CN109773008A - Inhalator jar stamping top cover equipment and process for stamping - Google Patents

Abstract

The present invention relates to a kind of inhalator jar stamping top cover equipment.The inhalator jar stamping top cover equipment includes mounting base, punch assembly and supply assembly, the mounting base includes bottom plate, pedestal and pad set body, the pedestal and the pad set body and are set on the bottom plate spaced reciprocally, the punch assembly includes installing arm, stamping cylinder and staking punch, the installing arm is installed on the pedestal, the stamping cylinder is installed on the top of the installing arm, the staking punch, which is installed on the stamping cylinder and is directed at the pad, sets body, the supply assembly is installed on the bottom plate and clamps motherboard, so that the motherboard is positioned at the pad and sets on body, the staking punch is used for the motherboard described in punching press under the drive of the stamping cylinder and to fall round plate on the motherboard, the circle plate is used to form the top cover of inhalator jar.The inhalator jar stamping top cover equipment is higher to the utilization rate of raw material motherboard.

Description

Inhalator jar stamping top cover equipment and process for stamping

Technical field

The present invention relates to inhalator jar stamping technology fields, more specifically, it relates to a kind of inhalator jar stamping top cover equipment.

Background technique

It is frequently necessary to use aerosol in medical treatment or pesticide field at present, there is the special original such as pressure in aerosol products Cause needs at normal temperatures and pressures to pour into inhalator jar quantitative liquid using filling machine.Aeration machine be it is quantitative, have a level pressure The gas (or liquefied gas) of power pours into inhalator jar.Again because gas-fog products will have certain pressure, so before inflation Aerosol tank mouth must be closed.Aeration machine is that gas is poured by inhalator jar overhead-valve doorway.

For example, China utility model publication No. CN204747252U discloses a kind of aerosol pot face cover punch forming and round edge Device.The aerosol pot face cover punch forming and round edge device include the upper die component that can be moved up and down and the lower die of fixed setting Component, the upper die component include upper die holder and upper mold core, and the upper die holder is fixedly connected with upper mold core, under lower die holder passes through Fixed plate is connect with lower die holder cover board, and the lower mold assemblies include lower die holder and lower mold core, is fixed at the top of the lower die holder Lower mold core is installed, lower die holder cover board has been embedded in annular round edge mold, has been equipped at the top of lower die holder cover board for fixing round edge The lower die round edge core cover plate of mold.

However, the above-mentioned prior art has the following deficiencies: remaining raw material motherboard after this punching press shaping equipment punching press As waste material, so that the utilization rate to raw material is lower.

Summary of the invention

In view of the deficiencies of the prior art, the present invention intends to provide a kind of pair of higher aerosol of raw material availability Top ends of cans stamping equipment and process for stamping.

To achieve the above object, the present invention provides the following technical scheme that

A kind of inhalator jar stamping top cover equipment, including mounting base, punch assembly and supply assembly, the mounting base include bottom plate, Pedestal and pad set body, and the pedestal and the pad set body and be set on the bottom plate spaced reciprocally, and the punch assembly includes Installing arm, stamping cylinder and staking punch, the installing arm are installed on the pedestal, and the stamping cylinder is installed on the installation The top of arm, the staking punch, which is installed on the stamping cylinder and is directed at the pad, sets body, and the supply assembly is installed on institute Motherboard is stated on bottom plate and clamps, so that the motherboard is positioned at the pad and sets on body, the staking punch is used in the punching press gas Motherboard described in punching press to fall round plate on the motherboard under the drive of cylinder, and the circle plate is used to form inhalator jar Top cover, the motherboard forms positioning mesh plate after punching press, for positioning multiple inhalator jars.

By using above-mentioned technical proposal, when in use, the supply assembly clamping motherboard is positioned at the pad and sets on body, The stamping cylinder drives the staking punch to set body movement, and motherboard described in punching press towards the pad, so that falling on the motherboard Round plate, the circle plate are used to form the top cover of inhalator jar, and the supply assembly clamps the motherboard and continues to move to, and Punching press next time is carried out using the staking punch, and the motherboard after Multi-step forming has multiple round plates due to falling off, because This is formed with multiple holes thereon, so that the motherboard becomes positioning mesh plate, can will be arranged in the middle part of inhalator jar described In the hole of motherboard, the multiple inhalator jars of motherboard clamping position are then utilized, so that motherboard does not become waste material after punching press, and It is to become positioning mesh plate, improves the utilization rate of raw material, and the diameter in the hole on the motherboard and the inhalator jar Diameter is equal, improves ease of use.

Further, the pedestal includes rectangular slab and round platform, and the rectangular slab is installed on the bottom plate, the circle Shape platform is installed on the rectangular slab, and the bottom end of the installing arm is fixed on the round platform.

By using above-mentioned technical proposal, the installation of the installing arm is facilitated.

Further, the installing arm includes vertical rod and crossbeam, and the vertical rod is fixed on the round platform, described The end vertical of crossbeam is set to the top of the vertical rod.

By using above-mentioned technical proposal, enables the stamping cylinder far from the vertical rod, improve its punching press Activity space.

Further, the stamping cylinder is installed on end of the crossbeam far from the vertical rod, the stamping cylinder On punching press main shaft is installed, the staking punch is installed on the bottom end of the punching press main shaft.

By using above-mentioned technical proposal, it can use the punching press main shaft and drive the staking punch mobile, improve dynamic The stability of power transmission.

Further, the bottom plate includes baseplate part, the first folded plate, the second folded plate and support substrate, first folded plate The opposite sides for being convexly equipped in the baseplate part is respectively perpendicular with the support substrate, second folded plate is convexly equipped in the baseplate part On, and between first folded plate portion and the support substrate.

By using above-mentioned technical proposal, facilitate using first folded plate, the second folded plate and support substrate to install State punch assembly and the supply assembly.

Further, the rectangular slab is installed on first folded plate, and the pad sets body and is installed on second folded plate On, the supply assembly is installed in the support substrate, is formed with rewinding between first folded plate and second folded plate Space is formed with temporarily providing room between second folded plate and the support substrate.

By using above-mentioned technical proposal, so that receiving space and temporarily providing room, Jin Erfang can be formed on the bottom plate Just the objects such as top cover or receiving inhalator jar are accommodated using the receiving space and the temporarily providing room.

Further, the supply assembly includes cross moving track, joint action table, driving crawler belt and actuator, the traversing rail Road is slidingly arranged at the top of the support substrate, and the joint action table is set to the cross moving track far from second folded plate One end, the driving crawler belt connect with the joint action table, and the actuator is installed on the side wall of the support substrate, is used in combination In the driving driving crawler belt rotation.

By using above-mentioned technical proposal, the driving crawler belt is facilitated to rotate under the driving of the actuator, and driven The joint action table transverse shifting finally drives the cross moving track transverse shifting.

Further, there are two driving wheels, the opposite end of the driving crawler belt to cover respectively for setting in the support substrate On described two driving wheels, one of them described driving wheel is connected on the actuator.

By using above-mentioned technical proposal, facilitates and be tensioned the driving crawler belt using two driving wheels, while described in driving Drive crawler belt moving in rotation.

Further, the supply assembly further includes pusher cylinder and scraping wings, and the pusher cylinder is installed on the cross It moving on track, the scraping wings includes base item and pusher plate body, and the base item is connected on the output shaft of the pusher cylinder, and It is slidably supported on the cross moving track, the scraping wings is convexly equipped in the top edge of the base item, the scraping wings and institute It states and is formed with pusher gap between cross moving track, the edge of the motherboard is held in the pusher gap, the cross moving track The moving direction of the relatively described support substrate is first direction, and the moving direction of the relatively described cross moving track of the scraping wings is the Two directions, the second direction are vertical with the first direction.

By using above-mentioned technical proposal, the cross moving track can drive motherboard transverse shifting, and the pusher cylinder Then push the motherboard to vertically move on the cross moving track, then realize the movement of the motherboard both direction, convenient in Multiple rows of hole is stamped and formed out on the motherboard.

A kind of inhalator jar stamping top cover method using inhalator jar stamping top cover equipment as described above, including following step Rapid: the supply assembly clamps the motherboard and the motherboard is positioned at the pad and sets on body；The stamping cylinder drives institute Motherboard described in staking punch punching press is stated, so that falling round plate on the motherboard, the circle plate is used to form inhalator jar Top cover；The supply assembly drives the motherboard transverse shifting with motherboard described in the utilization staking punch sequentially punching press, in institute It states and forms multiple positioning mesh on motherboard；And the motherboard forms positioning mesh plate after punching press, to position multiple inhalator jars.

By the way that the motherboard after the punching press is become positioning mesh plate, it is more to position to can use the positioning mesh plate A inhalator jar, and can be positioned in the packing case of subsequent work stations, the utilization rate of the raw material after improving punching press.

In conclusion the invention has the following advantages:

1. setting the setting of body by the supply assembly and the pad, the supply assembly clamping motherboard is positioned at the pad and sets body On, the stamping cylinder drives the staking punch to set body movement, and motherboard described in punching press towards the pad, so that falling on the motherboard Round plate is fallen, the circle plate is used to form the top cover of inhalator jar, and the supply assembly clamps the motherboard and continues to move to, And punching press next time is carried out using the staking punch, and the motherboard after Multi-step forming has multiple round plates due to falling off, Therefore it is formed with multiple holes thereon, so that the motherboard becomes positioning mesh plate, institute can will be arranged in the middle part of inhalator jar It states in the hole of motherboard, then utilizes the multiple inhalator jars of motherboard clamping position, so that motherboard does not become waste material after punching press, But become positioning mesh plate, improve the utilization rate of raw material, and the diameter in the hole on the motherboard and the inhalator jar Diameter it is equal, improve ease of use.

Detailed description of the invention

Fig. 1 is the stereoscopic schematic diagram of the inhalator jar stamping top cover equipment of an embodiment.

Fig. 2 is the stereoscopic schematic diagram at another visual angle of inhalator jar stamping top cover equipment shown in Fig. 1.

Fig. 3 is the step flow chart of the inhalator jar stamping top cover method of an embodiment.

Fig. 4 is the stereoscopic schematic diagram of the bearizing mechanism of an embodiment.

Fig. 5 is the stereoscopic schematic diagram of the positioning component of an embodiment, clamp assemblies and reamer components.

Fig. 6 is the stereoscopic schematic diagram at another visual angle of positioning component shown in Fig. 5, clamp assemblies and reamer components.

In figure, 100, inhalator jar stamping top cover equipment；200, motherboard；201, mesh is positioned；10, mounting base；11, bottom plate； 111, baseplate part；112, the first folded plate；113, the second folded plate；114, support substrate；115, receiving space；116, temporarily providing room； 12, pedestal；121, rectangular slab；122, round platform；13, pad sets body；20, punch assembly；21, installing arm；211, vertical rod；212, Crossbeam；22, stamping cylinder；225, punching press main shaft；23, staking punch；30, supply assembly；31, cross moving track；32, joint action table；33, Drive crawler belt；34, actuator；35, driving wheel；36, pusher cylinder；37, scraping wings；40, bearizing mechanism；50, positioning component； 51, installs case；52, positioning ring；53, lifting cylinder；54, rotary cylinder；55, guide cone；551, cylindrical body；552, circular cone Platform；60, clamp assemblies；61, linking arm；611, frame is avoided；613, L shape pole；615, avoiding space；62, gripper cylinder；63, Holding frame；631, mounting post；632, ring body is supported；635, fin is connected；64, guide cone bar；70, reamer components；71, annular is cut Cutter；711, match cyclization；713, cut ring；72, gear is driven；75, zigzag tread patterns cylinder, 755, attachment beam, 758, pushing and pressing bar.

Specific embodiment

Below in conjunction with attached drawing, invention is further described in detail.

It please refers to Fig. 1 and Fig. 2, a kind of inhalator jar stamping top cover equipment 100, including mounting base 10, punch assembly 20 and supplies Expect component 30, the mounting base 10 includes that bottom plate 11, pedestal 12 and pad set body 13, and it is mutual that the pedestal 12 and the pad set body 13 It is positioned apart from the bottom plate 11, the punch assembly 20 includes installing arm 21, stamping cylinder 22 and staking punch 23, described Installing arm 21 is installed on the pedestal 12, and the stamping cylinder 22 is installed on the top of the installing arm 21, the staking punch 23 be installed on the stamping cylinder 22 and be aligned it is described pad set body 13, the supply assembly 30 is installed on the bottom plate 11 simultaneously Motherboard 200 is clamped, so that the motherboard 200 is positioned at the pad and sets on body 13, the staking punch 23 is used in the punching press gas Motherboard 200 described in punching press to fall round plate on the motherboard 200 under the drive of cylinder 22, and the circle plate is used to form The top cover of inhalator jar, the motherboard 200 forms positioning mesh plate after punching press, for positioning multiple inhalator jars.

When in use, the clamping of supply assembly 30 motherboard 200 is positioned at the pad and sets on body 13, the stamping cylinder 22 The staking punch 23 is driven to set the movement of body 13, and motherboard 200 described in punching press towards the pad, so that falling circle on the motherboard 200 Shape plate, the circle plate are used to form the top cover of inhalator jar, and the supply assembly 30, which clamps the motherboard 200, to be continued to move It is dynamic, and punching press next time is carried out using the staking punch 23, and the motherboard 200 after Multi-step forming has multiple circles due to falling off Shape plate, therefore be formed with multiple holes thereon can will be in inhalator jar so that the motherboard 200 becomes positioning mesh plate Portion is arranged in the hole of the motherboard 200, the multiple inhalator jars of 200 clamping position of motherboard is then utilized, so that motherboard 200 exists Do not become waste material after punching press, but become positioning mesh plate, improves the utilization rate of raw material, and on the motherboard 200 Hole diameter it is equal with the diameter of the inhalator jar, improve ease of use

For example, the pedestal 12 includes rectangular slab 121 and round platform 122, the rectangular slab 121 is installed on the bottom plate 11, The circle platform 122 is installed on the rectangular slab 121, and the bottom end of the installing arm 21 is fixed on the round platform 122.Institute Stating installing arm 21 includes vertical rod 211 and crossbeam 212, and the vertical rod 211 is fixed on the round platform 122, the crossbeam 212 end vertical is set to the top of the vertical rod 211.The stamping cylinder 22 is installed on the crossbeam 212 far from institute The end of vertical rod 211 is stated, punching press main shaft 225 is installed on the stamping cylinder 22, the staking punch 23 is installed on the punching Press the bottom end of main shaft 225.The bottom plate 11 includes baseplate part 111, the first folded plate 112, the second folded plate 113 and support substrate 114, First folded plate 112 and the support substrate 114 are respectively perpendicular the opposite sides for being convexly equipped in the baseplate part 111, and described the Two folded plates 113 are convexly equipped on the baseplate part 111, and are located at first folded plate 112 between the support substrate 114. The rectangular slab 121 is installed on first folded plate 112, and the pad sets body 13 and is installed on second folded plate 113, described Supply assembly 30 is installed in the support substrate 114.It is formed between first folded plate 112 and second folded plate 113 Receiving space 115 is formed with temporarily providing room 116 between second folded plate 113 and the support substrate 114.The feed group Part 30 includes that cross moving track 31, joint action table 32, driving crawler belt 33 and actuator 34, the cross moving track 31 are slidingly arranged at institute The top of support substrate 114 is stated, the joint action table 32 is set to one of the cross moving track 31 far from second folded plate 113 End, the driving crawler belt 33 are connect with the joint action table 32, and the actuator 34 is installed on the side wall of the support substrate 114 On, and for driving the driving crawler belt 33 to rotate.There are two driving wheel 35, the drivings for setting in the support substrate 114 The opposite end of crawler belt 33 is sheathed on respectively on described two driving wheels 35, one of them described driving wheel 35 is connected to the drive On moving part 34.The supply assembly 30 further includes pusher cylinder 36 and scraping wings 37, and the pusher cylinder 36 is installed on the cross It moves on track 31, the scraping wings 37 includes base item and pusher plate body, and the base item is connected to the output of the pusher cylinder 36 It on axis, and is slidably supported on the cross moving track 31, the scraping wings 37 is convexly equipped in the top edge of the base item, described Pusher gap is formed between scraping wings 37 and the cross moving track 31, the edge of the motherboard 200 is held between the pusher In gap, the moving direction of the relatively described support substrate 114 of the cross moving track 31 is first direction, the opposite institute of the scraping wings 37 The moving direction for stating cross moving track 31 is second direction, and the second direction is vertical with the first direction.

By the setting of the round platform 122, the installation of the installing arm 21 is facilitated.Pass through setting for the crossbeam 212 It sets, enables the stamping cylinder 22 far from the vertical rod 211, improve the activity space of its punching press.Utilize the punching Pressure main shaft 225 drives the staking punch 23 mobile, and the stability of power transmission can be improved.Utilize first folded plate 112, Two folded plates 113 and support substrate 114 can be more convenient the punch assembly 20 and the supply assembly 30 are installed.By making Can form receiving space 115 and temporarily providing room 116 on the bottom plate 11, and then facilitate using the receiving space 115 and The temporarily providing room 116 accommodates top cover or the receiving objects such as inhalator jar.By the way that the driving crawler belt 33 is arranged, facilitate described in Driving crawler belt 33 rotates under the driving of the actuator 34, and drives 32 transverse shifting of joint action table, described in final drive 31 transverse shifting of cross moving track.By the way that described two driving wheels 35 are arranged, facilitate and be tensioned the driving using two driving wheels 35 Crawler belt 33, while driving 33 moving in rotation of driving crawler belt.By the way that the pusher cylinder 36 and the joint action table 32, institute is arranged 200 transverse shifting of motherboard can be driven by stating cross moving track 31, and the pusher cylinder 36 then pushes the motherboard 200 in the cross It moves on track 31 and vertically moves, then realize the movement of 200 both direction of motherboard, convenient in punching press on the motherboard 200 Form multiple rows of hole.

Also referring to Fig. 3, the present invention also provides a kind of gas using inhalator jar stamping top cover equipment 100 as described above Mist top ends of cans process for stamping.The inhalator jar stamping top cover method specifically includes the following steps:

In step S101, the supply assembly 30, which clamps the motherboard 200 and the motherboard 200 is positioned at the pad, sets body On 13；

In step S102, the stamping cylinder 22 drives motherboard 200 described in 23 punching press of staking punch, so that the motherboard Round plate is fallen on 200, the circle plate is used to form the top cover of inhalator jar；

In step S103, the supply assembly 30 drives 200 transverse shifting of motherboard to utilize the staking punch 23 sequentially Motherboard 200 described in punching press, in forming multiple positioning mesh 201 on the motherboard 200；And

In step S104, the motherboard 200 forms positioning mesh plate after punching press, to position multiple inhalator jars.

By the way that the motherboard 200 after the punching press is become positioning mesh plate, the positioning mesh plate can use to determine The multiple inhalator jars in position, and can be positioned in the packing case of subsequent work stations, the utilization rate of the raw material after improving punching press.

Referring to Figure 4 together to Fig. 6, for example, for the ease of improving the side of the positioning mesh 201 on the positioning mesh plate The smoothness of wall, prevents the side wall of the sidewall damage inhalator jar can body of the positioning mesh 201, or makes the positioning mesh 201 size can be more suitable for the inhalator jar can body, and the inhalator jar stamping top cover equipment 100 further includes bearizing mechanism 40, the bearizing mechanism 40 is set on the bottom plate 11 and is located in the receiving space 115.The bearizing mechanism 40 includes Positioning component 50, clamp assemblies 60 and reamer components 70.The positioning component 50 is set on the bottom plate 11, for positioning State positioning mesh plate, the relatively described positioning component 50 of the clamp assemblies 60 is arranged, for that will position described in mesh plate is held on On positioning component 50, the reamer components 70 are installed on the clamp assemblies 60, for determining on the positioning mesh plate Position mesh 201 carries out grinding and ream operation.

The positioning component 50 includes installs case 51, positioning ring 52, lifting cylinder 53, rotary cylinder 54 and guide cone 55, the installs case 51 is installed on the bottom plate 11, and the positioning ring 52 is fixed on the top surface of the installs case 51, described fixed The internal diameter of position ring 52 is greater than the diameter of the positioning mesh 201.The lifting cylinder 53 is installed in the installs case 51, described Rotary cylinder 54 is installed on the top of the output shaft of the lifting cylinder 53, and the guide cone 55 is located at the positioning ring 52 It is interior, the guide cone 55 include coaxial arrangement cylindrical body 551 and the frustum of a cone 552, the diameter of the cylindrical body 551 with it is described The diameter for positioning mesh 201 is equal, and the central coaxial of the cylindrical body 551 is set to the top of the output shaft of the rotary cylinder 54 End.The top surface of the guide cone 55 is recessed with tapered guide hole.

The clamp assemblies 60 include linking arm 61, gripper cylinder 62, holding frame 63 and guide cone bar 64, the linking arm 61 include evacuation frame 611 and L shape pole 613, and the evacuation frame 611 is installed on the side wall of the installs case 51, the evacuation Avoiding space 615 it has been bent to form on frame 611, the opening of the avoiding space 615 is towards the positioning ring 52.The L shape folding Bar 613 is installed on the top of the evacuation frame 611, and the gripper cylinder 62 is installed on the top of the L shape pole 613.It is described Holding frame 63 is connected on the gripper cylinder 62, for the positioning mesh plate to be clamped and located at the positioning ring 52. The holding frame 63 includes mounting post 631, supports ring body 632 and multiple connection fins 635, and the mounting post 631 can be slided laterally It is installed on the bottom end of the output shaft of the gripper cylinder 62 dynamicly, the ring body 632 that supports is parallel to each other with the positioning ring 52 Setting, the axis collinear of the axis for supporting ring body 632 and the positioning ring 52.The internal diameter for supporting ring body 632 and institute The diameter for stating cylindrical body 551 is equal.The guide cone 55 is used to that the ring body 632 that supports to be guided to be arranged thereon and utilize institute It states cylindrical body 551 to position the ring body 632 that supports, so that supporting ring body 632 described in convenient is directed at the positioning mesh 201.The multiple connection fin 635 is around the periphery setting for supporting ring body 632, and the multiple connection fin 635 is mutually The opposite end of interval setting, each connection fin 635 is connected to the periphery for supporting ring body 632 and the peace It fills on column 631, being fixedly connected for ring body 632 and the mounting post 631 is supported described in realization.The guide cone bar 64 is coaxially disposed In the bottom end of the mounting post 631, the guide cone bar 64 is arranged in the holding frame 63, and is convexedly stretched in and described supported ring body Outside 632 bottom.The guide cone bar 64 is used to be arranged in the tapered guide hole of the guide cone 55, and then described in guidance The moving direction of holding frame 63.

The reamer components 70 include annular cutter 71, driving gear 72 and zigzag tread patterns cylinder 75.The annular is cut The internal diameter of cutter 71 is greater than the internal diameter for supporting ring body 632, and the annular cutter 71, which is rotatably arranged in, described supports ring In body 632, the annular cutter 71 includes coaxial arrangement with cyclization 711 and cut ring 713, the top with cyclization 711 Face position is higher than the top side location for supporting ring body 632, and the top surface periphery convex with cyclization 711 is equipped with mounting ring (not shown) is provided with multiple spring (not shown) at the top of the mounting ring, and the top of the multiple spring is all connected to pacify The periphery of dress circle (not shown), the installing ring are rotationally connected on the multiple connection fin 635, and the spring is in original When long, the bottom with cyclization 711 be inserted in it is described support in ring body 632, the cut ring 713, which is hidden in, described supports ring In body 632, the inboard portion for supporting ring body 632 is fixedly connected on the installing ring by multiple connection strap (not shown) On.Multiple cooperating teeth are formed on the circumferential surface with cyclization 711.The lateral surface of the cut ring 713 is formed with multiple grindings Protrusion, to constitute annular grinding surface.The driving gear 72 is installed on the top for supporting ring body 632 and with described with cyclization 711 multiple cooperating teeth cooperate, to drive the annular cutter 71 to rotate, and then to the week of the positioning mesh 201 Wall carries out grinding ream operation.The zigzag tread patterns cylinder 75 is connected to the side wall of the mounting post 631 by attachment beam 755 On.Pushing and pressing bar 758 is provided on the output shaft of the zigzag tread patterns cylinder 75, the end of the pushing and pressing bar 758 is held in described In mounting ring with cyclization 711, for drive it is described decline with cyclization 711, and then cut using the cut ring 713 it is described fixed The peripheral wall of position mesh 201.The internal diameter of the cut ring 713 is greater than the internal diameter of the positioning mesh 201, the cut ring 713 Internal diameter is equal with the outer diameter of the inhalator jar can body.For example, the radius of the top cover of the inhalator jar adds the inhalator jar can body Wall thickness it is equal with the radius of outer peripheral surface of the inhalator jar can body.

When in use, the positioning mesh plate is supported on the positioning ring 52, and makes the one of the positioning mesh plate Side protrudes out in the avoiding space 615 of the evacuation frame 611, and the lifting cylinder 53 drives the guide cone 55 to protrude out to institute It states in positioning mesh 201, while the lifting cylinder 53 lifting, the rotary cylinder 54 drives the guide cone 55 to revolve Turn, so that the side wall of the positioning mesh 201 is accurately sheathed on the periphery of the cylindrical body 551 of the guide cone 55. The gripper cylinder 62 drives the holding frame 63 to push by the mounting post 631, and the guide cone bar 64 is inserted into described draw In the tapered guide hole of starting taper body 55, while the ring body 632 that supports is sheathed on the frustum of a cone 552 of the guide cone 55, During the pushing of the holding frame 63, guidance of the tapered guide hole to the guide cone bar 64, the frustum of a cone 552 To the guidance for supporting ring body 632, finally described to support the week that ring body 632 is closely sheathed on the cylindrical body 551 Edge is simultaneously held on the positioning mesh plate, so that the positioning mesh plate is held on and described supports ring body 632 and the positioning Between ring 52.

Hereafter, the lifting cylinder 53 lifts the guide cone 55 so that the guide cone 55 be moved to it is described fixed Position ring 52 top and disengaging described in support ring body 632 so that the inside formation operation space of the positioning ring 52, described Zigzag tread patterns cylinder 75 drives the annular cutter 71 to overcome the pulling force of the multiple spring and move down and cut the positioning The side wall of mesh 201, the driving gear 72 drive it is described rotated with cyclization 711 so that the ring in the cut ring 713 Shape grinding surface is ground the side wall of the positioning mesh 201, then realizes ream operation, while also improving the positioning mesh 201 The smoothness of side wall then avoids the positioning mesh 201 from damaging the inhalator jar tank when positioning the inhalator jar can body Body, and the guide cone 55 moves up movement, so that the annular cutter 71 has operating space, cuts the grain of formation Bits can also be fallen in the installs case 51 from the operating space, convenient for the collection of grain bits, be made in order to avoid grain bits influence reaming The precision of industry.

For example, after step s 104, the inhalator jar stamping top cover method is further comprising the steps of:

Step 1: the positioning mesh plate is supported on the positioning ring 52, the lifting cylinder 53 drives the guide cone Body 55 rises in the positioning mesh 201, and the rotary cylinder 54 drives 55 synchronous rotary of guide cone, so that institute Positioning mesh 201 is stated to be positioned in the guide cone 55；

Step 2: the gripper cylinder 62 drives the holding frame 63 to decline, the tapered guide hole guidance of the guide cone 55 The guide cone bar 64, the frustum of a cone 552 of the guide cone 55 guide it is described support ring body 632, until described support ring body 632 are sheathed on the cylindrical body 551 of the guide cone 55, so that the positioning mesh plate is clamped and located at and described supports ring body Between 632 and the positioning ring 52；

Step 3: the lifting cylinder 53 lifts the guide cone 55 so that the guide cone 55 is moved to the positioning ring Ring body 632 is supported described in 52 top and disengaging, thus in the inside formation operation space of the positioning ring 52；And

Step 4: the zigzag tread patterns cylinder 75 drives the annular cutter 71 to overcome the pulling force of the multiple spring and move down To cut the side wall of the positioning mesh 201, the driving gear 72 drive it is described with the rotation of cyclization 711 so that described Annular grinding surface in cut ring 713 is ground the side wall of the positioning mesh 201, to implement ream operation.

It, then can be with by being ground the side wall of the positioning mesh 201 using the annular grinding surface in the cut ring 713 It realizes ream operation, while also improving the smoothness of positioning 201 side wall of mesh, then avoid the positioning mesh 201 fixed The inhalator jar can body is damaged when the inhalator jar can body of position.And the guide cone 55 moves up movement, so that institute Annular cutter 71 is stated with operating space, the grain bits for cutting formation also can fall to the installs case from the operating space In 51, convenient for the collection of grain bits, in case grain bits influence the precision of ream operation.

This specific embodiment is only explanation of the invention, is not limitation of the present invention, those skilled in the art Member can according to need the modification that not creative contribution is made to the present embodiment after reading this specification, but as long as at this All by the protection of Patent Law in the scope of the claims of invention.

Claims (10)

1. a kind of inhalator jar stamping top cover equipment, it is characterised in that: including mounting base, punch assembly and supply assembly, the peace Dress seat includes that bottom plate, pedestal and pad set body, and the pedestal and the pad set body and be set on the bottom plate spaced reciprocally, described Punch assembly includes installing arm, stamping cylinder and staking punch, and the installing arm is installed on the pedestal, the stamping cylinder peace Top loaded on the installing arm, the staking punch, which is installed on the stamping cylinder and is directed at the pad, sets body, the feed Component is installed on the bottom plate and clamps motherboard, so that the motherboard is positioned at the pad and sets on body, the staking punch is used for Motherboard described in punching press to fall round plate on the motherboard under the drive of the stamping cylinder, and the circle plate is used for The top cover of inhalator jar is formed, the motherboard forms positioning mesh plate after punching press, for positioning multiple inhalator jars.

2. inhalator jar stamping top cover equipment according to claim 1, it is characterised in that: the pedestal includes rectangular slab and circle Shape platform, the rectangular slab are installed on the bottom plate, and the circle platform is installed on the rectangular slab, the bottom end of the installing arm It is fixed on the round platform.

3. inhalator jar stamping top cover equipment according to claim 2, it is characterised in that: the installing arm include vertical rod with Crossbeam, the vertical rod are fixed on the round platform, and the end vertical of the crossbeam is set to the top of the vertical rod.

4. inhalator jar stamping top cover equipment according to claim 3, it is characterised in that: the stamping cylinder is installed on described End of the crossbeam far from the vertical rod is equipped with punching press main shaft on the stamping cylinder, and the staking punch is installed on the punching Press the bottom end of main shaft.

5. inhalator jar stamping top cover equipment according to claim 4, it is characterised in that: the bottom plate includes baseplate part, One folded plate, the second folded plate and support substrate, first folded plate and the support substrate, which are respectively perpendicular, is convexly equipped in the baseplate part Opposite sides, second folded plate is convexly equipped on the baseplate part, and is located at first folded plate portion and the support substrate Between.

6. inhalator jar stamping top cover equipment according to claim 5, it is characterised in that: the rectangular slab is installed on described On one folded plate, the pad sets body and is installed on second folded plate, and the supply assembly is installed in the support substrate, described It is formed with receiving space between first folded plate and second folded plate, is formed between second folded plate and the support substrate Temporarily providing room.

7. inhalator jar stamping top cover equipment according to claim 6, it is characterised in that: the supply assembly includes traversing rail Road, joint action table, driving crawler belt and actuator, the cross moving track is slidingly arranged at the top of the support substrate, described Dynamic platform is set to the one end of the cross moving track far from second folded plate, and the driving crawler belt is connect with the joint action table, institute It states actuator to be installed on the side wall of the support substrate, and for driving the driving crawler belt to rotate.

8. inhalator jar stamping top cover equipment according to claim 7, it is characterised in that: be provided with two in the support substrate The opposite end of a driving wheel, the driving crawler belt is sheathed on respectively on described two driving wheels, one of them described driving wheel It is connected on the actuator.

9. inhalator jar stamping top cover equipment according to claim 8, it is characterised in that: the supply assembly further includes pushing Cylinder and scraping wings, the pusher cylinder are installed on the cross moving track, and the scraping wings includes base item and pusher plate body, institute It states base item to be connected on the output shaft of the pusher cylinder, and is slidably supported on the cross moving track, the scraping wings is convex Set on the top edge of the base item, pusher gap is formed between the scraping wings and the cross moving track, the motherboard Edge is held in the pusher gap, and the moving direction of the relatively described support substrate of the cross moving track is first direction, institute The moving direction for stating the relatively described cross moving track of scraping wings is second direction, and the second direction is vertical with the first direction.

10. a kind of inhalator jar stamping top cover method using inhalator jar stamping top cover equipment as described in claim 1, feature It is, comprising the following steps:

The supply assembly clamps the motherboard and the motherboard is positioned at the pad and sets on body；

The stamping cylinder drives motherboard described in the staking punch punching press, so that round plate is fallen on the motherboard, the circle Shape plate is used to form the top cover of inhalator jar；

The supply assembly drives the motherboard transverse shifting with motherboard described in the utilization staking punch sequentially punching press, in described Multiple positioning mesh are formed on motherboard；And

The motherboard forms positioning mesh plate after punching press, to position multiple inhalator jars.