CN212522922U - Rubber ball air eliminator - Google Patents

Abstract

The utility model discloses a rubber ball air eliminator, a serial communication port, press from both sides including base, support, multistation rotary disk, and get air elimination mechanism, install the support on the base, the top of support is supported and is connected the multistation rotary disk, the equipartition has a plurality of stations around the bottom of multistation rotary disk, install in every station department of multistation rotary disk press from both sides and get air elimination mechanism. The utility model discloses a semi-automatization operation reduces artifical intensity of labour, has solved current rubber ball air eliminator and has dispelled the gas inefficiency phenomenon in the operation of dispelling the gas.

Description

Rubber ball air eliminator

Technical Field

The utility model relates to a gluey ball production facility field especially relates to a gluey ball machine of qi that disappears.

Background

The existing sports balls mainly adopt rubber balls made of PVC materials or rubber materials, after the rubber balls are processed preliminarily, the rubber balls are required to be inflated to expand to set specifications and sizes for subsequent related detection, and then are subjected to degassing treatment for one-time packaging and transportation: the existing air elimination method is characterized in that an air needle is manually inserted into an air nozzle, a rubber ball is placed into a fixed clamp to be extruded to exhaust air in the rubber ball, and then the rubber ball with the air discharged is manually taken out. Therefore, a rubber ball air-eliminating device (air eliminator) capable of improving the rubber ball air-eliminating efficiency and reducing the labor intensity is urgently needed.

SUMMERY OF THE UTILITY MODEL

Based on the technical problem that the background art exists, the utility model provides a glue ball machine of disappearing for solve current glue ball machine of disappearing and disappear gas inefficiency in the operation of disappearing, problem that artifical intensity of labour is big.

The utility model adopts the technical proposal that:

the rubber ball degassing machine is characterized by comprising a base, a support, a multi-station rotating disk and a clamping degassing mechanism, wherein the support is installed on the base, the top of the support is connected with the multi-station rotating disk in a supporting mode, a plurality of stations are uniformly distributed on the periphery of the bottom of the multi-station rotating disk, and the clamping degassing mechanism is installed at each station of the multi-station rotating disk;

the clamping and air-removing mechanism comprises rubber ball clamping jaws, an air needle and a sheath double-acting cylinder, the sheath double-acting cylinder comprises an upper ball shifting cylinder and a lower ball clamping cylinder which are vertically stacked in the multi-station rotating disc, a piston rod of the upper ball shifting cylinder is used as a through inner rod, a piston rod of the lower ball clamping cylinder is used as an outer rod, the lower end of the outer rod penetrates through the multi-station rotating disc and extends downwards, the outer rod is sleeved on the through inner rod in a sliding mode, the lower end of the through inner rod is connected with the air needle, and the top of the through inner rod is connected with an air-removing pump; the outer side wall of the outer rod is connected with the rubber ball clamping jaw through an installation mechanism.

Further, a glueball air eliminator, characterized in that, be connected with four glueball jack catchs through installation mechanism respectively on the lateral wall of outer pole, four glueball jack catchs equipartition in outer pole is all around.

Further, a gluey ball gas dispersing machine, its characterized in that, installation mechanism includes mount pad, pull rod, jack catch connecting block, mount pad fixed mounting in on the lower terminal surface of multistation rotary disk, symmetry movable mounting has a pair ofly on the mount pad the pull rod, the other end symmetric connection of two pull rods in the middle part of jack catch connecting block, the both ends of jack catch connecting block respectively with the lateral wall of outer rod, the one end of gluey ball jack catch are connected.

Further, a gluey ball air eliminator, its characterized in that, the side wall of gluey ball jack catch is fitted with a contraceptive ring and is equipped with a plurality of anti-skidding recesses.

Further, a glue ball air eliminator, characterized in that, the support is a cylindrical stand, the top of stand pass through drive mechanism with the multistation rotary disk is connected.

Further, a rubber ball gas dispersing machine, a serial communication port, drive mechanism includes step motor, drive gear, outer tooth gyration support bearing coaxial coupling in the top of stand, outer tooth gyration support bearing's outer lane with stand fixed connection, outer tooth gyration support bearing's inner circle with multistation rotary disk fixed connection, step motor install in the inside of multistation rotary disk, step motor's output shaft runs through the multistation rotary disk and with drive gear transmission is connected, drive gear, outer tooth gyration support bearing mesh mutually.

Further, the rubber ball gas eliminator is characterized in that the number of stations on the multi-station rotating disc is two, and the stepping motor drives the multi-station rotating disc to rotate every time.

Further, a gluey ball machine of dispersing air, its characterized in that still includes the response door gear, the response door gear is including responding to door frame, response door base, safe infrared grating light curtain sensor, the response door frame is installed on the response door base, safe infrared grating light curtain sensor is installed relatively the response door frame is inboard.

Further, a rubber ball air eliminator, its characterized in that, the induction door base with the bottom of stand is connected.

Further, a rubber ball gas eliminator, characterized by still includes the PLC controller, the signal input part of PLC controller with safe infrared grating light curtain sensor is connected, the signal output part of PLC controller with step motor's motor controller, the controller of sheath double acting cylinder and the pump control connection that disappears.

The utility model has the advantages that:

the utility model discloses a semi-automatization operation reduces artifical intensity of labour, has solved current rubber ball air eliminator and has dispelled the gas inefficiency phenomenon in the operation of dispelling the gas.

The clamping and air-removing mechanism adopted by the utility model can clamp the rubber ball, remove air from the rubber ball and pull down the rubber ball after air removal; the utility model discloses a drive mechanism drives the multistation rotary disk and rotates fixed angle at every turn, under the cooperation of induction door, only need an operating personnel alright accomplish the work of the 8 stations of whole platform air eliminator, reduced latency, greatly increased work efficiency.

Drawings

Fig. 1 is a schematic view of the overall structure of the embodiment of the present invention.

Fig. 2 is a schematic view of an open state of a rubber ball claw of the clamping and degassing mechanism of the embodiment of the present invention.

Fig. 3 is a schematic view of a closing state of a rubber ball claw of the clamping and degassing mechanism according to the embodiment of the present invention.

Fig. 4 is an exploded schematic view of the clamping and degassing mechanism according to the embodiment of the present invention.

Fig. 5 is an enlarged view of fig. 4 at a.

Fig. 6 is a cross-sectional view of a jacket double acting cylinder according to an embodiment of the present invention.

Fig. 7 is an overall schematic view of the multi-station rotating disk according to the embodiment of the present invention.

Fig. 8 is an enlarged view of fig. 7 at B.

Fig. 9 is a plan view of an embodiment of the present invention.

In the figure: the device comprises a multi-station rotating disk 1, a base 2, a rubber ball claw 3, an air needle 4, an upper ball shifting cylinder 5, a lower ball clamping cylinder 6, a middle through inner rod 7, an outer rod 8, a mounting seat 9, a pull rod 10, a claw connecting block 11, an anti-skidding groove 12, an upright column 13, a stepping motor 14, a transmission gear 15, an external tooth rotary supporting bearing 16, an induction door frame 17, an induction door base 18 and a safe infrared grating light curtain sensor 19.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

Example 1.

As shown in fig. 1-9, a rubber ball degassing machine is characterized by comprising a base 2, a support, a multi-station rotating disc 1 and a clamping degassing mechanism, wherein the support is mounted on the base 2, the top of the support is connected with the multi-station rotating disc 1 in a supporting manner, a plurality of stations are uniformly distributed on the periphery of the bottom of the multi-station rotating disc 1, and the clamping degassing mechanism is mounted at each station of the multi-station rotating disc 1;

the clamping and air-removing mechanism comprises rubber ball clamping jaws 3, an air needle 4 and a sheath double-acting cylinder, the sheath double-acting cylinder comprises an upper ball shifting cylinder 5 and a lower ball clamping cylinder 6 which are vertically stacked in the multi-station rotating disk 1, a piston rod of the upper ball shifting cylinder 5 serves as a through inner rod 7, a piston rod of the lower ball clamping cylinder 6 serves as an outer rod 8, the lower end of the outer rod 8 penetrates through the multi-station rotating disk 1 and extends downwards, the outer rod 8 is slidably sleeved on the through inner rod 7, the lower end of the through inner rod 7 is connected with the air needle 4, and the top of the through inner rod 7 is connected with an air-removing pump; the outer side wall of the outer rod 8 is connected with four rubber ball clamping jaws 3 through an installation mechanism, and the four rubber ball clamping jaws 3 are uniformly distributed around the outer rod 8.

As shown in fig. 2, 3 and 4, the installation mechanism comprises an installation seat 9, pull rods 10, jaw connecting blocks 11, the installation seat 9 is fixedly installed on the lower end face of the multi-station rotating disk 1, a pair of pull rods 10 are symmetrically and movably installed on the installation seat 9, the other ends of the two pull rods 10 are symmetrically connected to the middle of the jaw connecting blocks 11, the two ends of the jaw connecting blocks 11 are respectively connected with the outer side wall of the outer rod 8 and one end of the rubber ball jaw 3, the rubber ball jaw 4 is in threaded connection with the jaw connecting blocks 11, and the side wall of the rubber ball jaw 3 is annularly provided with a plurality of anti-skidding grooves 12.

As shown in fig. 7 and 8, the bracket is a cylindrical upright column 13, and the top of the upright column 13 is connected with the multi-station rotating disc 1 through a transmission mechanism. The transmission mechanism comprises a stepping motor 14, a transmission gear 15 and an external tooth rotary supporting bearing 16, the external tooth rotary supporting bearing 16 is coaxially connected to the top of the upright post 13, the outer ring of the external tooth rotary supporting bearing 16 is fixedly connected with the upright post 13, the inner ring of the external tooth rotary supporting bearing 16 is fixedly connected with the multi-station rotating disk 1, the stepping motor 14 is installed inside the multi-station rotating disk 1, the output shaft of the stepping motor 14 penetrates through the multi-station rotating disk 1 and is in transmission connection with the transmission gear 15, and the transmission gear 15 and the external tooth rotary supporting bearing 16 are meshed with.

As shown in fig. 1, the number of stations on the multi-station rotating disc 1 is 8, and the stepping motor 14 drives the multi-station rotating disc 1 to rotate 45 ° each time. The induction door device comprises an induction door frame 17, an induction door base 18 and a safety infrared grating light curtain sensor 19, wherein the induction door frame 17 is installed on the induction door base 18, and the safety infrared grating light curtain sensor 19 is installed on the inner side of the induction door frame 17 relatively. The induction door base 18 is connected to the bottom of the pillar 13.

The safety infrared grating light curtain sensor is characterized by further comprising a PLC, the signal input end of the PLC is connected with the safety infrared grating light curtain sensor 19, and the signal output end of the PLC is connected with the motor controller of the stepping motor 14, the controller of the double-acting cylinder of the sheath and the air elimination pump.

The principle of the utility model is that:

the utility model discloses a press from both sides and get mechanism of breathing out can realize pressing from both sides tight, to the gluey ball breathing out and will breathe out gluey ball after down, its process as follows:

an operator installs a ball to be degassed under a rubber ball clamping jaw 3 of the # 1 clamping degassing mechanism;

the operator retracts the arm from the induction door;

the lower ball clamping cylinder 6 of the No. 1 sheath double-acting cylinder drives the outer rod 8 to retract, so that the rubber ball claw 3 can receive the claw to extrude the rubber ball, the air needle 4, the middle through inner rod 7, the air suction pump and an air suction part formed by connecting the air pipe and the electromagnetic valve can perform air suction, the stepping motor 14 rotates according to program control to enable the eight-station rotating disc to rotate by 45 degrees, and the No. 2 clamping air elimination mechanism moves to the front of the induction door;

an operator installs a ball to be degassed under a rubber ball clamping jaw 3 of the # 2 clamping degassing mechanism;

the operator withdraws the arm from the induction door

The lower ball clamping cylinder 6 of the No. 2 sheath double-acting cylinder drives the outer rod 8 to retract, so that the rubber ball claw 3 can receive the claw to extrude the rubber ball, the air needle 4, the middle through inner rod 7, the air suction pump and the air suction part formed by connecting the air pipe and the electromagnetic valve can perform air suction, the stepping motor 14 rotates according to program control to enable the eight-station rotating disc to rotate by 45 degrees, and the No. 3 clamping air elimination mechanism moves to the front of the induction door;

an operator installs a ball to be degassed under the rubber ball claw 3 of the 7# clamping degassing mechanism;

the operator withdraws the arm from the induction door

The lower ball clamping cylinder 6 of the 7# sheath double-acting cylinder drives the outer rod 8 to retract, so that the rubber ball claw 3 can receive the claw to extrude the rubber ball, the air needle 4, the middle through inner rod 7, the air suction pump and an air suction part formed by connecting the air pipe and the electromagnetic valve can perform air suction, the stepping motor 14 rotates according to program control to enable the eight-station rotating disc to rotate by 45 degrees, and the 8# clamping air-removing mechanism moves to the front of the induction door; the 1# rubber ball clamping jaw is opened, and the upper ball shifting cylinder 5 of the jacket double-acting cylinder drives the middle through inner rod 7 to be communicated with the air needle 4 to contract, so that the rubber ball which is completely inflated can fall off freely;

an operator installs a ball to be degassed under the rubber ball claw 3 of the No. 8 clamping degassing mechanism;

the operator retracts the arm from the induction door;

the lower ball clamping cylinder 6 of the 8# sheath double-acting cylinder drives the outer rod 8 to retract, so that the rubber ball claw 3 can receive the claw to extrude the rubber ball, the air needle 4, the middle through inner rod 7, the air suction pump and an air suction part formed by connecting the air pipe and the electromagnetic valve can perform air suction, the stepping motor 14 rotates according to program control to enable the eight-station rotating disc to rotate by 45 degrees, and the 1# clamping air-removing mechanism moves to the front of the induction door;

the above-mentioned action is an operation flow within one week, and then the action is repeated.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (10)

1. The rubber ball degassing machine is characterized by comprising a base (2), a support, a multi-station rotating disk (1) and a clamping degassing mechanism, wherein the support is installed on the base (2), the top of the support is connected with the multi-station rotating disk (1) in a supporting mode, a plurality of stations are uniformly distributed on the periphery of the bottom of the multi-station rotating disk (1), and the clamping degassing mechanism is installed at each station of the multi-station rotating disk (1);

the clamping and air-removing mechanism comprises rubber ball clamping jaws (3), an air needle (4) and a sheath double-acting cylinder, the sheath double-acting cylinder comprises an upper ball-pulling cylinder (5) and a lower ball-clamping cylinder (6) which are vertically stacked in the multi-station rotating disk (1), a piston rod of the upper ball-pulling cylinder (5) serves as a through inner rod (7), a piston rod of the lower ball-clamping cylinder (6) serves as an outer rod (8), the lower end of the outer rod (8) penetrates through the multi-station rotating disk (1) and extends downwards, the outer rod (8) is slidably sleeved on the through inner rod (7), the lower end of the through inner rod (7) is connected with the air needle (4), and the top of the through inner rod (7) is connected with an air-removing pump; the outer side wall of the outer rod (8) is connected with the rubber ball clamping jaw (3) through an installation mechanism.

2. The rubber ball gas eliminator according to claim 1, wherein the outer side wall of the outer rod (8) is connected with four rubber ball claws (3) through mounting mechanisms respectively, and the four rubber ball claws (3) are uniformly distributed around the outer rod (8).

3. The rubber ball gas eliminator according to claim 2, wherein the mounting mechanism comprises a mounting seat (9), pull rods (10) and a jaw connecting block (11), the mounting seat (9) is fixedly mounted on the lower end face of the multi-station rotating disk (1), the mounting seat (9) is symmetrically and movably mounted with a pair of the pull rods (10), the other ends of the two pull rods (10) are symmetrically connected to the middle of the jaw connecting block (11), and the two ends of the jaw connecting block (11) are respectively connected with the outer side wall of the outer rod (8) and one end of the rubber ball jaw (3).

4. A rubber ball air eliminator according to claim 3, wherein a plurality of anti-slip grooves (12) are annularly arranged on the side wall of the rubber ball claw (3).

5. A rubber ball degasser according to any of the claims 1-4, wherein said support is a cylindrical column (13), the top of said column (13) is connected to said multi-station rotating disc (1) through a transmission mechanism.

6. The rubber ball gas eliminator according to claim 5, wherein the transmission mechanism comprises a stepping motor (14), a transmission gear (15) and an external tooth rotary support bearing (16), the external tooth rotary support bearing (16) is coaxially connected to the top of the upright column (13), the outer ring of the external tooth rotary support bearing (16) is fixedly connected with the upright column (13), the inner ring of the external tooth rotary support bearing (16) is fixedly connected with the multi-station rotating disc (1), the stepping motor (14) is installed inside the multi-station rotating disc (1), the output shaft of the stepping motor (14) penetrates through the multi-station rotating disc (1) and is in transmission connection with the transmission gear (15), and the transmission gear (15) and the external tooth rotary support bearing (16) are meshed.

7. The glue ball degasser according to claim 6, wherein the number of stations on the multi-station rotating disc (1) is 8, and the stepping motor (14) drives the multi-station rotating disc (1) to rotate 45 degrees each time.

8. The glue ball gas eliminator according to claim 7, further comprising a sensing door device, wherein the sensing door device comprises a sensing door frame (17), a sensing door base (18) and a safety infrared grating light curtain sensor (19), the sensing door frame (17) is installed on the sensing door base (18), and the safety infrared grating light curtain sensor (19) is installed relatively inside the sensing door frame (17).

9. A rubber ball degasser as claimed in claim 8, wherein said induction door base (18) is attached to the bottom of said column (13).

10. The rubber ball degasser of claim 9, further comprising a PLC controller, wherein a signal input end of the PLC controller is connected to the safety ir grating light curtain sensor (19), and a signal output end of the PLC controller is connected to a motor controller of the stepping motor (14), a controller of the jacket double-acting cylinder, and a degasser pump.

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