阅读说明：本技术 一种农业节水灌溉装置 (Agricultural water-saving irrigation device ) 是由 代宇 于 2021-07-23 设计创作，主要内容包括：本发明公开了一种农业节水灌溉装置,包括喷头和过滤管组；过滤管组包括管体、滤网、套体、顶板以及门板组件,管体的一端与喷头的入口端相连,管体的侧壁开设有用于排出杂质的开口,滤网呈径向布置管体的内腔中且位于开口的上方,套体布置在管体的内部且与开口相对应,套体的内部具有供水流通过的通道,套体侧壁的下半段形成有逐渐趋近管体内壁的弧面,顶板固定在套体的正下方,门板组件能够在管体进水时将开口封住,在管体停止进水时自动将开口打开。本发明可以自动清理滤网所过滤的杂质,即,喷水时滤网所过滤的杂质会汇集在弧面上方,一旦喷水结束后,水流中断,管体侧壁的开口会被打开,杂质便会自动从开口处内滑落出来。(The invention discloses an agricultural water-saving irrigation device, which comprises a spray head and a filtering pipe group; the filtration nest of tubes includes the body, the filter screen, the cover body, roof and door plant subassembly, the one end of body links to each other with the entry end of shower nozzle, the opening that is used for discharging impurity is offered to the lateral wall of body, the filter screen is in the inner chamber of radially arranging the body and is located the open-ended top, the cover body is arranged in the inside of body and corresponding with the opening, the inside of the cover body has the passageway that supplies rivers to pass through, the half section down of the cover body lateral wall is formed with the cambered surface that gradually approaches the body inner wall, the roof is fixed under the cover body, the door plant subassembly can seal the opening when the body intakes, open the opening automatically when the body stops intaking. The invention can automatically clean impurities filtered by the filter screen, namely, the impurities filtered by the filter screen can be collected above the cambered surface when water is sprayed, once the water spraying is finished, the water flow is interrupted, the opening on the side wall of the pipe body can be opened, and the impurities can automatically slide out from the opening.)

1. An agricultural water-saving irrigation device is characterized by comprising a spray head (1) and a filtering pipe group (2);

the filtering pipe group (2) comprises a pipe body (21), a filtering net (22), a sleeve body (23), a pushing piece (24) and a door panel component (25); one end of the pipe body (21) is connected with the inlet end of the nozzle (1), an opening (211) for discharging impurities is formed in the side wall of the pipe body (21), the opening is located below the opening (211), a clamping groove (212) is further formed in the side wall of the pipe body (21), and the middle of the clamping groove (212) is communicated with the inner cavity of the pipe body (21) through a notch (213) formed in the inner wall of the pipe body (21); the filter screen (22) is radially arranged in the inner cavity of the tube body (21) and the filter screen (22) is positioned above the opening (211); the sleeve body (23) is arranged inside the pipe body (21), the position of the sleeve body (23) corresponds to the opening (211), a channel (231) for water flow to pass through is formed inside the sleeve body (23), an arc surface (232) gradually approaching the inner wall of the pipe body (21) is formed at the lower half section of the side wall of the sleeve body (23), and the side wall of the sleeve body (23) below the arc surface (232) is connected with the inner wall of the pipe body (21); the pushing piece (24) comprises a top plate (241), and the top plate (241) is fixed right below the sleeve body (23); the door plate assembly (25) comprises a door plate (251), a first tension spring (252), a partition plate (253), a plug cover (254) and a second tension spring (255), the door plate (251) is arranged in the clamping groove (212), the first tension spring (252) is arranged in the clamping groove (212) below the door plate (251), one end of the first tension spring (252) is fixed at the bottom of the door plate (251), the other end of the first tension spring is fixed on the bottom surface of the clamping groove (212), the partition plate (253) is radially arranged in the inner cavity of the pipe body (21), the partition plate (253) is positioned below the sleeve body (23), the outer side of the partition plate (253) is connected with a connecting plate (256), the connecting plate (256) penetrates through the notch (213) and then is connected with the bottom of the inner wall of the door plate (251), a hole (2531) is formed in the middle of the partition plate (253), the plug cover (254) is plugged in the hole (2531) and only can move downwards to leave the plug cover (2531), cannot move upwards out of the hole (2531), the second tension spring (255) is arranged between the partition plate (253) and the plug cover (254), and the second tension spring (255) is used for giving a force to the plug cover (254) to drive the plug cover (254) to be plugged into the hole (2531);

when the first tension spring (252) is in a natural state, the door panel (251) is completely hidden in the clamping groove (212), and the partition plate (253) is positioned below the top plate (241); when the partition (253) moves upwards to be attached to the lower surface of the sleeve body (23), the door panel (251) completely seals the opening (211), and the plug cover (254) is limited by the top plate (241) to be separated from the hole (2531).

2. An agricultural water-saving irrigation device according to claim 1, wherein the filtering pipe group (2) further comprises a conical body (26), the conical body (26) is arranged between the filtering net (22) and the sleeve body (23), the axial line of the conical body (26) is collinear with the axial line of the sleeve body (23), the end with the larger diameter of the conical body (26) is positioned above, the end with the smaller diameter is positioned below, the filtering net (22) is fixed on the plane of the top of the conical body (26), and the tip of the bottom of the conical body (26) is inserted into the channel (231) of the sleeve body (23).

3. An agricultural water-saving irrigation device as claimed in claim 2, characterized in that the diameter of the top end of the conical body (26) is larger than or equal to the outer diameter of the top end of the sleeve body (23).

4. An agricultural water-saving irrigation device according to claim 2, wherein the conical body (26) is fixed with the inner wall of the pipe body (21) through a fixing rod (27).

5. An agricultural water-saving irrigation device as claimed in claim 1, wherein the filtering pipe group (2) further comprises an iron sheet (281) and a magnetic sheet (282), the iron sheet (281) is fixed on the upper surface of the partition plate (253), and the magnetic sheet (282) is fixed on the lower surface of the sleeve body (23) and corresponds to the position of the iron sheet (281).

6. The agricultural water-saving irrigation device as claimed in claim 1, wherein the pushing member (24) further comprises a cross bar (242) and a vertical bar (243), the cross bar (242) is fixed in the inner cavity of the sleeve body (23), the top end of the vertical bar (243) is connected with the middle part of the cross bar (242), and the top plate (241) is fixed at the bottom of the vertical bar (243).

7. An agricultural water-saving irrigation device according to claim 1, characterized in that the diameter of the bottom of the plug cover (254) is enlarged to form a limit boss (2541), the bottom surface of the partition (253) is provided with a groove (2532), the groove (2532) is positioned above the limit boss (2541), the second tension spring (255) is arranged in the groove (2532), and one end of the second spring (255) is fixed with the top surface of the groove (2532) and the other end is fixed with the upper surface of the limit boss (2541).

8. An agricultural water-saving irrigation device according to any one of claims 1 to 7, wherein a gap between the periphery of the door panel (251) and the inner wall of the clamping groove (212) is sealed, and gaps between two sides of the door panel (251) and the top of the door panel (251) and the inner wall of the opening (211) are also sealed.

9. An agricultural water-saving irrigation device according to any one of claims 1-8, characterized in that both ends of the pipe body (21) are provided with external threads (214).

Technical Field

The invention relates to the field of agricultural irrigation, in particular to an agricultural irrigation device.

Background

Water-saving irrigation refers to irrigation measures for obtaining the maximum yield or income with the minimum water consumption, namely, the crop yield and output value of unit irrigation water are improved to the maximum extent. The main measures are as follows: canal seepage prevention, low-pressure pipe irrigation, sprinkling irrigation, micro irrigation and irrigation management system.

The spray irrigation is to send pressurized water to an irrigation area by using a pipeline, disperse the pressurized water into fine water drops through a spray head, and uniformly spray the fine water drops to the field to irrigate crops. It is widely used as an advanced mechanized and semi-mechanized irrigation mode. In the process of sprinkling irrigation, because some impurities (such as gravel or fine gravel) can be contained in the water, the impurities can be gradually accumulated inside the spray head under the long-term sprinkling irrigation, so that the spray head is blocked, and further the water outlet of the spray head is influenced. In view of the above, the inventor has designed a water-saving agricultural irrigation device, whose publication number is CN109906918A, in which the inventor sets a layer of filter screen and a collecting tank inside a collecting pipe, wherein the filter screen can block impurities in water and then make the impurities fall into the collecting tank below, so as to prevent the impurities from entering into the spray head and blocking the spray head. Although in the invention, the impurities are separately collected in one area, so that the blockage of the spray head is avoided, the impurities are troublesome to take out, when the impurities are taken out, the collecting pipe needs to be disassembled firstly, then the rotating rod is unscrewed, then the filter screen is rotated, the impurities in the collecting tank can be poured out finally, and the parts before the impurities are recovered after the impurities are poured out, so that the whole process is troublesome, the impurities need to be cleaned by workers regularly, and the impurities can be taken out only by disassembling and assembling the parts during cleaning.

In view of the above, the inventor intends to improve the above-mentioned patent so that the filtered impurities can automatically fall from the device without the need of regular cleaning by workers.

Disclosure of Invention

The invention aims to provide an agricultural irrigation device, which not only can filter impurities and prevent a spray head from being blocked by the impurities, but also can automatically drop out the filtered impurities without manual cleaning.

In order to achieve the aim, the invention provides an agricultural water-saving irrigation device, which comprises a spray head and a filtering pipe group;

the filtering pipe group comprises a pipe body, a filter screen, a sleeve body, a pushing piece and a door panel component; one end of the pipe body is connected with the inlet end of the nozzle, an opening for discharging impurities is formed in the side wall of the pipe body and is positioned below the opening, a clamping groove is further formed in the side wall of the pipe body, and the middle of the clamping groove is communicated with the inner cavity of the pipe body through a notch formed in the inner wall of the pipe body; the filter screen is radially arranged in the inner cavity of the pipe body and is positioned above the opening; the sleeve body is arranged inside the pipe body, the position of the sleeve body corresponds to the opening, a channel for water flow to pass through is formed inside the sleeve body, the lower half section of the side wall of the sleeve body is provided with an arc surface gradually approaching to the inner wall of the pipe body, and the side wall of the sleeve body below the arc surface is connected with the inner wall of the pipe body; the pushing piece comprises a top plate which is fixed right below the sleeve body; the door plate component comprises a door plate, a first tension spring, a partition plate, a plug cover and a second tension spring, the door plate is arranged in the clamping groove, the first tension spring is arranged in the clamping groove below the door plate, one end of the first tension spring is fixed at the bottom of the door plate, the other end of the first tension spring is fixed on the bottom surface of the clamping groove, the partition board is radially arranged in the inner cavity of the pipe body and is positioned below the sleeve body, the outer side of the partition board is connected with a connecting plate, the connecting plate penetrates through the notch and is connected with the bottom of the inner wall of the door plate, a hole is formed in the middle of the partition plate, the plug cover is plugged into the hole and can only move downwards to leave the hole, but can not move upwards to leave the hole, the second tension spring is arranged between the clapboard and the plug cover and is used for giving acting force to the plug cover so as to drive the plug cover to be plugged into the hole;

when the first tension spring is in a natural state, the door panel is completely hidden in the clamping groove, and the partition plate is positioned below the top plate; when the baffle plate moves upwards to be attached to the lower surface of the sleeve body, the door plate completely seals the opening, and the plug cover is limited by the top plate and is separated from the hole.

Further, the filtering pipe group further comprises a conical body, the conical body is arranged between the filter screen and the sleeve body, the axial lead of the conical body is collinear with the axial lead of the sleeve body, the larger end of the diameter of the conical body is positioned above, the smaller end of the diameter is positioned below, the filter screen is fixed on the plane of the top of the conical body, and the tip at the bottom of the conical body is inserted into the channel of the sleeve body.

Furthermore, the diameter of the top end of the conical body is larger than or equal to the outer diameter of the top end of the sleeve body.

Furthermore, the conical body is fixed with the inner wall of the pipe body through a fixing rod.

Furthermore, the filtering pipe group further comprises an iron sheet and a magnetic sheet, the iron sheet is fixed on the upper surface of the partition plate, and the magnetic sheet is fixed on the lower surface of the sleeve body and corresponds to the iron sheet in position.

Furthermore, the pushing piece further comprises a cross rod and a vertical rod, the cross rod is fixed in the inner cavity of the sleeve body, the top end of the vertical rod is connected with the middle of the cross rod, and the top plate is fixed at the bottom of the vertical rod.

Furthermore, the diameter of the bottom of the plug cover is enlarged to form a limiting boss, a groove is formed in the bottom surface of the partition plate and located above the limiting boss, the second tension spring is arranged in the groove, one end of the second spring is fixed to the top surface of the groove, and the other end of the second spring is fixed to the upper surface of the limiting boss.

Furthermore, gaps between the periphery of the door panel and the inner wall of the clamping groove are sealed, and gaps between two sides of the door panel and gaps between the top of the door panel and the inner wall of the opening are also sealed.

Further, both ends of the pipe body are provided with external threads.

The invention has the beneficial effects that: the filter screen can filter impurities and collect the impurities above the cambered surface, so that the spray head is prevented from being blocked by the impurities; meanwhile, the water spraying device can automatically clean impurities, namely, the opening is closed by the door plate when water is supplied, water flow cannot leak from the opening, the impurities filtered by the filter screen can be collected above the arc surface, the opening is opened by the door plate after water is cut off, and the impurities can be released, so that the impurities can automatically slide out of the pipe body once the water supply valve is closed after water is sprayed each time, and the filtered impurities do not need to be manually cleaned.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic diagram of the arrangement of the stack of filter tubes of FIG. 1;

FIG. 3 is a view taken along line A-A of FIG. 2;

FIG. 4 is a view from the B-B direction in FIG. 2;

FIG. 5 is an enlarged view of area C of FIG. 2;

FIG. 6 is an enlarged view of region D of FIG. 2;

FIG. 7 is an enlarged view of area E of FIG. 2;

FIG. 8 is a view of the filter tube of FIG. 1 with water passing therethrough;

FIG. 9 is a greatly enlarged view of region F in FIG. 8;

fig. 10 is a schematic view of the flow of water and impurities in fig. 8, in which the solid line indicates the path of water flow and the broken line indicates the path of impurities.

Detailed Description

The present invention will be described in further detail with reference to specific examples, but the embodiments of the present invention are not limited thereto.

Example (b):

referring to fig. 1, the present embodiment provides an agricultural water-saving irrigation device, which comprises a spray head 1 and a filtering pipe group 2.

The spray head 1 is used for spraying water out according to a specific form.

Referring to fig. 2 to 7, the filtration tube assembly 2 includes a tube 21, a filter net 22, a sheath 23, a pushing member 24, and a door assembly 25. The top of body 21 with the entry end of nozzle 1 links to each other, and the bottom of body 21 is used for linking to each other with the water supply pipe, and the opening 211 that is used for discharging impurity is respectively seted up to the left and right sides of body 21, is located the below of two openings 211, still is provided with two inside double-layered grooves 212 at the body 21 lateral wall, and wherein, the middle part of pressing from both sides the groove 212 is through seting up the breach 213 and the inner chamber intercommunication of body 21 at the body 21 inner wall. The filter screen 22 is radially arranged in the inner cavity of the pipe body 21 and the filter screen 22 is located above the opening 211, and the filter screen 22 covers the whole cross section of the pipe body 1 to prevent impurities from leaking out of the filter screen 22 and entering the upper part of the filter screen 22. The cover body 23 is arranged inside the pipe body 21, the position of the cover body 23 corresponds to the opening 211, a channel 231 for water flow to pass through is formed inside the cover body 23, a certain distance is formed between the outer wall of the upper half section of the cover body 23 and the inner wall of the pipe body 21, an arc surface 232 gradually approaching the inner wall of the pipe body 21 from top to bottom is formed on the outer wall of the lower half section of the cover body 23, and the side wall of the cover body 23 below the arc surface 232 is connected with the inner wall of the pipe body 21. The pushing member 24 includes a top plate 241, and the top plate 241 is fixed right below the sleeve body 23. The door panel assembly 25 comprises two door panels 251, two first tension springs 252, a partition plate 253, a plug cover 254 and a second tension spring 255; the two door panels 251 are respectively arranged in the two clamping grooves 212; the two first tension springs 252 are respectively arranged in the clamping groove 212 below the two door panels 251, one end of each first tension spring 252 is fixed at the bottom of the door panel 251, and the other end of each first tension spring 252 is fixed on the bottom surface of the clamping groove 212; the partition 253 is radially arranged in the inner cavity of the pipe body 21, the partition 253 is positioned below the sleeve body 23, the left side and the right side of the partition 253 are respectively connected with a connecting plate 256, the two connecting plates 256 respectively penetrate through the two notches 213 and then are connected with the bottom of the inner wall of the corresponding door panel 251 (see fig. 4 and 6), and a hole 2531 (see fig. 9) is formed in the middle of the partition 253; the plug cover 254 is plugged into the hole 2531, and when the plug cover 254 is plugged into the hole 2531, the plug cover 254 can only move downwards relative to the partition 253 and then leave the hole 2531, but cannot move upwards relative to the partition 253; the second extension spring 255 is disposed between the partition 253 and the plug cover 254, and the second extension spring 255 is used for applying a force to the plug cover 254 to drive the plug cover 254 to be plugged into the hole 2531.

When the first tension spring 252 is in a natural state, the door panel 251 is completely hidden in the clamping groove 212, and at the same time, the partition 253 is located below the top plate 241, and the plug cover 254 is plugged into the hole 2531 under the action of the second tension spring 255 because the second tension spring 255 is not subjected to an external force; when the partition 253 moves upward to be attached to the lower surface of the sheath 23, the two door panels 251 completely seal the two openings 211, and the plug 254 is restricted by the top panel 241 and can be separated from the hole 2531, as shown in fig. 9.

The working principle of the embodiment is as follows:

in an initial state, under the action of the first tension spring 252, the two door panels 251 are respectively hidden in the two clamping grooves 212, the partition plate 253 is positioned below the top plate 241, and under the action of the second tension spring 255, the plug cover 254 is plugged into the hole 2531;

when water enters from the lower part of the pipe body 21, the partition 253 and the plug cover 254 are pushed by the pressure generated by the flow of the water to move upwards, and because the door plates 251 are connected with the partition 253, the door plates 251 move upwards together with the partition 253, that is, the two door plates 251 extend into the clamping groove 212 and then move upwards until the partition 253 moves to be attached to the lower surface of the sleeve body 23, the two door plates 251 move to a position where the two openings 211 are completely sealed, meanwhile, when the plug cover 254 moves to be in contact with the top plate 241 during the movement of the partition 253, the top plate 241 limits the subsequent movement of the plug cover 254, so that the partition 253 continues to move upwards, and the plug cover 254 separates from the partition 253 and separates from the hole 2531 of the partition 253, as shown in fig. 8 and 9; after the plug cover 254 is separated, the water flow passes through the gap between the plug cover 254 and the partition 253, then enters the hole 2531 and passes through the channel 231 of the sleeve body 23, and then continues to flow upwards, when the water flow passes through the filter screen 22, impurities in the water flow are blocked by the filter screen 22 and then fall onto the arc surface 232 below, so the impurities are collected above the arc surface 232, see fig. 10, wherein the solid line represents the path of the water flow, and the dotted line represents the path of the impurities; after watering is stopped, because the water flow entering the pipe body 21 is interrupted, the pressure of the water flow on the partition plate 253 disappears, so under the action of the elastic restoring force of the first tension spring 252, the door panel 251 and the partition plate 253 are pulled by the first tension spring 252 to move downwards, and finally the door panel assembly 25 returns to the initial state, namely, the door panel 251 retracts into the clamping groove 212, the opening 211 is opened, so that impurities collected above the arc surface 232 can automatically slide out from the opening 211, and meanwhile, once the partition plate 253 returns to the lower part of the top plate 241, the plug cover 254 is plugged into the hole 2531 of the partition plate 253 again under the action of the second tension spring 255, so that preparation is prepared for the water flow to push the partition plate 254 to move upwards in the next watering;

when watering for the next time, after water enters from the lower part of the pipe body 21, the partition plate 253 moves upwards again under the pushing of the water, so that the door plate 251 closes the opening 211, the partition plate 253 is attached to the lower surface of the sleeve body 23, the water passes through the gap between the plug cover 254 and the partition plate 253, then flows through the hole 2531 and the channel 231 in sequence and is filtered by the filter screen 22, and the filtered impurities fall to the upper part of the cambered surface 232; then, when watering is stopped, water flow is interrupted, the door plate 251 retracts into the clamping groove 212, and newly collected impurities automatically slide out from the opening 211;

therefore, the embodiment can not only filter impurities and avoid the blockage of the nozzle 1 by impurities, but also automatically clean the impurities, namely, the opening 211 can be closed by the door plate 251 when water passes through, water flow cannot leak from the opening 211, the impurities filtered by the filter screen 22 can be collected above the arc surface 232, the opening 211 is opened by the door plate 251 after the water is cut off, the impurities can be released, and therefore, after water is sprayed every time, once the water supply valve is closed, the water flow is interrupted, the impurities can automatically slide out from the pipe body 21, and the filtered impurities do not need to be manually cleaned.

Preferably, referring to fig. 2, the filtration tube assembly 2 further comprises a cone 26, the cone 26 is fixed between the filter screen 22 and the sheath 23 in the tube 21 by a fixing rod 27, and the axis of the cone 26 is collinear with the axis of the sheath 23, the end with the larger diameter of the cone 26 is located above, the end with the smaller diameter of the cone 26 is located below, the filter screen 22 is fixed on the plane of the top of the cone 26 by a screw, and the tip of the bottom of the cone 26 is slightly inserted into the channel 231 of the sheath 23. The diameter of the top end of the conical body 26 is larger than or equal to the outer diameter of the top end of the sleeve body 23.

With such a structure, when the water flows out from the sleeve body 23, the water flow spreads around along the outer wall of the conical body 26, and then when the water flow encounters the filter screen 22, impurities in the water flow are blocked by the filter screen 22 and then fall onto the arc surface 232 below, because the diameter of the top end of the conical body 26 is greater than or equal to the outer diameter of the top end of the sleeve body 23, the impurities which fall due to the blocking of the filter screen 22 usually do not fall reversely into the channel 231 of the sleeve body 23, and basically fall onto the arc surface 232.

Preferably, the filtering pipe group 2 further comprises two iron sheets 281 and two magnetic sheets 282, wherein the two iron sheets 281 are respectively fixed on the left and right sides of the upper surface of the partition 253, and the two magnetic sheets 282 are fixed on the lower surface of the sleeve body 23 and are respectively corresponding to the two iron sheets 281.

Because the two door panels 251 completely seal the two openings 211 respectively, the partition 253 is attached to the lower surface of the sleeve body 23, and in order to ensure that the partition 253 can be more stably attached to the lower surface of the sleeve body 23 and avoid the situation that the partition 253 shakes due to unstable water pressure, the inventor specially adds the iron sheet 281 and the magnetic sheet 282; thus, when the door 251 seals the opening 211, the partition 253 can be more stably adsorbed on the lower surface of the sleeve 23, so that the situation of leakage caused by untight connection between the door 251 and the opening 211 due to shaking of the partition 253 when the water pressure flowing into the pipe 21 is unstable can be avoided.

Since the two first tension springs 252 are in tension when the two iron sheets 281 are respectively attached to the two magnetic sheets 282, and the door panel 251 can be smoothly retracted into the clamping groove 212 after the water flow is cut off, it is necessary to ensure that the elastic restoring force of the two first tension springs 252 is slightly greater than the attraction force of the two magnets 282 to the two iron sheets 281 when the two iron sheets 281 are attached to the two magnetic sheets 282. Thus, when the water flow is cut off and the pressure of the water flow is lost, the attraction force of the magnet 282 to the iron piece 281 is not enough to overcome the elastic restoring force of the first tension spring 252, so that the first tension spring 252 pulls the door panel 251 and the partition 253 together to move downwards, the iron piece 281 is separated from the magnetic piece 282, and then the door panel 251 is retracted into the clamping groove 212, so that the partition 253 is restored to the initial position.

Preferably, referring to fig. 2, the pushing member 24 further includes a cross bar 242 and a vertical bar 243, the cross bar 242 is fixed in the inner cavity of the sheath 23, the top end of the vertical bar 243 is connected to the middle of the cross bar 242, and the top plate 241 is fixed at the bottom of the vertical bar 243. The cross-shaped cross-bar 242 may be a cross-shaped cross-bar, and the vertical bar 243 is fixed at the center of the cross-shaped cross-bar 242.

Preferably, referring to fig. 6, the diameter of the bottom of the plug 254 is enlarged to form a limit boss 2541, the bottom surface of the partition 253 is provided with two grooves 2532, the two grooves 2532 are respectively located at the left and right sides of the hole 2531 and are simultaneously located above the limit boss 2541, the number of the second tension springs 255 is two and are respectively arranged in the two grooves 2532, and meanwhile, one end of the second spring 255 is fixed to the top surface of the groove 2532, and the other end of the second spring is fixed to the upper surface of the limit boss 2541.

Preferably, the gap between the periphery of the door panel 251 and the inner wall of the nip 212 is sealed, and at the same time, the gaps between both sides of the door panel 251 and the top of the door panel 251 and the inner wall of the opening 211 are also sealed.

Specifically, referring to fig. 5, a circle of first sealing strips a1 is arranged on the inner wall of the upper part of the clamping groove 212, and the first sealing strips a1 are in sealing fit with the periphery of the door panel 251; referring to fig. 3 and 7, a second sealing tape a2 is disposed on both sides and the top surface of the opening 211, the second sealing tape a2 is in the shape of Jiong, the bottom of the second sealing tape a2 is connected to the first sealing tape a1, and when the opening 211 is closed by the door panel 251, the second sealing tape a2 is attached to the side and the top surface of the door panel 251; thus, when the door panel 251 is hidden in the clip groove 212, the first seal a1 can block liquid from passing through the gap between the door panel 251 and the clip groove 212, and thus can prevent the liquid from leaking out of the tube body 21, and when the door panel 251 closes the opening 211, the second seal a2 and the first seal a1 can block the liquid from leaking out of the gap between the door panel 251 and the opening 211.

Preferably, the top of the opening 211 is provided with an upwardly concave slot 215 (see fig. 7), the top of the door panel 251 is provided with an upwardly convex flange 2511 (see fig. 5), and the flange 2511 corresponds to the slot 215 in position and is matched with the slot 215 in size; when the door 251 closes the opening 211, the flange 2511 is caught in the catch groove 215, so that the closed state of the door 251 is more stable and does not deviate under the influence of water pressure.

Preferably, both ends of the pipe body 21 are provided with external threads 214 to facilitate connection with the water supply pipeline and the spray head 1.

Preferably, referring to fig. 4, the outer diameter of the partition 253 is slightly smaller than the inner diameter of the pipe body 21; thus, when water flows into the pipe body 21, the water does not overflow to the upper side of the partition 253 too much, and the partition 253 is pushed to move upwards by a large force, so that the partition 253 can be pushed to move upwards quickly. Of course, a ring of sealing ring (not shown) may be disposed on the side wall of the partition 253 to seal the gap between the outer wall of the partition 253 and the inner wall of the pipe body 21, so that the partition 253 is pushed more strongly and moves upward more rapidly.

Preferably, referring to fig. 1, the spray head 1 is internally provided with a liquid passage, and the liquid passage comprises a conical passage 11 at the bottom, a spherical groove 12 communicated with the top of the conical passage 11, and a plurality of liquid outlet passages 13 which surround the periphery of the upper part of the spherical groove 12 and are communicated with the spherical groove 12; wherein, the bottom of the conical channel 11 is provided with an internal thread for connecting with the external thread 214 on the top of the tube body 21, and the diameter of the conical channel 11 is gradually reduced from bottom to top; an axially extending open groove 14 is formed in the top of the spherical groove 12, a spherical piston 15 is arranged in an inner cavity of the spherical groove 12, the outer diameter of the spherical piston 15 is larger than the caliber of the joint of the spherical groove 12 and the tapered channel 11 and is far smaller than the inner diameter of the spherical groove 12, a round rod 16 is connected to the top of the spherical piston 15, the round rod 16 is inserted into the open groove 14, and a pressure spring 17 is further arranged in the open groove 14 above the round rod 16; when the pressure spring 17 is in a natural state, the pressure spring 17 drives the spherical piston 15 to press against the joint of the spherical groove 12 and the conical channel 11, and when liquid enters the conical channel 11, the liquid pushes the spherical piston 15 to move upwards, then enters the spherical groove 12, and then is ejected out through each liquid outlet channel 13.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.