CN210172965U - Second-generation pump core detection assembling machine - Google Patents

Second-generation pump core detection assembling machine Download PDF

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Publication number
CN210172965U
CN210172965U CN201920499462.0U CN201920499462U CN210172965U CN 210172965 U CN210172965 U CN 210172965U CN 201920499462 U CN201920499462 U CN 201920499462U CN 210172965 U CN210172965 U CN 210172965U
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assembly
component
feeding
piston
pump core
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CN201920499462.0U
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邓云化
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Shenzhen Boehner Precision Administration System Ltd By Share Ltd
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Shenzhen Boehner Precision Administration System Ltd By Share Ltd
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Abstract

The utility model discloses a two take place ofs pump core detection kludge, it includes: the automatic detection device comprises a rotary station component, a piston rod feeding component, a collar piece feeding assembly component, a body feeding component, a spring feeding assembly component, a piston feeding assembly component, a size assembly component, a detection component and a PLC, wherein the piston rod feeding component, the collar piece feeding assembly component, the body feeding assembly component, the spring feeding assembly component, the piston feeding assembly component, the size assembly component, the detection component and the PLC are sequentially distributed on the outer edge; under the control of the PLC, the piston rod feeding assembly and the collar piece feeding assembly complete small assembly of the piston rod and the collar piece, the body feeding assembly, the spring feeding assembly and the piston feeding assembly complete large assembly of the body, the spring and the piston, and further under the execution of the large assembly and the small assembly, the large assembly and the small assembly are completed. The utility model discloses a two take place ofs pump core detection kludge, it adopts and rotates station subassembly and assembles each accessory of pump core subassembly, adopts PLC to control and detect whole assembly process, has not only improved production efficiency, and the cost is reduced has significantly reduced the manual work simultaneously and has participated in to off-the-shelf health safety has been guaranteed.

Description

Second-generation pump core detection assembling machine
Technical Field
The utility model belongs to the technical field of the pump core assembly device, especially, relate to an automatic two take the place ofs pump core detection kludge production lines.
Background
The existing medical spray head has high requirements on the safety and sanitation of products due to medical use. The existing production line generally adopts a mode of combining manpower and machinery for production, on one hand, the manual work is involved, the sanitation is difficult to guarantee, on the other hand, the non-automatic production efficiency is low, the product quality is unreliable, and the production cost is increased, for example, the pump core assembly.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to provide a two take place ofs pump core detects kludge, it has solved current production line inefficiency, and the manual work participates in too much technical problem.
In order to achieve the above purpose, the utility model provides a technical scheme does:
the utility model discloses a two take place ofs pump core detection kludge, it includes: the device comprises a rotary station component, a piston rod feeding component, a collar piece feeding assembly component, a body feeding component, a spring feeding assembly component, a piston feeding assembly component, a size assembly component, a detection component and a PLC, wherein the piston rod feeding component, the collar piece feeding assembly component, the body feeding assembly component, the spring feeding assembly component, the piston feeding assembly component, the size assembly component, the detection component and the PLC are sequentially distributed on the outer edge of the rotary; under the control of the PLC, the piston rod feeding assembly and the collar piece feeding assembly complete small assembly of the piston rod and the collar piece, the body feeding assembly, the spring feeding assembly and the piston feeding assembly complete large assembly of the body, the spring and the piston, and further under the execution of the large assembly and the small assembly, the large assembly is completed.
Wherein, rotatory station assembly includes: the device comprises a station support, a guide rail fixed on the station support, and a driving device for driving the tool stations to rotate along a track, wherein the guide rail is provided with a plurality of tool stations; wherein, the frock station includes: the slider is arranged in a tooling groove in the slider, the tooling groove comprises an inner side tooling groove group and an outer side tooling groove group, adjacent sliders are connected through a hinge, the inner side tooling groove group is used for realizing small assembly, the outer side tooling groove group is used for realizing large assembly, and the large assembly and the small assembly are assembled again under the action of the large assembly and the small assembly.
Wherein, piston rod material loading subassembly includes: the first vibrating charging barrel is communicated with a first material channel of the first vibrating charging barrel, a first discharging device is arranged at the tail end of the first material channel, and a transverse moving mechanism used for driving the first discharging device to move horizontally is arranged at the tail end of the first vibrating charging barrel, the transverse moving mechanism is controlled by a longitudinal moving mechanism, a piston rod is moved to the position above a corresponding tooling station of the rotary station assembly from the first discharging device under the combined action of the transverse moving mechanism and the longitudinal moving mechanism, and the piston rod is discharged to a corresponding tooling groove through the first discharging device.
Wherein, the collar piece material loading equipment subassembly includes: the second vibration feed cylinder is connected in the second material way of second vibration feed cylinder, the end that the second material was said is equipped with second drop feed mechanism to and be used for getting the second feeding agencies of material from the end of second material way, second feeding agencies includes: the second material taking claw transfers the taken collar piece to a corresponding tooling station above the rotary station component, and the collar piece is pressed on the piston rod.
Wherein, body material loading subassembly include: the third vibrating material cylinder, a third material channel connected with the third vibrating material cylinder, a third discharging mechanism arranged at the tail end of the third material channel, and a third material taking mechanism used for taking out the body and moving the body to a tooling station on the corresponding rotating station component; the third material taking mechanism comprises: and the second Z-axis lifting device is controlled by a second Y-axis moving device of the second Z-axis lifting device, a third material taking claw is arranged on the second Y-axis moving device, and the third material taking claw transfers the body taken out of the third material discharging mechanism into an outer side tool slot group on the rotary station assembly.
Wherein, spring material loading equipment subassembly includes: the spring feeding device comprises a fourth vibrating material cylinder, a first material pipe connected to the fourth vibrating material cylinder, wherein the tail end of the first material pipe is connected to a fixing plate, a fourth discharging mechanism connected to the outlet end of the first material pipe is further arranged on the fixing plate, the side portion of the fixing plate is connected to a longitudinal guide rail in a sliding mode, a driving motor is arranged on the longitudinal guide rail, the driving motor drives the fixing plate to ascend and descend along the longitudinal guide rail, and therefore springs are placed in the spring feeding device body one by one through the fourth discharging mechanism.
Wherein, piston material loading equipment subassembly includes: the fifth vibrating charging barrel is communicated with a fifth material channel of the fifth vibrating charging barrel, a fifth discharging device is arranged at the tail end of the fifth material channel, and a fifth material taking mechanism is used for taking materials from the fifth discharging device, and the fifth material taking mechanism comprises: the third Z-axis lifting device, the third Y-axis moving device controlled by the third Z-axis lifting device to vertically lift, and the fourth material taking claw connected to the third Y-axis moving device. After the piston is taken out by the fourth material taking claw, the piston is transferred into the body on the rotary station assembly under the action of the third Z-axis lifting device and the third Y-axis moving device, and the spring is pressed in the body.
Wherein, still be equipped with a piston after the piston material loading equipment subassembly and compress tightly the subassembly, the piston compresses tightly the subassembly and includes: the pressing cylinder is fixed on the supporting plate and drives the pressing heads to descend so as to press the piston into the body.
Wherein the size assembly comprises: the mounting panel, connect in guide rail on the mounting panel can be followed the clamping jaw that the guide rail level slided to and the lift cylinder of the vertical lift of drive clamping jaw, still be equipped with a sideslip cylinder on the mounting panel, sideslip cylinder drive clamping jaw slides along the guide rail level, so that the clamping jaw presss from both sides to transfer to big equipment after the small equipment, carries out final combination installation with the two.
Wherein, big or small equipment subassembly rear still is equipped with a finished product unloading subassembly, finished product unloading subassembly includes: the device comprises a support piece, an air cylinder fixed on the support piece, a chuck controlled by the air cylinder to lift longitudinally, and a horizontal air cylinder driving the air cylinder to move horizontally, wherein the chuck clamps a finished pump core, and the pump core is transferred and discharged from a rotary station assembly under the action of the air cylinder and the horizontal air cylinder.
Compared with the prior art, the utility model discloses a two take place ofs pump core detects kludge, it adopts and rotates the station subassembly and assembles each accessory of pump core, adopts PLC to control and detect whole assembling process, has not only improved production efficiency, and the cost is reduced has significantly reduced the manual work simultaneously and has participated in to off-the-shelf health safety has been guaranteed.
Drawings
Fig. 1 is a schematic structural diagram of a part of the rotary station assembly of the second-generation pump core detecting and assembling machine of the present invention.
Fig. 2 is a schematic structural diagram of a piston rod feeding assembly part of the second-generation pump core detecting and assembling machine of the present invention.
Fig. 3 is a schematic structural view of a collar piece feeding assembly part of the second-generation pump core detecting and assembling machine of the present invention.
Fig. 4 is a schematic structural diagram of a part of the body feeding assembly of the second-generation pump core detecting and assembling machine of the present invention.
Fig. 5 is a schematic structural view of a part of the spring loading assembly of the second-generation pump core detecting and assembling machine of the present invention.
Fig. 6 is a schematic structural diagram of a piston feeding assembly part of the second-generation pump core detecting and assembling machine of the present invention.
Fig. 7 is a schematic structural diagram of a piston pressing component part of the second-generation pump core detecting and assembling machine of the present invention.
Fig. 8 is a schematic structural diagram of a part of the large and small assembly components of the second-generation pump core detecting and assembling machine of the present invention.
Fig. 9 is a schematic structural view of a part of the finished product blanking assembly of the second-generation pump core detecting and assembling machine of the present invention.
Fig. 10 is a schematic structural diagram of a part of the detecting component of the second-generation pump core detecting and assembling machine of the present invention.
Fig. 11 is a schematic view of the assembly sequence of the second generation pump core detecting and assembling machine of the present invention.
Detailed Description
The invention will be further elucidated with reference to the drawing.
Referring to fig. 1 to 11, in the present embodiment, the second generation pump core detecting and assembling machine adopts a rotary assembling process, first, a small assembly 02 of the pump core is completed in an inner tooling groove of a rotary station assembly, then, a large assembly 01 of the pump core assembly is completed in an outer tooling groove, and finally, the large assembly and the small assembly are completed by the large assembly and the small assembly, wherein the small assembly 02 includes an assembly of a piston rod 10 and a collar 20, and the large assembly 01 includes an assembly of a body 30, a spring 40 and a piston 50.
Specifically, this take place ofs pump core detects kludge, it includes: the device comprises a rotary station component 100, a piston rod feeding component 200, a collar piece feeding assembly component 300, a body feeding component 400, a spring feeding assembly component 500, a piston feeding assembly component 600, a size assembly component 800, a detection component 010 and a PLC, wherein the piston rod feeding component 200, the collar piece feeding assembly component 300, the body feeding component 400, the spring feeding assembly component 500, the piston feeding assembly component 600, the size assembly component 800, the detection component 010 and the PLC are sequentially distributed; under the control of the PLC, the piston rod feeding assembly 200 and the collar piece feeding assembly 300 complete the small assembly of the piston rod 10 and the collar piece 20, the body feeding assembly 400, the spring feeding assembly 500 and the piston feeding assembly 600 complete the large assembly of the body 30, the spring 40 and the piston 50, and further complete the small assembly and the large assembly under the execution of the large and small assembly 800.
Referring again to fig. 1, the rotary station assembly 100 includes: the device comprises a station support 11, a guide rail fixed on the station support, a plurality of tool stations 12 and a driving device for driving the tool stations 12 to rotate along a track, wherein the guide rail is an annular horizontal guide rail, and the driving device comprises a servo motor and the like; wherein, frock station 12 includes: the slider 121 is arranged in a tooling groove 122 on the slider 121, the tooling groove 122 comprises an inner tooling groove group 1222 and an outer tooling groove group 1221, adjacent sliders 121 are hinged, the inner tooling groove group is used for realizing small assembly, the outer tooling groove group is used for realizing large assembly, and the large assembly 02 and the small assembly 01 are reassembled under the action of the large assembly 800 and the small assembly 01.
Referring again to fig. 2, the piston rod loading assembly 200 includes: the piston rod 10 is moved from the first discharging device 23 to the upper part of the corresponding tooling station of the rotary station assembly 100 under the combined action of the transverse moving mechanism 242 and the longitudinal moving mechanism 241, and the piston rod 10 is discharged to the corresponding tooling groove by the first discharging device 23. The traversing mechanism 242 and the longitudinally moving mechanism 241 together form the two-dimensional moving mechanism 24, but in other embodiments, for example, an X-axis moving mechanism may be added according to the size of the rotary station assembly 100 and the surrounding environment space, so as to realize three-dimensional movement of the piston rod.
Referring again to fig. 3, the tab loading assembly 300 includes: a second vibrating material cylinder 31, a second material channel 32 connected to the second vibrating material cylinder 31, a second discharging mechanism 33 provided at the end of the second material channel 32, and a second material taking mechanism 34 for taking material from the end of the second material channel 32, wherein the second material taking mechanism 34 comprises: the first Z-axis lifting device 341, the first Y-axis moving device 342 controlled by the first Z-axis lifting device 341, and the second material-taking claw 35 connected to the first Y-axis moving device 342, the second material-taking claw 35 transfers the taken collar piece 20 to a corresponding tooling station above the rotary station assembly 100, and presses the collar piece 20 onto the piston rod 10.
Referring again to fig. 4, the body loading assembly 400 includes: the third vibrating material cylinder 41, a third material channel 42 connected to the third vibrating material cylinder 41, a third discharging mechanism 43 arranged at the end of the third material channel 42, and a third material taking mechanism 44 for taking out the body 30 and moving the body to a tooling station on the corresponding rotary station assembly 100; the third material taking mechanism 44 includes: and the second Z-axis lifting device 441 is controlled by a second Y-axis moving device 442 of the second Z-axis lifting device 441, a third material taking claw 45 is arranged on the second Y-axis moving device 442, and the third material taking claw 45 transfers the body 30 taken out from the third material placing mechanism 43 to an outer tooling slot group on the rotary station assembly 100, so as to wait for subsequent other assemblies to complete large assembly.
Referring again to fig. 5, the spring loading assembly 500 includes: the spring loading device comprises a fourth vibrating material cylinder 51 and a first material pipe 52 connected to the fourth vibrating material cylinder 51, wherein the tail end of the first material pipe 52 is connected to a fixing plate 55, a fourth discharging mechanism 56 connected to the outlet end of the first material pipe 52 is further arranged on the fixing plate 55, the side part of the fixing plate 55 is connected to a longitudinal guide rail 54 in a sliding mode, a driving motor 53 is arranged on the longitudinal guide rail 54, the driving motor 53 drives the fixing plate 55 to ascend and descend along the longitudinal guide rail 54, and therefore springs are placed in the body 30 one by one through the fourth discharging mechanism 56.
Referring again to fig. 6, the piston charging assembly 600 includes: the fifth vibrating material cylinder 61 is communicated with a fifth material channel 62 of the fifth vibrating material cylinder 61, a fifth discharging device 63 is arranged at the tail end of the fifth material channel 62, and a fifth material taking mechanism 64 for taking materials from the fifth discharging device 63 is arranged, wherein the fifth material taking mechanism 64 comprises: a third Z-axis lifting device 641, a third Y-axis moving device 642 controlled by the third Z-axis lifting device 641 to vertically lift, and a fourth material-taking claw 65 connected to the third Y-axis moving device 642. After the piston 40 is taken out by the fourth pickup claw 65, the piston 40 is transferred into the body 30 already positioned on the rotary station assembly 100 by the third Z-axis lifting device 641 and the third Y-axis moving device 642, and the spring 40 is press-fitted into the body.
Referring to fig. 7 again, a piston pressing assembly 700 is further disposed behind the piston feeding assembly 600, and the piston pressing assembly 700 includes: the pressing device comprises a supporting plate 71 and a pressing cylinder 72 fixed on the supporting plate 71, wherein the pressing cylinder 72 drives a plurality of pressing heads 73, and the pressing cylinder 72 drives the pressing heads 73 to descend so as to press the piston 40 into the body 30.
Referring again to fig. 8, the size assembly 800 includes: the mounting plate 71, a guide rail 82 connected to the mounting plate 81, a clamping jaw 83 capable of sliding horizontally along the guide rail 82, and a lifting cylinder 84 for driving the clamping jaw 83 to lift vertically, wherein a traverse cylinder 85 is further arranged on the mounting plate 81, and the traverse cylinder 85 drives the clamping jaw 83 to slide horizontally along the guide rail 82, so that the clamping jaw 83 clamps small groups and then transfers the small groups to large groups, and the small groups and the large groups are finally combined and mounted.
Referring to fig. 9 again, a finished product blanking assembly 900 is further disposed behind the large and small assembly 800, and the finished product blanking assembly 900 includes: the device comprises a support 91, an air cylinder 92 fixed on the support 91, a chuck 94 controlled by the longitudinal lifting of the air cylinder 92, and a horizontal air cylinder 93 driving the air cylinder 92 to move horizontally, wherein the chuck 94 clamps the finished pump core, and the pump core is transferred and discharged from a rotary station assembly under the action of the air cylinder 92 and the horizontal air cylinder 93 to be sent to a storage bin 96 or sent to a detection assembly and other assemblies by a conveyor belt to be assembled with other components again.
Referring again to fig. 10, the pump core detection assembly 010 includes: a support plate 01, an air cylinder 02 fixed on the support plate 01, a plurality of air nozzles 03 driven by the air cylinder 02 to lift, and a compressor (not shown in the figure) for supplying air to the air nozzles 03; the air cylinder 02 drives the air nozzle to descend to tightly press the pump core on the assembling station, and the pump core is inflated and kept for a set time to detect whether the pump core is qualified or not. Wherein, still be equipped with the display screen 04 that is used for showing the pressure value of current detection pump core on above-mentioned backup pad 01. If the detection is unqualified, an alarm is given or the unqualified material is taken out by the material taking mechanism.
It should be noted that: the first emptying device 23, the second emptying device 33, the third emptying device 43, the fourth emptying device 53 and the fifth emptying device 63 all comprise baffles, slotted holes corresponding to the shapes of corresponding components and air cylinders or motors driving the baffles to move are arranged on the baffles, the components which are queued from the material channel and enter the slotted holes of the baffles can only enter according to the number of the slotted holes, other subsequent components in the queue are blocked on the material channel, the baffles are controlled to move, and other parts of the baffles continue to block the discharge holes of the material channel, so that the technical process of emptying one by one is realized. In addition, the piston rod feeding assembly 200, the collar piece feeding assembly 300, the body feeding assembly 400, the spring feeding assembly 500 and the piston feeding assembly 600 are further provided with detection devices, such as infrared probes, for detecting whether each station is accurately fed, and the detection devices are in communication connection with the PLC, so as to realize accurate control of information feedback.
The assembly process of the second generation pump core detection assembling machine of the embodiment is as follows: firstly, the piston rod feeding assembly 200 and the collar feeding assembly 300 complete the small assembly of the piston rod and the collar on the inner side tooling groove group 1221 of the rotary station assembly 100 together. Then or synchronously with other stations by: the body feeding assembly 400, the spring feeding assembly 500 and the piston feeding assembly 600 are assembled on the outer tool groove group 1222 of the rotary station assembly in a large assembly manner; finally, under the action of the swordsman assembly component 800, the small assembly 01 is taken out and assembled on the large assembly 02, and finally the assembly of the second-generation pump core is realized.
The second generation pump core of this embodiment detects kludge, its equipment that adopts the rotation station subassembly to concentrate the material loading equipment with the equipment preface of pump core to adopt PLC to control and detect whole assembly process, not only improved production efficiency, the cost is reduced, the manual work that has significantly reduced simultaneously participates in, thereby has guaranteed off-the-shelf health safety.
The above description is only for the preferred embodiment of the present invention, and is not intended to limit the embodiments of the present invention, and those skilled in the art can easily make various changes and modifications according to the main concept and spirit of the present invention, so that the protection scope of the present invention shall be subject to the protection scope claimed in the claims.

Claims (10)

1. The utility model provides a take the place ofs pump core and detect kludge which characterized in that includes: the device comprises a rotary station component, a piston rod feeding component, a collar piece feeding assembly component, a body feeding component, a spring feeding assembly component, a piston feeding assembly component, a size assembly component, a detection component and a PLC, wherein the piston rod feeding component, the collar piece feeding assembly component, the body feeding assembly component, the spring feeding assembly component, the piston feeding assembly component, the size assembly component, the detection component and the PLC are sequentially distributed on the outer edge of the rotary; under the control of the PLC, the piston rod feeding assembly and the collar piece feeding assembly complete small assembly of the piston rod and the collar piece, the body feeding assembly, the spring feeding assembly and the piston feeding assembly complete large assembly of the body, the spring and the piston, further, under the execution of the large assembly and the small assembly, the large assembly and the small assembly are completed, and the pump core is detected under the action of the detection assembly.
2. The second-generation pump core detection assembling machine according to claim 1, wherein the rotary station assembly comprises: the device comprises a station support, a guide rail fixed on the station support, and a driving device for driving the tool stations to rotate along a track, wherein the guide rail is provided with a plurality of tool stations; wherein, the frock station includes: the slider is arranged in a tooling groove in the slider, the tooling groove comprises an inner side tooling groove group and an outer side tooling groove group, adjacent sliders are connected through a hinge, the inner side tooling groove group is used for realizing small assembly, the outer side tooling groove group is used for realizing large assembly, and the large assembly and the small assembly are assembled again under the action of the large assembly and the small assembly.
3. The second generation pump core detecting and assembling machine according to claim 2, wherein the piston rod feeding assembly comprises: the first vibrating charging barrel is communicated with a first material channel of the first vibrating charging barrel, a first discharging device is arranged at the tail end of the first material channel, and a transverse moving mechanism used for driving the first discharging device to move horizontally is arranged at the tail end of the first vibrating charging barrel, the transverse moving mechanism is controlled by a longitudinal moving mechanism, a piston rod is moved to the position above a corresponding tooling station of the rotary station assembly from the first discharging device under the combined action of the transverse moving mechanism and the longitudinal moving mechanism, and the piston rod is discharged to a corresponding tooling groove through the first discharging device.
4. The second-generation pump core detecting and assembling machine according to claim 2, wherein the collar piece feeding and assembling component comprises: the second vibration feed cylinder is connected in the second material way of second vibration feed cylinder, the end that the second material was said is equipped with second drop feed mechanism to and be used for getting the second feeding agencies of material from the end of second material way, second feeding agencies includes: the second material taking claw transfers the taken collar piece to a corresponding tooling station above the rotary station component, and the collar piece is pressed on the piston rod.
5. The second generation pump core detecting and assembling machine according to claim 2, wherein the body feeding assembly comprises: the third vibrating material cylinder, a third material channel connected with the third vibrating material cylinder, a third discharging mechanism arranged at the tail end of the third material channel, and a third material taking mechanism used for taking out the body and moving the body to a tooling station on the corresponding rotating station component; the third material taking mechanism comprises: and the second Z-axis lifting device is controlled by a second Y-axis moving device of the second Z-axis lifting device, a third material taking claw is arranged on the second Y-axis moving device, and the third material taking claw transfers the body taken out of the third material discharging mechanism into an outer side tool slot group on the rotary station assembly.
6. The second-generation pump core detecting and assembling machine according to claim 5, wherein the spring feeding and assembling component comprises: the spring feeding device comprises a fourth vibrating material cylinder, a first material pipe connected to the fourth vibrating material cylinder, wherein the tail end of the first material pipe is connected to a fixing plate, a fourth discharging mechanism connected to the outlet end of the first material pipe is further arranged on the fixing plate, the side portion of the fixing plate is connected to a longitudinal guide rail in a sliding mode, a driving motor is arranged on the longitudinal guide rail, the driving motor drives the fixing plate to ascend and descend along the longitudinal guide rail, and therefore springs are placed in the spring feeding device body one by one through the fourth discharging mechanism.
7. The second-generation pump core detection assembling machine according to claim 6, wherein the piston loading assembling component comprises: the fifth vibrating charging barrel is communicated with a fifth material channel of the fifth vibrating charging barrel, a fifth discharging device is arranged at the tail end of the fifth material channel, and a fifth material taking mechanism is used for taking materials from the fifth discharging device, and the fifth material taking mechanism comprises: the third Z-axis lifting device, the third Y-axis moving device controlled by the third Z-axis lifting device to vertically lift, and the fourth material taking claw connected to the third Y-axis moving device, after the fourth material taking claw takes out the piston, the piston is transferred into the body on the rotary station assembly under the action of the third Z-axis lifting device and the third Y-axis moving device, and the spring is pressed in the body.
8. The second generation pump core detecting and assembling machine according to claim 7, wherein a piston compressing assembly is further provided behind the piston feeding and assembling assembly, and the piston compressing assembly comprises: the pressing cylinder is fixed on the supporting plate and drives the pressing heads to descend so as to press the piston into the body.
9. The second generation pump core testing and assembling machine of claim 2, wherein the size assembling component comprises: the mounting panel, connect in guide rail on the mounting panel can be followed the clamping jaw that the guide rail level slided to and the lift cylinder of the vertical lift of drive clamping jaw, still be equipped with a sideslip cylinder on the mounting panel, sideslip cylinder drive clamping jaw slides along the guide rail level, so that the clamping jaw presss from both sides to transfer to big equipment after the small equipment, carries out final combination installation with the two.
10. The second generation pump core detecting and assembling machine according to claim 9, wherein a finished product blanking assembly is further provided behind the large and small assembling assemblies, and the finished product blanking assembly comprises: the device comprises a support piece, an air cylinder fixed on the support piece, a chuck controlled by the air cylinder to lift longitudinally, and a horizontal air cylinder driving the air cylinder to move horizontally, wherein the chuck clamps a finished pump core, and the pump core is transferred and discharged from a rotary station assembly under the action of the air cylinder and the horizontal air cylinder.
CN201920499462.0U 2019-04-12 2019-04-12 Second-generation pump core detection assembling machine Active CN210172965U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201920499462.0U CN210172965U (en) 2019-04-12 2019-04-12 Second-generation pump core detection assembling machine

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201920499462.0U CN210172965U (en) 2019-04-12 2019-04-12 Second-generation pump core detection assembling machine

Publications (1)

Publication Number Publication Date
CN210172965U true CN210172965U (en) 2020-03-24

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Application Number Title Priority Date Filing Date
CN201920499462.0U Active CN210172965U (en) 2019-04-12 2019-04-12 Second-generation pump core detection assembling machine

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Country Link
CN (1) CN210172965U (en)

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