CN111822239A - Shaft sleeve feeding and assembling device and method for sensor production - Google Patents

Shaft sleeve feeding and assembling device and method for sensor production Download PDF

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Publication number
CN111822239A
CN111822239A CN202010591010.2A CN202010591010A CN111822239A CN 111822239 A CN111822239 A CN 111822239A CN 202010591010 A CN202010591010 A CN 202010591010A CN 111822239 A CN111822239 A CN 111822239A
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China
Prior art keywords
shaft sleeve
feeding
gluing
bearing
rotating
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CN202010591010.2A
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Chinese (zh)
Inventor
林勤鑫
张双河
张喜荣
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Individual
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Individual
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Priority to CN202010591010.2A priority Critical patent/CN111822239A/en
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B05SPRAYING OR ATOMISING IN GENERAL; APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL
    • B05CAPPARATUS FOR APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL
    • B05C5/00Apparatus in which liquid or other fluent material is projected, poured or allowed to flow on to the surface of the work
    • B05C5/02Apparatus in which liquid or other fluent material is projected, poured or allowed to flow on to the surface of the work the liquid or other fluent material being discharged through an outlet orifice by pressure, e.g. from an outlet device in contact or almost in contact, with the work
    • B05C5/0208Apparatus in which liquid or other fluent material is projected, poured or allowed to flow on to the surface of the work the liquid or other fluent material being discharged through an outlet orifice by pressure, e.g. from an outlet device in contact or almost in contact, with the work for applying liquid or other fluent material to separate articles
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B05SPRAYING OR ATOMISING IN GENERAL; APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL
    • B05CAPPARATUS FOR APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL
    • B05C13/00Means for manipulating or holding work, e.g. for separate articles
    • B05C13/02Means for manipulating or holding work, e.g. for separate articles for particular articles
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F16ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
    • F16BDEVICES FOR FASTENING OR SECURING CONSTRUCTIONAL ELEMENTS OR MACHINE PARTS TOGETHER, e.g. NAILS, BOLTS, CIRCLIPS, CLAMPS, CLIPS OR WEDGES; JOINTS OR JOINTING
    • F16B11/00Connecting constructional elements or machine parts by sticking or pressing them together, e.g. cold pressure welding
    • F16B11/006Connecting constructional elements or machine parts by sticking or pressing them together, e.g. cold pressure welding by gluing

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  • Engineering & Computer Science (AREA)
  • General Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Mounting Of Bearings Or Others (AREA)

Abstract

The invention belongs to the technical field of automatic production of sensors. A shaft sleeve feeding and assembling device for sensor production comprises a shaft sleeve feeding vibrator, a shaft sleeve connecting assembly, a shaft sleeve gluing assembly, a shaft sleeve pushing assembly and a shaft sleeve transferring and assembling assembly; axle sleeve feeding vibrator fore-and-aft direction sets up in the frame, axle sleeve linking subassembly links up with the discharge end of axle sleeve feeding vibrator, the axle sleeve links up the subassembly and is used for supporting the axle sleeve and drives the axle sleeve rotation, axle sleeve rubber coating subassembly sets up in axle sleeve feeding vibrator one side, axle sleeve rubber coating subassembly is used for carrying out the rubber coating to the axle sleeve inner circle, axle sleeve propelling movement subassembly is used for releasing the axle sleeve that the rubber coating is good, the axle sleeve shifts the equipment subassembly and is used for shifting the axle sleeve and assemble. The advantage of this patent is the packaging efficiency and the equipment quality of promotion axle sleeve and pivot, promotes the whole equipment quality of sensor.

Description

Shaft sleeve feeding and assembling device and method for sensor production
Technical Field
The invention belongs to the technical field of automatic production of sensors, and particularly relates to a shaft sleeve feeding and assembling device and method for sensor production.
Background
A sensor is a device that compiles, converts, or otherwise converts signals or data into a form of signals that can be communicated, transmitted, and stored. The sensor comprises a sensor shell, two bearings positioned in the upper end and the lower end of the sensor shell, a rotating shaft penetrating through the two bearings and a shaft sleeve sleeved on the rotating shaft, in the production process, the sensor shell is conveyed and fed firstly, the front inner ring of the sensor shell is coated with glue, simultaneously, the bearings on the front side are conveyed and fed, the bearings on the front side are assembled to the sensor shell, then the rotating shaft is conveyed and fed, the rotating shaft is inserted into the bearings, the sensor shell is rotated 180 degrees to turn over after the assembly on the front side is finished, glue is coated on the inner ring on the back side of the sensor shell after the turning over, the bearings on the back side are conveyed and fed and sleeved on the rotating shaft, and then the bearings are assembled on the inner ring on the back side of the sensor shell, then the shaft sleeve is conveyed and fed, the inner ring of the shaft sleeve is coated with glue, finally the shaft sleeve is sleeved on the rotating shaft to finish production, and the subsequent rotating shaft is connected with other components through the shaft sleeve.
The existing equipment has the following problems in the automatic production process of the sensor: in the feeding process of the sensor shell, the condition that a plurality of sensor shells are stacked and conveyed often occurs, so that the sensor shells for conveying and feeding are too high, the sensor shells positioned above the sensor shells fall down and are damaged, and the sensor shells cannot be produced; in the process of gluing the inner ring of the sensor shell, the existing equipment is that a gluing device is arranged above a conveying track, when the sensor shell is conveyed to a gluing position, gluing is carried out through the gluing device, the sensor shell cannot be well positioned in the gluing mode, the sensor shell is easy to move in the gluing process, the gluing position is not accurate, the inner ring of the sensor shell is easy to glue uniformly, and the gluing quality is influenced; in the feeding and assembling process of the bearing and the rotating shaft, the two parts are separated in the conventional equipment, the bearing is assembled firstly, and then the rotating shaft is installed in the bearing, so that the production efficiency is influenced by the separation, and when the bearing is assembled to the inner ring of the sensor shell, the rotating shaft is inserted into the sensor shell to easily influence the position of the bearing in the sensor shell, so that the assembling precision is influenced, and the assembling quality is greatly reduced; (IV) in pivot feeding process, mostly all cooperate with the manipulator through pivot vibrations dish, shift the pivot to the bearing top, insert the pivot to the bearing in through the manipulator, not only occupation equipment space is in the production process like this to only influence positioning accuracy through manipulator control also be convenient for not being convenient for simultaneously with the good equipment of pivot to the bearing in, influence the equipment quality between them.
Especially in axle sleeve feeding assembling process, present equipment is direct to place the axle sleeve and carry out the rubber coating in the mould, makes the axle sleeve outer lane rub with the mould when rotatory easily like this, makes the axle sleeve outer lane have many places mar to influence the axle sleeve pleasing to the eye to at the rotatory rubber coating in-process of axle sleeve, make the axle sleeve cause the card pause easily, influence rubber coating degree of consistency, thereby finally influence the connection effect of axle sleeve and pivot, influence whole product quality.
Disclosure of Invention
The invention aims to solve the problem of poor shaft sleeve assembling quality of the existing sensor, and provides a shaft sleeve feeding and assembling device for sensor production, which is convenient for better connecting a shaft sleeve through a shaft sleeve connecting assembly, improves the rotating efficiency of the shaft sleeve, is convenient for further limiting the shaft sleeve through a circular groove, and prevents the shaft sleeve from deviating in the rotating process; the smoothness of rotation is further improved through the retainer ring and the retainer ring bearing; the gluing quality is further improved conveniently through the shaft sleeve gluing assembly; the shaft sleeve is convenient to further push out through the shaft sleeve pushing assembly; the assembly quality is further improved by transferring the assembly components through the shaft sleeves.
For the purpose of the invention, the following technical scheme is adopted: a shaft sleeve feeding and assembling device for sensor production comprises a shaft sleeve feeding vibrator, a shaft sleeve connecting assembly, a shaft sleeve gluing assembly, a shaft sleeve pushing assembly and a shaft sleeve transferring and assembling assembly; the shaft sleeve feeding vibrator is arranged on the rack in the front-back direction, the shaft sleeve connecting assembly is connected with the discharge end of the shaft sleeve feeding vibrator, the shaft sleeve connecting assembly is used for supporting a shaft sleeve and driving the shaft sleeve to rotate, and the shaft sleeve connecting assembly comprises a shaft sleeve connecting support, a shaft sleeve rotating motor and a shaft sleeve rotating rod; the top of the shaft sleeve connecting support is provided with a first connecting front-back channel, a connecting horizontal channel and a second connecting front-back channel; the connecting horizontal channel is positioned between the first connecting front-back channel and the second connecting front-back channel and is communicated with the first connecting front-back channel and the second connecting front-back channel; the shaft sleeve rotating motor is arranged on the frame and located below the bearing rotating hole, the shaft sleeve rotating lifting cylinder is arranged at the lower part of the shaft sleeve rotating motor, and the shaft sleeve rotating lifting cylinder drives the shaft sleeve rotating motor to move up and down for positioning; the shaft sleeve rotating rod is connected with a rotating shaft of a shaft sleeve rotating motor, and penetrates through the bearing rotating hole to be positioned in the shaft sleeve; the shaft sleeve gluing assembly is arranged on one side of the shaft sleeve feeding vibrator, the shaft sleeve gluing assembly is used for gluing an inner ring of a shaft sleeve, the shaft sleeve pushing assembly is used for pushing out the glued shaft sleeve, and the shaft sleeve transferring and assembling assembly is used for transferring and assembling the shaft sleeve.
Preferably, the right side of the bearing rotating hole on the horizontal connecting channel is provided with an inclined groove.
Preferably, the shaft sleeve gluing assembly comprises a shaft sleeve gluing support, a shaft sleeve gluing cylinder, a shaft sleeve gluing moving frame and a shaft sleeve gluing machine; the axle sleeve rubber coating support is located axle sleeve linking subassembly one side, and axle sleeve rubber coating support slope sets up, and axle sleeve rubber coating cylinder sets up the rear end at axle sleeve rubber coating support, and the removal portion of axle sleeve rubber coating cylinder passes axle sleeve rubber coating support rear end and axle sleeve rubber coating and removes the frame and be connected, and axle sleeve rubber coating removes the frame and passes through axle sleeve rubber coating and remove the slide rail setting on axle sleeve rubber coating support, and axle sleeve spreading machine slope sets up on axle sleeve rubber coating removes the frame.
Preferably, the shaft sleeve pushing assembly comprises a shaft sleeve pushing support, a shaft sleeve pushing cylinder and a shaft sleeve pushing rod; the axle sleeve propelling movement support is located axle sleeve linking support left side, and axle sleeve propelling movement cylinder sets up on axle sleeve propelling movement support, and axle sleeve propelling movement pole level sets up the removal portion at axle sleeve propelling movement cylinder, and the axle sleeve propelling movement pole is located links up horizontal passageway.
Preferably, the shaft sleeve transferring and assembling assembly is arranged in the front-back direction, and the shaft sleeve transferring and assembling assembly clamps and transfers the shaft sleeve in a manipulator transferring mode and assembles the shaft sleeve to a rotating shaft in the sensor shell through a shaft sleeve assembling cylinder.
A shaft sleeve assembling method for sensor production uses the shaft sleeve feeding and assembling device; the shaft sleeve is conveyed to the junction of the first linking front-back channel and the linking horizontal channel through the shaft sleeve feeding vibrator, the shaft sleeve rotating motor is driven to ascend through the shaft sleeve rotating and lifting cylinder, the shaft sleeve rotating rod penetrates through the bearing rotating hole to be inserted into the shaft sleeve, and the shaft sleeve rotating rod is driven to rotate through the shaft sleeve rotating motor, so that the shaft sleeve rotates, the rotating resistance is reduced through the matching of the shaft sleeve and the check ring, and the smoothness and the uniformity of the shaft sleeve in the gluing process are improved; drive the axle sleeve spreading machine on the axle sleeve rubber coating removal frame through axle sleeve rubber coating cylinder and remove to the axle sleeve inner circle and carry out the rubber coating, after the rubber coating, drive axle sleeve propelling movement pole through axle sleeve propelling movement cylinder and promote the axle sleeve after the rubber coating to linking up horizontal passage and second linking front and back passageway juncture, shift the equipment subassembly through the axle sleeve and shift the axle sleeve and assemble to the pivot in the sensor housing in, discharging device shifts the ejection of compact with sensor equipment finished product through the manipulator.
The utility model provides a sensor automated production equipment, this equipment includes frame and the sensor shell feed arrangement, first horizontal transport transfer device, shell rubber coating device, bearing and pivot feeding assembly device, turning device, second horizontal transport transfer device, shell reverse side rubber coating device, bearing feeding assembly device, discharging device and foretell axle sleeve feeding assembly device on it.
Preferably, the bearing and rotating shaft feeding and assembling device comprises a bearing and rotating shaft feeding support, a bearing feeding and conveying assembly, a rotating shaft feeding assembly, a bearing and rotating shaft press-fitting assembly, a bearing and rotating shaft transferring assembly and a bearing and rotating shaft assembly assembling assembly.
Adopt above-mentioned technical scheme's a axle sleeve feeding assembly device for sensor production, the device has solved and has made the axle sleeve outer lane rub with the mould when rotatory easily, makes the axle sleeve outer lane have many places mar to influence the axle sleeve pleasing to the eye to make the axle sleeve cause the card pause easily, influence the problem of rubber coated degree of consistency. The bearing rotating hole is convenient for driving the connecting horizontal channel and the shaft sleeve on the first connecting front channel and the first connecting rear channel to rotate and drive; the shaft sleeve is conveniently pushed out to the right side through the inclined groove, the shaft sleeve is prevented from being clamped on the connecting horizontal channel, and the moving smoothness is improved; the retainer ring is convenient to limit through the circular groove; the smoothness of the shaft sleeve in the rotating process is convenient to lift through the retainer ring bearing, and the shaft sleeve is prevented from being rubbed and blocked with the outer side in the rotating process; the front channel and the rear channel are connected through the second connecting channel, so that better grabbing is facilitated, the comprehensiveness and firmness of grabbing are improved, and falling in the transferring process is prevented; the axle sleeve rubber coating cylinder drives the axle sleeve rubber coating and removes the frame and move the location, further promotes and removes the precision, sets up through axle sleeve spreading machine slope and is convenient for scribble the glue to sensor housing inner circle, promotes whole rubber coated degree of consistency and rubber coating quality.
This equipment has still solved the condition that often can appear a plurality of piles up of sensor housing and carry through sensor housing feed arrangement, leads to the sensor housing who is located the top to drop and damage and can't carry out the production after, mostly all shifts the transport with individual sensor housing through the manipulator, influences the problem that sensor housing carried feeding efficiency. The conveyed sensor shells are prevented from being stacked through the shell feeding stop lever, if a plurality of sensor shells are stacked and conveyed, the stacked sensor shells above the sensor shells are conveniently stopped through the shell feeding stop lever, so that a single sensor shell passes through the sensor shells, and the conveying quality is improved; each sensor shell transfer groove is matched with the shape of one sensor shell, so that one-by-one conveying is facilitated, a certain conveying distance is kept between the two sensor shells, the distance and the smoothness of the whole conveying are improved, and blockage during conveying is prevented; the sensor shell is convenient to further match with the shell rotating transfer disc through the first limiting frame and the second limiting frame, and the sensor shell is prevented from sliding out and falling in conveying.
The problem that the existing gluing mode cannot well locate the sensor shell is solved through the shell gluing device, and the sensor shell is easy to move in the gluing process, so that the gluing position is inaccurate is solved. The first gluing transfer cylinder and the second gluing transfer cylinder are convenient for lifting the sensor shell to perform lifting positioning precision. The sensor shell is convenient to grab through the first transfer clamping jaw and the second transfer clamping jaw, and the stability and firmness in the transfer process are improved; the sensor shell is driven to rotate in the gluing process, so that the way of rotary gluing through the gluing device is changed, and the gluing stability and the gluing quality are further improved; the sensor shell inner ring is convenient to glue through the inclined arrangement of the shell glue spreader, and the uniformity and the gluing quality of the whole gluing are improved.
Through bearing and pivot feeding assembly device solved current equipment and separately gone on two, assemble the bearing earlier and pack into the pivot to the bearing again, influence production efficiency's problem through separately like this. The problem that the rotating shaft is inserted into the bearing through the mechanical arm is solved through the rotating shaft feeding assembly, so that the equipment space is occupied in the production process, the positioning precision is influenced only through the control of the mechanical arm, and meanwhile, the good assembly of the rotating shaft into the bearing is also not convenient, and the assembly quality of the rotating shaft and the bearing is influenced. Through vertical bar through-hole and horizontal bar through-hole be convenient for make the pivot insert, make the pivot insert the assigned position in the bearing, be convenient for carry out the equipment of pivot when the bearing is carried, promote the packaging efficiency of pivot and bearing, solved the current condition of separately assembling with both in the assembling process, great promotion the equipment speed. The rotating shaft feeding rotating plate is limited through the rotating shaft feeding rotating plate groove, and the rotating shaft is prevented from falling in the rotating process. The rotating shaft feeding rotating plate is provided with a linear groove, and the linear groove is aligned with the horizontal conveying groove when in a horizontal state, so that the rotating shaft is conveyed into the linear groove through the horizontal conveying groove. Align when vertical state through pivot pipe and straight line groove, drive pivot feeding rotor plate through pivot feeding revolving cylinder and rotate 90, change the straight line groove into vertical form by the level form, be convenient for upwards ejecting with the pivot in the straight line groove, promote the smoothness nature among the transportation process, do not carry out angle modulation with other rotary device, further promote the conveying efficiency of pivot.
To sum up, the advantage of this patent is the packaging efficiency and the equipment quality of promotion axle sleeve and pivot, promotes the whole equipment quality of sensor.
Drawings
FIG. 1 is a schematic structural diagram of an automated sensor manufacturing apparatus according to the present invention.
Fig. 2 is a schematic structural diagram of the sensor of the present invention.
Fig. 3 is an exploded view of the structure of the sensor of the present invention.
Fig. 4 is a schematic structural diagram of a sensor housing feeding device of the present invention.
Fig. 5 is a schematic structural view of the first horizontal transfer device of the present invention.
Fig. 6 is a schematic structural diagram of the housing gluing device of the invention.
Fig. 7 is a schematic structural diagram of the bearing and rotating shaft feeding assembly device of the present invention.
FIG. 8 is a schematic view of the construction of the bearing and shaft feed support and bearing feed conveyor assembly of the present invention.
FIG. 9 is a schematic view of a spindle feed assembly according to the present invention.
Fig. 10 is a schematic structural view of the turning device of the present invention.
Fig. 11 is a schematic structural view of the reverse side gluing device for the shell of the invention.
Fig. 12 is a schematic structural view of the bearing feeding assembly device of the present invention.
Fig. 13 is a schematic structural view of the shaft sleeve feeding and assembling device of the present invention.
Fig. 14 is a schematic structural view of a bushing glue applying assembly and a bushing transfer assembling assembly according to the present invention.
Detailed Description
The following describes a detailed embodiment of the present invention with reference to the accompanying drawings.
As shown in fig. 1, an automatic sensor production apparatus includes a frame, and a sensor housing feeding device 1, a first horizontal conveying and transferring device 2, a housing gluing device 3, a bearing and rotating shaft feeding and assembling device 4, a turnover device 5, a second horizontal conveying and transferring device 6, a housing reverse gluing device 7, a bearing feeding and assembling device 8, a shaft sleeve feeding and assembling device 9 and a discharging device on the frame; the sensor shell feeding device 1, the shell gluing device 3, the bearing and rotating shaft feeding and assembling device 4, the overturning device 5, the shell reverse gluing device 7, the bearing feeding and assembling device 8, the shaft sleeve feeding and assembling device 9 and the discharging device are sequentially arranged along the feeding direction and the discharging direction; the sensor shell feeding device 1 is used for conveying the sensor shells to the first horizontal conveying and transferring device 2, and the first horizontal conveying and transferring device 2 is used for carrying out horizontal conveying; the shell gluing device 3 is used for gluing the inner ring of the shell of the sensor; the bearing and rotating shaft feeding and assembling device 4 is used for inserting the rotating shaft into the bearing and installing the bearing and the rotating shaft into the sensor shell; the overturning device 5 is used for overturning the assembly of the sensor shell, the bearing and the rotating shaft by 180 degrees, and the second horizontal conveying and transferring device 6 is used for horizontally conveying the overturned assembly of the sensor shell, the bearing and the rotating shaft; the shell reverse side gluing device 7 is used for gluing the inner ring on the reverse side of the shell of the sensor; the bearing feeding and assembling device 8 is used for feeding and assembling another bearing into the inner ring on the reverse side of the sensor shell, the shaft sleeve feeding and assembling device 9 is used for feeding a shaft sleeve and sleeving the shaft sleeve on the rotating shaft, and the discharging device transfers and discharges a sensor assembling finished product through a manipulator.
As shown in fig. 2 and fig. 3, the sensor includes a sensor housing 101, two bearings 102, a rotating shaft 103 and a shaft sleeve 104, wherein the center of the sensor housing 101 is provided with a bearing hole, the two bearings 102 are respectively fixed at the upper and lower sides of the bearing hole, the rotating shaft 103 penetrates through the centers of the two bearings 102, and the shaft sleeve 104 is sleeved on the rotating shaft 103 and located inside the sensor housing 101. In the production process, the sensor shell 101 is conveyed and fed, the front inner ring of the sensor shell 101 is coated with glue, meanwhile, the front bearing 102 is conveyed and fed, and in the process of conveying and feeding the bearing 102, the rotating shaft 103 is conveyed and fed, and the rotating shaft 103 is inserted on the bearing 102, when the sensor shell 101 is conveyed to the lower part of the bearing 102, the bearing and the rotating shaft are arranged in the sensor shell 101, the sensor shell 101 is rotated for 180 degrees to turn over after the front assembly is finished, glue is coated on the inner ring of the reverse side of the sensor shell 101 after the turn-over, the bearing 102 of the reverse side is conveyed, fed and sleeved on the rotating shaft 103, then the bearing 102 is assembled on the inner ring of the reverse side of the sensor shell, then, the shaft sleeve 104 is conveyed and fed, the inner ring of the shaft sleeve 104 is coated with glue, finally, the shaft sleeve 104 is sleeved on the rotating shaft 103 to finish production, and the subsequent rotating shaft 103 is connected with other components through the shaft sleeve 104.
As shown in fig. 1 and 4, the sensor housing feeding device 1 includes a housing feeding assembly 11, a housing rotation transfer assembly 12, and a housing conveying assembly 13; the shell feeding component 11 links up with the feed end of the rotatory transfer assembly 12 of shell mutually, and the shell feeding component 11 is used for carrying the shell to the rotatory transfer assembly 12 of shell one by one on, and the discharge end of the rotatory transfer assembly 12 of shell links up with the feed end of shell conveyor component 13 mutually, and the rotatory transfer assembly 12 of shell is used for carrying the shell to the shell conveyor component 13 one by one on, and shell conveyor component 13 is used for carrying the shell one by one.
The shell feeding assembly 11 comprises a shell feeding conveying frame 111, a shell feeding motor 112, a first conveyor belt gear set 113 and a shell conveyor belt roller set 114; shell feeding conveying frame 111 fore-and-aft direction sets up, shell feeding motor 112 sets up in shell feeding conveying frame 111 feed end below, shell feeding motor 112's pivot and the gear connection of the 113 lower parts of first conveyer belt gear train, the gear on 113 upper portions of first conveyer belt gear train is connected with the running roller of shell conveyer belt running roller group 114 feed end, the running roller setting of shell conveyer belt running roller group 114 discharge end is at the discharge end of shell feeding conveying frame 111, it carries out rotary drive to drive the gear of the 113 lower parts of first conveyer belt gear train through shell feeding motor 112, thereby it is rotatory to make the gear on 113 upper portions of first conveyer belt gear train drive the running roller of shell conveyer belt running roller group 114 feed end, and then make the conveyer belt on the shell conveyer belt running roller group 114 drive, make sensor housing 101 on the conveyer belt carry on the shell conveyer belt. The discharge end of shell feeding conveying frame 111 still is provided with shell feeding pin 115, shell feeding pin 115 slope sets up, and shell feeding pin 115 is left back right side front placement, prevent through shell feeding pin 115 that the sensor housing 101 that makes the transport come from piles up, if a plurality of sensor housing 101 pile up the transport, be convenient for make the sensor housing 101 top pile up sensor housing 101 through shell feeding pin 115 and block, and then make single sensor housing 101 pass through, promote conveying quality.
The housing rotation transfer assembly 12 includes a housing rotation transfer motor 121, a second conveyor gear set 122, a housing rotation transfer spindle 123, and a housing rotation transfer disk 124; the rotatory motor 121 that shifts of shell sets up in the frame lower part, the pivot of the rotatory motor 121 that shifts of shell is connected with the one end of second conveyer belt gear train 122, the other end and the lower extreme of the rotatory pivot 123 that shifts of shell of second conveyer belt gear train 122 are connected, the upper end of the rotatory pivot 123 that shifts of shell passes the frame and is connected with the center of the rotatory transfer dish 124 of shell, it drives to drive the rotatory second conveyer belt gear train 122 that drives through the rotatory motor 121 that shifts of shell to make the rotatory dish 124 that shifts of shell on the pivot 123 of shell carry out the rotory. The outer lane regular arrangement of rotatory transfer dish 124 of shell is provided with a plurality of sensor housing transfer groove 1241, and every sensor housing transfer groove 1241 and the appearance phase-match of a sensor housing 101 are convenient for carry one by one to make two sensor housings 101 keep certain transport distance, promote whole interval and the fluency of carrying, prevent to block up when carrying. Form sensor housing interval lug 1242 between every two adjacent sensor housing transfer grooves 1241, every sensor housing interval lug right part 1243 is circular-arc, is convenient for better messenger sensor housing 101 through circular-arc and slides into to sensor housing transfer grooves 1241, also further promotes efficiency and carries the smoothness degree simultaneously. The outer ring of the shell rotating transfer disc 124 is further provided with a first limiting frame 125 and a second limiting frame 126, and the first limiting frame 125 and the second limiting frame 126 are convenient to further match with the shell rotating transfer disc 124, so that the sensor shell 101 is prevented from sliding out and falling off during conveying. Be provided with on first spacing 125 and carry backup pad 1251, the rear end of carrying backup pad 1251 links up with shell feeding component 11 mutually, and carries backup pad 1251 to be located the rotatory transfer dish 124 left part below of shell, is convenient for carry out better support when carrying through carrying backup pad 1251 and prevents to drop. The inner sides of the first and second position-limiting frames 125 and 126 are respectively arc-shaped to engage with the outer ring of the outer shell rotary transfer disc 124, so as to be better engaged with the outer shell rotary transfer disc 124.
The housing conveying assembly 13 comprises a housing conveying frame 131, a housing conveying motor 132, a third conveyor belt gear set 133 and a conveyor belt roller set 134; the shell carriage 131 fore-and-aft direction sets up, and shell conveying motor 132 is located shell carriage 131 discharge end side, and shell conveying motor 132 is connected with third conveyer belt gear set 133 one end, and the other end and the conveyer belt roller set 134 discharge end of third conveyer belt gear set 133 are connected, and conveyer belt roller set 134 discharge end sets up the tip of the ejection of compact at shell carriage 131, and the feed end setting of conveyer belt roller set 134 is at the feed end portion of shell carriage 131. The housing conveying motor 132 drives the third belt pulley set 133 to rotate, so that the belt on the belt pulley set 134 is driven, and the sensor housing 101 is conveyed linearly.
During operation, a plurality of sensor housings 101 are conveyed to a conveyor belt on a housing conveyor belt roller set 114 through a sensor housing vibration disc, a first conveyor belt roller set 113 is driven to rotate through a housing feeding motor 112, so that the first conveyor belt roller set 113 drives the conveyor belt on the housing conveyor belt roller set 114 to rotate, and then a plurality of sensor housings 101 are driven to convey to a housing feeding stop lever 115, stacked sensor housings 101 are stopped through the housing feeding stop lever 115, if a plurality of sensor housings 101 are stacked and conveyed, the stacked sensor housings 101 above the sensor housings 101 are conveniently stopped through the housing feeding stop lever 115, and then a single sensor housing 101 passes through, so that the single sensor housing 101 passes through the lower part of the housing feeding stop lever 115 and enters a sensor housing transfer groove 1241 of a housing rotation transfer disc 124, and each sensor housing transfer groove 1241 is matched with the shape of one sensor housing 101, be convenient for carry one by one to make two sensor housing 101 keep certain transport distance, promote whole interval and the smoothness degree of carrying, prevent to block up when carrying. The housing rotation transfer motor 121 drives the single sensor housing 101 to be conveyed to a conveying belt on the conveying belt roller set 134 of the housing conveying assembly 13, and the housing conveying motor 132 drives the third conveying belt roller set 133 to rotate and drive, so that the sensor housing 101 on the conveying belt roller set 134 is conveyed.
Through sensor housing feed arrangement 1 solved and often can appear the sensor housing a plurality of circumstances of piling up the transport, lead to being located the sensor housing of top and drop the damage and can't carry out the production after, mostly all shift the transport with individual sensor housing through the manipulator, influence the sensor housing and carry the problem of feeding efficiency. The sensor housings 101 conveyed are prevented from being stacked through the housing feeding stop lever 115, and if a plurality of sensor housings 101 are conveyed in a stacked manner, the stacked sensor housings 101 above the sensor housings 101 are conveniently stopped through the housing feeding stop lever 115, so that the single sensor housing 101 passes through, and the conveying quality is improved; each sensor shell transfer groove 1241 is matched with the shape of one sensor shell 101, so that one-by-one conveying is facilitated, a certain conveying distance is kept between the two sensor shells 101, the integral conveying distance and smoothness are improved, and blockage during conveying is prevented; the first limiting frame 125 and the second limiting frame 126 are convenient to further cooperate with the shell rotating and transferring disc 124, and the sensor shell 101 is prevented from sliding out and falling off during conveying.
As shown in fig. 1 and 5, the first horizontal conveyance transfer device 2 and the second horizontal conveyance transfer device 6 are identical in structure and are arranged in parallel; the first horizontal conveying transfer device 2 comprises a horizontal conveying support frame 21 and a horizontal transfer assembly 22; the horizontal conveying support frame 21 is horizontally arranged on the rack and is connected with the discharge end of the sensor shell feeding device 1, the horizontal transfer assembly 22 is positioned on the front side of the horizontal conveying support frame 21, and the horizontal transfer assembly 22 comprises a horizontal transfer module 221, a lifting transfer module 222, a lifting transfer plate 223 and a plurality of transfer plates 224; the horizontal transfer module 221 is arranged on the rack, the moving part of the horizontal transfer module 221 is connected with the lifting transfer module 222, the lifting transfer plate 223 is arranged on the moving part of the lifting transfer module 222, the plurality of transfer plates 224 are horizontally and regularly arranged on the lifting transfer plate 223, the right side of each transfer plate 224 is provided with an arc-shaped housing matching groove 2241 matched with the sensor housing, and the stability and the moving efficiency of the sensor housing 101 in the transfer process are further improved. The horizontal transfer module 221 drives the lifting transfer module 222 to perform horizontal positioning, and the lifting transfer module 222 drives the lifting transfer plate 223 to perform lifting movement positioning, so that the transfer plate 224 of the lifting transfer plate 223 transfers the sensor housing 101 on the sensor housing feeding device 1 to the horizontal conveying support frame 21, and performs horizontal movement conveying through the plurality of transfer plates 224.
As shown in fig. 1 and 6, the shell gluing device 3 comprises a shell gluing transfer assembly 31, a shell gluing rotating assembly 32 and a shell gluing assembly 33; the shell gluing transfer assembly 31 is located above the middle of the first horizontal conveying transfer device 2, the shell gluing transfer assembly 31 is used for transferring the sensor shell to the shell gluing rotating assembly 32, the shell gluing rotating assembly 32 is connected with the rear portion of the shell gluing transfer assembly 31 and located below the shell gluing transfer assembly 31, the shell gluing rotating assembly 32 is used for driving the sensor shell to rotate, the shell gluing assembly 33 is located behind the shell gluing rotating assembly 32, and the shell gluing assembly 33 is used for matching with the shell gluing rotating assembly 32 to glue the inner ring of the sensor shell.
The shell gluing transfer assembly 31 comprises a shell gluing transfer supporting top plate, a shell gluing transfer rotating cylinder 312, a shell gluing transfer rotating frame 313, a first gluing transfer cylinder 314, a second gluing transfer cylinder 315, a first transfer clamping jaw 316 and a second transfer clamping jaw 317; the shell gluing transfer rotating cylinder 312 is arranged on the lower portion of the shell gluing transfer supporting top plate, the middle of the shell gluing transfer rotating frame 313 is connected with the rotating portion of the shell gluing transfer rotating cylinder 312, the shell gluing transfer rotating cylinder 312 rotates to drive the shell gluing transfer rotating frame 313 to rotate 180 degrees, and the sensor shell 101 on the first horizontal conveying transfer device 2 is conveniently transferred to the shell gluing rotating assembly 32. The first gluing transfer cylinder 314 and the second gluing transfer cylinder 315 are respectively arranged at the front end and the rear end of the shell gluing transfer rotating frame 313, the moving parts of the first gluing transfer cylinder 314 and the second gluing transfer cylinder 315 are respectively provided with a gluing transfer lifting plate 3141, and the gluing transfer lifting plate 3141 is sleeved on a guide rod of the shell gluing transfer rotating frame 313; the two gluing transfer lifting plates 3141 are driven to lift and position through the first gluing transfer cylinder 314 and the second gluing transfer cylinder 315, so that the sensor shell 101 is conveniently lifted and positioned. The first transfer clamping jaw 316 and the second transfer clamping jaw 317 are respectively arranged on the two gluing transfer lifting plates 3141, the sensor shell 101 can be conveniently grabbed through the first transfer clamping jaw 316 and the second transfer clamping jaw 317, and stability and firmness in the transfer process are improved.
The shell gluing rotating assembly 32 comprises a shell gluing rotating frame 321, a shell gluing rotating motor 322, a fourth belt gear group 323 and a shell gluing rotating die 324. The shell gluing rotating frame 321 is horizontally arranged at the rear side of the shell gluing transfer component 31, the shell gluing rotating motor 322 is arranged at the top of the left side of the shell gluing rotating frame 321, the bottom of the shell gluing rotating motor 322 penetrates through the shell gluing rotating frame 321 to be connected with the left part of the fourth conveying belt gear group 323, the right part of the fourth conveying belt gear group 323 is connected with the bottom of the shell gluing rotating mold 324, the upper part of the shell gluing rotating mold 324 penetrates through the shell gluing rotating frame 321, the shell gluing rotating mold 324 is arranged on the shell gluing rotating frame 321 through a bearing, the shell gluing rotating motor 322 drives the fourth conveying belt gear group 323 to rotate and drive, so that the fourth conveying belt gear group 323 drives the shell gluing rotating mold 324 to rotate, the sensor shell 101 is driven to rotate in the gluing process, and the mode of rotating and gluing through a gluing device is changed, further improve rubber coating stability and rubber coating quality. Be provided with the rotatory standing groove 3241 of placing sensor housing on the rotatory mould 324 of shell rubber coating, rotatory standing groove 3241 is used for placing sensor housing 101, and it is spacing to be convenient for better carry out sensor housing 101, prevents to produce at rubber coating in-process sensor housing 101 and removes or rock, and then leads to sensor housing 101 inner circle rubber coating bad.
The shell gluing component 33 comprises a shell gluing bracket 331, a shell gluing cylinder 332, a shell gluing moving bracket 333 and a shell gluing machine 334; the shell gluing support 331 is located the shell gluing rotating component 32 rear side, and the shell gluing support 331 sets up in an inclined manner, and the setting of slope is convenient for better scribble the glue to accurate position. The shell gluing cylinder 332 is arranged at the rear end of the shell gluing support 331, the moving part of the shell gluing cylinder 332 penetrates through the rear end of the shell gluing support 331 to be connected with the shell gluing moving frame 333, the shell gluing moving frame 333 is arranged on the shell gluing support 331 through a shell gluing moving slide rail, and the shell gluing moving frame 333 is driven to move and position through the shell gluing cylinder 332, so that the positioning accuracy of the shell gluing machine 334 is further improved. The shell spreading machine 334 is obliquely arranged on the shell spreading moving frame 333, glue is conveniently spread to the inner ring of the sensor shell 101 through the oblique arrangement of the shell spreading machine 334, and the uniformity and the spreading quality of the whole glue are improved.
During operation, the first gluing transfer cylinder 314 and the second gluing transfer cylinder 315 drive the two gluing transfer lifting plates 3141 to descend, and the first gluing transfer cylinder 314 and the second gluing transfer cylinder 315 facilitate lifting of the sensor shell 101 for lifting and positioning accuracy. The sensor housing 101 on the first horizontal conveying and transferring device 2 is clamped by the first transferring clamping jaw 316, the sensor housing 101 can be conveniently grabbed by the first transferring clamping jaw 316, the stability and firmness in the transferring process are improved, the housing gluing transferring rotary cylinder 312 is driven to rotate to drive the housing gluing transferring rotary frame 313 to rotate for 180 degrees, the clamped sensor housing 101 is placed into the rotary placing groove 3241, the housing gluing rotary motor 322 is used for driving the fourth conveyor belt gear group 323 to rotate, so that the fourth conveyor belt gear group 323 drives the sensor housing 101 on the housing gluing rotary die 324 to rotate, the sensor housing 101 is driven to rotate in the gluing process, the rotary gluing mode of the gluing device is changed, and the gluing stability and the gluing quality are further improved. The shell gluing machine 334 which drives the shell gluing moving frame 333 to move to the designated position through the shell gluing cylinder 332 for gluing is used for gluing, so that glue is uniformly coated on the inner ring of the sensor shell 101, the shell gluing machine 334 is obliquely arranged to facilitate coating the glue on the inner ring of the sensor shell 101, and the uniformity and the gluing quality of the whole gluing are improved.
The problem that the existing gluing mode cannot well locate the sensor shell is solved through the shell gluing device 3, and the sensor shell is easy to move in the gluing process, so that the gluing position is inaccurate is solved. The sensor housing 101 can be conveniently lifted for the lifting and positioning precision by the first gluing transfer cylinder 314 and the second gluing transfer cylinder 315. The sensor housing 101 is convenient to grab through the first transfer clamping jaw 316 and the second transfer clamping jaw 317, and the stability and firmness in the transfer process are improved; the sensor shell 101 is driven to rotate in the gluing process, so that the way of rotary gluing through the gluing device is changed, and the gluing stability and the gluing quality are further improved; the inclined arrangement of the shell glue spreader 334 is convenient for spreading glue to the inner ring of the sensor shell 101, and the uniformity and the gluing quality of the whole gluing are improved.
As shown in fig. 1 and 7, the bearing and spindle feeding and assembling device 4 comprises a bearing and spindle feeding bracket 41, a bearing feeding and conveying assembly 42, a spindle feeding assembly 43, a bearing and spindle press-fitting assembly 44, a bearing and spindle transferring assembly 45 and a bearing and spindle assembly assembling assembly 46; the bearing and rotating shaft feeding bracket 41 is arranged on the rack, the bearing and rotating shaft feeding bracket 41 is provided with a bearing and rotating shaft conveying channel 411, the bearing feeding conveying assembly 42 is arranged on the bearing and rotating shaft feeding bracket 41, the bearing feeding conveying assembly 42 is used for conveying the bearing to the bearing and rotating shaft conveying channel 411, the rotating shaft feeding assembly 43 is positioned at the discharging end side of the bearing and rotating shaft feeding bracket 41, the rotating shaft feeding assembly 43 is used for conveying the rotating shaft to the bearing on the bearing and rotating shaft conveying channel 411, the bearing and rotating shaft press-fitting assembly 44 is positioned above the bearing and rotating shaft feeding bracket 41, the bearing and rotating shaft press-fitting assembly 44 is used for press-fitting the rotating shaft to the bearing, the bearing and rotating shaft transferring assembly 45 is positioned at the front side of the bearing and rotating shaft feeding bracket 41 and above the first horizontal conveying and transferring device 2, the bearing and rotating shaft transferring assembly 45 is used for transferring the bearing and rotating shaft assembly to the sensor shell on the first horizontal conveying, the bearing and shaft assembly 46 is used to assemble the bearing and shaft assembly into the sensor housing.
As shown in fig. 7 and 8, the bearing and spindle conveyance passage 411 includes a front and rear conveyance passage 4111, a first horizontal conveyance passage 4112, and a second horizontal conveyance passage 4113, the front and rear conveyance passage 4111 is located between the first horizontal conveyance passage 4112 and the second horizontal conveyance passage 4113, and the front and rear conveyance passage 4111 is in communication with the first horizontal conveyance passage 4112 and the second horizontal conveyance passage 4113; the first horizontal conveying path 4112 is used to engage with the bearing feeding and conveying assembly 42, so that the bearing enters the first horizontal conveying path 4112. The front portion that is located front and back conveying passage 4111 is provided with vertical bar through-hole 4114, it is provided with horizontal bar through-hole 4115 to be located second horizontal conveying passage 4113 right part, horizontal bar through-hole 4115 is linked together with vertical bar through-hole 4114, be convenient for make pivot 103 insert through vertical bar through-hole 4114 and horizontal bar through-hole 4115, make pivot 103 insert the assigned position to in the bearing 102, be convenient for carry out the equipment of pivot 103 when bearing 102 carries, promote the packaging efficiency of pivot 103 and bearing 102, the current condition of separately assembling both in the assembly process has been solved, great promotion the equipment speed.
The bearing feeding conveying assembly 42 comprises a bearing feeding seat 421, a first pushing rod 422, a second pushing rod 423 and a third pushing rod 424; the bearing feeding seat 421 is disposed at the right side of the rear portion of the bearing and rotating shaft feeding support 41, a bearing feeding passage 4211 is disposed on the bearing feeding seat 421, the bearing feeding passage 4211 is communicated with the first horizontal conveying passage 4112, and the bearing enters the first horizontal conveying passage 4112 through the bearing feeding passage 4211. The first pushing rod 422 is located in the left portion of the first horizontal conveying passage 4112, the first pushing rod 422 is used for pushing the bearings 102 into the front and rear conveying passages 4111, the second pushing rod 423 is located in the rear portion of the front and rear conveying passages 4111, and the second pushing rod 423 is used for pushing the bearings 102 forward. The third push rod 424 is located in the left portion of the second horizontal conveying path 4113, and the third push rod 424 is used to push the bearing 102 into the left side of the second horizontal conveying path 4113. First propelling movement pole 422, second propelling movement pole 423 and third propelling movement pole 424 are respectively through propelling movement cylinder control, are convenient for better control through the propelling movement cylinder, also further promote propelling movement efficiency simultaneously.
As shown in fig. 7 and 9, the rotary shaft feeding assembly 43 includes a rotary shaft feeding support 431, a rotary shaft feeding lifting cylinder 432, a rotary shaft feeding push rod 433, a rotary shaft feeding rotating cylinder 434, a rotary shaft feeding rotating support plate 435, a rotary shaft feeding rotating plate 436, a rotary shaft pipe 437, and a rotary shaft feeding transfer cylinder 438. The setting of pivot feeding revolving cylinder 434 is in the frame, the setting of pivot feeding revolving support plate 435 is at pivot feeding revolving cylinder 434 rear portion, the middle part of pivot feeding revolving support plate 435 is provided with pivot feeding revolving plate groove 4351, it all is provided with horizontal conveyer trough 4352 to lie in pivot feeding revolving plate groove 4351 both sides on the revolving support plate 435 of pivot feeding, horizontal conveyer trough 4352 is used for linking up with pivot material vibrations dish, pivot material vibrations dish is carried pivot 103 through horizontal conveyer trough 4352. The bottom of the rotating shaft feeding rotating plate groove 4351 is provided with a rotating shaft jacking through hole 4353 matched with the rotating shaft feeding ejector rod 433, and the rotating shaft jacking through hole 4353 is used for ejecting the rotating shaft 103 upwards. The rotating shaft feeding rotating plate 436 is connected with the rotating part of the rotating shaft feeding rotating cylinder 434, the rotating shaft feeding rotating plate 436 is located in the rotating shaft feeding rotating plate groove 4351, and the rotating shaft feeding rotating plate 436 is limited by the rotating shaft feeding rotating plate groove 4351, so that the rotating shaft 103 is prevented from falling in the rotating process. The rotary shaft feed rotary plate 436 is provided with a linear groove 4361, and the linear groove 4361 is aligned with the horizontal transfer groove 4351 in a horizontal state, so that the rotary shaft 103 is transferred into the linear groove 4361 through the horizontal transfer groove 4351. The rotating shaft tube 437 is longitudinally arranged at the top of the rotating shaft feeding rotating support plate 435, the rotating shaft tube 437 is aligned with the linear groove 4361 in a vertical state, the rotating shaft feeding rotating cylinder 434 drives the rotating shaft feeding rotating plate 436 to rotate by 90 degrees, the linear groove 4361 is changed from a horizontal shape to a vertical shape, the rotating shaft 103 in the linear groove 4361 is conveniently ejected upwards, the smoothness in the conveying process is improved, angle adjustment is not performed by other rotating devices, and the conveying efficiency of the rotating shaft 103 is further improved. The rotating shaft feeding support 431 is arranged at the bottom of the rack, the rotating shaft feeding lifting cylinder 432 is arranged in the middle of the bottom of the rotating shaft feeding support 431, the moving part of the rotating shaft feeding lifting cylinder 432 penetrates through the rotating shaft feeding support 431 to be connected with the rotating shaft feeding ejector rod 433, the top of the rotating shaft feeding ejector rod 433 penetrates through the rack, the rotating shaft feeding ejector rod 432 drives the rotating shaft feeding ejector rod 433 to jack upwards, and the rotating shaft feeding ejector rod 433 is enabled to jack the rotating shaft 103 upwards through the rotating shaft jacking through hole 4353 and the linear groove 4361. The pivot feeding shifts cylinder 438 level setting on bearing and pivot feeding support 41, the removal that the pivot feeding shifted cylinder 438 is provided with the pivot feeding and shifts the piece 4381, the pivot feeding shifts the piece 4381 and shifts the slide rail 4383 setting on bearing and pivot feeding support 41 through the pivot feeding, the pivot feeding shifts the piece 4381 and the pivot 103 is mutually supported through magnetic force, shift the piece 4381 and move to pivot pipe 437 department through the pivot feeding, when the pivot 103 upwards released, shift the piece 4381 and hold the pivot 103 through the pivot feeding, the pivot 103 shifts, promote the convenience that shifts, and promote transfer efficiency. The rear portion of pivot feeding shifts piece 4381 sets up and shifts cooperation arc wall 4382 with pivot outer lane assorted pivot, shifts cooperation arc wall 4382 through the pivot and is convenient for better cooperateing with pivot 103 and carry on spacingly, promotes the stability of transfer in-process, prevents to make pivot 103 drop at the transfer in-process.
As shown in fig. 8, the bearing and rotating shaft press-fitting assembly 44 includes a bearing and rotating shaft press-fitting bracket 441, a bearing and rotating shaft press-fitting cylinder 442, and a bearing and rotating shaft press-fitting elevating plate 443; the bearing and rotating shaft press-fitting support 441 is arranged on the bearing and rotating shaft feeding support 41, the bearing and rotating shaft press-fitting cylinder 442 is arranged at the top of the bearing and rotating shaft feeding support 41, the bottom of the bearing and rotating shaft press-fitting cylinder 442 penetrates through the bearing and rotating shaft press-fitting support 441 to be connected with the bearing and rotating shaft press-fitting lifting plate 443, the bearing and rotating shaft press-fitting lifting plate 443 is sleeved on the bearing and rotating shaft press-fitting support 441, a rotating shaft groove matched with the top of the rotating shaft is formed in the center of the bearing and rotating shaft press-fitting lifting plate 443, the rotating shaft is matched with the rotating shaft 103 transferred by the rotating shaft feeding transfer block 4381 through the rotating shaft groove, and the bearing and rotating shaft press-fitting lifting plate 443 is driven to press the rotating shaft 103. The bearing and rotating shaft transfer assembly 45 transfers in a manipulator manner; the bearing and rotating shaft assembly assembling unit 46 assembles the bearing and rotating shaft assembly into the sensor housing through the bearing and rotating shaft assembly assembling cylinder 461.
During operation, the bearing 102 enters the first horizontal conveying passage 4112 from the bearing feeding passage 4211, the bearing 102 is pushed into the front and rear conveying passages 4111 by the first pushing rod 422, and the bearing 102 is pushed to the lower part of the bearing and rotating shaft press-fitting assembly 44 by the second pushing rod 423; the rotating shaft 103 enters the linear groove 4361 through the horizontal conveying groove 4351 by passing the rotating shaft 103 through the rotating shaft material vibration disc, the rotating shaft feeding rotating cylinder 434 drives the rotating shaft feeding rotating plate 436 to rotate by 90 degrees, the linear groove 4361 is changed from a horizontal shape to a vertical shape, the rotating shaft feeding jacking rod 433 is driven by the rotating shaft feeding lifting cylinder 432 to jack upwards, and the rotating shaft feeding jacking rod 433 pushes the rotating shaft 103 upwards through the rotating shaft jacking through hole 4353 and the linear groove 4361; the rotating shaft feeding transfer block 4381 moves to the rotating shaft pipe 437, when the rotating shaft 103 is pushed upwards, the rotating shaft 103 is sucked by the rotating shaft feeding transfer block 4381, the rotating shaft 103 is transferred to the bearing and rotating shaft press-fitting assembly 44, and the bearing and rotating shaft press-fitting cylinder 442 drives the bearing and rotating shaft press-fitting lifting plate 443 to press down to press the rotating shaft 103 into the bearing 102; the bearing and shaft assembly is initially transferred into the sensor housing 101 by the bearing and shaft transfer assembly 45, and the bearing and shaft assembly is assembled into the sensor housing by the bearing and shaft assembly 46. The rotating shaft 103 is sucked by the rotating shaft feeding transfer block 4381, the rotating shaft 103 is transferred, the transferring convenience is improved, and the transferring efficiency is improved. A rotating shaft transfer matching arc-shaped groove 4382 matched with the outer ring of the rotating shaft is arranged at the rear part of the rotating shaft feeding transfer block 4381, and the rotating shaft transfer matching arc-shaped groove 4382 is convenient to be matched with the rotating shaft 103 for limiting better, so that the stability in the transfer process is improved, and the rotating shaft 103 is prevented from falling in the transfer process; the transfer is performed in a manipulator manner through a bearing and rotating shaft transfer assembly 45; the bearing and rotating shaft assembly assembling unit 46 assembles the bearing and rotating shaft assembly into the sensor housing through the bearing and rotating shaft assembly assembling cylinder 461.
This bearing and pivot feeding assembly device 4 has solved current equipment and has carried out two separately, assembles the bearing earlier and packs into the pivot to the bearing again, influences production efficiency's problem through separately like this. Through pivot feeding assembly 43, solved through the manipulator insert the pivot to the bearing in, not only occupy the equipment space like this at the production process to only influence positioning accuracy through manipulator control also be convenient for not being convenient for simultaneously with the good equipment of pivot to the bearing in, influence the problem of equipment quality between them. Through vertical bar through-hole 4114 and horizontal bar through-hole 4115, be convenient for make pivot 103 insert, make pivot 103 insert the assigned position in bearing 102, be convenient for carry out the equipment of pivot 103 when bearing 102 carries, promote the packaging efficiency of pivot 103 and bearing 102, solved the current condition of separately assembling with both in the assembly process, great promotion the assembly speed. The rotating shaft feeding rotating plate 436 is limited by the rotating shaft feeding rotating plate groove 4351, and the rotating shaft 103 is prevented from falling in the rotating process. The rotary shaft feed rotary plate 436 is provided with a linear groove 4361, and the linear groove 4361 is aligned with the horizontal transfer groove 4351 in a horizontal state, so that the rotary shaft 103 is transferred into the linear groove 4361 through the horizontal transfer groove 4351. The rotating shaft tube 437 is aligned with the linear groove 4361 in a vertical state, the rotating shaft feeding rotating cylinder 434 drives the rotating shaft feeding rotating plate 436 to rotate by 90 degrees, the linear groove 4361 is changed from a horizontal shape to a vertical shape, the rotating shaft 103 in the linear groove 4361 is conveniently ejected upwards, the fluency in the conveying process is improved, angle adjustment is not performed by other rotating devices, and the conveying efficiency of the rotating shaft 103 is further improved.
As shown in fig. 1 and 10, the turnover device 5 includes a turnover lifting moving assembly 50, a turnover horizontal moving assembly 51, a turnover cylinder 52 and a turnover clamping cylinder 53; the overturning horizontal moving assembly 51 is arranged on the frame, the overturning horizontal moving assembly 51 is arranged on a moving part of the overturning horizontal moving assembly 51 and is positioned on the front side of the discharge end of the first horizontal conveying and transferring device 2, the overturning horizontal moving assembly 51 is arranged on the moving part of the overturning horizontal moving assembly 51, and the overturning clamping cylinder 53 is arranged on a rotating part of the overturning cylinder 52. The overturning lifting moving assembly 50 drives the overturning horizontal moving assembly 51 to ascend and descend to a specified height, the overturning horizontal moving assembly 51 drives the overturning air cylinder 52 to horizontally move to the discharging end of the first horizontal conveying and transferring device 2, the overturning clamping air cylinder 53 clamps the sensor shell 101 at the discharging end of the first horizontal conveying and transferring device 2, and the overturning air cylinder 52 rotates the sensor shell 101 for 180 degrees and places the sensor shell on the second horizontal conveying and transferring device 6 for horizontal conveying.
As shown in fig. 1 and 11, the shell reverse gluing device 7 includes a shell reverse gluing rotating assembly 71 and a shell reverse gluing assembly 72, the shell reverse gluing rotating assembly 71 includes a shell reverse gluing rotating bracket and a shell reverse gluing rotating motor, the shell reverse gluing rotating motor is arranged on the shell reverse gluing rotating bracket, a rotating shaft of the shell reverse gluing rotating motor is connected with a rotating rod, the rotating rod is driven by the shell reverse gluing rotating motor to rotate the sensor shell, the shell reverse gluing rotating assembly 71 has the same structure as the shell gluing assembly 33, and glue is applied to the turn-over inner ring of the sensor shell 101 by the shell gluing machine on the reverse gluing rotating assembly 71.
The bearing feeding assembly device 8 comprises a bearing feeding assembly 81, a bearing transferring assembly 82 and a bearing assembly 83; the bearing feeding assembly 81 is identical in structure to the bearing feeding conveying assembly 42 in the bearing and rotating shaft feeding assembly device 4, and the bearing transferring assembly 82 is identical in structure to the bearing and rotating shaft transferring assembly 45. The other bearing 102 is fed by the bearing feeding assembly 81, the bearing 102 is grabbed and transferred to the rotating shaft 103 in the sensor housing 101 by the bearing transferring assembly 82, and the bearing 102 is pressed into the sensor housing 101 by the bearing assembling assembly 83.
As shown in fig. 1, 13 and 14, the shaft sleeve feeding and assembling device 9 includes a shaft sleeve feeding vibrator 91, a shaft sleeve engaging assembly 92, a shaft sleeve gluing assembly 93, a shaft sleeve pushing assembly 94 and a shaft sleeve transferring and assembling assembly 95; axle sleeve feeding vibrator 91 fore-and-aft direction sets up in the frame, axle sleeve linking subassembly 92 links up with axle sleeve feeding vibrator 91's discharge end, axle sleeve linking subassembly 92 is used for supporting the axle sleeve and drives the axle sleeve rotation, axle sleeve rubber coating subassembly 93 sets up in axle sleeve feeding vibrator 91 one side, axle sleeve rubber coating subassembly 93 is used for carrying out the rubber coating to the axle sleeve inner circle, axle sleeve propelling movement subassembly 94 is used for releasing the axle sleeve that the rubber coating is good, axle sleeve shifts equipment subassembly 95 is used for shifting the axle sleeve and assembles.
As shown in fig. 13, the sleeve engagement assembly 92 includes a sleeve engagement bracket 921, a sleeve rotation motor 922, and a sleeve rotation rod 923; the top of the shaft sleeve engagement bracket 921 is provided with a first engagement front-rear channel 9211, an engagement horizontal channel 9212 and a second engagement front-rear channel 9213; the linking horizontal channel 9212 is located between the first linking front and rear channel 9211 and the second linking front and rear channel 9213, and the linking horizontal channel 9212 communicates with the first linking front and rear channel 9211 and the second linking front and rear channel 9213, the first linking front and rear channel 9211 links with the shaft sleeve feeding vibrator 91, and the first linking front and rear channel 9211 is used for the shaft sleeve to enter. The bearing rotation hole 9214 is provided with in axle sleeve linking support 921 on lieing in linking horizontal channel 9212 and first linking front and back channel 9211 juncture, and bearing rotation hole 9214 is convenient for drive link up horizontal channel 9212 and first linking front and back channel 9211 on axle sleeve 104 carry out rotary drive. The right side that lies in bearing rotation hole 9214 on linking horizontal channel 9212 is provided with inclined groove 92141, is convenient for push out axle sleeve 104 to the right side through inclined groove 92141, prevents that axle sleeve 104 card from linking horizontal channel 9212 on, promotes the smoothness nature of removal. Lie in linking horizontal passageway 9212 and first linking front and back passageway 9211 juncture on axle sleeve linking support 921 and still be provided with circular recess 9215, be provided with retaining ring 9216 on circular recess 9215, through circular recess 9215 be convenient for placing of retaining ring 9216, it is spacing also better simultaneously with retaining ring 9216. Retaining ring 9216 top cover is equipped with retaining ring bearing 9217, is convenient for promote the smoothness nature of axle sleeve 104 in rotatory in-process through retaining ring bearing 9217, prevents that axle sleeve 104 from rubbing the card with the outside in the rotation and pausing. The shaft sleeve rotating motor 922 is arranged on the rack and located below the bearing rotating hole 9214, a shaft sleeve rotating lifting cylinder is arranged on the lower portion of the shaft sleeve rotating motor 922, and the shaft sleeve rotating motor 922 is driven to move up and down to be located through the shaft sleeve rotating lifting cylinder. The axle sleeve rotary rod 923 is connected with the pivot of axle sleeve rotating electrical machines 922, and axle sleeve rotary rod 923 passes bearing rotation hole 9214 and is located the axle sleeve, drives the axle sleeve through axle sleeve rotary rod 923 and rotates.
The shaft sleeve pushing assembly 94 comprises a shaft sleeve pushing support 941, a shaft sleeve pushing cylinder 942 and a shaft sleeve pushing rod 943; axle sleeve propelling movement support 941 is located axle sleeve linking support 921 left side, axle sleeve propelling movement cylinder 942 sets up on axle sleeve propelling movement support 941, axle sleeve propelling movement pole 943 level sets up the removal portion at axle sleeve propelling movement cylinder 942, and axle sleeve propelling movement pole 943 is located and links up horizontal passageway 9212, drive axle sleeve propelling movement pole 943 through axle sleeve propelling movement cylinder 942 and promote to the right side, make axle sleeve 104 after the rubber coating push away to linking up horizontal passageway 9212 and second and link up front and back passageway 9213 juncture. Passageway 9213 also is convenient for better snatch around linking up through the second, promotes the comprehensive nature and the firmness that snatch, prevents to shift the in-process and drops.
As shown in fig. 14, the shaft sleeve gluing assembly 93 includes a shaft sleeve gluing support 931, a shaft sleeve gluing cylinder 932, a shaft sleeve gluing moving support 933, and a shaft sleeve gluing machine 934; axle sleeve rubber coating support 931 is located axle sleeve linking subassembly 92 one side, and axle sleeve rubber coating support 931 slope sets up, axle sleeve rubber coating cylinder 932 sets up the rear end at axle sleeve rubber coating support 931, axle sleeve rubber coating cylinder 932's removal portion passes axle sleeve rubber coating support 931 rear end and is connected with axle sleeve rubber coating removal frame 933, and axle sleeve rubber coating removal frame 933 removes the slide rail setting on axle sleeve rubber coating support 931 through the axle sleeve rubber coating, axle sleeve rubber coating cylinder 932 drives axle sleeve rubber coating removal frame 933 and moves the location, further promote and remove the precision, also be convenient for better stretch into simultaneously to sensor housing 101 inner circle. The slope of axle sleeve spreading machine 934 sets up on axle sleeve rubber coating removes frame 933, sets up through the slope of axle sleeve spreading machine 934 and is convenient for scribble the glue to sensor housing 101 inner circle, promotes whole rubber-coated degree of consistency and rubber coating quality.
The shaft sleeve transferring assembly 95 is arranged in the front-back direction, and the shaft sleeve transferring assembly 95 clamps and transfers the shaft sleeve in a manipulator transferring mode and assembles the shaft sleeve to the rotating shaft 103 in the sensor housing 101 through the shaft sleeve assembling cylinder.
During operation, the shaft sleeve is conveyed to the junction of the first linking front-back channel 9211 and the linking horizontal channel 9212 through the shaft sleeve feeding vibrator 91, the shaft sleeve rotating motor 922 is driven to ascend through the shaft sleeve rotating and lifting cylinder, the shaft sleeve rotating rod 923 is enabled to penetrate through the bearing rotating hole 9214 and be inserted into the shaft sleeve 104, and the linking horizontal channel 9212 and the shaft sleeve 104 on the first linking front-back channel 9211 are conveniently driven to rotate through the bearing rotating hole 9214; the shaft sleeve rotating motor 922 drives the shaft sleeve rotating rod 923 to rotate, so that the shaft sleeve 104 rotates, the shaft sleeve 104 is matched with the retainer ring 9216 and the retainer ring bearing 9217 to reduce the rotating resistance, and the smoothness and the uniformity of the shaft sleeve 104 in the gluing process are improved; the fluency of the shaft sleeve 104 in the rotation process is convenient to be improved through the retainer ring bearing 9217, and the shaft sleeve 104 is prevented from being rubbed and clamped with the outer side in the rotation process; drive axle sleeve spreading machine 934 on the axle sleeve rubber coating removal frame 933 through axle sleeve rubber coating cylinder 932 and remove to axle sleeve 104 inner circle and carry out the rubber coating, set up through axle sleeve spreading machine 934 slope and be convenient for scribble the glue to sensor housing 101 inner circle, promote whole rubber coated degree of consistency and rubber coating quality. After the glue is coated, the shaft sleeve pushing cylinder 942 drives the shaft sleeve pushing rod 943 to push the coated shaft sleeve 104 to the junction of the horizontal connecting channel 9212 and the second front and rear connecting channels 9213 towards the right side, so that the coated shaft sleeve 104 can be conveniently and better grabbed through the second front and rear connecting channels 9213, the overall grabbing performance and firmness are improved, and the coated shaft sleeve is prevented from falling off in the transferring process; the sleeve 104 is transferred and assembled to the rotating shaft 103 inside the sensor housing 101 by the sleeve transfer assembly 95.
This axle sleeve feeding assembly device 9 has solved and has made the axle sleeve outer lane rub with the mould when rotatory easily, makes the axle sleeve outer lane have many places mar to influence the axle sleeve pleasing to the eye to make the axle sleeve cause the card pause easily, influence the problem of the rubberized degree of consistency. The bearing rotating hole 9214 is convenient for driving the connecting horizontal channel 9212 and the shaft sleeve 104 on the first connecting front and rear channel 9211 to rotate and drive; the shaft sleeve 104 is conveniently pushed out towards the right side through the inclined groove 92141, the shaft sleeve 104 is prevented from being clamped on the horizontal connecting channel 9212, and the moving fluency is improved; the circular groove 9215 is convenient for the retainer ring 9216 to be placed, and meanwhile, the retainer ring 9216 is better limited; the fluency of the shaft sleeve 104 in the rotation process is convenient to be improved through the retainer ring bearing 9217, and the shaft sleeve 104 is prevented from being rubbed and clamped with the outer side in the rotation process; the second connecting front and rear channels 9213 are convenient to grab, the overall grabbing performance and firmness are improved, and the second connecting front and rear channels 9213 are prevented from falling off in the transferring process; axle sleeve rubber coating cylinder 932 drives axle sleeve rubber coating and removes frame 933 and removes the location, further promotes and removes the precision, sets up through axle sleeve spreading machine 934 slope and is convenient for scribble the glue to sensor housing 101 inner circle, promotes whole rubber coated degree of consistency and rubber coating quality.
The use method of the sensor automatic production equipment sequentially comprises the following steps:
the sensor shell comprises: a plurality of sensor housings 101 are conveyed to a conveying belt on a housing conveying belt roller set 114 through a sensor housing vibration disc, a housing feeding motor 112 drives a first conveying belt gear set 113 to rotate, so that the first conveying belt gear set 113 drives the conveying belt on the housing conveying belt roller set 114 to rotate, and further drives a plurality of sensor housings 101 to be conveyed to a housing feeding stop lever 115, stacked sensor housings 101 are stopped through the housing feeding stop lever 115, a single sensor housing 101 passes below the housing feeding stop lever 115 and enters a sensor housing transfer groove 1241 of a housing rotation transfer disc 124, a single sensor housing 101 is driven to be conveyed to the conveying belt on a conveying belt roller set 134 of a housing conveying assembly 13 through a housing rotation transfer motor 121, and a third conveying belt gear set 133 is driven to rotate through a housing conveying motor 132, conveying the sensor shell 101 on the conveying belt roller set 134;
(II) transferring and conveying: the horizontal transfer module 221 drives the lifting transfer module 222 to perform horizontal positioning, and the lifting transfer module 222 drives the lifting transfer plate 223 to perform lifting movement positioning, so that the transfer plate 224 of the lifting transfer plate 223 transfers the sensor housing 101 on the sensor housing feeding device 1 to the horizontal conveying support frame 21, and performs horizontal movement conveying through the plurality of transfer plates 224;
and (III) gluing the front surface of the shell: the first gluing transfer cylinder 314 and the second gluing transfer cylinder 315 drive the two gluing transfer lifting plates 3141 to descend, so that the first transfer clamping jaw 316 clamps the sensor shell 101 on the first horizontal conveying transfer device 2, the shell gluing transfer rotating cylinder 312 rotates to drive the shell gluing transfer rotating frame 313 to rotate for 180 degrees, the clamped sensor shell 101 is placed in the rotating placing groove 3241, the shell gluing rotating motor 322 drives the fourth conveyor belt gear group 323 to rotate, so that the fourth conveyor belt gear group 323 drives the sensor shell 101 on the shell gluing rotating die 324 to rotate, the shell gluing cylinder 332 drives the shell gluing machine 334 on the shell gluing moving frame 333 to move to a specified position for gluing, and the glue is uniformly coated on the inner circle of the sensor shell 101;
and (IV) assembling a bearing and a rotating shaft: the bearing 102 enters the first horizontal conveying channel 4112 from the bearing feeding channel 4211, the bearing 102 is pushed into the front and rear conveying channels 4111 by the first pushing rod 422, and the bearing 102 is pushed to the lower part of the bearing and rotating shaft press-fitting assembly 44 by the second pushing rod 423; the rotating shaft 103 enters the linear groove 4361 through the horizontal conveying groove 4351 by passing the rotating shaft 103 through the rotating shaft material vibration disc, the rotating shaft feeding rotating cylinder 434 drives the rotating shaft feeding rotating plate 436 to rotate by 90 degrees, the linear groove 4361 is changed from a horizontal shape to a vertical shape, the rotating shaft feeding jacking rod 433 is driven by the rotating shaft feeding lifting cylinder 432 to jack upwards, and the rotating shaft feeding jacking rod 433 pushes the rotating shaft 103 upwards through the rotating shaft jacking through hole 4353 and the linear groove 4361; the rotating shaft feeding transfer block 4381 moves to the rotating shaft pipe 437, when the rotating shaft 103 is pushed upwards, the rotating shaft 103 is sucked by the rotating shaft feeding transfer block 4381, the rotating shaft 103 is transferred to the bearing and rotating shaft press-fitting assembly 44, and the bearing and rotating shaft press-fitting cylinder 442 drives the bearing and rotating shaft press-fitting lifting plate 443 to press down to press the rotating shaft 103 into the bearing 102; the bearing and rotating shaft assembly is primarily transferred into the sensor housing 101 through the bearing and rotating shaft transferring assembly 45, and the bearing and rotating shaft assembly is assembled into the sensor housing through the bearing and rotating shaft assembly assembling assembly 46; the rotating shaft 103 is sucked by the rotating shaft feeding transfer block 4381, and the rotating shaft 103 is transferred; the transfer is performed in a manipulator manner through a bearing and rotating shaft transfer assembly 45; the bearing and rotating shaft assembly assembling unit 46 assembles the bearing and rotating shaft assembly into the sensor housing 101 through the bearing and rotating shaft assembly assembling cylinder 461;
and (V) assembling the turnover gluing bearing: the assembled sensor shell assembly is rotated for 180 degrees through a turnover device 5, and is horizontally conveyed through a second horizontal conveying and transferring device 6; glue is coated into the inner ring of the turned sensor shell 101 through a shell reverse gluing device 7, and a bearing 102 is installed into the turned sensor shell 101 through a bearing feeding and assembling device 8;
(VI) shaft sleeve feeding and assembling: the shaft sleeve is conveyed to the junction of the first linking front-back channel 9211 and the linking horizontal channel 9212 through the shaft sleeve feeding vibrator 91, the shaft sleeve rotating motor 922 is driven to ascend through the shaft sleeve rotating and lifting cylinder, the shaft sleeve rotating rod 923 is inserted into the shaft sleeve 104 through the bearing rotating hole 9214, the shaft sleeve rotating rod 923 is driven to rotate through the shaft sleeve rotating motor 922, so that the shaft sleeve 104 rotates, the shaft sleeve 104 is matched with the retainer ring 9216 and the retainer ring bearing 9217 to reduce the rotating resistance, and the fluency and the uniformity of the shaft sleeve 104 in the gluing process are improved; drive axle sleeve spreading machine 934 on the axle sleeve rubber coating removal frame 933 through axle sleeve rubber coating cylinder 932 and remove to axle sleeve 104 inner circle and carry out the rubber coating, after the rubber coating, drive axle sleeve push rod 943 through axle sleeve push cylinder 942 and promote axle sleeve 104 after the rubber coating to pushing away to linking up horizontal passage 9212 and second and linking up front and back passageway 9213 juncture to the right side, shift the equipment subassembly 95 through the axle sleeve and shift axle sleeve 104 and assemble to the pivot 103 in the sensor housing 101 on, discharging device shifts the ejection of compact with sensor equipment finished product through the manipulator.

Claims (8)

1. A shaft sleeve feeding and assembling device for sensor production is characterized by comprising a shaft sleeve feeding vibrator (91), a shaft sleeve connecting assembly (92), a shaft sleeve gluing assembly (93), a shaft sleeve pushing assembly (94) and a shaft sleeve transferring and assembling assembly (95); the shaft sleeve feeding vibrator (91) is arranged on the rack in the front-back direction, the shaft sleeve connecting assembly (92) is connected with the discharge end of the shaft sleeve feeding vibrator (91), the shaft sleeve connecting assembly (92) is used for supporting a shaft sleeve and driving the shaft sleeve to rotate, and the shaft sleeve connecting assembly (92) comprises a shaft sleeve connecting support (921), a shaft sleeve rotating motor (922) and a shaft sleeve rotating rod (923); the top of the shaft sleeve engagement support (921) is provided with a first engagement front-back channel (9211), an engagement horizontal channel (9212) and a second engagement front-back channel (9213); the linking horizontal channel (9212) is positioned between the first linking front-back channel (9211) and the second linking front-back channel (9213), the linking horizontal channel (9212) is communicated with the first linking front-back channel (9211) and the second linking front-back channel (9213), a bearing rotating hole (9214) is formed in the position, located at the junction of the linking horizontal channel (9212) and the first linking front-back channel (9211), of the shaft sleeve linking support (921), and a circular groove (9215) is further formed in the position, located at the junction of the linking horizontal channel (9212) and the first linking front-back channel (9211), of the shaft sleeve linking support (921); a retainer ring (9216) is arranged on the circular groove (9215), and a retainer ring bearing (9217) is sleeved above the retainer ring (9216); the shaft sleeve rotating motor (922) is arranged on the rack and located below the bearing rotating hole (9214), a shaft sleeve rotating lifting cylinder is arranged at the lower part of the shaft sleeve rotating motor (922), and the shaft sleeve rotating motor (922) is driven to move up and down for positioning through the shaft sleeve rotating lifting cylinder; the shaft sleeve rotating rod (923) is connected with a rotating shaft of the shaft sleeve rotating motor (922), and the shaft sleeve rotating rod (923) penetrates through the bearing rotating hole (9214) to be positioned in the shaft sleeve; the shaft sleeve gluing assembly (93) is arranged on one side of the shaft sleeve feeding vibrator (91), the shaft sleeve gluing assembly (93) is used for gluing an inner ring of a shaft sleeve, the shaft sleeve pushing assembly (94) is used for pushing out the glued shaft sleeve, and the shaft sleeve transferring and assembling assembly (95) is used for transferring and assembling the shaft sleeve.
2. The shaft sleeve feeding and assembling device for sensor production as claimed in claim 1, wherein an inclined groove (92141) is provided on the engagement horizontal channel (9212) at the right side of the bearing rotation hole (9214).
3. The shaft sleeve feeding and assembling device for sensor production according to claim 1, wherein the shaft sleeve gluing assembly (93) comprises a shaft sleeve gluing bracket (931), a shaft sleeve gluing cylinder (932), a shaft sleeve gluing moving frame (933) and a shaft sleeve gluing machine (934); axle sleeve rubber coating support (931) are located axle sleeve and link up subassembly (92) one side, and axle sleeve rubber coating support (931) slope sets up, axle sleeve rubber coating cylinder (932) set up the rear end at axle sleeve rubber coating support (931), the removal portion of axle sleeve rubber coating cylinder (932) passes axle sleeve rubber coating support (931) rear end and is connected with axle sleeve rubber coating removal frame (933), and axle sleeve rubber coating removal frame (933) removes the slide rail setting on axle sleeve rubber coating support (931) through the axle sleeve rubber coating, axle sleeve spreading machine (934) slope sets up on axle sleeve rubber coating removal frame (933).
4. The shaft sleeve feeding and assembling device for sensor production according to claim 1, wherein the shaft sleeve pushing assembly (94) comprises a shaft sleeve pushing bracket (941), a shaft sleeve pushing cylinder (942) and a shaft sleeve pushing rod (943); axle sleeve propelling movement support (941) are located axle sleeve linking support (921) left side, and axle sleeve propelling movement cylinder (942) set up on axle sleeve propelling movement support (941), and axle sleeve propelling movement pole (943) level sets up the removal portion at axle sleeve propelling movement cylinder (942), and axle sleeve propelling movement pole (943) are located linking horizontal channel (9212).
5. The shaft sleeve feeding and assembling device for sensor production according to claim 1, wherein the shaft sleeve transferring and assembling assembly (95) is arranged in a front-back direction, and the shaft sleeve transferring and assembling assembly (95) clamps and transfers the shaft sleeve in a manipulator transferring manner and assembles the shaft sleeve onto a rotating shaft in the sensor housing through a shaft sleeve assembling cylinder.
6. A method for assembling a shaft sleeve for sensor production, which is characterized in that the shaft sleeve feeding and assembling device of claim 1 is used; the shaft sleeve feeding vibrator (91) is used for conveying the shaft sleeve to a junction of a first linking front-back channel (9211) and a second linking front-back channel (9212), a shaft sleeve rotating motor (922) is driven to ascend through a shaft sleeve rotating lifting cylinder, a shaft sleeve rotating rod (923) penetrates through a bearing rotating hole (9214) to be inserted into the shaft sleeve (104), the shaft sleeve rotating rod (923) is driven to rotate through the shaft sleeve rotating motor (922), the shaft sleeve (104) rotates, rotating resistance is reduced through matching of the shaft sleeve (104) with a retainer ring (9216) and a retainer ring bearing (9217), fluency and evenness of the shaft sleeve (104) in a gluing process are improved, a shaft sleeve gluing machine (934) on a shaft sleeve gluing moving frame (933) is driven to move to an inner ring of the shaft sleeve (104) through a shaft sleeve pushing cylinder (942) to push a shaft sleeve rod (943) to the right side to push the shaft sleeve (104) which is linked after gluing to the horizontal channel (9212) which is linked with the second linking front-back (9213) And at the boundary, the shaft sleeve (104) is transferred and assembled to a rotating shaft (103) in the sensor shell (101) through the shaft sleeve transfer assembly (95), and the discharging device transfers and discharges the sensor assembly finished product through a mechanical arm.
7. The automatic sensor production equipment is characterized by comprising a rack, a sensor shell feeding device (1), a first horizontal conveying and transferring device (2), a shell gluing device (3), a bearing and rotating shaft feeding and assembling device (4), a turnover device (5), a second horizontal conveying and transferring device (6), a shell reverse gluing device (7), a bearing feeding and assembling device (8), a discharging device and a shaft sleeve feeding and assembling device (9) according to claim 1.
8. The automated sensor production plant according to claim 1, wherein the sensor housing feeding device (1) is used for conveying the sensor housing onto the first horizontal conveyance transfer device (2), and the first horizontal conveyance transfer device (2) is used for horizontal conveyance; the shell gluing device (3) is used for gluing the inner ring of the shell of the sensor; the bearing and rotating shaft feeding assembly device (4) is used for inserting the rotating shaft into the bearing and installing the bearing and the rotating shaft into the sensor shell; the overturning device (5) is used for overturning the assembly of the sensor shell, the bearing and the rotating shaft by 180 degrees, and the second horizontal conveying and transferring device (6) is used for horizontally conveying the overturned assembly of the sensor shell, the bearing and the rotating shaft; the shell reverse side gluing device (7) is used for gluing the inner ring of the reverse side of the shell of the sensor; the bearing feeding and assembling device (8) is used for feeding and assembling another bearing into the inner ring on the reverse side of the sensor shell, the shaft sleeve feeding and assembling device (9) is used for feeding a shaft sleeve and sleeved on the rotating shaft, and the discharging device transfers and discharges a sensor assembling finished product through a mechanical arm.
CN202010591010.2A 2020-06-24 2020-06-24 Shaft sleeve feeding and assembling device and method for sensor production Withdrawn CN111822239A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202010591010.2A CN111822239A (en) 2020-06-24 2020-06-24 Shaft sleeve feeding and assembling device and method for sensor production

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202010591010.2A CN111822239A (en) 2020-06-24 2020-06-24 Shaft sleeve feeding and assembling device and method for sensor production

Publications (1)

Publication Number Publication Date
CN111822239A true CN111822239A (en) 2020-10-27

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Family Applications (1)

Application Number Title Priority Date Filing Date
CN202010591010.2A Withdrawn CN111822239A (en) 2020-06-24 2020-06-24 Shaft sleeve feeding and assembling device and method for sensor production

Country Status (1)

Country Link
CN (1) CN111822239A (en)

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN112705419A (en) * 2020-12-23 2021-04-27 海宁市丰达电子有限公司 Integrated into one piece machine that antenna end fast assembly used
CN112872772A (en) * 2021-01-18 2021-06-01 亿伟亚机电(深圳)有限公司 Bearing shaft sleeve press-fitting device and working method thereof

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN112705419A (en) * 2020-12-23 2021-04-27 海宁市丰达电子有限公司 Integrated into one piece machine that antenna end fast assembly used
CN112872772A (en) * 2021-01-18 2021-06-01 亿伟亚机电(深圳)有限公司 Bearing shaft sleeve press-fitting device and working method thereof
CN112872772B (en) * 2021-01-18 2023-03-10 亿伟亚机电(深圳)有限公司 Bearing shaft sleeve press-fitting device and working method thereof

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Application publication date: 20201027