A kind of glass steel septic tank baffle mounting mechanism

By combining a platform, positioning rod, and suction cup assembly, the problem of inaccurate positioning of the partition in fiberglass septic tanks is solved, enabling rapid, accurate positioning and vertical installation of the partition, which is suitable for fiberglass septic tanks of various specifications.

CN224394752UActive Publication Date: 2026-06-23CHONGQING CHANGLING NEW MATERIALS CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
CHONGQING CHANGLING NEW MATERIALS CO LTD
Filing Date
2025-07-24
Publication Date
2026-06-23

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    Figure CN224394752U_ABST
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Abstract

The utility model discloses a kind of glass steeling septic tank's baffle mounting mechanism, including rack, two parallel horizontal positioning rods are equipped between rack two sides vertical plate, positioning rod shaft middle part is equipped with positioning assembly, clamping cylinder between two sides positioning assembly, cylinder bottom is placed on supporting table assembly, supporting table assembly is vertically slidably connected with rack bottom plate, first end vertical plate is transversely slidably connected outer sleeve tube, outer sleeve tube lumen is slidably connected inner sleeve tube, inner sleeve tube end portion is connected sucker assembly by swivel joint, swivel joint is connected vacuum pump by spiral pipe line;The mechanism is fixed to septic tank cylinder by positioning assembly and tray assembly, then by the cooperation of sucker assembly and inner and outer sleeve tube, the baffle adsorbed is sent into cylinder for fast positioning, and the perpendicularity when baffle installation can be guaranteed, can be applicable to the cylinder assembly of various specifications, with the characteristics of simple operation, strong applicability.
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Description

Technical Field

[0001] This utility model relates to the technical field of septic tank production equipment, specifically to a partition installation mechanism for a fiberglass septic tank. Background Technology

[0002] Fiberglass septic tanks are wastewater treatment devices made of lightweight, high-strength, and corrosion-resistant fiberglass. Through their internal compartment design, they effectively collect and store wastewater, and perform preliminary anaerobic decomposition. Compared to traditional brick-and-mortar structures, their superior sealing completely prevents wastewater leakage and contamination of groundwater and soil. Simultaneously, their smooth inner walls are less prone to clogging, making maintenance simple. They offer advantages such as light weight, high strength, long lifespan, quick installation, and outstanding environmental performance, making them the preferred solution for decentralized wastewater treatment in suburban residences and villages. During the production process of fiberglass septic tanks, several partitions need to be embedded inside the wound cylinder for reinforcement and partitioning. These partitions are usually manually inserted and positioned within the cylinder, then repeatedly sealed with resin adhesive and fiberglass. Because the partitions are not adequately fixed to the cylinder, misalignment and tilting are prone to occur, affecting the final product quality. Therefore, a specialized positioning and installation device is needed to solve these problems. Utility Model Content

[0003] To address the aforementioned problems, this utility model proposes a partition installation mechanism for a fiberglass septic tank, comprising a frame, two parallel transverse positioning rods between two vertical plates on both sides of the frame, a positioning component in the middle of the positioning rod, a cylinder being clamped between the two positioning components, the bottom of the cylinder being placed on a support assembly, the support assembly being longitudinally slidably connected to the base plate of the frame, an outer sleeve being transversely slidably connected to the first vertical plate, an inner sleeve being slidably connected inside the outer sleeve, and a suction cup assembly being connected to the end of the inner sleeve via a rotary joint, the suction cup assembly being able to adsorb the partition, and a vacuum pump being connected to the rotary joint via a spiral pipeline.

[0004] Furthermore, the suction cup assembly includes a plate base, the plate base body is provided with a turntable, the end of the inner sleeve is inserted into the plate opening of the plate base and fastened with bolts, the air inlet of the rotary joint is embedded in the plate opening, the air inlet branch pipe is connected to the vacuum suction cup cylinder body, the cylinder body is evenly arranged around the plate base, the exhaust head of the rotary joint is embedded in the inner sleeve, and the exhaust head is connected to the spiral pipeline.

[0005] Furthermore, the spiral pipeline is built into the inner sleeve. The exhaust end of the spiral pipeline passes through the end slot of the inner sleeve and the waist groove of the outer sleeve, and finally connects to the inlet end of the vacuum pump. The vacuum pump body is mounted on the vertical plate. The end of the outer sleeve is equipped with a handle. The beginning of the outer sleeve is locked to the inner sleeve by bolts. The outer spline of the outer sleeve is laterally slidably connected to the inner spline hole opened on the vertical plate. The outer sleeve is located in the middle of the two positioning rods.

[0006] Furthermore, the positioning component includes a longitudinal adjustment screw, the body of which is threadedly connected to the central screw hole of the positioning block in the middle of the positioning rod. A handwheel is provided at the end of the longitudinal adjustment screw, and the head end of the longitudinal adjustment screw is rotatably connected to the center of the back of the clamp. Guide rods are provided on both sides of the back of the clamp, and the guide rods are slidably connected to the through holes on both sides of the positioning block. The soft rubber layer on the front of the clamp is in contact with the cylinder.

[0007] Furthermore, the support assembly includes a platform, the platform base is embedded in the longitudinal groove in the middle of the platform base plate, the bottom surface of the longitudinal groove is provided with several layers of pads, and the sides of the longitudinal groove are provided with raised grooves. The heads of positioning bolts are slidably connected in the raised grooves, and the rods of the positioning bolts pass through the through holes opened in the platform body and are tightened by nuts. The top support of the platform is in contact with the bottom of the cylinder.

[0008] The beneficial effects of this utility model are as follows: The tray assembly in this utility model can support the bottom of the fiberglass cylinder, and the two sides of the cylinder are clamped and fixed by the positioning assembly. Then, through the cooperation of the suction cup assembly and the inner and outer sleeves, the suction plate is sent into the cylinder for quick positioning. This ensures the verticality of the partition during installation and avoids misalignment and tilting during the glue application process. It is also applicable to the assembly of cylinders of various specifications, and has the characteristics of simple operation and strong applicability. Attached Figure Description

[0009] Figure 1 This is a front view structural diagram of the present utility model;

[0010] Figure 2 This is a schematic diagram of the suction cup assembly in this utility model;

[0011] Figure 3 This is a top view of the structure of this utility model.

[0012] The reference numerals in the attached drawings are explained as follows: 1. Stand; 101. Vertical plate; 102. Longitudinal groove; 103. T-groove; 2. Positioning rod; 201. Positioning block; 3. Cylinder; 4. Outer sleeve; 401. Waist groove; 402. Handle; 403. External spline; 5. Inner sleeve; 501. Groove opening; 6. Rotary joint; 7. Spiral pipeline; 8. Vacuum pump; 9. Disc base; 901. Turntable; 10. Vacuum suction cup; 11. Longitudinal adjustment screw; 1101. Handwheel; 12. Clamp; 1201. Guide rod; 13. Platform; 1301. Support; 14. Pad; 15. Positioning bolt; 16. Partition. Detailed Implementation

[0013] In the description of this utility model, it should be noted that the terms "center," "upper," "lower," "left," "right," "vertical," "horizontal," "inner," and "outer," etc., indicating the orientation or positional relationship, are based on the orientation or positional relationship shown in the accompanying drawings and are only for the convenience of describing this utility model and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation, and therefore should not be construed as a limitation on this utility model. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and should not be construed as indicating or implying relative importance.

[0014] In the description of this utility model, it should be noted that, unless otherwise explicitly specified and limited, the terms "installation," "connection," and "joining" should be interpreted broadly. For example, they can refer to a fixed connection, a detachable connection, or an integral connection; they can refer to a mechanical connection or an electrical connection; they can refer to a direct connection or an indirect connection through an intermediate medium; and they can refer to the internal connection of two components. Those skilled in the art can understand the specific meaning of the above terms in this utility model based on the specific circumstances.

[0015] The present invention will be further described below with reference to the accompanying drawings:

[0016] like Figures 1 to 3 As shown, a partition installation mechanism for a fiberglass septic tank includes a frame 1. Two parallel transverse positioning rods 2 are provided between the vertical plates 101 on both sides of the frame 1. A positioning component is provided in the middle of the positioning rod 2. The positioning component includes a longitudinal adjusting screw 11. The body of the longitudinal adjusting screw 11 is threadedly connected to the central screw hole of the positioning block 201 in the middle of the positioning rod 2. A handwheel 1101 is provided at the end of the longitudinal adjusting screw 11. The head end of the longitudinal adjusting screw 11 is rotatably connected to the center of the back of the clamp 12. Guide rods 1201 are provided on both sides of the back of the clamp 12. The guide rods 1201 are slidably connected to the through holes on both sides of the positioning block 201. The soft rubber layer on the front of the clamp 12 is attached to the cylinder 3. The bottom of the cylinder 3 is placed on the support assembly, which includes a platform 13. The base of the platform 13 is embedded in the longitudinal groove 102 in the middle of the base plate of the frame 1. The bottom surface of the longitudinal groove 102 is provided with several layers of pads 14. The longitudinal groove 102 has raised grooves 103 on both sides. The head of the positioning bolt 15 is slidably connected in the raised groove 103. The rod of the positioning bolt 15 passes through the through hole opened in the body of the platform 13 and is tightened by a nut. The support 1301 on the top surface of the platform 13 is in contact with the bottom of the cylinder 3.

[0017] In this embodiment, the inner spline hole on the first vertical plate 101 is laterally slidably connected to the outer spline 403 of the outer tube 4. The outer tube 4 is located in the middle of the two positioning rods 2. The end of the outer tube 4 is provided with a handle 402. The inner sleeve 5 is slidably connected inside the cavity of the outer tube 4. The first end of the outer tube 4 is locked to the inner sleeve 5 by bolts. The inner sleeve 5 is connected to the suction cup assembly via a rotary joint 6. The suction cup assembly includes a plate base 9, with a turntable 901 on the base. The inner sleeve 5 is inserted into the opening of the plate base 9 and secured with bolts. The air inlet of the rotary joint 6 is embedded in the opening. The air inlet branch pipe is connected to the cylinder of the vacuum suction cup 10, which is evenly arranged around the plate base 9. The exhaust head of the rotary joint 6 is embedded in the inner sleeve 5, and the air inlet and exhaust are rotatably connected with airtightness. The exhaust head is connected to a spiral pipeline 7, which is built into the inner sleeve 5. The exhaust end of the spiral pipeline 7 passes through the groove 501 at the end of the inner sleeve 5 and the waist groove 401 of the outer sleeve 4, and finally connects to the air inlet of the vacuum pump 8. The pump body of the vacuum pump 8 is mounted on the vertical plate 101. When the vacuum pump 8 is started, the vacuum suction cup 10 can adsorb the partition 16.

[0018] The working principle of this utility model is as follows:

[0019] According to the size of the cylinder 3, place several layers of pads 14 in the longitudinal groove 102, place the platform 13 on the pads 14, let the rods of each positioning bolt 15 in the convex groove 103 pass through the through hole of the pad 14, then place the cylinder 3 on the groove of the support 1301, adjust the platform 13 longitudinally so that the center of the cylinder opening of the cylinder 3 is roughly aligned with the outer sleeve 4, tighten the positioning bolts 15, and turn the handwheels 1101 on both sides to clamp the cylinder 3 with the clamp 12. Push the outer sleeve 4 using the handle 402 to deliver the suction cup assembly to the vicinity of the cylinder 3 opening. Lift the partition 16 until it is flush with the vacuum suction cup 10, ensuring the partition 16 is aligned with the cylinder opening. Activate the vacuum pump 8 to suction the partition 16. Rotate the suction cup assembly to adjust the process groove on the partition 16 to the target position. Then lock the plate seat 9 and continue pushing the handle 402 to deliver the partition 16 into the cylinder 3. If the length is insufficient, the inner sleeve 5 can be pulled out for supplementation. The inner and outer sleeves have graduated scales for auxiliary positioning. Once the partition 16 reaches the target position, lock the inner sleeve 5 and fill the gap between the partition 16 and the cylinder 3 with resin glue and fiberglass. After sealing, the vacuum suction cup 10 releases the partition 16, and the suction cup assembly is retracted back to the cylinder opening to suction the next partition 16 for installation. This invention can position the cylinder 3 and the partition 16, ensuring the verticality of the partition 16 when installed inside the cylinder and effectively avoiding misalignment and tilting. It is also applicable to the assembly of fiberglass septic tanks of various specifications, and features simple operation and strong applicability.

[0020] The foregoing has shown and described the basic principles, main features, and advantages of this utility model. Those skilled in the art should understand that this utility model is not limited to the above embodiments. The embodiments and descriptions in the specification are merely illustrative of the principles of this utility model. Various changes and modifications can be made to this utility model without departing from its spirit and scope, and all such changes and modifications fall within the scope of the claimed utility model.

Claims

1. A partition installation mechanism for a fiberglass septic tank, comprising a frame (1), characterized in that: Two parallel horizontal positioning rods (2) are provided between the vertical plates (101) on both sides of the frame (1). The positioning rods (2) are provided with positioning components in the middle of their bodies. The cylinder (3) is clamped between the positioning components on both sides. The bottom of the cylinder (3) is placed on the support assembly. The support assembly is longitudinally slidably connected to the bottom plate of the frame (1). The first vertical plate (101) is laterally slidably connected to the outer sleeve (4). The inner sleeve (5) is slidably connected inside the outer sleeve (4). The end of the inner sleeve (5) is connected to the suction cup assembly through the rotary joint (6). The suction cup assembly can adsorb the partition (16). The rotary joint (6) is connected to the vacuum pump (8) through the spiral pipeline (7).

2. The partition installation mechanism for a fiberglass septic tank according to claim 1, characterized in that: The suction cup assembly includes a plate base (9), the plate base (9) has a turntable (901) on its body, the end of the inner sleeve (5) is inserted into the plate opening of the plate base (9) and fastened with bolts, the air inlet of the rotary joint (6) is embedded in the plate opening, the air inlet branch pipe is connected to the cylinder of the vacuum suction cup (10), the cylinder is evenly arranged around the plate base (9), the exhaust head of the rotary joint (6) is embedded in the inner sleeve (5), and the exhaust head is connected to the spiral pipeline (7).

3. The partition installation mechanism for a fiberglass septic tank according to claim 1, characterized in that: The spiral pipeline (7) is built into the inner sleeve (5). The exhaust end of the spiral pipeline (7) passes through the end slot (501) of the inner sleeve (5) and the waist groove (401) of the outer sleeve (4) and finally connects to the air inlet of the vacuum pump (8). The pump body of the vacuum pump (8) is installed on the vertical plate (101). The end of the outer sleeve (4) is provided with a handle (402). The head of the outer sleeve (4) is locked to the inner sleeve (5) by bolts. The outer spline (403) of the outer sleeve (4) is laterally slidably connected to the inner spline hole opened on the vertical plate (101). The outer sleeve (4) is located in the middle of the two positioning rods (2).

4. The partition installation mechanism for a fiberglass septic tank according to claim 1, characterized in that: The positioning assembly includes a longitudinal adjustment screw (11), the body of the longitudinal adjustment screw (11) is threadedly connected to the central screw hole of the positioning block (201) in the middle of the positioning rod (2), a handwheel (1101) is provided at the end of the longitudinal adjustment screw (11), the head end of the longitudinal adjustment screw (11) is rotatably connected to the center of the back of the clamp (12), guide rods (1201) are provided on both sides of the back of the clamp (12), the guide rods (1201) are slidably connected to the through holes on both sides of the positioning block (201), and the soft rubber layer on the front of the clamp (12) is attached to the cylinder (3).

5. The partition installation mechanism for a fiberglass septic tank according to claim 1, characterized in that: The support assembly includes a platform (13), the base of which is embedded in the longitudinal groove (102) in the middle of the base plate of the frame (1). The bottom surface of the longitudinal groove (102) is provided with several layers of pads (14). The longitudinal groove (102) has convex grooves (103) on both sides. The head of the positioning bolt (15) is slidably connected in the convex groove (103). The rod of the positioning bolt (15) passes through the through hole opened in the body of the platform (13) and is tightened by a nut. The support seat (1301) on the top surface of the platform (13) is attached to the bottom of the cylinder (3).