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CN-224227804-U - Photovoltaic micropore bored concrete pile pouring device

CN224227804UCN 224227804 UCN224227804 UCN 224227804UCN-224227804-U

Abstract

The utility model provides a pouring device for a photovoltaic microporous filling pile, which relates to the technical field of construction sites and comprises a bucket, wherein a threaded through hole is formed in the bottom end of the interior of the bucket, a connecting mechanism is arranged in the threaded through hole, a flow guiding mechanism is arranged at the bottom end of the connecting mechanism and used for adjusting and fixing the flow guiding mechanism, the flow guiding mechanism is used for guiding concrete, one end of the flow guiding mechanism is fixedly connected with a pouring mechanism which is used for pouring concrete at fixed points, a sealing mechanism is arranged in the interior of the bucket and used for sealing the bottom end of the bucket, the connection of the bucket with the connecting mechanism and the flow guiding structure is realized, the effect that the normal use of the bucket is influenced due to the operation of pouring photovoltaic micropores is avoided, further the condition that the pouring of the photovoltaic micropores is difficult to finish due to the use of the bucket due to the environmental factors of the construction site is avoided, and the effect of improving the accuracy of pouring points is achieved through the convenience of position adjustment of a flow guiding bag.

Inventors

  • LI FENGHUA
  • ZHANG SHENG
  • XU HONG
  • GUO XINWEI
  • SHI SHAOXUAN
  • WANG JUNWEI
  • YU LIMING
  • MA YIFEI
  • WANG YONGKUN
  • Shen Youkong
  • SU ZHUO
  • ZHANG HUAYONG
  • Xin Chengcheng
  • ZHANG HUIYONG
  • ZHANG YOUBIN
  • WANG JING
  • WU ZHIYONG
  • ZHANG ZHENHUA
  • MIN YONG

Assignees

  • 新疆华电天山发电有限公司
  • 中铁一局集团电务工程有限公司
  • 中铁一局集团有限公司

Dates

Publication Date
20260512
Application Date
20250530

Claims (8)

  1. 1. The pouring device for the photovoltaic microporous cast-in-place pile is characterized by comprising a bucket (1), wherein a threaded through hole (10) is formed in the bottom end of the interior of the bucket (1), a connecting mechanism (2) is arranged in the threaded through hole (10), a flow guiding mechanism (3) is arranged at the bottom end of the connecting mechanism (2), the connecting mechanism (2) is used for adjusting and fixing the flow guiding mechanism (3), and the flow guiding mechanism (3) is used for guiding concrete; One end of the flow guiding mechanism (3) is fixedly connected with a pouring mechanism (4), and the pouring mechanism (4) is used for pouring concrete at fixed points; The excavator bucket is characterized in that a sealing mechanism (6) is arranged in the excavator bucket (1), and the sealing mechanism (6) is used for sealing the bottom end of the excavator bucket (1).
  2. 2. The photovoltaic microporous cast-in-place pile pouring device according to claim 1, wherein the sealing mechanism (6) comprises a sealing chute (7) arranged at the bottom end inside the bucket (1), a sealing plate (8) is slidably arranged inside the sealing chute (7), one end of the sealing plate (8) is positioned on the outer wall of one side of the bucket (1), and a reinforcing beam (9) is fixedly connected to the top end of the sealing plate (8).
  3. 3. The photovoltaic microporous cast-in-place pile pouring device according to claim 1, wherein the connection mechanism (2) comprises a rotary drum (11) rotatably mounted in the threaded through hole (10), a connection pressing ring (12) is reversely rotatably mounted at the top end of the rotary drum (11), and the connection pressing ring (12) is installed at the top end of the threaded through hole (10) in a pressing mode.
  4. 4. The photovoltaic microporous cast-in-place pile pouring device according to claim 3, wherein the outer wall of the rotary drum (11) is fixedly connected with an adjusting push rod (5), the adjusting push rod (5) is integrally arranged in a shape of a Chinese character 'shan', and traction ropes (14) are sleeved on the outer walls of rod bodies at two sides of the adjusting push rod (5).
  5. 5. The photovoltaic microporous cast-in-place pile pouring device according to claim 4, wherein the diversion mechanism (3) comprises a diversion bag (13) fixedly connected to the bottom end of the rotary drum (11), the diversion bag (13) is integrally arranged in a trapezoid shape, traction frames (15) are fixedly connected to two sides of the diversion bag (13), the traction frames (15) are connected with traction ropes (14) in a fastening mode, and hanging buckles (21) are fixedly connected to the top end of the diversion bag (13).
  6. 6. The pouring device for the photovoltaic microporous filling pile according to claim 1, wherein the pouring mechanism (4) comprises a valve tube (16) communicated with one end of the guide bag (13), one end of the valve tube (16) is fixedly connected with a guide tube (17), and pull rings (18) are fixedly connected to two sides of the outer wall of the guide tube (17).
  7. 7. The photovoltaic microporous filling pile pouring device according to claim 2, wherein the reinforcing beam (9) is integrally T-shaped, a positioning pin hole is formed in the top surface of the reinforcing beam (9), a rope clamping groove is formed in one end of the reinforcing beam (9), a positioning pin seat (19) is fixedly connected to the outer wall of one side of the excavator bucket (1), a positioning pin rod (20) is rotatably arranged in the positioning pin seat (19), and one end of the positioning pin rod (20) penetrates through the positioning pin hole.
  8. 8. The photovoltaic microporous cast-in-place pile pouring device according to claim 5, wherein a supporting plate is fixedly connected to the inside of the bottom end of the guide bag (13), and the guide bag (13) is integrally made of waterproof canvas.

Description

Photovoltaic micropore bored concrete pile pouring device Technical Field The utility model relates to the technical field of construction site, in particular to a pouring device for a photovoltaic microporous cast-in-place pile. Background The photovoltaic power generation microporous filling pile is a foundation structure for supporting a photovoltaic panel bracket in a photovoltaic project. The construction process of the photovoltaic power generation microporous cast-in-place pile mainly comprises the steps of determining foundation layout, detecting foundation conditions, preparing pile positions for construction, drilling, casting pile concrete, positioning and measuring, pile top treatment, construction recording and the like. In the prior art, because photovoltaic project is generally installed in remote open air, receive the topography influence, some large-scale watering equipment gets into difficulty, transport concrete through the excavator bucket mostly, then use the pipe to pour into the concrete into and accomplish in the photovoltaic micropore and pour, this kind of watering mode, the general fixed welding of pipe, unable removal, need remove the vehicle, just can change the pipe position, be difficult to carry out fixed point watering to the concrete, produce easily and pour the skew, extravagant concrete, moreover need open pore in the excavator bucket bottom, influence the normal use of excavator. Therefore, we propose a photovoltaic microporous cast-in-place pile casting device. Disclosure of utility model The utility model aims to solve the defects in the prior art, and provides a pouring device for a photovoltaic microporous filling pile. The photovoltaic microporous filling pile pouring device comprises a bucket, wherein a threaded through hole is formed in the bottom end of the interior of the bucket, a connecting mechanism is arranged in the threaded through hole, a flow guiding mechanism is arranged at the bottom end of the connecting mechanism and used for adjusting and fixing the flow guiding mechanism, the flow guiding mechanism is used for guiding concrete, one end of the flow guiding mechanism is fixedly connected with a pouring mechanism which is used for pouring concrete at fixed points, and a sealing mechanism is arranged in the interior of the bucket and used for sealing the bottom end of the bucket. Preferably, the sealing mechanism comprises a sealing chute arranged at the bottom end inside the bucket, a sealing plate is slidably arranged inside the sealing chute, one end of the sealing plate is positioned on the outer wall of one side of the bucket, and the top end of the sealing plate is fixedly connected with a reinforcing beam. Preferably, the engagement mechanism comprises a rotary drum rotatably mounted in the threaded through hole, the top end of the rotary drum is reversely rotatably provided with an engagement pressing ring, and the engagement pressing ring is installed at the top end of the threaded through hole in a pressing manner. Preferably, the rotary drum outer wall fixedly connected with adjusts the push rod, it wholly is the setting of mountain-shaped to adjust the push rod, it is equipped with the haulage rope to adjust the outer wall cover of the body of rod of push rod both sides. Preferably, the water conservancy diversion mechanism includes fixed connection in the water conservancy diversion bag of rotary drum bottom, the water conservancy diversion bag is whole to be trapezoidal setting, the equal fixedly connected with traction frame in water conservancy diversion bag both sides, be connected with the tie-down between traction frame and the haulage rope, water conservancy diversion bag top fixedly connected with. Preferably, the filling mechanism comprises a valve pipe communicated with one end of the flow guide bag, one end of the valve pipe is fixedly connected with a flow guide pipe, and both sides of the outer wall of the flow guide pipe are fixedly connected with pull rings. Preferably, the stiffening beam is wholly T-shaped, and the stiffening beam top surface has seted up the location pinhole, rope draw-in groove has been seted up to stiffening beam one end, bucket one side outer wall fixedly connected with location key seat, the inside rotation of location key seat installs the locating pin pole, locating pin pole one end runs through in the location pinhole. Preferably, the whole trapezoidal setting that is of water conservancy diversion bag, just the inside fixedly connected with layer board in water conservancy diversion bag bottom, the water conservancy diversion bag is wholly made for waterproof canvas. The beneficial effects are that: 1. The utility model realizes the attachment of the excavator bucket, the connecting mechanism and the diversion structure, achieves the effect of avoiding the influence on the normal use of the excavator bucket due to the operation of pouring the photovoltaic micropores, and further avoids the conditi