CN212372675U - Raceway cooling system of oil tank - Google Patents

Raceway cooling system of oil tank Download PDF

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Publication number
CN212372675U
CN212372675U CN202020821372.1U CN202020821372U CN212372675U CN 212372675 U CN212372675 U CN 212372675U CN 202020821372 U CN202020821372 U CN 202020821372U CN 212372675 U CN212372675 U CN 212372675U
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China
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double
track
conveying track
delivery track
jacking
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CN202020821372.1U
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Chinese (zh)
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唐德胜
唐前富
曹炎廷
屈万奎
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Chongqing Aofasi Intelligent Technology Co ltd
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Chongqing Aofasi Intelligent Technology Co ltd
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Abstract

The utility model discloses a raceway cooling system of oil tank, its characterized in that: including double-deck circulation delivery track, this double-deck circulation delivery track both ends all are connected with the track lift, a plurality of pallet along the orbital motion have been arranged on the double-deck circulation delivery track, be provided with hydraulic fluid port setting device on the double-deck circulation delivery track's the upper conveying track be provided with the wind passageway of collection double-deck circulation delivery track's top, hydraulic fluid port setting device is located double-deck circulation delivery track's upper conveying track's direction of motion front end, just the wind passageway of collection is located hydraulic fluid port setting device's rear, double-deck circulation delivery track's upper conveying track is provided with feed divider along the rear end of direction of motion. The beneficial effects of the utility model include: the automation degree is high, unmanned operation is realized, the working efficiency is high, and the working procedures are saved.

Description

Raceway cooling system of oil tank
Technical Field
The utility model relates to an oil tank processing equipment field, concretely relates to raceway cooling system of oil tank.
Background
The utility model provides a GCV oil tank is the plastics oil tank, generally through the blow molding after, need carry out the hydraulic fluid port cooling design, guarantees that the hydraulic fluid port shape is fixed, the follow-up processing of being convenient for, all adopts the manual work to get the material among the prior art, stereotypes, puts the air-cooler department and carries out the forced air cooling, its work efficiency is low, and workman intensity of labour is big, seriously influences the production progress.
Disclosure of Invention
To the weak point among the above-mentioned prior art, the utility model provides a raceway cooling system of oil tank, it realizes the automatic hydraulic fluid port of oil tank and stereotypes, and the rethread raceway cools off, and the product inspection realizes unmanned participation, and is efficient.
In order to achieve the above purpose, the utility model adopts the following technical scheme:
a raceway cooling system of an oil tank is characterized in that: including double-deck circulation delivery track, this double-deck circulation delivery track both ends all are connected with the track lift, a plurality of pallet along the orbital motion have been arranged on the double-deck circulation delivery track, be provided with hydraulic fluid port setting device on the double-deck circulation delivery track's the upper conveying track be provided with the wind passageway of collection double-deck circulation delivery track's top, hydraulic fluid port setting device is located double-deck circulation delivery track's upper conveying track's direction of motion front end, just the wind passageway of collection is located hydraulic fluid port setting device's rear, double-deck circulation delivery track's upper conveying track is provided with feed divider along the rear end of direction of motion.
Further, the upper conveying track of the double-layer circulating conveying track is provided with a feeding manipulator along one side of the front part of the moving direction, the upper conveying track of the double-layer circulating conveying track is provided with a material taking manipulator along one side of the rear part of the moving direction, and the feeding manipulator and the material taking manipulator are both provided with sucker assemblies for clamping oil tanks.
Furthermore, a feeding jacking device is arranged right below the oil port shaping device, and the feeding jacking device is located below the upper layer conveying track of the double-layer circular conveying track.
Further, the oil port shaping device comprises a shaping portal frame arranged on the double-layer circulating conveying track in a crossing mode, a guide rod air cylinder is arranged on the shaping portal frame, the moving direction of the guide rod air cylinder is vertically opposite to the double-layer circulating conveying track, and a shaping pressure head is connected to the front end of a cylinder rod of the guide rod air cylinder.
Furthermore, the feeding jacking device comprises a feeding jacking cylinder seat connected to the double-layer circulating conveying track, a feeding jacking cylinder moving vertically and upwards is arranged in the middle of the feeding jacking cylinder seat, the front end of a cylinder rod of the feeding jacking cylinder is connected with a lifting jacking plate through a first floating connecting seat, a feeding jacking plate is further arranged on the lifting jacking plate, a first lifting guide rod is connected to the lifting jacking plate and matched with a first guide sleeve on the feeding jacking cylinder seat for guiding, tool positioning pins are arranged on any group of opposite angles of the top surface of the feeding jacking plate, and positioning holes corresponding to the tool positioning pins are formed in the follow-up tray.
Further, the track lift includes a lifting rack, the lifting rack is provided with a vertical guide rail, a translation tray is arranged on the vertical guide rail, a lifting mechanism for driving the translation tray is arranged on the lifting rack, and the vertical movement stroke of the translation tray is equal to the height difference from the lower-layer conveying rail to the upper-layer conveying rail of the double-layer circulating conveying rail.
Further, the wind collecting channel is arranged on the upper layer conveying track of the double-layer circulating conveying track in a covering mode, the wind collecting channel extends along the movement direction of the upper layer conveying track, and a plurality of fans are arranged at the top of the ventilating channel.
Further, the material distributing device comprises a positioning portal frame and a material distributing jacking assembly, the positioning portal frame and the material distributing jacking assembly are vertically and oppositely installed on an upper layer conveying track of the double-layer circulating conveying track, the positioning portal frame is positioned above the material distributing jacking assembly, an installation size detection reference block is arranged at the top of the positioning portal frame, limit blocks are arranged on vertical plates on the left side and the right side of the positioning portal frame, the material distributing jacking assembly comprises a material distributing jacking cylinder seat connected on the double-layer circulating conveying track, a material distributing jacking cylinder which vertically moves upwards is arranged in the middle of the material distributing jacking cylinder seat, the front end of a cylinder rod of the material distributing jacking cylinder is connected with a lifting material distributing plate through a second floating connecting seat, the lifting material distributing plate is further provided with a material distributing jacking plate, and the lifting material distributing plate is connected with a second lifting guide rod, the second lifting guide rod is matched with a second guide sleeve on the material distributing jacking air cylinder seat for guiding, a second tooling positioning pin is arranged on any group of opposite angles of the top surface of the material distributing jacking plate, and a displacement sensor connected to the double-shaft cylinder is further arranged on the lifting material distributing plate.
Further, the pallet comprises a supporting plate, a fixed core is arranged on the supporting plate, a core removing separation sleeve is sleeved on the fixed core, a notch which is radially communicated is formed in the lower portion of the core removing separation sleeve, the lower portion of the core removing separation sleeve penetrates through the supporting plate and is limited on the supporting plate through the notch, and a stressed cover is arranged at the bottom of the core removing separation sleeve.
The beneficial effects of the utility model include: the automation degree is high, unmanned operation is realized, the working efficiency is high, and the working procedures are saved.
Drawings
Fig. 1 is a schematic structural diagram of the present invention;
fig. 2 is a schematic structural view of the oil port shaping device of the present invention;
fig. 3 is a schematic structural view of the feeding jacking device of the present invention;
fig. 4 is a schematic structural view of the rail elevator of the present invention;
fig. 5 is a schematic structural view of the wind collecting channel of the present invention;
fig. 6 is a schematic structural view of the material separating device of the present invention;
fig. 7 is a schematic structural view of the pallet of the present invention.
Detailed Description
The present invention will be described in further detail with reference to the following embodiments and accompanying drawings.
The raceway cooling system of the oil tank shown in figures 1-7 comprises a double-layer circulating conveying track 3, wherein two ends of the double-layer circulating conveying track 3 are both connected with track elevators 1, a plurality of follow-up trays 7 moving along the track are arranged on the double-layer circulating conveying track 3, and the track elevators 1 at the two ends are used for realizing the circulation of the follow-up trays 7 on the double-layer circulating conveying track 3. An oil port shaping device 4 is arranged on an upper-layer conveying track of the double-layer circulating conveying track 3, an air collecting channel 2 is arranged above the double-layer circulating conveying track 3, the oil port shaping device 4 is located at the front end of the upper-layer conveying track of the double-layer circulating conveying track 3 in the movement direction, and the air collecting channel 2 is located behind the oil port shaping device 4. And a material distribution device 8 is arranged at the rear end of the upper layer conveying track of the double-layer circulating conveying track 3 along the movement direction and is used for detecting the installation size of the oil tank product.
As shown in fig. 1, a feeding manipulator 5 is arranged on one side of the front portion of the upper layer conveying track of the double-layer circulating conveying track 3 along the moving direction, and is used for placing the blow-molded oil tank on a pallet 7. And a material taking manipulator 10 is arranged on one side of the rear part of the upper layer conveying track of the double-layer circulating conveying track 3 along the movement direction and is used for taking down the detected oil tank. And the feeding mechanical arm 5 and the material taking mechanical arm 10 are both provided with sucker assemblies for clamping oil tanks. The sucker assembly on the material taking manipulator 10 is a double-station sucker assembly and is used for distinguishing qualified parts from unqualified parts.
As shown in fig. 1, a feeding jacking device 6 is arranged right below the oil port shaping device 4, and the feeding jacking device 6 is located below the upper conveying track of the double-layer circular conveying track 3. When the oil tank placed on the pallet 7 moves to the lower part of the oil port shaping device 4 along the double-layer circular conveying track 3 during working, the blocking cylinder arranged on the double-layer circular conveying track 3 rises to prevent the pallet 7 from continuing to move, the oil tank is jacked up by the feeding jacking device 6, and then the oil port shaping is carried out on the oil tank by the oil port shaping device 4.
As shown in fig. 2, the oil port shaping device 4 in an embodiment of the present invention includes a shaping portal frame 41 straddling the double-layer circular conveying track 3, a guide rod cylinder 42 is disposed on the shaping portal frame 41, a moving direction of the guide rod cylinder 42 is vertically opposite to the double-layer circular conveying track 3, and a shaping pressure head 43 is connected to a front end of a rod of the guide rod cylinder 42.
As shown in fig. 3, the feeding jacking device 6 includes a feeding jacking cylinder seat 61 connected to the double-layer circulating conveying track 3, a feeding jacking cylinder 62 moving vertically and upwardly is arranged in the middle of the feeding jacking cylinder seat 61, a lifting jacking plate 64 is connected to the front end of a cylinder rod of the feeding jacking cylinder 62 through a first floating connecting seat 63, a feeding jacking plate 65 is further arranged on the lifting jacking plate 64, a first lifting guide rod 66 is connected to the lifting jacking plate 64, the first lifting guide rod 66 is guided in cooperation with a first guide sleeve 67 on the feeding jacking cylinder seat 61, tool positioning pins 68 are arranged on any group of opposite angles on the top surface of the feeding jacking plate 65, and positioning holes corresponding to the tool positioning pins 68 are arranged on the pallet 7.
As shown in fig. 4, the track lifting machine 1 includes a lifting frame 11, the lifting frame 11 is provided with two parallel vertical guide rails 12, a translation tray 13 is provided on the vertical guide rails 12 through a slider, a horizontally moving conveyor belt is provided on the translation tray 13, a lifting mechanism 14 for driving the translation tray 13 is provided on the lifting frame 11, and the lifting mechanism 14 may be a screw-nut mechanism driven by a motor, or may be a synchronous belt mechanism or a lifting cylinder. The vertical movement stroke of the translation tray 13 is equal to the height difference from the lower layer conveying track to the upper layer conveying track of the double-layer circular conveying track 3, and the translation tray is used for receiving the pallet 7 on the double-layer circular conveying track 3.
As shown in fig. 5 the utility model provides a wind collecting channel 2 establishes including covering on the upper conveying track of double-deck circulation conveying track 3 and along ventiduct 21 that upper conveying track direction of motion extends, ventiduct 21 top is provided with a plurality of fans 22. The oil tank realizes air cooling shaping through the air collecting channel 2.
As shown in fig. 6, the material distributing device 8 of the present invention includes a positioning portal frame 81 and a material distributing jacking assembly, the positioning portal frame 81 and the material distributing jacking assembly are vertically and rightly mounted on the upper layer conveying track of the double-layer circulating conveying track 3, the positioning portal frame 81 is located above the material distributing jacking assembly, the top of the positioning portal frame 81 is provided with a mounting dimension detecting reference block 82, the left and right side vertical plates of the positioning portal frame 81 are provided with limit blocks 83, the material distributing jacking assembly includes a material distributing jacking cylinder seat 84 connected to the double-layer circulating conveying track 3, the middle of the material distributing jacking cylinder seat 84 is provided with a material distributing jacking cylinder 85 moving vertically and upwards, the front end of the cylinder rod of the material distributing jacking cylinder 85 is connected to a lifting material distributing plate 87 through a second floating connecting seat 86, the lifting material distributing plate 87 is further provided with a material distributing jacking plate 88, the lifting distributing plate 87 is connected with a second lifting guide rod 89, the second lifting guide rod 89 is matched with a second guide sleeve 810 on the distributing jacking cylinder seat 84 for guiding, any group of diagonal angles on the top surface of the distributing jacking plate 88 are provided with second tooling positioning pins 811, and the lifting distributing plate 87 is further provided with a displacement sensor 813 connected to the double-shaft cylinder 812. The working principle is that the material distributing jacking assembly jacks up the oil tank on the pallet 7, the oil port mounting position at the top of the oil tank is positioned on the mounting dimension detection reference block 82, the double-shaft cylinder 812 drives the displacement sensor 813 to move upwards to contact with the bottom of the oil tank, and the elastic detection rod on the displacement sensor 813 is used for measuring whether the mounting dimension of the oil tank is qualified or not.
As shown in fig. 7, pallet 7 includes layer board 71, be provided with fixed core 72 on layer board 71, the cover is equipped with depoling separation cover 73 on fixed core 72, depoling separation cover 73 lower part has the breach that radially link up, depoling separation cover 73 lower part is passed layer board 71, and pass through the breach is spacing in on layer board 71, depoling separation cover 73 whereabouts under the natural state, makes fixed core 72's upper end exposes, and the oil tank location of being convenient for is on this design core 72, the bottom of depoling separation cover 73 is provided with atress lid 74. When the oil tank needs to be taken down, the depoling separation sleeve 73 moves upwards under the action of the material distributing jacking assembly to enable the positioning hole in the oil tank to be separated from the fixed mold core 72, and the oil tank can be taken down through the material taking manipulator 10.
The technical solutions provided by the embodiments of the present invention are described in detail above, and the principles and embodiments of the present invention are explained herein by using specific examples, and the descriptions of the above embodiments are only applicable to help understand the principles of the embodiments of the present invention; meanwhile, for a person skilled in the art, according to the embodiments of the present invention, there may be variations in the specific implementation manners and application ranges, and in summary, the content of the description should not be construed as a limitation to the present invention.

Claims (9)

1. A raceway cooling system of an oil tank is characterized in that: including double-deck circulation delivery track (3), this double-deck circulation delivery track (3) both ends all are connected with track lift (1), a plurality of pallet (7) along the orbiting have been arranged on double-deck circulation delivery track (3), be provided with hydraulic fluid port setting device (4) on the upper delivery track of double-deck circulation delivery track (3) the top of double-deck circulation delivery track (3) is provided with collection wind passageway (2), hydraulic fluid port setting device (4) are located the orbital direction of motion front end of upper delivery of double-deck circulation delivery track (3), just collection wind passageway (2) are located the rear of hydraulic fluid port setting device (4), the upper delivery track of double-deck circulation delivery track (3) is provided with feed divider (8) along the rear end of direction of motion.
2. A raceway cooling system for a fuel tank according to claim 1, wherein: the double-deck circulation delivery track (3) upper conveying track is provided with material loading manipulator (5) along the front portion one side of direction of motion, the upper conveying track of double-deck circulation delivery track (3) is provided with material taking manipulator (10) along rear portion one side of direction of motion, all be provided with the sucking disc subassembly of centre gripping oil tank on material loading manipulator (5) and material taking manipulator (10).
3. A raceway cooling system for a fuel tank according to claim 1, wherein: and a feeding jacking device (6) is arranged right below the oil port shaping device (4), and the feeding jacking device (6) is positioned below the upper conveying track of the double-layer circular conveying track (3).
4. A raceway cooling system for a fuel tank according to claim 3, wherein: the oil port shaping device (4) comprises a shaping portal frame (41) arranged on the double-layer circular conveying track (3) in a crossing mode, a guide rod air cylinder (42) is arranged on the shaping portal frame (41), the moving direction of the guide rod air cylinder (42) is vertically opposite to the double-layer circular conveying track (3), and a shaping pressure head (43) is connected to the front end of a cylinder rod of the guide rod air cylinder (42).
5. A raceway cooling system for a fuel tank according to claim 3, wherein: the feeding jacking device (6) comprises a feeding jacking cylinder seat (61) connected to the double-layer circular conveying track (3), a feeding jacking cylinder (62) which moves vertically upwards is arranged in the middle of the feeding jacking cylinder seat (61), the front end of a cylinder rod of the feeding jacking cylinder (62) is connected with a lifting jacking plate (64) through a first floating connecting seat (63), the lifting ejector plate (64) is also provided with a feeding ejector plate (65), the lifting ejector plate (64) is connected with a first lifting guide rod (66), the first lifting guide rod (66) is matched with a first guide sleeve (67) on the feeding jacking cylinder seat (61) for guiding, any group of opposite angles on the top surface of the feeding jacking plate (65) is provided with a tooling positioning pin (68), and the accompanying tray (7) is provided with a positioning hole corresponding to the tooling positioning pin (68).
6. A raceway cooling system for a fuel tank according to claim 1, wherein: track lift (1) includes elevator frame (11), elevator frame (11) set up vertical guide rail (12) be provided with translation tray (13) on vertical guide rail (12), be provided with the drive on elevator frame (11) elevating system (14) of translation tray (13), the vertical motion stroke of translation tray (13) equals the difference in height of the lower floor delivery track to the upper delivery track of double-deck circulation delivery track (3).
7. A raceway cooling system for a fuel tank according to claim 1, wherein: air collection channel (2) are established including the cover on the upper conveying track of double-deck circulation conveying track (3), and follow ventiduct (21) that upper conveying track direction of motion extends, ventiduct (21) top is provided with a plurality of fans (22).
8. A raceway cooling system for a fuel tank according to claim 1, wherein: the material distributing device (8) comprises a positioning portal frame (81) and a material distributing jacking assembly, the positioning portal frame (81) and the material distributing jacking assembly are vertically and oppositely installed on an upper layer conveying track of the double-layer circulating conveying track (3), the positioning portal frame (81) is positioned above the material distributing jacking assembly, an installation size detection reference block (82) is arranged at the top of the positioning portal frame (81), limit blocks (83) are arranged on vertical plates on the left side and the right side of the positioning portal frame (81), the material distributing jacking assembly comprises a material distributing jacking cylinder seat (84) connected to the double-layer circulating conveying track (3), a material distributing jacking cylinder (85) which vertically moves upwards is arranged in the middle of the material distributing jacking cylinder seat (84), and the front end of a cylinder rod of the material distributing jacking cylinder (85) is connected with a lifting material distributing plate (87) through a second floating connecting seat (86), the lifting distributing plate (87) is further provided with a distributing jacking plate (88), the lifting distributing plate (87) is connected with a second lifting guide rod (89), the second lifting guide rod (89) is matched with a second guide sleeve (810) on the distributing jacking cylinder seat (84) for guiding, any group of diagonal angles on the top surface of the distributing jacking plate (88) is provided with a second tooling positioning pin (811), and the lifting distributing plate (87) is further provided with a displacement sensor (813) connected to a double-shaft cylinder (812).
9. A raceway cooling system for a fuel tank according to claim 1, wherein: follow tray (7) are including layer board (71), be provided with on layer board (71) and decide core (72), it is equipped with depoling separation cover (73) to decide core (72) go up the cover, depoling separation cover (73) lower part has the breach that radially link up, depoling separation cover (73) lower part is passed layer board (71), and passes through the breach is spacing in on layer board (71), the bottom of depoling separation cover (73) is provided with atress lid (74).
CN202020821372.1U 2020-05-18 2020-05-18 Raceway cooling system of oil tank Active CN212372675U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202020821372.1U CN212372675U (en) 2020-05-18 2020-05-18 Raceway cooling system of oil tank

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202020821372.1U CN212372675U (en) 2020-05-18 2020-05-18 Raceway cooling system of oil tank

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CN202020821372.1U Active CN212372675U (en) 2020-05-18 2020-05-18 Raceway cooling system of oil tank

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2023015714A1 (en) * 2021-08-09 2023-02-16 海啊科技有限公司 Circulation cooling device for composite foot mat production workshop, and product collection method

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2023015714A1 (en) * 2021-08-09 2023-02-16 海啊科技有限公司 Circulation cooling device for composite foot mat production workshop, and product collection method

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