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CN-224211842-U - Conveying device for preventing flat bottles from being inverted

CN224211842UCN 224211842 UCN224211842 UCN 224211842UCN-224211842-U

Abstract

The utility model relates to the field of glass bottle conveying, in particular to a conveying device for preventing flat bottles from falling, which comprises a forming conveying mechanism, a transferring mechanism, a separating conveying mechanism and a guiding mechanism, wherein the separating conveying mechanism comprises a conveying belt and a plurality of buffer conveying belts which are arranged on a conveying table in parallel, the forming conveying mechanism is horizontally and vertically arranged on one side of the buffer conveying belt, the transferring mechanism comprises a conveying frame, a transferring unit used for transferring bottles on the forming conveying mechanism onto the separating conveying belt is connected onto the conveying frame in a sliding manner, the transferring unit comprises a vertical reciprocating driving mechanism and a pushing plate arranged on the vertical reciprocating driving mechanism, and the guiding mechanism comprises a guiding unit used for guiding the bottles on the buffer conveying belt onto the separating conveying belt and a splitting unit used for splitting the bottles. By implementing the scheme, round bottles can be conveyed and flat bottles can be conveyed.

Inventors

  • SHANGGUAN SHILIN
  • CHENG HU
  • HAN LAIJUN

Assignees

  • 重庆华彬伟玻璃有限公司

Dates

Publication Date
20260508
Application Date
20250605

Claims (9)

  1. 1. The conveying device for preventing the flat bottles from being inverted is characterized by comprising a forming conveying mechanism, a transferring mechanism, a separating conveying mechanism and a guiding mechanism, wherein the separating conveying mechanism comprises a conveying belt and a plurality of buffer conveying belts which are arranged on the conveying table in parallel, the forming conveying mechanism is horizontally and vertically arranged on one side of the buffer conveying belt, the transferring mechanism comprises a conveying frame, a transferring unit used for transferring the bottles on the forming conveying mechanism onto the separating conveying belt is connected onto the conveying frame in a sliding manner, the transferring unit comprises a vertical reciprocating driving mechanism and a pushing plate arranged on the vertical reciprocating driving mechanism, and the guiding mechanism comprises a guiding unit used for guiding the bottles on the buffer conveying belt onto the separating conveying belt and a splitting unit used for splitting the bottles.
  2. 2. The device for preventing bottles from falling down according to claim 1, wherein a fixing frame is further arranged between the vertical reciprocating driving mechanism and the push plate, an anti-falling plate is further arranged on the fixing frame, the anti-falling plate is arranged in parallel with the push plate, and a channel for a bottle body to pass through is reserved between the anti-falling plate and the push plate.
  3. 3. The device for preventing bottle falling according to claim 2, wherein the buffer conveyor belts are arranged in the same direction, and the upper surfaces of the buffer conveyor belt, the molding conveyor mechanism and the separating conveyor belt are flush.
  4. 4. A transport device for preventing bottles from falling down according to claim 3, wherein the guide unit comprises a transfer guide plate and a limit guide plate, the transfer guide plate is arranged above the separating conveyor and each buffer conveyor, and the transfer guide plate is obliquely arranged towards the direction of the separating conveyor and is used for guiding the bottles on the outermost buffer conveyor onto the separating conveyor one by one.
  5. 5. The device for preventing bottles from falling down according to claim 4, wherein the limit guide plate comprises an inclined plate and a straight plate, two ends of the inclined plate are respectively connected with the transfer guide plate and the straight plate, the inclined plate is obliquely arranged along the conveying direction of the separating conveyor belt, and the distance between the straight plate and one side of the separating conveyor belt, which is close to the buffer conveyor belt, is a diameter of a round bottle.
  6. 6. The device for preventing bottle falling according to claim 5, wherein a buffer stage is provided between the molding and conveying mechanism and the conveying stage.
  7. 7. The device for preventing bottles from falling according to claim 6, wherein the dividing unit comprises a dividing plate arranged on the conveying table, and two ends of the dividing plate are respectively arranged above the separating conveyor belt and the buffer conveyor belt.
  8. 8. The transport device for preventing bottles from falling out according to claim 7, wherein the dividing plate is located on a side of the inclined plate close to the transfer guide plate, and a distance between the dividing plate and the inclined plate is at least a sum of diameters of two round bottles.
  9. 9. The device for preventing bottles from falling down according to claim 8, wherein the inclined plate and the straight plate are respectively provided with an adjusting mechanism, the adjusting mechanism comprises a supporting seat fixed on the side edge of the conveying table, the supporting seat is horizontally and slidably connected with an adjusting shaft, the adjusting shaft is connected to the inclined plate and the straight plate, and the supporting seat is provided with a locking piece for fastening the adjusting shaft.

Description

Conveying device for preventing flat bottles from being inverted Technical Field The utility model relates to the field of glass bottle conveying, in particular to a conveying device for preventing flat bottles from falling. Background After the glass bottle is fired and molded, the glass bottle is required to be conveyed one by one in a row for air tightness detection, appearance detection, screw thread opening defect detection and the like, and packaging is carried out after detection is correct. In the prior art, more technology is related to whole row conveying, such as a conveying whole row device of patent publication No. CN 217295998U, which is used for whole row conveying of cleaned filled beverage bottles to a label sleeving area for processing, the mode can effectively achieve the aim of whole row conveying, but the mode belongs to the later whole row stage, the quantity to be whole row is controllable, in the scheme, the glass bottles are formed by batch firing, the production quantity is basically in a constant state, but later detection is carried out one by one, so a large number of glass bottles can be accumulated at an outlet of a forming area, and if abnormality occurs in the detection and packaging processes, the accumulation problem is more serious when the feeding time is slowed down. In order to solve the problem, the applicant has developed a "round bottle conveying device", which has a remarkable effect in saving the occupied space and relieving the conveying pressure when conveying round bottles, but has a large workload because the contact area between the flat bottles and the conveyor belts is small when conveying flat bottles, so that the bottle pouring phenomenon is serious in the process of mutual transfer and pushing between the conveyor belts, and therefore, special arrangement personnel are required to straighten the bottle pouring in the conveying process. However, if a production line for conveying flat bottles is separately designed, the space of a workshop is insufficient, and therefore, a conveying device capable of conveying both round bottles and flat bottles needs to be studied. Disclosure of utility model The utility model aims to provide a conveying device for preventing flat bottles from falling down, so as to provide a conveying device capable of conveying round bottles and flat bottles. The utility model adopts the following technical scheme that the conveying device for preventing the flat bottles from falling comprises a forming conveying mechanism, a transferring mechanism, a separating conveying mechanism and a guiding mechanism, wherein the separating conveying mechanism comprises a conveying belt and a plurality of buffer conveying belts which are horizontally and vertically arranged on a conveying table, the forming conveying mechanism is horizontally and vertically arranged on one side of the buffer conveying belt, the transferring mechanism comprises a conveying frame, the conveying frame is in sliding connection with a transferring unit for transferring the bottles on the forming conveying mechanism onto the separating conveying belt, the transferring unit comprises a vertical reciprocating driving mechanism and a pushing plate arranged on the vertical reciprocating driving mechanism, and the guiding mechanism comprises a guiding unit for guiding the bottles on the buffer conveying belt onto the separating conveying belt and a splitting unit for splitting the bottles. Preferably, as an improvement, a fixing frame is further arranged between the vertical reciprocating driving mechanism and the push plate, an anti-toppling plate is further arranged on the fixing frame, the anti-toppling plate is arranged in parallel with the push plate, and a channel for a bottle body to pass through is reserved between the anti-toppling plate and the push plate. Preferably, as an improvement, each buffer conveyor is arranged in the same direction, and the upper surfaces of the buffer conveyor, the forming conveyor and the separating conveyor are flush. Preferably, as an improvement, the guiding unit comprises a transferring guiding plate and a limiting guiding plate, the transferring guiding plate is arranged above the separating conveyor belt and each buffer conveyor belt, and the transferring guiding plate is obliquely arranged towards the direction of the separating conveyor belt and is used for guiding the bottle bodies on the outermost buffer conveyor belt to the separating conveyor belt one by one. Preferably, as an improvement, the limit guide plate comprises an inclined plate and a straight plate, two ends of the inclined plate are respectively connected with the transfer guide plate and the straight plate, the inclined plate is obliquely arranged along the conveying direction of the separation conveying belt, and the distance between the straight plate and one side, close to the buffer conveying belt, of the separation conveying belt is a round bottle diameter.