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CN-117804687-B - Continuous hose extrusion leak hunting equipment

CN117804687BCN 117804687 BCN117804687 BCN 117804687BCN-117804687-B

Abstract

The application relates to the technical field of leakage detection equipment, and provides continuous hose extrusion leakage detection equipment which comprises a detection conveying belt, a feeding conveying belt, a blanking mechanism and an extrusion mechanism, wherein the detection conveying belt comprises a conveying belt part, a plurality of station bins are arranged on the periphery of the conveying belt part, and the station bins are used for placing hoses. The blanking mechanism is arranged close to the input end of the detection conveying belt and the output end of the feeding conveying belt and used for placing a hose transmitted by the feeding conveying belt into a station bin of the conveying belt piece, the extrusion mechanism comprises an extrusion part, the extrusion part is positioned above the detection conveying belt and is arranged in a vertically moving mode, and when the detection conveying belt conveys the hose in the station bin to be opposite to the extrusion part, the extrusion part moves downwards to extrude the hose in the station bin. The application has the effect of facilitating extrusion leakage detection of the packaged hose.

Inventors

  • LI YUGUANG
  • ZHOU KUNYAO
  • LAN LI
  • Hou Hanbiao

Assignees

  • 广州三拓识别技术有限公司

Dates

Publication Date
20260505
Application Date
20231229

Claims (8)

  1. 1. A continuous hose extrusion leak detection device comprises a detection conveyer belt (2), a feeding conveyer belt (3), a blanking mechanism (5) and an extrusion mechanism (6); The detection conveyor belt (2) comprises a conveyor belt piece (21), wherein a plurality of station bins (210) are arranged on the periphery of the conveyor belt piece (21), and the station bins (210) are used for placing hoses; The blanking mechanism (5) is close to the input end of the detection conveyor belt (2) and connected with the output end of the feeding conveyor belt (3) and is used for placing a hose sent out by the feeding conveyor belt (3) into a station bin (210) of the conveying belt piece (21); The extrusion mechanism (6) is arranged close to the detection conveyor belt (2), the extrusion mechanism (6) comprises an extrusion part, the extrusion part is arranged above the detection conveyor belt (2) and is arranged in a vertically moving way, and when the detection conveyor belt (2) conveys a hose in the station bin (210) to be opposite to the extrusion part, the extrusion part moves downwards to extrude the hose in the station bin (210); The detection conveying belt (2) further comprises a main beam (20), a driving wheel assembly (22) and a driven wheel assembly are respectively rotatably arranged at two ends of the main beam (20), a conveying belt piece (21) is wound on the driving wheel assembly (22) and the driven wheel assembly, the detection conveying belt (2) further comprises a driving assembly (23), the driving assembly (23) is in driving connection with the driving wheel assembly (22) and is used for driving the driving wheel assembly (22) to rotate, a plurality of first side plates (211) and second side plates (212) corresponding to the plurality of first side plates (211) are connected to the periphery of the conveying belt piece (21), the plurality of first side plates (211) and the plurality of second side plates (212) are sequentially staggered, and the corresponding first side plates (211) and second side plates (212) form a station bin (210); The conveyor belt member (21) comprises a first conveyor belt (213) and a second conveyor belt (214), the first side plate (211) is connected to the outer periphery of the first conveyor belt (213), and the second side plate (212) is connected to the outer periphery of the second conveyor belt (214); The driving wheel assembly (22) comprises a driving shaft (221) rotatably erected at the end part of the main beam (20), and the driving shaft (221) is provided with a first driving wheel (222), a second driving wheel (223) and a connection adjusting assembly (225); The first driving wheel (222) is coaxially fixed on the driving shaft (221), and the second driving wheel (223) is coaxially and rotatably connected on the driving shaft (221); The connection adjusting assembly (225) comprises a worm wheel seat (2251), a connection worm wheel (2253), a worm seat (2254) and a connection worm (2255), wherein the worm wheel seat (2251) is coaxially fixed on the driving shaft (221), an annular limiting groove (2252) is coaxially formed in the worm wheel seat (2251), the connection worm wheel (2253) is coaxially embedded in the annular limiting groove (2252), the connection worm wheel (2253) is connected with the second driving wheel (223) through a bolt, a connection gap is formed in the periphery of the worm wheel seat (2251), the connection gap is communicated with the annular limiting groove (2252), the worm seat (2254) is arranged on the connection gap, the worm seat (2254) is provided with an installation groove, the connection worm (2255) is rotatably connected with the groove wall of the installation groove, and the connection worm (2255) is meshed with the connection worm wheel (223); The driven wheel assembly comprises a driven shaft rotatably erected at the end part of the main beam (20), and the driven shaft is coaxially and rotatably connected with a first driven wheel and a second driven wheel; the first conveying belt (213) is wound around the first driving wheel (222) and the first driven wheel, and the second conveying belt (214) is wound around the second driving wheel (223) and the second driven wheel.
  2. 2. The continuous hose extrusion leak detection apparatus as set forth in claim 1, wherein the blanking mechanism (5) comprises a blanking bracket (51), a swinging plate (52) is rotatably connected to the blanking bracket (51), and a swinging driving member (521) for driving the swinging plate (52) to swing reciprocally is further arranged on the blanking bracket (51); An upper storage part (53) and a lower storage part (54) are sequentially arranged on one side, close to the feeding conveyor belt (3), of the swinging plate (52), the upper storage part (53) is lower than the feeding conveyor belt (3), and the lower storage part (54) is positioned above the detection conveyor belt (2); When the hose of the feeding conveyer belt (3) is transferred into the upper storage part (53), the upper storage part (53) is opened so that the hose of the upper storage part (53) falls into the lower storage part (54), when the hose is separated from the upper storage part (53), the upper storage part (53) is closed, when the swing driving piece (521) drives the swing plate (52) to swing until the lower storage part (54) is opposite to the station bin (210), the lower storage part (54) is opened so that the hose of the lower storage part (54) falls into the station bin (210), and when the hose is separated from the lower storage part (54), the lower storage part (54) is closed.
  3. 3. The continuous hose extrusion leak detection apparatus as set forth in claim 2, wherein the upper storage portion (53) includes two upper limiting plates (531), the bottom sides of the upper limiting plates (531) are upper open-close sides, the upper open-close sides of the two upper limiting plates (531) are abutted against each other so that the upper limiting plates (531) are V-shaped, and the upper open-close sides of the two upper limiting plates (531) are relatively movable; the lower storage part (54) comprises two lower limiting plates (541), the bottom sides of the lower limiting plates (541) are lower opening and closing sides, the lower opening and closing sides of the two lower limiting plates (541) are mutually abutted so that the two lower limiting plates (541) are in a V shape, and the lower opening and closing sides of the two lower limiting plates (541) can move relatively.
  4. 4. The continuous hose extrusion leakage detection equipment according to claim 1, wherein the extrusion mechanism (6) comprises an extrusion main support (61), the extrusion main support (61) is provided with a transverse linear module (62), the transverse linear module (62) is arranged in parallel with the detection conveyor belt (2), the transverse linear module (62) is in driving connection with a vertical linear module (63), the vertical linear module (63) is in driving connection with an extrusion auxiliary support (64), the extrusion part comprises a plurality of extrusion parts (60), the extrusion parts (60) comprise extrusion cylinders (601) which are vertically downwards arranged on the extrusion auxiliary support (64), and piston rod bottom ends of the extrusion cylinders (601) are connected with pressure heads (603); when the detection conveyer belt (2) conveys the hose in the station bin (210) to be opposite to the extrusion part (60), the vertical linear module (63) drives the extrusion auxiliary support (64) to drive the extrusion part (60) to move downwards, and the transverse linear module (62) drives the extrusion part (60) to synchronously move along with the opposite station bin (210) so as to extrude the hose in the station bin (210) through the extrusion part (60).
  5. 5. The continuous hose extrusion leakage detection device according to claim 4, wherein the worm seat (2254) is further provided with a clamping piece limiting rotation of the connecting worm (2255), the clamping piece comprises a clamping block (2256) arranged at the end of the worm seat (2254), one end of the clamping block (2256) is a connecting end, the connecting end of the clamping block (2256) is connected to the end of the worm seat (2254), a distance is reserved between the clamping block (2256) and the end of the worm seat (2254), a limiting hole (2257) is formed in the clamping block (2256), one end of the connecting worm (2255) is rotatably arranged through the limiting hole (2257), one end, far away from the connecting end, of the clamping block (2256) is further provided with a clamping bolt (2258), and one end of the clamping bolt (2258) is in threaded connection with the end of the worm seat (2254).
  6. 6. The continuous hose extrusion leakage detection device according to claim 1, further comprising a discharge conveyor belt (4), wherein a guide cover (24) is further arranged at the output end of the detection conveyor belt (2), the guide cover (24) is sleeved on the outer periphery of the end portion of the conveyor belt (21), the inner periphery of the guide cover (24) is matched with the outer periphery of the end portion of the conveyor belt (21), the inner periphery of the guide cover (24) is close to a bin opening of a station bin (210) at the end portion of the conveyor belt (21), and the discharge conveyor belt (4) is located below a bottom port of the guide cover (24).
  7. 7. The continuous hose extrusion leak detection equipment as set forth in claim 6, wherein a plurality of first loading plates (215) are connected to the periphery of the first conveyor belt (213) corresponding to the plurality of first side plates (211), the first side plates (211) are connected to the corresponding first loading plates (215), a plurality of supporting wheels (2151) are rotatably connected to the bottoms of the first loading plates (215), first limiting rails (203) are parallelly arranged on the upper surface of the main beam (20), and the supporting wheels (2151) are embedded into the first limiting rails (203).
  8. 8. The continuous hose extrusion leak detection equipment according to claim 6, wherein limit baffles (201) and guide plates (200) are respectively arranged on two opposite sides of the input end of the detection conveyor belt (2), the guide plates (200) are located between the blanking mechanism (5) and the extrusion mechanism (6), guide inclined planes are arranged on one sides of the guide plates (200) facing the limit baffles (201), the distance between one ends, close to the blanking mechanism (5), and one ends, far away from the blanking mechanism (5), of the guide inclined planes from the limit baffles (201) is gradually reduced, and guide notches (217) for the guide plates (200) to penetrate are formed in one ends, close to the guide plates (200), of the first side plates (211) and the second side plates (212).

Description

Continuous hose extrusion leak hunting equipment Technical Field The application relates to the field of leakage detection equipment, in particular to continuous hose extrusion leakage detection equipment. Background In the food, pharmaceutical and daily chemical industries, paste-like products are often packaged using hoses. In the related art, when the paste product is packaged, the paste product is generally poured into a hose by a filling machine, and then the tail end of the hose is sealed by a tail sealing machine, so that the packaging operation of the paste product is realized. In the process of sealing the tail of the hose, the condition that the tail of the hose is not tightly sealed is unavoidable, so that after the hose is packaged, the packaged hose is usually required to be inspected, and the hose with the not tightly sealed tail is timely screened out. At present, the inspection of the hose is carried out in a manual sampling inspection mode, and after a single hose sample is manually extracted and the hose is squeezed by hands, whether leakage occurs at the tail end of the hose is visually detected by the human. On the one hand, the inspection mode needs to be used for manually extruding the hose, so that the operation is inconvenient and the efficiency is low, on the other hand, the sampling inspection range is limited, and the partially leaked hose is easy to mix in the hose with perfect sealing, so that hidden danger exists in the quality of the whole product, and therefore, the improvement space exists. Disclosure of Invention In order to facilitate extrusion leakage detection of packaged hoses, the application provides continuous hose extrusion leakage detection equipment. The application provides continuous hose extrusion leakage detection equipment, which adopts the following technical scheme: a continuous hose extrusion leak detection device comprises a detection conveyer belt, a feeding conveyer belt, a blanking mechanism and an extrusion mechanism; the detection conveyor belt comprises a conveyor belt piece, wherein a plurality of station bins are arranged on the periphery of the conveyor belt piece, and the station bins are used for placing hoses; The blanking mechanism is close to the input end of the detection conveyor belt and connected with the output end of the feeding conveyor belt, and is used for placing a hose transmitted by the feeding conveyor belt into a station bin of the conveying belt piece; The extrusion mechanism is close to the detection conveyer belt, the extrusion mechanism comprises an extrusion part, the extrusion part is positioned above the detection conveyer belt and is arranged in a vertical movement mode, and when the detection conveyer belt conveys the hose in the station bin to be opposite to the extrusion part, the extrusion part moves downwards to extrude the hose in the station bin. Through adopting above-mentioned technical scheme, carry the hose that waits to detect to blanking mechanism back through feeding conveyer belt, put into the station storehouse that detects the conveyer belt through blanking mechanism with the hose, when conveying station storehouse to the extrusion plate portion with extrusion mechanism by detecting the conveyer belt and being relative, remove in order to extrude the hose in the station storehouse through extrusion portion downwardly, under the extrusion of extrusion portion, the paste in the hose that takes place to leak flows from the leakage department of hose, the hose after the extrusion is passed through the output that detects the conveyer belt and is passed out, follow-up again is chosen the hose that will take place to leak by the manual work. Compare traditional mode through artifical selective examination extrusion hose, on the one hand is favorable to realizing the batch extrusion to the hose, reduces the hose and leads to the condition that hidden danger appears in product quality because of the leak detection is not examined, simultaneously, is favorable to reducing the extruded degree of difficulty of hose for the extrusion leak hunting operation of hose is simpler convenient. Preferably, the detection conveyer belt further comprises a main beam, a driving wheel assembly and a driven wheel assembly are respectively rotatably arranged at two ends of the main beam, the conveying belt piece is wound on the driving wheel assembly and the driven wheel assembly, the detection conveyer belt further comprises a driving assembly, the driving assembly is in driving connection with the driving wheel assembly and used for driving the driving wheel assembly to rotate, a plurality of first side plates and second side plates corresponding to the first side plates are connected to the periphery of the conveying belt piece, the first side plates and the second side plates are sequentially staggered, and the corresponding first side plates and second side plates form a station bin. Through adopting above-mentioned technica