm one end away from described transfer dish, described second storage arm It is extended towards the direction of described first accommodating groove.

Further, described accommodation section is set to be formed as inlet port between multiple, adjacent described second storage arms.

Further, the side away from described second accommodating groove of described second storage arm is groove, described compression gas Cylinder is connected on described groove.

Further, described compressed part also includes the first pivot, the second pivot, connecting rod and elastic rod；

Described first pivot is arranged on described second pedestal；

Described second pivot is arranged at the front side that described transfer dish rotates clockwise direction；

Described connecting rod is arranged between described first pivot and described second pivot, the incline direction of described connecting rod with The setting direction of described second pivot is identical；

One end of described elastic rod is connected to described second pivot, and the other end of described elastic rod is connected to described compression gas On cylinder.

Further, the distance of described second pivot to described transfer dish center is less than described first pivot to described The distance of transfer dish center.

Further, described Power Component includes pressurized cylinder, pre- air cylinder, hydraulic cylinder and fixed disk；

Described pressurized cylinder is installed on the first cylinder block；

Described pre- air cylinder is installed on the second cylinder block, and described second cylinder block and described first cylinder block are with respect to water Square to height identical, be provided with the first oil duct of insertion in described first cylinder block and described second cylinder block, described It is provided with the second oil duct in two cylinder blocks；

Described hydraulic cylinder is installed on the downside of described second cylinder block, and the cylinder rod of described hydraulic cylinder acts on described On closure assemblies；

Described fixed disk is installed on described body, and described fixed disk is disposed with the first controller, the second control Device, the 3rd controller and the 4th controller.

Further, the cylinder rod of described pressurized cylinder is provided with the first limited block, described first limited block remote It is fixed with the first touch panel from one end of pressurized cylinder, the cylinder rod of described pre- air cylinder is provided with the second limited block, described One end away from described pre- air cylinder of two limited blocks is fixed with the second touch panel.

Further, the two ends of the side near described second limited block for the described pre- air cylinder are fixed with the first installing rack With the second installing rack, described first installing rack is fixed with the first travel switch and the second travel switch, described first stroke is opened Pass is arranged on the end away from described pre- air cylinder for described first installing rack, described second travel switch and described first stroke Interval setting between switch, described second touch panel is matched with described first travel switch or described second travel switch respectively, Third trip switch and fourth line journey switch are fixed with described second installing rack, described third trip switch is arranged on described the Two installing racks, away from the end of described pre- air cylinder, are spaced between described fourth line journey switch and described third trip switch and set Put, described first touch panel is matched with described third trip switch or described fourth line journey switch respectively；Described first controller Receive the signal of described first travel switch, described second controller receives the signal of described second travel switch, the described 3rd Controller receives the signal of described third trip switch, and described 4th controller receives the signal of described fourth line journey switch.

Further, described closure assemblies include adapter sleeve and sleeve；

There are the first groove and the second groove, described first groove is arranged at the upside of described adapter sleeve in described adapter sleeve, described Two grooves are arranged at the downside of described adapter sleeve, the diameter with diameter greater than described second groove of described first groove；

One end of described sleeve is connected in described second groove, has hold-down column, the lower end of described hold-down column in described sleeve For hold-down head, described hold-down head is adapted with the shape of capping.

Further, this utility model also includes accommodating component；Described accommodating component includes base, support column, regulation Portion, lock-nut, spill spin block, the first receiver, incorporating section and Actuator Division；

Described support column is arranged on base, has cavity in support column；

Described adjustment portion includes adjusting rod, and adjusting rod is housed inside in support column cavity；External screw thread is had on adjusting rod, supports There is the female thread being adapted with external screw thread in post cavity, after adjusting rod adjusts suitable with respect to the distance between cavity, rotation Lock-nut, the relative position locking between adjusting rod and cavity is fixed；

Described spill spin block is arranged at adjusting rod one end away from support column cavity, and there is incorporating section the upside of spill spin block；

Described first receiver is arranged on adjusting rod, and described first receiver is with respect to adjusting rod upper-lower position scalable Setting；

Described incorporating section includes the second receiver and support plate, and support plate is rotated with spill spin block and is connected, upper in support plate Side is provided with the second receiver, is revolving door in one end of close first receiver of the second receiver；

Described Actuator Division includes pusher cylinder, mounting disc and connecting portion, and pusher cylinder is arranged in mounting disc, mounting disc quilt It is fixedly installed in the bottom of the first pedestal, one end of the pusher cylinder bar of pusher cylinder is and pushing away that the diameter of cymoscope is adapted Head, mounting disc is connecting portion near the side of incorporating section, and this connecting portion is connected in support plate.

This utility model having the beneficial effect that with respect to prior art：

(1) closure assemblies are acted on by Power Component, the cymoscope of pending capping operation are contained in receiving portion, With the rotation of transfer dish, in receiving portion, the cymoscope of pending capping operation is transported to the downside of closure assemblies, now, behaviour Be used as power assembly so that capping is compacted on cymoscope to be covered closure assemblies, whole process, operator side simple to operate Just, significantly reduce the working strength of operator, improve efficiency of assembling.

（2）Compressed part is connected in receiving portion, and then so that is contained in the detection of the pending capping operation in receiving portion Device is preferably housed in receiving portion so that its fixation in receiving portion is more stable.

Brief description

The following drawings is only intended to, in this utility model is done with schematic illustration and explanation, not limit model of the present utility model Enclose.Wherein：

Fig. 1 is the structural representation of this utility model embodiment；

Fig. 2 is mplifying structure schematic diagram at A shown in Fig. 1；

Fig. 3 is mplifying structure schematic diagram at B described in Fig. 1；

Fig. 4 is fit structure schematic diagram between box, transfer dish and the second pedestal in this utility model；

Fig. 5 is mplifying structure schematic diagram at C shown in Fig. 4；

Fig. 6 is accommodating component structural representation in this utility model；

Fig. 7 is the top view of accommodating component in this utility model.

In figure：Capping apparatus 100, cymoscope 200,

Carriage assembly 10, the first pedestal 110, the second pedestal 120, groove 121, the first pivot 122, the second pivot 123, connecting rod 124, elastic rod 125, compression cylinder bar 126, compression cylinder 127, block rubber 128, the first lead 130, the second lead 140,

Accommodating component 20, base 21, leg 211, support column 212, cavity 213, adjustment portion 22, adjusting rod 221, lock-nut 222, spill spin block 223, the first receiver 23, incorporating section 24, the second receiver 241, revolving door 2411, support plate 242, Actuator Division 25, pusher cylinder 251, pusher cylinder bar 252, cut somebody's hair 253, mounting disc 254, even Socket part 255,

Closure assemblies 30, adapter sleeve 31, the first groove 311, the second groove 312, sleeve 32, hold-down column 321, spring 322, lock pin 323, locking projection 324, hold-down head 325, pressing groove 326,

Protective cover 40, the 3rd pedestal 410,

Power Component 50, pressurized cylinder 51, the first limited block 510, the first touch panel 511, pre- air cylinder 52, second Limited block 520, the second touch panel 521, hydraulic cylinder 53, fixed disk 54, the first installing rack 56, the first travel switch 561, Second travel switch 562, the second installing rack 57, third trip switch 571, fourth line journey switch 572,

Transfer dish 80, mounting groove 801, unilateral bearing 802, receiving portion 81, the first accommodating groove 811, the second accommodating groove 812, the first storage arm 813, groove 814, the second storage arm 815,

Object disposing platform 90.

Specific embodiment

With reference to the accompanying drawings and examples, this utility model is expanded on further.In the following detailed description, only pass through to say Bright mode describes some one exemplary embodiment of the present utility model.Undoubtedly, those of ordinary skill in the art is permissible Recognize, in the case of without departing from spirit and scope of the present utility model, can by with various different in the way of to described Embodiment is modified.Therefore, accompanying drawing and description are inherently illustrative, rather than for limiting the protection of claim Scope.

As shown in figs. 1-7, cymoscope capping apparatus 100 of the present utility model, by capping compression fit in cymoscope 200 On end face.This cymoscope capping apparatus 100 includes carriage assembly 10, accommodating component 20, protective cover 40, Power Component 50, conveying Disk 80, object disposing platform 90.

Carriage assembly 10, carriage assembly includes body, and the section configuration of body is Ω shape, is provided with the on body top One pedestal 110, is provided with the second pedestal 120 on the first pedestal 110, and the first pedestal is arranged on the top end face of body, is used for Carry other related components such as second pedestal, so, the setting of carriage assembly makes the overall operation space of capping apparatus add Greatly, transfer dish 80 is provided with the second pedestal, transfer dish rotates setting with respect to the second pedestal, the one of the top end face of body End is provided with the first lead 130, and the other end of the top end face of body is provided with the second lead 140, the first lead and The first pedestal 110 is run through in one end of the close body of the second lead, the first lead and the second lead away from body The other end is provided with the 3rd pedestal 410, and the downside of the first lead and the second lead and the 3rd pedestal is connected, meanwhile, the The outside of three pedestals is arranged with protective cover 40, and this protective cover covers Power Component 50.

Referring to Fig. 6 and Fig. 7, accommodating component 20, accommodating component includes base 21, support column 212, adjustment portion 22, locking spiral shell Female 222, spill spin block 223, the first receiver 23, incorporating section 24 and Actuator Division 25.Base 21 includes leg 211, and leg is set to Multiple it may be preferable that being set to three, further, leg is inclined relative to horizontal setting, and then leg forms triangle Shape is so that leg supports whole accommodating component effectively；Support column 212 is arranged at one end of leg it may be preferable that support column is vertical In horizontal plane setting, it is arranged at the intersection of multiple legs, in support column, has cavity 213.Adjustment portion 22 includes adjusting rod 221, Adjusting rod 221 is housed inside in cavity 213, further, adjusting rod has external screw thread, has and be adapted with external screw thread in cavity Female thread, so, by adjusting rod with respect to the distance between cavity regulation, the altitude mixture control of achievable incorporating section；Lock Only nut 222, after adjusting rod 221 adjusts suitable with respect to the distance between cavity 213, rotary locking nut 222, will adjust Relative position locking between bar and cavity is fixed；Spill spin block 223, spill spin block 223 is arranged at adjusting rod 221 away from cavity 213 One end, there is incorporating section 24 upside of spill spin block 223；First receiver 23, the first receiver 23 is arranged on adjusting rod, preferentially Ground, the first receiver 23 is arranged with respect to adjusting rod upper-lower position scalable, can be by the company of the first receiver 23 and adjusting rod 221 Connect place's setting connecting hole, this connection in the hole is the female thread being adapted with the external screw thread of adjusting rod 221, and then can achieve the first receipts Case 23 is arranged with respect to adjusting rod 221 upper-lower position scalable；Incorporating section 24, incorporating section includes the second receiver 241 and props up Support plate 242, support plate 242 is rotated with spill spin block 223 and is connected it may be preferable that arranging in the middle of support plate raised, projection wears In the center of spill spin block, both reuse and are bolted together, and so, can achieve support plate by the operation of spill spin block Rotation, and then realize the adjustable angle of accommodating component, the upside of support plate is provided with the second receiver 241, in the second storage One end near the first receiver of box is revolving door 2411, when relative through covering post-job cymoscope on the second receiver When more, operable revolving door is so that the smooth landing of cymoscope on this second receiver is to the first receiver；Actuator Division 25, Actuator Division includes pusher cylinder 251, mounting disc 254 and connecting portion 255, and pusher cylinder is arranged in mounting disc 254, installs Disk is fixedly installed in the bottom of the first pedestal 110, and one end of the pusher cylinder bar 252 of pusher cylinder is the diameter with cymoscope Be adapted cuts somebody's hair 253 it may be preferable that being arcuate groove in the end cut somebody's hair, this arcuate groove is adapted with the diameter of cymoscope, cuts somebody's hair Top be groove 121 so that through capping the landing of post-job cymoscope 200 to mounting disc, mounting disc is near incorporating section Side be connecting portion 255, this connecting portion is connected in support plate 254, so make Actuator Division 24 connective stability higher.

Referring to Fig. 3, closure assemblies 30, closure assemblies 30 include adapter sleeve 31 and sleeve 32.The center of closure assemblies is even , there are the first groove 311 and the second groove 312 in female connector or the center of sleeve it may be preferable that the upside of adapter sleeve is the first groove in adapter sleeve 311, the downside of adapter sleeve is the second groove 312, the diameter with diameter greater than the second groove of the first groove.One end of sleeve 32 is connected in It may be preferable that the section configuration of sleeve 32 is convex shape in two grooves 312, and then the bottom side of sleeve is convex shoulder, and convex shoulder is along along sleeve Circumferentially, the lower end of adapter sleeve 31 is connected on convex shoulder heart line, has hold-down column 321, the lower end of hold-down column 321 is in sleeve 32 Hold-down head 325, hold-down head 325 is adapted with the shape of capping it may be preferable that setting is adapted with covering on the hold-down head 325 Pressing groove 326, and then capping operation is better achieved, the upper end of hold-down column 321 is locking projection 324, locking raised 324 and set There is lock pin 323 between the upper surface of cylinder 32, meanwhile, hold-down column 321 is arranged with spring 322, the upper end of hold-down column 321 is fixed On the cylinder rod of hydraulic cylinder 53, so that hold-down column 321 moves downward in the presence of hydraulic cylinder, and then capping is pressed Tightly on the end face of cymoscope.

Referring to Fig. 2, Power Component 50, Power Component includes pressurized cylinder 51, pre- air cylinder 52, hydraulic cylinder 53, fixes Disk 54, the first installing rack 56, the second installing rack 57.Pressurized cylinder 51 is installed on the first cylinder block, the cylinder of pressurized cylinder 51 First limited block 510 is provided with bar, is fixed with the first touch panel in one end away from pressurized cylinder 51 of the first limited block 510 511.Pre- air cylinder 52 is installed on the second cylinder block it may be preferable that the second cylinder block and the first cylinder block are with respect to horizontal direction Height identical, further, the first cylinder block and the second cylinder block link together, and in the first cylinder block and the second gas In cylinder seat, the first oil duct of setting insertion, the cylinder rod of pre- air cylinder 52 is provided with the second limited block 520, in the second limited block The one end away from pre- air cylinder be fixed with the second touch panel 521, in the both sides on the top of pre- air cylinder 52, that is, pre- air cylinder is close The two ends of the side of the second limited block 520 are fixed with the first installing rack 56 and the second installing rack 57 it may be preferable that the first installing rack 56 Section configuration with the second installing rack 57 is L-shaped, wherein, the first installing rack 56 is fixed with the first travel switch 561 and second Travel switch 562, the first travel switch 561 is arranged on the end away from pre- air cylinder for first installing rack, the second travel switch Interval setting and the first travel switch between, the second touch panel 521 respectively with the first travel switch 561 or the second travel switch 562 Match, and then limit the first operating position of pre- air cylinder 52 and the second operating position, the second installing rack 57 is fixed with the Triple-travel switch 571 and fourth line journey switch 572, third trip switch 571 is arranged on the second installing rack 57 away from pre- air cylinder 52 end, interval setting between fourth line journey switch 572 and third trip switch 571, the first touch panel 511 is respectively with the 3rd Travel switch 571 or fourth line journey switch 572 match, and then limit the 3rd operating position and the 4th work of pressurized cylinder 51 Position.Hydraulic cylinder 53 is installed on the downside of the second cylinder block, is provided with the second oil duct, hydraulic cylinder 53 in the second cylinder block Cylinder rod act on the hold-down column 321 in closure assemblies, and then capping is assemblied on cymoscope.Fixed disk 54 is pacified It is loaded on the 3rd pedestal 410, the first controller, second controller, the 3rd controller and are disposed with fixed disk 54 Four controllers, the first controller receives the signal of the first travel switch, and second controller receives the signal of the second travel switch, enters And control pre- air cylinder to move between the first operating position and the second operating position by the first controller and second controller, the Three controllers receive the signal of third trip switch, and the 4th controller receives the signal of fourth line journey switch, and then is controlled by the 3rd Device processed and the 4th controller control pressurized cylinder to move between the 3rd operating position and the 4th operating position.

Pre-pressing stage：Pre- air cylinder 52 is in the first operating position, and the second touch panel 521 is connected to the first travel switch, behaviour Author makes pre- air cylinder 52 work, and the cylinder rod of pre- air cylinder 52 is by the fluid in pre- air cylinder 52 or gas through the second oil duct pressure Enter in the cavity volume of hydraulic cylinder 56, with the motion of the cylinder rod of pre- air cylinder, the second touch panel 521 is connected to the second travel switch On 562, and then input a signal into second controller, and then control pre- air cylinder entrance packing state, i.e. the second operating position, The cylinder rod of pre- air cylinder moves to the second oil duct and then blocks between the cavity volume of the second oil duct and pre- air cylinder；

Pressurization stages：Pressurized cylinder 51 is in the 3rd operating position, and the first touch panel is connected to third trip switch 571, behaviour Author makes pressurized cylinder 51 work, and the fluid in pressurized cylinder or gas are pressed into liquid through the first oil duct by the cylinder rod of pressurized cylinder In the cavity volume of air cylinder, with the motion of the cylinder rod of pressurized cylinder, the first touch panel 511 is connected on fourth line journey switch 572, And then input a signal into the 4th controller, and then pressurized cylinder 51 is controlled to enter packing state, i.e. the 4th operating position.

By pre-pressing stage and pressurization stages so that the cylinder rod of hydraulic cylinder has relatively large thrust, and then Make hold-down column 321 that capping is assemblied in the top of cymoscope effectively, after the completion of capping operation, pre- air cylinder is reversely transported Dynamic, the second touch panel is connected on the first travel switch, and then inputs a signal into the first controller, and pre- air cylinder returns to first Operating position；Pressurized cylinder adverse movement, the first touch panel is connected on third trip switch, and then inputs a signal into the 3rd control Device processed, pressurized cylinder returns to the 3rd operating position.

Referring to Fig. 4, transfer dish 80, transfer dish 80 is arranged on the second pedestal 120, and there is mounting groove the center of transfer dish 80 801, transfer dish 80 is fixed in the rotary shaft stretch out on the second pedestal 120 by unilateral bearing 802, so, transfer dish 80 phase Second pedestal 120 is relatively rotated, the direction of rotation is to rotate clockwise or counterclockwise.It is provided with the side of transfer dish 80 Object disposing platform 90, places the cymoscopes of multiple pending capping operations, being circumferentially provided with of transfer dish 80 on object disposing platform 90 Multiple receiving portions 81.This receiving portion 81 includes the first accommodating groove 811, the second accommodating groove 812, first receives arm 813 and the second receipts Receive arm 815.First accommodating groove 811 and the second accommodating groove 812 are arranged on the Pan Bi of transfer dish 80, wherein, the first accommodating groove 811 Contour line be involute, the contour line of the second accommodating groove 812 is arc, preferentially 1/2 circle, preferably to fix detection Device, the second accommodating groove 812 is used for wrapping up the cymoscope of pending capping operation, to be allowed to turn therewith under the rotation of transfer dish 80 Dynamic, carry out the operating position of closure assemblies successively.First storage arm 813 is connected on transfer dish 80, specifically, the first storage arm It is connected on the Pan Bi of transfer dish, the second storage arm is connected to the first storage arm one end away from transfer dish, the second storage arm 815 Be extended towards the direction of the first accommodating groove 813, between multiple second storage arms 815, that is, adjacent second storage arm 815 it Between be formed as inlet port, the cymoscope of pending capping operation enters from inlet port, and then is defined to the second accommodating groove 815 Interior, it is groove 814 in the side away from the second accommodating groove 812 of the second storage arm 815, compressed part is connected on groove 814, enters And transfer dish 80 is rotated.

Referring to Fig. 5, transfer dish 80 also includes compressed part, and compressed part includes the first pivot 122 and the second pivot 123, and first Pivot 122 is arranged on the second pedestal 120, and the second pivot 123 is arranged at the front side that transfer dish 80 rotates clockwise direction, and second The distance that pivot 123 arrives transfer dish 80 center is less than the distance that the first pivot 122 arrives transfer dish 80 center, the first pivot 122 and second is connecting rod 124 between pivot 123, and the incline direction of connecting rod 124 is identical with the setting direction of the second pivot； Compression cylinder 127, this compression cylinder 127 is arranged on the upper surface of the second pedestal 120, and compression cylinder bar 126 is rotatably connected On the first pivot 122, compression cylinder 127 is fixed with, away from one end of the first pivot 122, the block rubber being connected on groove 814 128；Elastic rod 125, one end of elastic rod 125 is connected on the second pivot 123, and the other end of elastic rod 125 is connected to compression On cylinder 127, the block rubber 128 of compression cylinder 127, in the presence of elastic rod 125 and connecting rod 124, is connected to recessed always On groove 814, when compression cylinder 127 works, compression cylinder 127 is connected to groove 814, and then it is certain that transfer dish is rotated Angle, makes transfer dish enter next operating position from an operating position to another operating position.

Work process of the present utility model is as follows：

The feeding stage：The cymoscope of pending capping operation is positioned on box, meanwhile, puts into envelope in pressing groove Lid；

Working stage：（1）Pre-pressing stage：Pre- air cylinder is in the first operating position, and the second touch panel is connected to the first stroke Switch, operator makes precompressed cylinder operation, and the cylinder rod of pre- air cylinder is by the fluid in pre- air cylinder or gas through the second oil duct In the cavity volume of press-in hydraulic cylinder, with the motion of the cylinder rod of pre- air cylinder, the second touch panel is connected on the second travel switch, And then input a signal into second controller, and then control pre- air cylinder to enter packing state, i.e. the second operating position, calm the anger in advance The cylinder rod of cylinder moves to the second oil duct and then blocks between the cavity volume of the second oil duct and pre- air cylinder；

（2）Pressurization stages：Pressurized cylinder is in the 3rd operating position, and the first touch panel abuts third trip switch, operator Pressurized cylinder is made to work, the fluid in pressurized cylinder or gas are pressed into hydraulic cylinder through the first oil duct by the cylinder rod of pressurized cylinder Cavity volume in, with the motion of the cylinder rod of pressurized cylinder, the first touch panel is connected to fourth line journey to be opened and shuts, and then signal is defeated Enter to the 4th controller, and then control pressurized cylinder to enter packing state, i.e. the 4th operating position.

The pressure being conveyed to the cylinder rod of hydraulic cylinder by pre-pressing stage and pressurization stages is acted in closure assemblies Hold-down column, and then so that it is moved downward, and then compression fit will be covered on cymoscope.

By operating the compression cylinder in compressed part so that the block rubber of compression cylinder front end is connected on groove, and then Make transfer dish turn to subsequent work position, repeat aforesaid operations.

The rewinding stage：The cymoscope completing to cover operation is rotated further with transfer dish, until entering in groove and then sliding Drop down onto in mounting disc, pushed it in incorporating section by pusher cylinder, be slipped to again in the first receiver through revolving door.

Claims (10)

1. a kind of cymoscope capping apparatus are it is characterised in that include carriage assembly, transfer dish, closure assemblies and Power Component；

Described carriage assembly includes body, and described body top is provided with the first pedestal, and described first pedestal is provided with second Pedestal；

Described transfer dish is arranged on described second pedestal, and described transfer dish rotates setting with respect to described second pedestal, described Transfer dish includes receiving portion and compressed part；

Described accommodation section is circumferentially disposed along described transfer dish, and described accommodation section includes the first accommodating groove and the second accommodating groove, institute State the first accommodating groove and described second accommodating groove is arranged on the Pan Bi of described transfer dish, the contour line of described first accommodating groove is Involute, the contour line of described second accommodating groove is arc, and described second accommodating groove is used for wrapping up cymoscope；

Described compressed part is arranged on described second pedestal, and described compressed part includes compression cylinder, and described compression cylinder is connected to On described accommodation section；

Described closure assemblies are arranged at the upside of described transfer dish, and described closure assemblies are relative with the center of described second accommodating groove Should；

Described Power Component is arranged at the upside of described closure assemblies, and described Power Component acts on described closure assemblies.

2. cymoscope capping apparatus according to claim 1 are it is characterised in that described accommodation section also includes the first storage arm With the second storage arm；

Described first storage arm is connected on the Pan Bi of described transfer dish；

Described second storage arm is connected to described first storage arm one end away from described transfer dish, described second storage arm direction The direction of described first accommodating groove is extended；Described accommodation section is set to shape between multiple, adjacent described second storage arms Become inlet port.

3. cymoscope capping apparatus according to claim 2 it is characterised in that described second storage arm away from described the The side of two accommodating grooves is groove, and described compression cylinder is connected on described groove.

4. the cymoscope capping apparatus according to any one of claim 1-3 are it is characterised in that described compressed part also includes One pivot, the second pivot, connecting rod and elastic rod；

Described first pivot is arranged on described second pedestal；

Described second pivot is arranged at the front side that described transfer dish rotates clockwise direction；

Described connecting rod is arranged between described first pivot and described second pivot, the incline direction of described connecting rod with described The setting direction of the second pivot is identical；

One end of described elastic rod is connected to described second pivot, and the other end of described elastic rod is connected to described compression cylinder On.

5. cymoscope capping apparatus according to claim 4 are it is characterised in that described second pivot is in described transfer dish Distance at the heart is less than described first pivot to the distance of described transfer dish center.

6. cymoscope capping apparatus according to claim 5 it is characterised in that described Power Component include pressurized cylinder, Pre- air cylinder, hydraulic cylinder and fixed disk；

Described pressurized cylinder is installed on the first cylinder block；

Described pre- air cylinder is installed on the second cylinder block, and described second cylinder block and described first cylinder block are with respect to level side To height identical, be provided with the first oil duct of insertion, described second gas in described first cylinder block and described second cylinder block It is provided with the second oil duct in cylinder seat；

Described hydraulic cylinder is installed on the downside of described second cylinder block, and the cylinder rod of described hydraulic cylinder acts on described capping On assembly；

Described fixed disk is installed on described body, described fixed disk is disposed with the first controller, second controller, Three controllers and the 4th controller.

7. cymoscope capping apparatus according to claim 6 are it is characterised in that arrange on the cylinder rod of described pressurized cylinder There is the first limited block, one end away from pressurized cylinder of described first limited block is fixed with the first touch panel, described pre- air cylinder Second limited block is provided with cylinder rod, one end away from described pre- air cylinder of described second limited block is fixed with second and touches Plate.

8. cymoscope capping apparatus according to claim 7 are it is characterised in that described pre- air cylinder is near the described second limit The two ends of the side of position block are fixed with the first installing rack and the second installing rack, described first installing rack is fixed with the first stroke and opens Close and the second travel switch, described first travel switch is arranged on described first installing rack one end away from described pre- air cylinder Place, interval setting between described second travel switch and described first travel switch, described second touch panel is respectively with described first Travel switch or described second travel switch match, and described second installing rack is fixed with third trip switch and fourth line journey Switch, described third trip switch is arranged on the end away from described pre- air cylinder for described second installing rack, described fourth line Interval setting between Cheng Kaiguan and described third trip switch, described first touch panel is switched or described with described third trip respectively Fourth line journey switch matches；Described first controller receives the signal of described first travel switch, and described second controller connects Receive the signal of described second travel switch, described 3rd controller receives the signal of described third trip switch, described 4th control Device processed receives the signal of described fourth line journey switch.

9. cymoscope capping apparatus according to claim 8 are it is characterised in that described closure assemblies include adapter sleeve and set Cylinder；

There are the first groove and the second groove, described first groove is arranged at the upside of described adapter sleeve, described second groove in described adapter sleeve It is arranged at the downside of described adapter sleeve, the diameter with diameter greater than described second groove of described first groove；

One end of described sleeve is connected in described second groove, has hold-down column, the lower end of described hold-down column is pressure in described sleeve Tight head, described hold-down head is adapted with the shape of capping.

10. cymoscope capping apparatus according to claim 9 are it is characterised in that it also includes accommodating component；Described storage Assembly includes base, support column, adjustment portion, lock-nut, spill spin block, the first receiver, incorporating section and Actuator Division；

Described base includes multiple legs, and described support column is arranged at the intersection of multiple legs, has cavity in support column；

Described adjustment portion includes adjusting rod, and adjusting rod is housed inside in support column cavity；External screw thread, support column chamber are had on adjusting rod There is the female thread being adapted with external screw thread in vivo, after adjusting rod adjusts suitable with respect to the distance between cavity, rotary locking Nut, the relative position locking between adjusting rod and cavity is fixed；

Described spill spin block is arranged at adjusting rod one end away from support column cavity, and there is incorporating section the upside of spill spin block；

Described first receiver is arranged on adjusting rod, and described first receiver sets with respect to adjusting rod upper-lower position scalable Put；

Described incorporating section includes the second receiver and support plate, and support plate is rotated with spill spin block and is connected, and sets in the upside of support plate It is equipped with the second receiver, be revolving door in one end of close first receiver of the second receiver；

Described Actuator Division includes pusher cylinder, mounting disc and connecting portion, and pusher cylinder is arranged in mounting disc, and mounting disc is fixed It is installed on the bottom of the first pedestal, one end of the pusher cylinder bar of pusher cylinder is and cutting somebody's hair that the diameter of cymoscope is adapted, Mounting disc is connecting portion near the side of incorporating section, and this connecting portion is connected in support plate.