A detachable nozzle type automatic pressure regulating desliming machine flushing device

Abstract

The present application relates to sewage treatment technical field, especially a kind of automatic pressure regulating desilting machine flushing device of detachable water spraying port type, it includes basic unit, it includes fixed platform, desilting machine pipe, fixed assembly;And, conveying unit, it includes connecting pipe assembly, water distribution piece and connecting pipe;Flushing unit, it includes automatic pressure regulating assembly, sliding assembly and detachable faucet assembly.In the present application, pressure regulating component is installed in automatic pressure regulating assembly, under the action of water flow energy, piston movement on pressure regulating component is promoted by the cooperation of secondary water pipe, and then the size of the outlet of main water pipe is adjusted, so as to adjust water pressure;And sliding assembly is arranged, and flushing unit can linearly slide on desilting machine pipe, so as to increase cleaning range, save time, while detachable faucet assembly can be disassembled according to actual situation, and different styles of outlet can be assembled, which is more economical and practical, and more convenient.

Description

Technical Field

[0001] This invention relates to the field of wastewater treatment technology, and in particular to an automatic pressure regulating sludge dewatering machine flushing device with detachable spray nozzles. Background Technology

[0002] Food industry wastewater is generated due to the wide variety of raw materials and products used in the food industry, resulting in significant differences in the volume and quality of discharged wastewater. Therefore, the wastewater generated during production requires a series of treatments to ensure it does not harm the natural environment. The wastewater is often contaminated with various pollutants. This is because food industry wastewater and water-based dyeing wastewater contain high levels of proteins, colloidal substances, and fibrous impurities, which cannot be completely removed using a one-step flocculation method. Furthermore, even after the subsequent use of microbial agents for decomposition, the high organic matter content can still produce excessive suspended solids. Direct filtration through filter cloth filters can easily cause clogging and result in slow filtration efficiency.

[0003] In wastewater treatment plants, sludge cannot be discharged from the screw conveyor of the sludge dewatering machine due to the gap between the screw blades and the housing. Over time, the sludge accumulates and causes blockage, leading to overload and shutdown of the dewatering machine's drive unit. Regular manual cleaning is required to ensure the normal operation of the equipment. Summary of the Invention

[0004] This solution primarily addresses the issue that existing technologies, during wastewater treatment, often result in excessive sludge accumulation, leading to increased load and tripping of the sludge removal device.

[0005] In view of the problems in the above-mentioned and / or existing automatic pressure regulating sludge dewatering machine flushing devices with detachable spray nozzles, such as fixed water pressure of the flushing device, difficulty in detaching the spray nozzles of the flushing device, and fixed working position of the flushing device, the present invention is proposed.

[0006] Therefore, the problem to be solved by the present invention is how to provide an automatic pressure regulating sludge dewatering machine flushing device with detachable spray nozzles.

[0007] To solve the above-mentioned technical problems, the present invention provides the following technical solution: including,

[0008] A basic unit includes a fixed platform, a desliming machine pipe, and a fixing assembly; the desliming machine pipe is installed at one end of the fixed platform, and the fixing assembly is installed at the upper end of the desliming machine pipe; and,

[0009] The conveying unit includes a connecting pipe assembly disposed above the center of the desludge dewatering machine pipe, water distribution components installed at both ends of the connecting pipe assembly, and a connecting pipe connected to the outlet of the water distribution component.

[0010] The flushing unit includes an automatic pressure regulating component connected to the other end of the connecting pipe and a sliding component for connecting the automatic pressure regulating component and the detachable faucet component.

[0011] As a preferred embodiment of the automatic pressure regulating sludge dewatering machine flushing device with detachable spray nozzle type according to the present invention, the fixing component includes a fixing strip installed on the upper end of the sludge dewatering machine pipe and a fixing screw installed on the upper end of the fixing strip, wherein the fixing strip and the fixing screw cooperate with each other.

[0012] As a preferred embodiment of the automatic pressure regulating sludge dewatering machine flushing device with detachable spray nozzle type according to the present invention, the connecting pipe assembly includes a long connecting pipe disposed at the upper end of the sludge dewatering machine pipe, and a short connecting pipe perpendicularly intersecting the long connecting pipe, wherein the short connecting pipe is connected to the long connecting pipe at the center.

[0013] As a preferred embodiment of the automatic pressure regulating sludge dewatering machine flushing device with detachable spray nozzle type according to the present invention, one end of the connecting pipe is connected to the water distribution component, and the other end is connected to the automatic pressure regulating component.

[0014] As a preferred embodiment of the automatic pressure regulating sludge dewatering machine flushing device with detachable spray nozzle type according to the present invention, the automatic pressure regulating component includes a main water pipe disposed in the center of the automatic pressure regulating component, secondary water pipes disposed at both ends of the automatic pressure regulating component, and a pressure regulating component installed at the bottom of the secondary water pipes, wherein the secondary water pipes are symmetrically distributed about the main water pipe.

[0015] As a preferred embodiment of the automatic pressure regulating sludge dewatering machine flushing device with detachable spray nozzle type according to the present invention, the pressure regulating component includes a pusher installed at the bottom end of the secondary water pipe, a support spring installed around the pusher, and a piston installed at the other end of the pusher, wherein the pusher can slide in the secondary water pipe through the support spring, and the pistons are symmetrically distributed and are made of rubber material.

[0016] As a preferred embodiment of the automatic pressure regulating sludge dewatering machine flushing device with detachable spray nozzle type according to the present invention, the sliding component includes a sliding groove formed on the outer surface of the sludge dewatering machine tube and a sliding module installed on the surface of the automatic pressure regulating component, wherein the sliding module cooperates with the sliding groove.

[0017] As a preferred embodiment of the automatic pressure regulating sludge dewatering machine flushing device with detachable spray nozzle type according to the present invention, the sliding module includes two symmetrically combined detachable sliding plates, screws installed at both ends of the detachable sliding plates, and nuts for fixing the detachable sliding plates and the screws.

[0018] As a preferred embodiment of the automatic pressure regulating sludge dewatering machine flushing device with detachable spray nozzle type according to the present invention, the detachable faucet assembly includes a connecting groove, a fixed housing, and a tension spring connecting the connecting groove and the fixed housing.

[0019] As a preferred embodiment of the automatic pressure regulating sludge dewatering machine flushing device with detachable spray nozzle type according to the present invention, the connecting groove includes ball bearings installed around the connecting groove and a water guide pipe installed at the bottom of the connecting groove.

[0020] The beneficial effects of this invention are:

[0021] 1. The automatic pressure regulating component is equipped with a pressure regulating part. With the cooperation of the secondary water pipe, the piston on the pressure regulating part moves under the action of the water kinetic energy, thereby adjusting the size of the main water pipe outlet and thus regulating the water pressure.

[0022] 2. Furthermore, a sliding component is provided, allowing the rinsing unit to slide linearly on the desludge tube, thereby increasing the cleaning range and saving time. At the same time, a detachable faucet component is provided, allowing for the installation and removal of different types of water outlets as needed, making it more economical and convenient. Attached Figure Description

[0023] To more clearly illustrate the technical solutions of the embodiments of the present invention, the accompanying drawings used in the description of the embodiments will be briefly introduced below. Obviously, the drawings in the description below are only some embodiments of the present invention. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort. Wherein:

[0024] Figure 1 This is a front view of the flushing device provided by the present invention.

[0025] Figure 2 A three-dimensional view of the flushing device provided by the present invention.

[0026] Figure 3 A three-dimensional view of the rinsing unit of the rinsing device provided by the present invention.

[0027] Figure 4 A cross-sectional view of the automatic pressure regulating component of the rinsing unit of the rinsing device provided by the present invention.

[0028] Figure 5 A cross-sectional view of the detachable faucet assembly of the rinsing unit of the rinsing device provided by the present invention. Detailed Implementation

[0029] To make the above-mentioned objects, features and advantages of the present invention more apparent and understandable, the specific embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

[0030] Many specific details are set forth in the following description in order to provide a full understanding of the invention. However, the invention may also be practiced in other ways different from those described herein, and those skilled in the art can make similar extensions without departing from the spirit of the invention. Therefore, the invention is not limited to the specific embodiments disclosed below.

[0031] Secondly, the term "one embodiment" or "embodiment" as used herein refers to a specific feature, structure, or characteristic that may be included in at least one implementation of the present invention. The phrase "in one embodiment" appearing in different places in this specification does not necessarily refer to the same embodiment, nor is it a single or selective embodiment that is mutually exclusive with other embodiments.

[0032] Secondly, the present invention is described in detail with reference to the schematic diagrams. When detailing the embodiments of the present invention, for ease of explanation, the cross-sectional views illustrating the device structure may be partially enlarged, not according to the usual scale. Furthermore, the schematic diagrams are merely examples and should not limit the scope of protection of the present invention. In addition, actual fabrication should include three-dimensional spatial dimensions of length, width, and depth.

[0033] Example 1

[0034] Reference Figure 1 and Figure 2 This is the first embodiment of the present invention, which provides a detachable spray nozzle type automatic pressure regulating sludge dewatering machine flushing device: including a base unit 100, which includes a fixed platform 101, a sludge dewatering machine pipe 102, and a fixing component 103; the sludge dewatering machine pipe 102 is installed at one end of the fixed platform 101, and the fixing component 103 is installed at the upper end of the sludge dewatering machine pipe 102; and a conveying unit 200, which includes a connecting pipe component 201 disposed above the center of the sludge dewatering machine pipe 102, water distribution components 202 installed at both ends of the connecting pipe component 201, and a connecting pipe 203 connected to the outlet of the water distribution component 202; and a flushing unit 300, which includes an automatic pressure regulating component 301 connected to the other end of the connecting pipe 203, and a sliding component 302 for connecting the automatic pressure regulating component 301 and the detachable faucet component 303.

[0035] Specifically, by installing a fixing component 103 on the upper half of the desludge tube 102, the lower half of the desludge tube 102 is fixed on the concave surface of the fixing platform 101 to ensure the overall stable operation of the device. Then, the water flow is first diverted to the water distribution component 202 at the end of each connecting component 201 using the pipe assembly 201 in the transport unit 200. Then, the water flow is distributed to the connecting pipe 203 connected to the outlet of the water distribution component 202 through the water distribution component 202. Finally, the water flow is transmitted to the flushing unit 300 connected to the end of the connecting pipe 203. The water flow passes through the flushing unit 300, first through the inlet of the automatic pressure regulating component 301, then through the outlet of the automatic pressure regulating component 301 into the inlet of the detachable faucet assembly 303, and finally flows through the entire detachable faucet assembly 303 and flows out from the outlet of the detachable faucet assembly 303. At the same time, the sliding component 302 can be used to control the detachable faucet assembly 303 to move linearly on the surface of the desludge tube 102.

[0036] The fixing assembly 103 includes a fixing strip 103a installed on the upper end of the desliming tube 102 and a fixing screw 103b installed on the upper end of the fixing strip 103a. The fixing strip 103a and the fixing screw 103b cooperate with each other. By using the feature that the concave surface of the fixing strip 103a of the fixing assembly 103 matches the convex surface of the upper half of the desliming tube 103, the fixing strip 103a is fitted and installed on the upper end of the desliming tube 103. Then, the fixing screw 103b is driven into the fixing platform 101 through both ends of the fixing strip 103a, thereby realizing a double-layer reinforcement device for the desliming tube 102, thus fixing the desliming tube 102 on the fixing platform 101, so that the flushing unit 300 can work stably.

[0037] The connecting pipe assembly 201 includes a long connecting pipe 201a disposed at the upper end of the desludge dewatering pipe 102, and a short connecting pipe 201b perpendicularly intersecting the long connecting pipe 201a, with the short connecting pipe 201b connected to the long connecting pipe 201a at the center; one end of the connecting pipe 203 is connected to the water distribution component 202, and the other end is connected to the automatic pressure regulating component 301; through the transport component 200, the water flow is first divided from inside the long connecting pipe 201a to the short connecting pipes 201b at both ends, and then the water flow in the short connecting pipes 201b is divided again through the water distribution component 202. The inlet of the water distribution component 202 is connected to the outlet of the short connecting pipe 201b, and the outlet of the water distribution component 202 is connected to the inlet of the connecting pipe 203. Therefore, the water flow can be distributed to the connecting pipe 203 by distributing the water flow to the water distribution component 202. Finally, the flushing unit 300 connected to the outlet of each connecting pipe 203 is transported.

[0038] The implementation process of this embodiment is as follows: During normal operation, when water enters the transport unit 200, it first flows through the long pipe 201a, and then flows from the outlet of the long pipe 201a into the inlet of the short pipe 201b. After passing through the entire short pipe 201b, it flows out from the outlet of the short pipe 201b into the inlet of the water distribution component 202. The water then flows through the water distribution component 202 again, and from the outlet of the water distribution component 202 into the inlet of the connecting pipe 203. After passing through the entire connecting pipe 203, it flows precisely into the inlet of the automatic pressure regulating component 301 of each flushing unit 300.

[0039] Example 2

[0040] Reference Figure 3 and Figure 4 This is the second embodiment of the present invention. Unlike the first embodiment, this embodiment provides an operation method for the automatic voltage regulating component.

[0041] The automatic pressure regulating component 301 includes a main water pipe 301a disposed at the center of the automatic pressure regulating component 301, secondary water pipes 301b disposed at both ends of the automatic pressure regulating component 301, and a pressure regulating component 301c installed at the bottom of the secondary water pipes 301b. The secondary water pipes 301b are symmetrically distributed about the main water pipe 301a. The water flowing from the inlet of the automatic pressure regulating component 301 flows through the main water pipe 301a and the secondary water pipes 301b. The water flowing into the secondary water pipes 301b finally reaches the pressure regulating component 301c. Under the action of the water flow impact force, the pressure regulating component 301c moves from outside the automatic pressure regulating component 301 towards the main water pipe 301a at the center of the automatic pressure regulating component 301, thereby occupying the water flow space inside the main water pipe 301a, while the water flow rate in the main water pipe 301a remains unchanged, thereby increasing the pressure of the water flow inside the main water pipe 301a.

[0042] Specifically, the pressure regulating component 301c includes a pusher 301c-1 installed at the bottom of the secondary water pipe 301b, a support spring 301c-2 installed around the pusher 301c-1, and a piston 301c-3 installed at the other end of the pusher 301c-1. The pusher 301c-1 can slide in the secondary water pipe 301b via the support spring 301c-2, and the piston 301c-3 is symmetrically distributed and made of rubber. After the water flows into the automatic pressure regulating component 301, it enters the inlet of the main water pipe 301a and simultaneously enters the inlet of the secondary water pipe 301b. The water flowing into the secondary water pipe 301b comes into contact with the pressure regulating component. In the pressure regulating component 301c, the water flowing through the secondary water pipe 301b first impacts the outer surface of one end of the pusher 301c-1 of the pressure regulating component 301c, pushing the pusher 301c-1 to move towards the center of the automatic pressure regulating component 301. This overcomes the force of the thrust spring 301c-2 located at the other end of the pusher 301c-1, causing the piston 301c-3 located in the pressure regulating component 301c closest to the center of the automatic pressure regulating component 301 to move towards the main water pipe 301a. The pistons 301c-3 of the two pressure regulating components 301c continuously move closer together, thereby reducing the space inside the main water pipe 301a and thus increasing the water pressure inside the main water pipe 301a.

[0043] Preferably, the pressure of the water flowing through the main water pipe 301a can be changed by altering the shape and size of the piston 301c-3. At the same time, the pressure of the water flow can be varied by increasing the number of secondary water pipes 301b, thereby increasing the number of pressure regulating components and achieving greater pressure variation for the water flow.

[0044] The implementation process of this embodiment is as follows: After the water flows into the automatic pressure regulating component 301, it simultaneously enters the inlet of the main water pipe 301a and the inlets of the secondary water pipes 301b on both sides of the main water pipe 301a. The water flowing into the secondary water pipes 301b reaches the lowest end of the secondary water pipe 301b and then contacts the pressure regulating component 301c. The water flowing through the secondary water pipes 301b first impacts the outer surface of the pusher 301c-1 closest to the periphery of the automatic pressure regulating component 301c, pushing the pusher 301c-1 towards the center of the automatic pressure regulating component 301, thereby overcoming the thrust spring 301c-2 set between the pusher 301c-1 and the inner wall of the pressure regulating component 301c. The force of the action drives the piston 301c-3, which is located closest to the center of the automatic pressure regulating component 301c, to move towards the main water pipe 301a. The pistons 301c-3 of the pressure regulating component 301c in the two symmetrical secondary water pipes 301b move closer together, thereby reducing the space in the main water pipe 301a. While the water flow in the main water pipe 301a remains constant, the water pressure in the main water pipe 301a is increased. At the same time, when no water flows through the secondary water pipes 301b and impacts the pusher 301c-1 of the automatic pressure regulating component 301, the pressure regulating component 301c resets the entire pressure regulating component 301c under the thrust of the thrust spring 301c-2.

[0045] Example 3

[0046] Reference Figure 3 and Figure 5 This is the third embodiment of the present invention, which differs from the previous two embodiments: this embodiment provides another way of operation.

[0047] The sliding assembly includes a sliding groove 302a formed on the outer surface of the desliming tube 102 and a sliding module 302b installed on the surface of the automatic pressure regulating assembly 301, wherein the sliding module 302b cooperates with the sliding groove 302a. By installing the sliding module 302b on the surface of the automatic pressure regulating assembly 301, the automatic pressure regulating assembly 301 can move freely and linearly on the sliding groove 302a by means of the sliding module 302b, thereby increasing the range of movement of the automatic pressure regulating assembly 301 in the desliming tube 102 and also increasing the rinsing range of the rinsing unit 300 on the desliming tube 102.

[0048] Specifically, the sliding module 302b includes two symmetrically combined detachable sliding plates 302b-1, screws 302b-2 installed at both ends of the detachable sliding plates 302b-1, and nuts 302b-3 for fixing the detachable sliding plates 302b-1 and screws 302b-2. By combining the two mirror-symmetrical sliding plates 302b-1 on the outer surface of the automatic pressure regulating component 301, and by passing the screws 302b-2 through the two sliding plates 302b-1, and then firmly fixing the two sliding plates 302b-1 together with nuts 302b-3, the installation and removal of the sliding plates 302b-1 on the outer surface of the automatic pressure regulating component 301 can be realized. Furthermore, the automatic pressure regulating component 301 fits against the sides of the sliding groove 302a through the special concave shape at both ends of the sliding plates 302b-1, so that the automatic pressure regulating component 301 remains relatively stationary in the sliding groove 302a and moves freely linearly on the desliming tube 102.

[0049] Preferably, other fixing methods, such as magnetic attraction, or push-button switches can be used to replace the fixing function of screws 302b-2 and nuts 302b-3, to achieve more convenient installation and removal of the sliding plate 302b-1 on the outer surface of the automatic pressure regulating component 301.

[0050] The detachable faucet assembly 303 includes a connecting groove 303a, a fixed housing 303b, and a tension spring 303c connecting the connecting groove 303a and the fixed housing 303b. The inlet end of the connecting groove 303a can be fitted with the outlet end of the automatic pressure regulating assembly 301. The extension and retraction of the tension spring 303c located at the lower end of the connecting groove 303a allows for the free installation and removal of the outlet end of the automatic pressure regulating assembly 301 from the inlet end of the connecting groove 303a.

[0051] Furthermore, the connecting groove 303a includes ball bearings 303a-1 installed around the connecting groove 303a and a water guide pipe 303a-2 installed at the bottom of the connecting groove 303a; when an external force overcomes the force of the tension spring 303c between the connecting groove 303a and the fixed housing 303b, causing the outer surface of the connecting groove 303a and the inner surface of the fixed housing 303b to separate from each other, the ball bearings 303a-1 embedded around the inner wall of the connecting groove 303a roll outwards. The inner wall of the connecting groove 303a is flat and smooth, so that the outlet end of the automatic pressure regulating component 301 can freely enter and exit the connecting groove 303a. When the external force is removed, under the tension of the tension spring 303c, the outer surface of the connecting groove 303a and the inner surface of the fixed housing 303b merge. The ball bearing 303a-1 is pushed into the connecting groove 303a by the inner surface of the fixed housing 303b, pressing the outer surface of the automatic pressure regulating component 301, thereby fixing the automatic pressure regulating component 301.

[0052] Ideally, the detachable faucet assembly 303 can be freely replaced as needed, which is more labor-saving and time-saving than the traditional installation method of internal and external thread combination or screw and nut combination.

[0053] The implementation process of this embodiment is as follows: In the natural state, the outer surface of the connecting groove 303a and the inner surface of the fixed shell 303b are in contact. Under the action of external force, the force of the tension spring 303c between the bottom end of the connecting groove 303a and the fixed shell 303b is overcome, causing the outer surface of the connecting groove 303a and the inner surface of the fixed shell 303b to separate from each other. At this time, the four ball bearings 303a-1 embedded around the inner wall of the connecting groove 303a will roll towards the outer wall of the connecting groove 303a. At this time, the inner wall of the connecting groove 303a is flat and smooth, and the outlet end face of the automatic pressure regulating component 301 can freely enter and exit the inner wall of the connecting groove 303a. When the outer... When the force is removed, under the tensile force of the tension spring 303c, the outer surface of the connecting groove 303a and the inner surface of the fixed housing 303b are put into contact again. The ball bearing 303a-1 is pushed by the inner surface of the fixed housing 303b and squeezed against the inner wall of the connecting groove 303a, squeezing the outer surface of the automatic pressure regulating component 301 inside the connecting groove 303a, thereby fixing the position of the automatic pressure regulating component 301 and the connecting groove 303a unchanged. At this time, the water flowing through the outlet of the automatic pressure regulating component 301 can enter the water guide pipe 303a-2 through the inlet of the connecting groove 303a, and finally flow out of the entire flushing unit 300.

[0054] Importantly, it should be noted that the constructions and arrangements of this application shown in several different exemplary embodiments are merely illustrative. Although only a few embodiments are described in detail in this disclosure, those who consult this disclosure will readily understand that many modifications are possible without substantially departing from the novel teachings and advantages of the subject matter described in this application (e.g., changes in the size, dimensions, structure, shape and proportion of various elements, as well as parameter values ​​(e.g., temperature, pressure, etc.), installation arrangements, use of materials, color, orientation, etc.). For example, an element shown as integrally formed may be composed of multiple parts or elements, the position of elements may be inverted or otherwise changed, and the nature or number or position of discrete elements may be altered or changed. Therefore, all such modifications are intended to be included within the scope of the invention, and the order or sequence of any process or method steps may be changed or rearranged according to alternative embodiments. In the claims, any "device plus function" clause is intended to cover the structure performing the function described herein, and not only structural equivalence but also equivalent structure. Without departing from the scope of the invention, other substitutions, modifications, alterations and omissions may be made in the design, operation and arrangement of the exemplary embodiments. Therefore, the invention is not limited to the specific embodiments, but extends to various modifications that still fall within the scope of the appended claims.

[0055] Furthermore, in order to provide a concise description of exemplary embodiments, not all features of actual embodiments (i.e., those features that are not relevant to the currently considered best mode for carrying out the invention, or those features that are not relevant to implementing the invention) may be omitted.

[0056] It should be understood that numerous specific implementation decisions can be made during the development of any practical implementation, such as in any engineering or design project. Such development efforts may be complex and time-consuming, but for those skilled in the art who benefit from this disclosure, the development effort will be a routine work of design, manufacturing, and production without requiring much experimentation.

[0057] It should be noted that the above embodiments are only used to illustrate the technical solutions of the present invention and are not intended to limit it. Although the present invention has been described in detail with reference to preferred embodiments, those skilled in the art should understand that modifications or equivalent substitutions can be made to the technical solutions of the present invention without departing from the spirit and scope of the technical solutions of the present invention, and all such modifications or substitutions should be covered within the scope of the claims of the present invention.

Claims

1. A flushing device for an automatic pressure-regulating sludge dewatering machine with detachable spray nozzles, characterized in that: include, The basic unit (100) includes a fixed platform (101), a desliming tube (102), and a fixing component (103). The desliming tube (102) is installed at one end of the fixed platform (101), and the fixing assembly (103) is installed at the upper end of the desliming tube (102); and, The conveying unit (200) includes a pipe assembly (201) disposed above the center of the desludge pipe (102), water distribution components (202) installed at both ends of the pipe assembly (201), and a connecting pipe (203) connected to the outlet of the water distribution component (202). The flushing unit (300) includes an automatic pressure regulating component (301) connected to the other end of the connecting pipe (203) and a sliding component (302) for connecting the automatic pressure regulating component (301) and the detachable faucet assembly (303). The automatic pressure regulating assembly (301) includes a main water pipe (301a) disposed at the center inside the automatic pressure regulating assembly (301), secondary water pipes (301b) disposed at both ends inside the automatic pressure regulating assembly (301), and a pressure regulating component (301c) installed at the bottom end of the secondary water pipes (301b), wherein the secondary water pipes (301b) are symmetrically distributed about the main water pipe (301a); The pressure regulating component (301c) includes a pusher (301c-1) installed at the bottom of the secondary water pipe (301b), a support spring (301c-2) installed around the pusher (301c-1), and a piston (301c-3) installed at the other end of the pusher (301c-1). The pusher (301c-1) can slide in the secondary water pipe (301b) via the support spring (301c-2), and the piston (301c-3) is symmetrically distributed and is made of rubber material. The detachable faucet assembly (303) includes a connecting groove (303a), a fixed housing (303b), and a tension spring (303c) connecting the connecting groove (303a) and the fixed housing (303b). The connecting groove (303a) includes a ball bearing (303a-1) installed around the connecting groove (303a) and a water guide pipe (303a-2) installed at the bottom of the connecting groove (303a).

2. The automatic pressure regulating sludge dewatering machine flushing device with detachable spray nozzles as described in claim 1, characterized in that: The fixing component (103) includes a fixing strip (103a) installed on the upper end of the desliming tube (102) and a fixing screw (103b) installed on the upper end of the fixing strip (103a), wherein the fixing strip (103a) and the fixing screw (103b) cooperate with each other.

3. The automatic pressure regulating sludge dewatering machine flushing device with detachable spray nozzles as described in claim 2, characterized in that: The connecting pipe assembly (201) includes a long connecting pipe (201a) disposed at the upper end of the desliming pipe (102) and a short connecting pipe (201b) perpendicularly intersecting the long connecting pipe (201a), wherein the short connecting pipe (201b) is connected to the long connecting pipe (201a) at the center.

4. The automatic pressure regulating sludge dewatering machine flushing device with detachable spray nozzles as described in claim 2 or 3, characterized in that: One end of the connecting pipe (203) is connected to the water distribution component (202), and the other end is connected to the automatic pressure regulating component (301).

5. The automatic pressure regulating sludge dewatering machine flushing device with detachable spray nozzles as described in claim 4, characterized in that: The sliding assembly (302) includes a sliding groove (302a) formed on the outer surface of the desliming tube (102) and a sliding module (302b) installed on the surface of the automatic pressure regulating assembly (301), wherein the sliding module (302b) cooperates with the sliding groove (302a).

6. The automatic pressure regulating sludge dewatering machine flushing device with detachable spray nozzles as described in claim 5, characterized in that: The sliding module (302b) includes two symmetrically arranged detachable sliding plates (302b-1), screws (302b-2) installed at both ends of the detachable sliding plates (302b-1), and nuts (302b-3) for fixing the detachable sliding plates (302b-1) and the screws (302b-2).

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