A high-efficiency condensate water recycling device for cold storage

By designing and installing a top beam, a motor-driven squeegee assembly, and a condensate recovery device with a water storage tank inside the cold storage, the problem of condensate dripping in the cold storage was solved, achieving efficient collection and utilization of condensate and improving the cleanliness of the storage environment.

CN224340455UActive Publication Date: 2026-06-09NINGXIA DELIAN COLD CHAIN TECHNOLOGY CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
NINGXIA DELIAN COLD CHAIN TECHNOLOGY CO LTD
Filing Date
2025-06-23
Publication Date
2026-06-09

AI Technical Summary

Technical Problem

The existing cold storage facilities lack effective condensate collection mechanisms, causing condensate dripping to affect the stored goods.

Method used

Design a condensate recovery device that includes a mounting beam, a motor, a reciprocating screw, a wiper assembly, and a water tank. The wiper assembly is driven by the motor to scrape off the condensate and collect it in the water tank.

Benefits of technology

It enables efficient collection and utilization of condensate, improving the quality of stored goods and the cleanliness of the environment in the cold storage.

✦ Generated by Eureka AI based on patent content.

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Abstract

This utility model discloses a high-efficiency condensate recovery and reuse device for cold storage, relating to the technical field of cold storage condensate collection devices. It includes a mounting beam with a mounting groove on its lower surface. A motor is fixedly mounted at the front end of the mounting beam, and the motor's output shaft extends into the mounting groove and is fixedly connected to a reciprocating screw. A mounting seat is threaded onto the surface of the reciprocating screw. Scraper assemblies are provided on both sides of the mounting beam. Through the scraper assemblies, when collecting condensate, the motor drives the reciprocating screw to rotate. Guided by a guide slider, the mounting seat moves the triangular scrapers on both sides via the rotation of the reciprocating screw. The movement of the triangular scrapers scrapes the condensate adsorbed on the inner wall of the cold storage into a collection frame. The condensate in the collection frame then flows into a water tank through a water passage for collection, thereby achieving the purpose of removing and collecting condensate and improving the quality of refrigerated goods in the cold storage.
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Description

Technical Field

[0001] This utility model relates to the technical field of cold storage condensate collection devices, and in particular to a device for efficient recycling and reuse of condensate in cold storage. Background Technology

[0002] Cold storage is a type of refrigeration equipment. It refers to an artificially created environment with different temperature and humidity than the outside world, used for the constant temperature and humidity storage of food, liquids, chemicals, pharmaceuticals, vaccines, and scientific experimental materials. Cold storage facilities are typically located near ports of transport or the point of origin. Compared to refrigerators, cold storage facilities have a larger refrigeration area and share the same refrigeration principle.

[0003] Currently, due to the large temperature difference between the inside and outside of cold storage, the inner ceiling of the cold storage is at a low temperature, which causes a large amount of condensate to condense on its inner ceiling. When the condensate accumulates to a certain level, it will drip down. The dripping condensate can easily affect freeze-dried foods, meat and other foods stored in the cold storage. Therefore, this application proposes a device for efficient recycling and reuse of condensate in cold storage. Utility Model Content

[0004] This utility model discloses a device for efficient recovery and reuse of condensate in cold storage, which aims to solve the technical problem of the lack of condensate collection mechanisms inside existing cold storage facilities.

[0005] To achieve the above objectives, the present invention adopts the following technical solution:

[0006] A device for efficient recycling and reuse of condensate in cold storage includes a mounting beam with a mounting groove on its lower surface. A motor is fixedly mounted at the front end of the mounting beam, and the output shaft of the motor extends into the interior of the mounting groove and is fixedly connected to a reciprocating screw. A mounting seat is threaded onto the surface of the reciprocating screw, and a scraper assembly is provided on both sides of the mounting beam.

[0007] The wiper assembly includes a triangular wiper blade and two water collection frames. The two water collection frames are respectively embedded in the front and back of the triangular wiper blade. A spacing adjustment mechanism is provided between the wiper assembly and the mounting base.

[0008] In a preferred embodiment, guide sliders are provided on both sides of the mounting base, and guide grooves for the guide sliders to slide are provided on both sides of the inner wall of the mounting groove.

[0009] By setting a guide slider, the mounting base can perform directional reciprocating motion through the rotation of the reciprocating screw under the guidance of the guide slider.

[0010] In a preferred embodiment, a silicone strip is embedded on the upper surface of the triangular scraper.

[0011] By adding silicone strips, the sealing performance of the triangular scraper when it contacts the top wall of the cold storage can be improved, thus enhancing its water-scraping effect.

[0012] In a preferred embodiment, the spacing adjustment mechanism includes a mounting cavity inside the mounting base. The lower surface of the mounting base has a rotating opening that extends through the mounting cavity. An operating rod is rotatably connected to the inner wall of the rotating opening. The upper end of the operating rod extends into the mounting cavity and is fixedly connected to a threaded rod. A threaded block is threadedly connected to the surface of the threaded rod. Sliding slots extending through the mounting cavity are provided on both sides of the mounting base. Support frames are fixedly installed on both sides of the threaded block through the sliding slots. The end of the support frame away from the threaded block is fixedly connected to the lower surface of the triangular scraper.

[0013] By using threaded rods and threaded blocks, the distance and gap between the triangular scraper and the top wall of the cold storage can be adjusted.

[0014] In a preferred embodiment, a water storage tank is embedded in the surface of the support frame, and a water passage communicating with the inside of the water storage tank is embedded in the inner bottom wall of both water collection frames. A water outlet pipe is provided on the lower surface of the water storage tank, and a sealing cap is threaded to the lower end of the water outlet pipe.

[0015] The water tank allows for the collection of condensate for later use.

[0016] In a preferred embodiment, mounting plates are fixedly installed at both the front and rear ends of the mounting beam, and the surface of the mounting plates is threaded with threaded holes, with mounting bolts threaded into the inner walls of the threaded holes.

[0017] As can be seen from the above, the high-efficiency condensate recovery and reuse device for cold storage provided by this utility model has the following technical effects.

[0018] Firstly, the mounting beam is installed on the inner top wall of the cold storage using mounting bolts and mounting plates. When collecting condensate, the motor drives the reciprocating screw to rotate. Guided by the guide slider, the mounting base can move the triangular scrapers on both sides through the rotation of the reciprocating screw. The movement of the triangular scrapers scrapes the condensate adsorbed on the inner top wall of the cold storage into the water collection frame. The condensate in the water collection frame then flows into the water storage tank through the water passage for collection, thereby achieving the purpose of removing and collecting condensate and improving the quality of refrigerated goods in the cold storage.

[0019] Secondly, rotating the operating lever drives the threaded rod to rotate, and the threaded block drives the triangular scrapers on both sides to move up and down in a directional direction under the rotation of the threaded rod. This adjusts the distance and gap between the triangular scrapers and the top wall of the cold storage, thereby adjusting the force of scraping condensate and further improving the practicality of the device. Attached Figure Description

[0020] Figure 1 This is a three-dimensional structural diagram of a device for efficient recovery and reuse of condensate water in cold storage, as proposed in this utility model.

[0021] Figure 2 This is a frontal cross-sectional schematic diagram of a high-efficiency condensate recovery and reuse device for cold storage proposed in this utility model.

[0022] Figure 3 This utility model proposes a high-efficiency condensate recovery and reuse device for cold storage. Figure 2 Enlarged structural diagram of point A.

[0023] Figure 4 This is a side sectional view of a device for efficient recovery and reuse of condensate water in cold storage, as proposed in this utility model.

[0024] Figure 5 This is a side sectional view of the water tank structure of a high-efficiency condensate recovery and reuse device for cold storage proposed in this utility model.

[0025] Figure 6 This utility model proposes a high-efficiency condensate recovery and reuse device for cold storage. Figure 5 Enlarged structural diagram at point B.

[0026] In the attached image:

[0027] 1. Install the top beam; 2. Motor; 3. Reciprocating lead screw; 4. Mounting bracket;

[0028] 5. Wiper assembly; 501. Triangular wiper blade; 502. Water collection frame;

[0029] 6. Guide slider; 7. Silicone strip; 8. Threaded rod; 9. Threaded block; 10. Support frame; 11. Water tank; 12. Water passage; 13. Water outlet pipe; 14. Mounting plate. Detailed Implementation

[0030] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present utility model. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments.

[0031] Reference Figures 1-6 A device for efficient recycling and reuse of condensate in cold storage includes a mounting beam 1, an installation groove on the lower surface of the mounting beam 1, a motor 2 fixedly mounted at the front end of the mounting beam 1, the output shaft of the motor 2 extending into the interior of the installation groove and fixedly connected to a reciprocating screw 3, a mounting seat 4 threadedly connected to the surface of the reciprocating screw 3, and a scraper assembly 5 on both sides of the mounting beam 1.

[0032] Guide sliders 6 are provided on both sides of the mounting base 4, and guide grooves for the guide sliders 6 to slide are provided on both sides of the mounting groove. Under the guidance of the guide sliders 6, the mounting base 4 can perform directional reciprocating motion by rotating the reciprocating screw 3.

[0033] The wiper assembly 5 includes a triangular wiper blade 501 and a water collection frame 502. There are two water collection frames 502, which are respectively embedded in the front and back of the triangular wiper blade 501. A spacing adjustment mechanism is provided between the wiper assembly 5 and the mounting base 4.

[0034] A silicone strip 7 is embedded on the upper surface of the triangular scraper 501. The silicone strip 7 can improve the sealing performance of the triangular scraper 501 when it is in contact with the top wall of the cold storage, thereby improving its water scraping effect.

[0035] Mounting plates 14 are fixedly installed at both the front and rear ends of the mounting beam 1. The surface of the mounting plate 14 has threaded holes, and the inner wall of the threaded holes is threaded with mounting bolts.

[0036] Reference Figure 2 and Figure 3 In a preferred embodiment, the spacing adjustment mechanism includes a mounting cavity inside the mounting base 4. The lower surface of the mounting base 4 has a rotating opening that extends through the mounting cavity. An operating rod is rotatably connected to the inner wall of the rotating opening. The upper end of the operating rod extends into the mounting cavity and is fixedly connected to a threaded rod 8. A threaded block 9 is threadedly connected to the surface of the threaded rod 8. Both sides of the mounting base 4 have sliding slots that extend through the mounting cavity. Both sides of the threaded block 9 are fixedly mounted with a support frame 10 through the sliding slots. The end of the support frame 10 away from the threaded block 9 is fixedly connected to the lower surface of the triangular scraper 501.

[0037] By setting the threaded rod 8 and the threaded block 9, the distance and gap between the triangular scraper 501 and the top wall of the cold storage can be adjusted.

[0038] A water storage tank 11 is embedded on the surface of the support frame 10. The inner bottom walls of the two water collection frames 502 are each embedded with a water passage 12 that communicates with the inside of the water storage tank 11. A water outlet pipe 13 is provided on the lower surface of the water storage tank 11. A sealing cap is threaded to the lower end of the water outlet pipe 13. The water storage tank 11 can be used to collect condensate for later use.

[0039] Working principle: The mounting beam 1 is installed on the inner top wall of the cold storage using mounting bolts and mounting plate 14. When collecting condensate, the motor 2 drives the reciprocating screw 3 to rotate. Under the guidance of the guide slider 6, the mounting base 4 can move the triangular scrapers 501 on both sides through the rotation of the reciprocating screw 3. The movement of the triangular scrapers 501 scrapes the condensate adsorbed on the inner top wall of the cold storage into the water collection frame 502. The condensate in the water collection frame 502 then flows into the water storage tank 11 through the water passage 12 for collection, thereby achieving the purpose of removing and collecting condensate. During this period, rotating the operating lever drives the threaded rod 8 to rotate. The threaded block 9 drives the triangular scrapers 501 on both sides to move up and down in a directional direction under the rotation of the threaded rod 8, adjusting the distance and gap between the triangular scrapers 501 and the top wall of the cold storage, thereby adjusting the force of scraping condensate.

[0040] The above description is merely a preferred embodiment of this utility model, but the protection scope of this utility model is not limited thereto. The substitutions may be replacements of some structures, devices, or method steps, or they may be complete technical solutions. Equivalent substitutions or modifications made based on the technical solution and inventive concept of this utility model should all be covered within the protection scope of this utility model.

Claims

1. A device for efficient recovery and reuse of condensate from cold storage, characterized in that, The installation includes a mounting beam (1), the lower surface of which is provided with a mounting groove, a motor (2) is fixedly mounted at the front end of the mounting beam (1), the output shaft of the motor (2) extends into the interior of the mounting groove and is fixedly connected to a reciprocating screw (3), the surface of the reciprocating screw (3) is threadedly connected to a mounting seat (4), and a wiper assembly (5) is provided on both sides of the mounting beam (1). The wiper assembly (5) includes a triangular wiper (501) and a water collection frame (502). There are two water collection frames (502), which are respectively embedded in the front and back of the triangular wiper (501). A spacing adjustment mechanism is provided between the wiper assembly (5) and the mounting base (4).

2. The high-efficiency condensate recovery and reuse device for cold storage according to claim 1, characterized in that, The mounting base (4) is provided with guide sliders (6) on both sides of the mounting base (4), and guide grooves for the guide sliders (6) to slide are provided on both sides of the mounting groove.

3. The high-efficiency condensate recovery and reuse device for cold storage according to claim 1, characterized in that, The upper surface of the triangular scraper (501) is embedded with a silicone strip (7).

4. The high-efficiency condensate recovery and reuse device for cold storage according to claim 1, characterized in that, The spacing adjustment mechanism includes a mounting cavity inside the mounting base (4). The lower surface of the mounting base (4) has a rotating opening that extends into the mounting cavity. An operating rod is rotatably connected to the inner wall of the rotating opening. The upper end of the operating rod extends into the mounting cavity and is fixedly connected to a threaded rod (8). A threaded block (9) is threadedly connected to the surface of the threaded rod (8). Both sides of the mounting base (4) have sliding slots that extend into the mounting cavity. Both sides of the threaded block (9) are fixedly mounted with a support frame (10) through the sliding slots. The end of the support frame (10) away from the threaded block (9) is fixedly connected to the lower surface of the triangular scraper (501).

5. The high-efficiency condensate recovery and reuse device for cold storage according to claim 4, characterized in that, The support frame (10) is fitted with a water storage tank (11) on its surface. The inner bottom walls of the two water collection frames (502) are fitted with water passages (12) that communicate with the inside of the water storage tank (11). The lower surface of the water storage tank (11) is provided with a water outlet pipe (13), and the lower end of the water outlet pipe (13) is threaded with a sealing cap.

6. The high-efficiency condensate recovery and reuse device for cold storage according to claim 1, characterized in that, Mounting plates (14) are fixedly installed at both ends of the mounting beam (1). The surface of the mounting plate (14) is threaded with threaded holes, and the inner wall of the threaded holes is threaded with mounting bolts.