CN212665395U - Throttle sleeve assembling machine for speed regulation connector - Google Patents

Abstract

The utility model discloses a speed regulation joint throttling sleeve assembling machine, which comprises a frame, wherein a carrier runner mechanism is arranged on the frame, a front end material poking mechanism, a throttling sleeve feeding mechanism for placing a throttling sleeve in a carrier, a first sealing ring feeding and assembling mechanism for assembling a regular special-shaped sealing ring on the throttling sleeve, and a retainer feeding mechanism for placing a retainer on the carrier are sequentially arranged along the carrier runner mechanism, the automatic assembling detection device comprises a holder riveting mechanism for riveting the holder, a seal ring and a throttling sleeve in place, a second seal ring feeding and assembling mechanism for assembling a reverse-differential seal ring on the throttling sleeve, a camera detection mechanism for detecting a finished product and a finished product discharging mechanism, and further comprises a lifting mechanism arranged at the front end and the tail end of a carrier runner mechanism.

Description

Throttle sleeve assembling machine for speed regulation connector

Technical Field

The utility model relates to a pneumatic joint trade, in particular to throttle sleeve kludge is connected in speed governing.

Background

In the pneumatic connector industry, when the throttling sleeve of the speed regulating connector is assembled, a regular special-shaped sealing ring, a retainer and a reversed special-shaped sealing ring need to be installed on the throttling sleeve, and subsequent detection needs to be carried out.

SUMMERY OF THE UTILITY MODEL

The utility model provides a technical problem provide an improve speed governing joint throttle sleeve kludge of equipment and detection efficiency.

The utility model provides a technical scheme that its technical problem adopted is: the speed regulation joint throttling sleeve assembling machine comprises a frame, wherein a carrier runner mechanism is arranged on the frame, a front-end material shifting mechanism, a throttling sleeve feeding mechanism for placing a throttling sleeve in a carrier, a first sealing ring feeding and assembling mechanism for assembling a normal special-shaped sealing ring on the throttling sleeve, a holder feeding mechanism for placing a holder on the carrier, a holder riveting mechanism for riveting the holder, the sealing ring and the throttling sleeve in place, a second sealing ring feeding and assembling mechanism for assembling an inverse special-shaped sealing ring on the throttling sleeve, a camera detection mechanism for detecting a finished product, a finished product blanking mechanism and lifting mechanisms arranged at the front end and the tail end of the carrier runner mechanism are sequentially arranged along the carrier runner mechanism.

Further, the method comprises the following steps: the carrier runner mechanism comprises an upper runner and a lower runner, wherein one side of the upper runner is provided with a plurality of positioning clamping jaws for positioning products on the carrier, the carrier runner mechanism also comprises a positioning cylinder for driving the positioning clamping jaws to move towards the direction of the products, the lower runner comprises a carrier placing plate and a backflow driving mechanism for driving the carrier placing plate to move, and positioning bulges for positioning the carrier are arranged on two sides of the carrier placing plate;

the lifting mechanism comprises a lifting seat, a lifting guide rail is arranged on the lifting seat, and the lifting mechanism further comprises a carrier supporting block arranged on the lifting guide rail and a lifting driving mechanism for driving the carrier supporting block to do lifting motion, wherein the carrier supporting block comprises a connecting part and supporting rods arranged at two ends of the connecting part, and a clamping groove for clamping the carrier is oppositely arranged in the middle of the supporting rods, so that the carrier placing plate can move to the position between the supporting rods at the two ends and clamp the carrier in the clamping groove.

Further, the method comprises the following steps: the front end material shifting mechanism comprises a material shifting frame arranged on the rack, a material shifting guide rail is arranged on the material shifting frame, a material shifting rod is arranged on the material shifting guide rail, and the front end material shifting mechanism further comprises a material shifting cylinder for driving the material shifting rod to slide along the material shifting guide rail.

Further, the method comprises the following steps: the throttling sleeve feeding mechanism comprises a first vibrating disc, a first straight vibrator is arranged at a discharge port of the first vibrating disc, a material staggering mechanism is arranged at a discharge end of the straight vibrator, and the throttling sleeve feeding mechanism further comprises a clamping jaw mechanism for grabbing the throttling sleeve, a first driving air cylinder for driving the clamping jaw mechanism to do lifting motion and a second driving air cylinder for doing horizontal motion;

the material staggering mechanism comprises a material staggering block, a groove for accommodating the throttling sleeve is arranged at the front end of the material staggering block, and a material staggering air cylinder for driving the material staggering block to move out of the first vibrator.

Further, the method comprises the following steps: first sealing washer material loading equipment mechanism includes second vibration dish, the discharge gate of second vibration dish is provided with the straight ware of shaking of second, the straight ware discharge gate of shaking of second is provided with the first platform of plugging into that is used for blockking first sealing washer, still including the first sealing washer that is used for taking first sealing washer struts the mechanism, still including the fourth driving cylinder that is used for driving first sealing washer strut the third that the mechanism is elevating movement and drives actuating cylinder and be horizontal motion.

Further, the method comprises the following steps: the device comprises a holder feeding mechanism, a holder clamping jaw, a first driving cylinder and a second driving cylinder, wherein the holder feeding mechanism comprises a third vibrating disc, a discharge port of the third vibrating disc is provided with a third straight vibrator, a discharge port of the third straight vibrator is provided with a second connection table used for blocking a second sealing ring, the device also comprises a mounting frame, the mounting frame is provided with the holder clamping jaw, a fifth driving cylinder used for driving the holder clamping jaw to do lifting motion and a sixth driving cylinder used for driving the holder clamping jaw to do horizontal motion, one side of the holder clamping jaw is also provided with a detection mechanism used for detecting the direction of the holder, one side of the second connection table is also provided with a;

the turnover mechanism comprises a product turnover placing table arranged on one side of the second connection table, a sliding table cylinder for driving the product turnover placing table to move up and down is arranged at the bottom of the product turnover placing table, and the turnover mechanism further comprises a turnover cylinder which is arranged on the mounting frame and used for clamping a turnover clamping jaw of the product and driving the turnover clamping jaw to move in a turnover mode.

Further, the method comprises the following steps: the riveting mechanism of the retainer comprises a riveting support, a positioning assembly clamping jaw used for positioning a product to be assembled is arranged on the riveting support, and a seventh driving cylinder used for driving the riveting mechanism and driving the riveting mechanism to do lifting motion is further arranged on the riveting support.

Further, the method comprises the following steps: second sealing washer material loading equipment mechanism includes fourth vibration dish, the discharge gate of fourth vibration dish is provided with the fourth straight oscillator, fourth straight oscillator discharge gate is provided with the third platform of plugging into that is used for blockking the second sealing washer, still including the second sealing washer that is used for taking the second sealing washer struts the mechanism, still drives actuating cylinder and the ninth that is the horizontal motion and drives actuating cylinder including being used for driving the eighth that second sealing washer struts the mechanism and be elevating movement.

Further, the method comprises the following steps: finished product unloading mechanism includes the unloading clamping jaw, still includes the tenth actuating cylinder that is used for driving the unloading clamping jaw to do elevating movement and the eleventh actuating cylinder that is horizontal motion, still includes the twelfth actuating cylinder that drives the eleventh actuating cylinder and do horizontal motion, still includes non-defective products storage box and the defective products storage box of setting in unloading clamping jaw below.

The utility model also discloses a speed regulation joint throttling sleeve assembling method, which comprises the speed regulation joint throttling sleeve assembling machine,

front end material stirring: initially, the material stirring rod is located at the position of the lifting mechanism, and when the lifting mechanism conveys the carrier to the material stirring rod, the material stirring cylinder drives the material stirring rod to move horizontally, so that the material stirring rod pushes the carrier into the upper layer runner;

feeding the throttling sleeve: the first vibrating plate screens and arranges the throttling sleeves and then flows into the first vibrator, the staggering cylinder pushes the staggering block to move horizontally to push out one throttling sleeve, then the first driving cylinder drives the clamping jaw mechanism to descend, the throttling sleeve is clamped by the clamping jaw mechanism, the first driving cylinder drives the clamping jaw mechanism to ascend, the second driving cylinder drives the first driving cylinder and the clamping jaw mechanism to advance, after the first driving cylinder drives the clamping jaw mechanism to descend after reaching the position of the carrier, the clamping jaw mechanism loosens the throttling sleeve, and the throttling sleeve is placed in the carrier.

And (3) loading and assembling a first sealing ring: the second vibrating disc screens and arranges first special-shaped sealing rings, the first special-shaped sealing rings flow into a second rectilinear vibrator and then enter a first connecting table, a third driving air cylinder drives a first sealing ring opening mechanism to descend, the first sealing ring opening mechanism takes materials for the special-shaped sealing rings, the third driving air cylinder drives the first sealing ring opening mechanism to ascend, a fourth driving air cylinder drives a third driving air cylinder and the first sealing ring opening mechanism to advance, after the special-shaped sealing rings reach the position of a carrier, the third driving air cylinder drives the first sealing ring opening mechanism to descend, the first sealing ring opening mechanism removes the special-shaped sealing rings, and the special-shaped sealing rings are assembled on a throttling sleeve;

feeding a retainer: the third vibration disc screens and arranges the holders, then the holders flow into a third vibrator and then enter a second connection table, and the optical fiber sensor detects whether the holders are placed reversely;

if the retainer is placed reversely, the retainer clamping jaw is driven by a fifth cylinder and a sixth cylinder to place the retainer on a product overturning and placing table, after the product is clamped by the overturning clamping jaw, the sliding table cylinder drives the product overturning and placing table to descend to avoid interference, the overturning cylinder drives the overturning clamping jaw to overturn the product, the sliding table cylinder drives the product overturning and placing table to ascend, the overturning clamping jaw places the product back to the product overturning and placing table, and the retainer clamping jaw is driven by the fifth cylinder and the sixth cylinder to place the retainer on a carrier;

if the retainer is not placed reversely, the retainer clamping jaw is driven by the fifth cylinder and the sixth cylinder to place the retainer on the carrier;

riveting the retainer: after the positioning assembly clamping jaw positions a product to be assembled, the seventh driving cylinder drives the riveting mechanism to descend to a riveting position to rivet and press the retainer in place;

and (3) loading and assembling a second sealing ring: the fourth vibration disc screens and arranges the second anti-deformed sealing rings, the first anti-deformed sealing rings flow into a fourth straight vibrator and then enter a third connection table, an eighth driving air cylinder drives a second sealing ring opening mechanism to descend, the second sealing ring opening mechanism takes materials for the anti-deformed sealing rings, the eighth driving air cylinder drives the second sealing ring opening mechanism to ascend, a ninth driving air cylinder drives an eighth driving air cylinder and the second sealing ring opening mechanism to advance, after the eighth driving air cylinder reaches the position of a carrier, the eighth driving air cylinder drives the second sealing ring opening mechanism to descend, the anti-deformed sealing rings are removed by the second sealing ring opening mechanism, and the anti-deformed sealing rings are assembled on a throttling sleeve;

camera detection: the camera detection mechanism detects whether the finished product is neglected to be installed or is damaged;

blanking of finished products: the tenth driving cylinder drives the blanking clamping jaw to grab the materials up and down, if the materials detected by the camera are good products, the eleventh driving cylinder drives the tenth driving cylinder and the blanking clamping jaw, and the blanking clamping jaw loosens the materials after the materials move to the upper part of the good product storage box;

carrier backflow: the carrier moves in the upper layer runner under the driving of the material shifting mechanism, when the carrier sequentially passes through each station, the carrier is positioned by the positioning air cylinder, the carrier is finally left on the lifting supporting block of the lifting mechanism, the lifting supporting block is driven by the lifting driving mechanism to move downwards, so that the carrier on the lifting supporting block is placed on the carrier placing plate, the carrier placing plate is driven by the backflow driving mechanism to move forwards until the carrier placing plate is sent to the lifting supporting block of the lifting mechanism at the starting end, the carrier is clamped by the clamping groove of the lifting supporting block, and the carrier is sent back to the upper layer runner by the lifting mechanism to reciprocate.

The utility model has the advantages that:

1. full-automatic assembly detection saves manpower, improves the productivity.

2. Better management and control product quality guarantees product quality's uniformity and reliability.

3. The operation is simple and the maintenance is convenient.

Drawings

FIG. 1 is a schematic view of a throttle sleeve assembly machine for a speed control joint.

Fig. 2 is a schematic view of a front-end kickoff mechanism.

Fig. 3 is a schematic view of a throttling sleeve feeding mechanism.

FIG. 4 is a schematic view of a first seal ring loading and assembling mechanism.

Fig. 5 is a schematic view of a carrier runner mechanism.

Fig. 6 is a schematic view of a cage feed mechanism.

Fig. 7 is a schematic view of a cage riveting mechanism.

FIG. 8 is a schematic view of a second seal ring loading and assembling mechanism.

Fig. 9 is a schematic view of a finished product blanking mechanism.

Fig. 10 is a schematic view of the elevating mechanism.

Labeled as:

a frame 1;

the front end material shifting mechanism 4, a material shifting frame 41, a material shifting guide rail 42, a material shifting rod 43 and a material shifting cylinder 44;

the device comprises a throttling sleeve feeding mechanism 5, a first vibration disc 501, a material staggering mechanism 502, a second driving air cylinder 503, a first driving air cylinder 504, a clamping jaw mechanism 505 and a first straight vibration device 506;

the device comprises a first sealing ring feeding and assembling mechanism 6, a second vibration disc 601, a first connecting table 602, a fourth driving cylinder 603, a third driving cylinder 604, a first sealing ring expanding mechanism 605 and a second straight vibration device 606;

the device comprises a carrier flow channel mechanism 7, an upper flow channel 701, a positioning clamping jaw 702, a lower flow channel 703, a carrier placing plate 704, a backflow driving mechanism 705 and a positioning protrusion 706;

the device comprises a retainer feeding mechanism 8, a third vibration disc 801, a second docking table 802, a sixth driving cylinder 803, an optical fiber sensor 804, a fifth driving cylinder 805, a retainer clamping jaw 806, a sliding table cylinder 807, a turnover cylinder 808 and a product turnover placing table 809;

the riveting mechanism 9 of the retainer, the riveting mechanism 901, the seventh driving cylinder 902 and the positioning and assembling clamping jaw 903;

a second seal ring feeding and assembling mechanism 10, a fourth vibration disc 101, a third docking table 102, a ninth driving cylinder 103, an eighth driving cylinder 104 and a second seal ring spreading mechanism 105;

a camera detection mechanism 11;

a finished product blanking mechanism 12, a twelve driving cylinder 1201, an eleven driving cylinder 1202, a tenth driving cylinder 1203, a blanking clamping jaw 1024, a good product storage box 1205 and a defective product storage box 1206;

the lifting mechanism 13, the lifting guide rail 1301, the connecting part 1302, the supporting rod 1303 and the clamping groove 1304;

Detailed Description

In order to make the above objects, features and advantages of the present invention more comprehensible, embodiments of the present invention are described in detail below with reference to the accompanying drawings. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein, as those skilled in the art will be able to make similar modifications without departing from the spirit and scope of the present invention.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

The speed regulation joint throttling sleeve assembling machine shown in fig. 1 comprises a machine frame 1, wherein a carrier runner mechanism 7 is arranged on the machine frame 1, a front-end material shifting mechanism 4, a throttling sleeve feeding mechanism 5 for placing a throttling sleeve in a carrier, a first sealing ring feeding and assembling mechanism 6 for assembling a regular special-shaped sealing ring on the throttling sleeve, a retainer feeding mechanism 8 for placing a retainer on the carrier, a retainer riveting mechanism 9 for riveting the retainer, the sealing ring and the throttling sleeve in place, a second sealing ring feeding and assembling mechanism 10 for assembling an inverse-differential sealing ring on the throttling sleeve, a camera detection mechanism 11 for detecting a finished product and a finished product blanking mechanism 12 are sequentially arranged along the carrier runner mechanism 7, the speed regulation joint throttling sleeve assembling machine further comprises lifting mechanisms 13 arranged at the front end and the tail end of the carrier runner mechanism 7, and the camera detection mechanism 11 is a CCD camera;

during operation, the carrier is dialled the drive of material mechanism 4 through the front end and is flowed through each station in proper order, throttle sleeve operation in proper order goes up, dress is just abnormal shape sealing washer operation, dress holder operation, the holder riveting operation, dress is turned over the operation of abnormal shape sealing washer, detect the finished product afterwards, after detecting the completion, carry out yields unloading and defective products unloading respectively, the carrier is reciprocal through the continuous backward flow of runner mechanism and elevating system 13, this structure can realize full automatic assembly and detect, use manpower sparingly, the productivity is improved, and the management and control product quality that can be better, guarantee product quality's uniformity and reliability.

On the basis, as shown in fig. 5 and 10, the carrier runner mechanism 7 includes an upper runner 701 and a lower runner 703, one side of the upper runner 701 is provided with a plurality of positioning clamping jaws 702 for positioning products on the carrier, and further includes a positioning cylinder for driving the positioning clamping jaws 702 to move toward the product direction, the lower runner 703 includes a carrier placing plate 704 and a backflow driving mechanism 705 for driving the carrier placing plate 704 to move, and positioning protrusions 706 for positioning the carrier are provided on two sides of the carrier placing plate 704;

the lifting mechanism 13 comprises a lifting seat, a lifting guide rail 1301 is arranged on the lifting seat, and the lifting mechanism further comprises a carrier support block arranged on the lifting guide rail 1301 and a lifting driving mechanism for driving the carrier support block to do lifting movement, wherein the carrier support block comprises a connecting part 1302 and support rods 1303 arranged at two ends of the connecting part 1302, and a clamping groove 1304 for clamping a carrier is oppositely arranged in the middle of each support rod 1303, so that the carrier placing plate 704 can move to a position between the support rods 1303 at the two ends and clamp the carrier in the clamping groove 1304;

during specific work, the carrier moves in the upper layer runner 701 under the driving of the material stirring mechanism, when sequentially passing through each station, the carrier is positioned by the positioning cylinder and finally stays on the lifting support block of the lifting mechanism 13, the lifting drive mechanism drives the lifting support block to move downwards, so that the carrier on the lifting support block falls on the carrier placing plate 704, the carrier placing plate 704 is driven by the backflow drive mechanism 705 to move forwards until the carrier placing plate 704 is sent to the lifting support block of the lifting mechanism 13 at the starting end, the carrier is clamped by the clamping groove 1304 of the lifting support block, and the lifting mechanism 13 sends the carrier back to the upper layer runner 701 so as to reciprocate.

On the basis, as shown in fig. 2, the front-end material shifting mechanism 4 includes a material shifting frame 41 arranged on the frame 1, a material shifting guide rail 42 is arranged on the material shifting frame 41, a material shifting rod 43 is arranged on the material shifting guide rail 42, and a material shifting cylinder 44 for driving the material shifting rod 43 to slide along the material shifting guide rail 42;

during specific work, initially, the material poking rod 43 is located at the position of the lifting mechanism 13, and when the lifting mechanism 13 sends the carrier to the material poking rod 43, the material poking cylinder 44 drives the material poking rod 43 to move horizontally, so that the material poking rod 43 pushes the carrier into the upper layer runner 701.

On the basis, as shown in fig. 3, the throttle sleeve feeding mechanism 5 includes a first vibration disc 501, a first linear vibrator 506 is disposed at a discharge port of the first vibration disc 501, a material staggering mechanism 502 is disposed at a discharge end of the linear vibrator, and the throttle sleeve feeding mechanism further includes a clamping jaw mechanism 505 for picking up the throttle sleeve, a first driving cylinder 504 for driving the clamping jaw mechanism 505 to perform lifting motion, and a second driving cylinder 503 for performing horizontal motion;

the material staggering mechanism 502 comprises a material staggering block, a groove for accommodating a throttling sleeve is arranged at the front end of the material staggering block, and a material staggering cylinder for driving the material staggering block to move out of the first vibrator 506;

during operation, the first vibration plate 501 screens and arranges the throttle sleeves, then the throttle sleeves flow into the first vibrator 506, the material staggering cylinder pushes the material staggering block to move horizontally to push out one throttle sleeve, then the first driving cylinder 504 drives the clamping jaw mechanism 505 to descend, the clamping jaw mechanism 505 clamps the throttle sleeves, the first driving cylinder 504 drives the clamping jaw mechanism 505 to ascend, the second driving cylinder 503 drives the first driving cylinder 504 and the clamping jaw mechanism 505 to advance, after the position of the carrier is reached, the first driving cylinder 504 drives the clamping jaw mechanism 505 to descend, the clamping jaw mechanism 505 releases the throttle sleeves, and the throttle sleeves are placed in the carrier.

On the basis, as shown in fig. 4, the first seal ring loading and assembling mechanism 6 includes a second vibration disc 601, a discharge port of the second vibration disc 601 is provided with a second linear vibrator 606, a discharge port of the second linear vibrator 606 is provided with a first connection table 602 for blocking the first seal ring, and further includes a first seal ring opening mechanism 605 for taking the first seal ring, and further includes a third driving cylinder 604 for driving the first seal ring opening mechanism 605 to perform a lifting motion and a fourth driving cylinder 603 for performing a horizontal motion;

during specific work, the second vibration disc 601 screens and arranges the first special-shaped sealing rings, the first special-shaped sealing rings flow into the second straight vibrator 606 and then enter the first connection table 602, the third driving cylinder 604 drives the first sealing ring opening mechanism 605 to descend, the first sealing ring opening mechanism 605 takes the materials of the special-shaped sealing rings, the third driving cylinder 604 drives the first sealing ring opening mechanism 605 to ascend, the fourth driving cylinder 603 drives the third driving cylinder 604 and the first sealing ring opening mechanism 605 to advance, after the carrier position is reached, the third driving cylinder 604 drives the first sealing ring opening mechanism 605 to descend, the special-shaped sealing rings are removed from the first sealing ring opening mechanism 605, and the special-shaped sealing rings are assembled on the throttling sleeve.

On the basis, as shown in fig. 6, the holder feeding mechanism 8 includes a third vibration disc 801, a discharge port of the third vibration disc is provided with a third straight vibration device, a discharge port of the third straight vibration device is provided with a second connection table 802 for blocking a second sealing ring, the holder feeding mechanism further includes a mounting frame, the mounting frame is provided with a holder clamping jaw 806, a fifth driving cylinder 805 for driving the holder clamping jaw 806 to perform a lifting motion and a sixth driving cylinder 803 for performing a horizontal motion, a detection mechanism for detecting the direction of the holder is further arranged on one side of the holder clamping jaw 806, a turnover mechanism is further arranged on one side of the second connection table 802, and the detection mechanism is an optical fiber sensor 804;

the turnover mechanism comprises a product turnover placing table arranged on one side of the second connection table 802, a sliding table cylinder 807 for driving the product turnover placing table 809 to do lifting motion is arranged at the bottom of the product turnover placing table, and the turnover mechanism further comprises a turnover clamping jaw for clamping a product and a turnover cylinder 808 for driving the turnover clamping jaw to do turnover motion, wherein the turnover clamping jaw is arranged on the mounting frame;

during specific work, the holders are screened and arranged by the third vibration disc, then flow into the third rectilinear vibration device and enter the second connection table 802, and the optical fiber sensor 804 detects whether the holders are placed reversely;

if the retainer is placed reversely, the retainer clamping jaw 806 is driven by a fifth cylinder and a sixth cylinder to place the retainer on a product overturning and placing table 809, after the product is clamped by the overturning clamping jaw, the sliding table cylinder 807 drives the product overturning and placing table 809 to descend to avoid interference, the overturning cylinder 808 drives the overturning clamping jaw to overturn the product, the sliding table cylinder 807 drives the product overturning and placing table 809 to ascend, the overturning clamping jaw places the product back to the product overturning and placing table 809, and the retainer clamping jaw 806 is driven by the fifth cylinder and the sixth cylinder to place the retainer on a carrier;

if the retainer is not placed reversely, the retainer clamping jaws 806 place the retainer on the carrier under the driving of the fifth air cylinder and the sixth air cylinder.

On the basis, as shown in fig. 7, the retainer riveting mechanism 9 includes a riveting support, a positioning assembly clamping jaw 903 for positioning a product to be assembled is arranged on the riveting support, and a riveting mechanism 901 and a seventh driving cylinder 902 for driving the riveting mechanism 901 to perform lifting movement are also arranged on the riveting support;

during specific work, after the positioning assembly clamping jaw 903 positions a product to be assembled, the seventh driving cylinder 902 drives the riveting mechanism 901 to descend to a riveting position to rivet and press the retainer in place.

On the basis, as shown in fig. 8, the second seal ring loading and assembling mechanism 10 includes a fourth vibration disc 101, a discharge port of the fourth vibration disc 101 is provided with a fourth linear vibrator, a discharge port of the fourth linear vibrator is provided with a third docking table 102 for blocking the second seal ring, a second seal ring stretching mechanism 105 for taking the second seal ring, an eighth driving cylinder 104 for driving the second seal ring stretching mechanism 105 to perform a lifting motion, and a ninth driving cylinder 103 for performing a horizontal motion;

during specific work, the fourth vibration disc 101 screens and arranges the second anti-deformed sealing rings, the first anti-deformed sealing rings flow into the fourth direct vibration device and then enter the third connection table 102, the eighth driving air cylinder 104 drives the second sealing ring opening mechanism 105 to descend, the second sealing ring opening mechanism 105 takes the anti-deformed sealing rings, the eighth driving air cylinder 104 drives the second sealing ring opening mechanism 105 to ascend, the ninth driving air cylinder 103 drives the eighth driving air cylinder 104 and the second sealing ring opening mechanism 105 to advance, after reaching the carrier position, the eighth driving air cylinder 104 drives the second sealing ring opening mechanism 105 to descend, the second sealing ring opening mechanism 105 removes the anti-deformed sealing rings, and the anti-deformed sealing rings are assembled on the throttling sleeve.

On the basis, as shown in fig. 9, the finished product blanking mechanism 12 includes a blanking clamping jaw 1204, a tenth driving cylinder 1203 for driving the blanking clamping jaw 1204 to perform a lifting motion, an eleventh driving cylinder 1202 for performing a horizontal motion, a twelfth driving cylinder 1201 for driving the eleventh driving cylinder 1202 to perform a horizontal motion, and a good product storage box 1205 and a bad product storage box 1206 which are arranged below the blanking clamping jaw 1204;

during specific work, the tenth actuating cylinder 1203 drives the unloading clamping jaw 1204 from top to bottom to snatch the material, if the camera detects the back material and is the yields, then the eleventh actuating cylinder 1202 drives ten actuating cylinders and unloading clamping jaw 1204, move the unloading clamping jaw 1204 and loosen the material behind the yields storage box 1205 top, if the camera detects the back material and is the defective products, then the twelfth actuating cylinder 1201 drives ten actuating cylinders and unloading clamping jaw 1204, move the unloading clamping jaw 1204 and loosen the material behind the defective products storage box 1206 top.

The utility model also discloses a speed governing joint throttle cover equipment method, including the aforesaid speed governing joint throttle cover kludge, the step is:

front end material stirring: initially, the material poking rod 43 is located at the position of the lifting mechanism 13, and when the lifting mechanism 13 sends the carrier to the material poking rod 43, the material poking cylinder 44 drives the material poking rod 43 to move horizontally, so that the material poking rod 43 pushes the carrier into the upper layer flow channel 701;

feeding the throttling sleeve: after the throttle sleeves are screened and arranged by the first vibration plate 501, the throttle sleeves flow into the first vibrator 506, the staggered material cylinder pushes the staggered material block to move horizontally to push out one throttle sleeve, then the first driving air cylinder 504 drives the clamping jaw mechanism 505 to descend, the throttle sleeve is clamped by the clamping jaw mechanism 505, the first driving air cylinder 504 drives the clamping jaw mechanism 505 to ascend, the second driving air cylinder 503 drives the first driving air cylinder 504 and the clamping jaw mechanism 505 to advance, after the throttle sleeve reaches the carrier position, the first driving air cylinder 504 drives the clamping jaw mechanism 505 to descend, the clamping jaw mechanism 505 loosens the throttle sleeve, and the throttle sleeve is placed in the carrier.

And (3) loading and assembling a first sealing ring: the second vibrating disk 601 screens and arranges the first special-shaped sealing rings, the first special-shaped sealing rings flow into the second rectilinear vibrator 606 and then enter the first connecting table 602, the third driving cylinder 604 drives the first sealing ring opening mechanism 605 to descend, the first sealing ring opening mechanism 605 takes the materials of the special-shaped sealing rings, the third driving cylinder 604 drives the first sealing ring opening mechanism 605 to ascend, the fourth driving cylinder 603 drives the third driving cylinder 604 and the first sealing ring opening mechanism 605 to advance, after the special-shaped sealing rings reach the carrier position, the third driving cylinder 604 drives the first sealing ring opening mechanism 605 to descend, the special-shaped sealing rings are removed from the first sealing ring opening mechanism 605, and the special-shaped sealing rings are assembled on the throttling sleeve;

feeding a retainer: the holders are screened and arranged by the third vibration disc, then flow into the third vibrator and enter the second connection table 802, and the optical fiber sensor 804 detects whether the holders are placed reversely;

if the retainer is placed reversely, the retainer clamping jaw 806 is driven by a fifth cylinder and a sixth cylinder to place the retainer on a product overturning and placing table 809, after the product is clamped by the overturning clamping jaw, the sliding table cylinder 807 drives the product overturning and placing table 809 to descend to avoid interference, the overturning cylinder 808 drives the overturning clamping jaw to overturn the product, the sliding table cylinder 807 drives the product overturning and placing table 809 to ascend, the overturning clamping jaw places the product back to the product overturning and placing table 809, and the retainer clamping jaw 806 is driven by the fifth cylinder and the sixth cylinder to place the retainer on a carrier;

if the retainer is not placed reversely, the retainer clamping jaws 806 place the retainer on the carrier under the driving of the fifth cylinder and the sixth cylinder;

riveting the retainer: after the positioning assembly clamping jaw 903 positions a product to be assembled, the seventh driving cylinder 902 drives the riveting mechanism 901 to descend to a riveting position to rivet and press the retainer in place;

and (3) loading and assembling a second sealing ring: the fourth vibration disc 101 screens and arranges the second anti-deformed sealing rings, the second anti-deformed sealing rings flow into a fourth straight vibration device and then enter a third connection table 102, an eighth driving air cylinder 104 drives a second sealing ring opening mechanism 105 to descend, the second sealing ring opening mechanism 105 takes the anti-deformed sealing rings, the eighth driving air cylinder 104 drives the second sealing ring opening mechanism 105 to ascend, a ninth driving air cylinder 103 drives the eighth driving air cylinder 104 and the second sealing ring opening mechanism 105 to advance, after reaching the carrier position, the eighth driving air cylinder 104 drives the second sealing ring opening mechanism 105 to descend, the second sealing ring opening mechanism 105 removes the anti-deformed sealing rings, and the anti-deformed sealing rings are assembled on a throttling sleeve;

camera detection: the camera detection mechanism 11 detects whether the finished product is neglected to be installed or is damaged;

blanking of finished products: the tenth driving cylinder 1203 drives the blanking clamping jaw 1204 to grab the material up and down, if the material detected by the camera is good, the eleventh driving cylinder 1202 drives the tenth driving cylinder and the blanking clamping jaw 1204, and the blanking clamping jaw 1204 loosens the material after the material moves to the upper part of the good material storage box 1205, and if the material detected by the camera is defective, the twelfth driving cylinder 1201 drives the tenth driving cylinder and the blanking clamping jaw 1204, and the blanking clamping jaw 1204 loosens the material after the material moves to the upper part of the defective material storage box 1206;

carrier backflow: the carriers move in the upper layer runner 701 under the driving of the material poking mechanism, when sequentially passing through each station, the carriers are positioned by the positioning air cylinders and finally left on the lifting support block of the lifting mechanism 13, the lifting drive mechanism drives the lifting support block to move downwards, so that the carriers on the lifting support block fall on the carrier placing plate 704, the backflow drive mechanism 705 drives the carrier placing plate 704 to move forwards until the carrier placing plate 704 is sent to the lifting support block of the lifting mechanism 13 at the starting end, the clamping grooves 1304 of the lifting support block clamp the carriers, and the lifting mechanism 13 sends the carriers back to the upper layer runner 701 so as to reciprocate.

The above-mentioned embodiments, further detailed description of the objects, technical solutions and advantages of the present invention, it should be understood that the above-mentioned embodiments are only specific embodiments of the present invention, and are not intended to limit the present invention, and any modifications, equivalent substitutions, improvements, etc. made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (9)

1. Speed governing connects throttle sleeve kludge, its characterized in that: the device comprises a rack (1), wherein a carrier flow channel mechanism (7) is arranged on the rack (1), a front-end material stirring mechanism (4), a throttling sleeve feeding mechanism (5) for placing a throttling sleeve in the carrier, a first sealing ring feeding and assembling mechanism (6) for assembling a normal special-shaped sealing ring on the throttling sleeve, a retainer feeding mechanism (8) for placing a retainer on the carrier, a retainer riveting mechanism (9) for riveting the retainer, the sealing ring and the throttling sleeve in place, a second sealing ring feeding and assembling mechanism (10) for assembling an inverse special-shaped sealing ring on the throttling sleeve, a camera detection mechanism (11) for detecting a finished product, a finished product blanking mechanism (12) and a lifting mechanism (13) arranged at the front end and the tail end of the carrier flow channel mechanism (7) are sequentially arranged along the carrier flow channel mechanism (7).

2. The throttle sleeve assembly machine for speed governing joints according to claim 1, characterized in that: the carrier runner mechanism (7) comprises an upper runner (701) and a lower runner (703), a plurality of positioning clamping jaws (702) used for positioning products on a carrier are arranged on one side of the upper runner (701), the carrier runner mechanism further comprises a positioning cylinder used for driving the positioning clamping jaws (702) to move towards the direction of the products, the lower runner (703) comprises a carrier placing plate (704) and a backflow driving mechanism (705) used for driving the carrier placing plate (704) to move, and positioning protrusions (706) used for positioning the carrier are arranged on two sides of the carrier placing plate (704);

elevating system (13) are including going up and down the seat, be provided with lifting guide (1301) on the lifting guide (1301), still including setting up carrier tray on lifting guide (1301) and the lift actuating mechanism that drive carrier tray is elevating movement, the carrier tray includes connecting portion (1302) and die-pin (1303) of setting at connecting portion (1302) both ends, be provided with draw-in groove (1304) of card carrier in the middle of die-pin (1303) relatively for the carrier is placed between board (704) can move die-pin (1303) to both ends and is blocked the carrier in draw-in groove (1304).

3. The throttle sleeve assembly machine for speed governing joints according to claim 1, characterized in that: the front-end material poking mechanism (4) comprises a material poking frame (41) arranged on the rack (1), a material poking guide rail (42) is arranged on the material poking frame (41), a material poking rod (43) is arranged on the material poking guide rail (42), and a material poking cylinder (44) for driving the material poking rod (43) to slide along the material poking guide rail (42).

4. The throttle sleeve assembly machine for speed governing joints according to claim 1, characterized in that: the throttling sleeve feeding mechanism (5) comprises a first vibrating disc (501), a first straight vibrator (506) is arranged at a discharge port of the first vibrating disc (501), a material staggering mechanism (502) is arranged at a discharge end of the straight vibrator, and the throttling sleeve feeding mechanism further comprises a clamping jaw mechanism (505) for grabbing the throttling sleeve, a first driving air cylinder (504) for driving the clamping jaw mechanism (505) to do lifting motion and a second driving air cylinder (503) for doing horizontal motion;

the material staggering mechanism (502) comprises a material staggering block, a groove for accommodating the throttling sleeve is arranged at the front end of the material staggering block, and the material staggering mechanism further comprises a material staggering cylinder for driving the material staggering block to move out of the first vibrator (506).

5. The throttle sleeve assembly machine for speed governing joints according to claim 1, characterized in that: first sealing washer material loading equipment mechanism (6) includes second vibration dish (601), the discharge gate of second vibration dish (601) is provided with second straight oscillator (606), second straight oscillator (606) discharge gate is provided with first platform (602) of plugging into that is used for blockking first sealing washer, still including the first sealing washer that is used for taking first sealing washer struts mechanism (605), still including being used for driving first sealing washer strut mechanism (605) and being elevating movement's third drive actuating cylinder (604) and fourth drive actuating cylinder (603) that are horizontal motion.

6. The throttle sleeve assembly machine for speed governing joints according to claim 1, characterized in that: the retainer feeding mechanism (8) comprises a third vibrating disc (801), a third straight vibrator is arranged at a discharge port of the third vibrating disc, a second connection table (802) used for blocking a second sealing ring is arranged at a discharge port of the third straight vibrator, the retainer feeding mechanism further comprises a mounting frame, a retainer clamping jaw (806) and a fifth driving cylinder (805) used for driving the retainer clamping jaw (806) to do lifting motion and a sixth driving cylinder (803) used for doing horizontal motion are arranged on the mounting frame, a detection mechanism used for detecting the direction of the retainer is further arranged on one side of the retainer clamping jaw (806), a turnover mechanism is further arranged on one side of the second connection table (802), and the detection mechanism is an optical fiber sensor (804);

the turnover mechanism comprises a product turnover placing table arranged on one side of the second connection table (802), a sliding table cylinder (807) for driving the product turnover placing table to do lifting motion is arranged at the bottom of the product turnover placing table (809), and the turnover mechanism further comprises a turnover cylinder (808) which is arranged on the mounting frame and used for clamping a turnover clamping jaw of a product and driving the turnover clamping jaw to do turnover motion.

7. The throttle sleeve assembly machine for speed governing joints according to claim 1, characterized in that: the retainer riveting mechanism (9) comprises a riveting support, a positioning assembly clamping jaw (903) used for positioning a product to be assembled is arranged on the riveting support, and a riveting mechanism (901) and a seventh driving cylinder (902) for driving the riveting mechanism (901) to do lifting motion are further arranged on the riveting support.

8. The throttle sleeve assembly machine for speed governing joints according to claim 1, characterized in that: second sealing washer material loading equipment mechanism (10) includes fourth vibration dish (101), the discharge gate of fourth vibration dish (101) is provided with the fourth straight oscillator, the fourth straight oscillator discharge gate is provided with third platform (102) of plugging into that is used for blockking the second sealing washer, still including the second sealing washer that is used for taking the second sealing washer struts mechanism (105), still including being used for driving second sealing washer strut mechanism (105) and being elevating movement's eighth drive actuating cylinder (104) and the ninth drive actuating cylinder (103) that is horizontal motion.

9. The throttle sleeve assembly machine for speed governing joints according to claim 1, characterized in that: finished product unloading mechanism (12) are including unloading clamping jaw (1204), still include the tenth actuating cylinder (1203) that is used for driving unloading clamping jaw (1204) to do elevating movement and eleventh actuating cylinder (1202) that is horizontal motion, still include that drive eleventh actuating cylinder (1202) do horizontal motion's twelfth actuating cylinder (1201), still including setting up good products storage box (1205) and defective products storage box (1206) in unloading clamping jaw (1204) below.

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