CN214812106U - Two-dimensional numerical control dry fountain type spray head device - Google Patents

Abstract

The utility model discloses a two-dimensional numerical control dry fountain type spray head device, which comprises a horizontal rotating structure, an electric ring, a vertical rotating structure and a water spraying system, wherein the vertical rotating structure is arranged right above the horizontal rotating structure, the water spraying system comprises a lower water inlet pipe, a lower rotating water pipe, a tee joint, a first side water pipe, a second side water pipe, a spherical shell and a cylinder type spray head, the cylinder type spray head is of a jacket type sleeve structure and comprises an outer sleeve, a middle sleeve and a core column which are sleeved with a coaxial gap from outside to inside, the cylinder type spray head penetrates through the spherical shell from bottom to top, and the spherical shell can vertically rotate around a horizontal axis; the horizontal rotating structure and the vertical rotating structure are both worm and gear mechanisms driven by stepping motors. The utility model discloses can spout cavity water column, under two dimension numerical control effect, gain breakthrough fountain effect.

Description

Two-dimensional numerical control dry fountain type spray head device

Technical Field

The utility model relates to a music fountain equipment, specifically say, the utility model relates to a drought fountain shower nozzle device.

Background

The dry fountain is called dry spraying for short, and the fountain facility is placed underground, and the spray head system is arranged below the cover plate. When water is sprayed, the sprayed water column is sprayed out through the cover plate hole, so that the effect of not occupying space but viewing the fountain is achieved. In the prior art, two-dimensional fountain devices have appeared in the market for improving the fountain effect of dry fountains. Chinese patent CN 103394431B discloses a dry fountain type two-dimensional numerical control spray head system, which comprises a first and a second numerical control spray heads, a rotary water outlet pipe of the first numerical control spray head is vertically arranged, the lower end of the rotary water outlet pipe I is connected with a water pump through a water inlet I, a water outlet I of the rotary water outlet pipe I is sequentially connected with a water inlet II of a second numerical control spray head through a hollow rotor, a tee joint and a connecting bent pipe of a collecting ring assembly, the rotary water outlet pipe II of the second numerical control spray head is horizontally arranged, the water outlet II of the rotary water outlet pipe II is connected with a nozzle through the tee joint with one end being plugged, the plugging end of the tee joint is provided with a plugging strip, when the nozzle is vertically upwards, the axes of the spray nozzle, the collecting ring assembly and the first numerical control spray head are coincided, the second numerical control spray head is arranged on the three-way support flat plate, the dry spraying rotary disc is fixedly connected to the top end of a shell of the second numerical control spray head through screws, and a strip-shaped spray hole is formed in the position above the spray nozzle of the dry spraying rotary disc and extends along the swinging direction of the spray nozzle. The two-dimensional numerical control spray head system can realize a two-dimensional numerical control fountain, but has the following defects: when in use, the nozzle sprays solid water jet, which only slightly improves the effect of the traditional fountain and does not obtain breakthrough fountain effect.

Disclosure of Invention

The utility model provides a two-dimension numerical control drought fountain type spray head device capable of obtaining breakthrough fountain effect, which aims at the defects of the prior art.

The utility model discloses a technical goal is realized to following technical scheme.

The two-dimensional numerical control dry fountain type spray head device comprises a horizontal rotating structure, an electric ring, a vertical rotating structure and a water spraying system, wherein the vertical rotating structure is arranged right above the horizontal rotating structure; the electric ring is arranged between the horizontal rotating structure and the vertical rotating structure; the improvement is that: the water spraying system comprises a lower water inlet pipe, a lower rotary water pipe, a tee joint, a first side water pipe, a second side water pipe, a spherical shell and a cylindrical spray head; the lower rotating water pipe is a vertical straight pipe; the horizontal rotating structure comprises a bottom plate and a first worm and gear mechanism; the bottom plate is horizontally arranged, and a shell I of the first worm and gear mechanism is fixedly connected to the bottom plate; the central axis of a worm wheel I of the first worm and gear mechanism is vertically arranged; the lower rotating water pipe sequentially penetrates through the hollow rotor of the electric ring and the worm wheel I of the first worm and gear mechanism from top to bottom and can synchronously rotate with the worm wheel I under the driving of the worm wheel I; the lower end of the lower rotating water pipe is connected with a water pump through a lower water inlet pipe, and the upper end of the lower rotating water pipe is fixedly connected with a through hole in the middle of the horizontally arranged three-way straight pipe; the spherical shell is arranged right above the tee joint, the first side water pipe and the second side water pipe are vertically arranged at two sides of the spherical shell, and the two ends of the spherical shell are provided with right-angle elbows facing one side of the spherical shell; two ends of the straight pipe of the tee joint are respectively fixedly connected with the right-angled bends at the lower ends of the first side water pipe and the second side water pipe; the two sides of the spherical shell are respectively and rotatably connected with and supported on the right-angle bent heads at the upper ends of the first side water pipe and the second side water pipe, so that the spherical shell can vertically rotate around a horizontal axis; the cylindrical spray head is of a jacket type sleeve structure and comprises an outer sleeve, a middle sleeve and a core column which are coaxially sleeved with a gap from outside to inside; in the vertical state, the bottom of the outer sleeve is closed, and the lower ends of the middle sleeve and the core column are connected and connected with the inner wall of the outer sleeve to form an inner cavity with the bottom of the outer sleeve; the jacket between the outer sleeve and the middle sleeve is communicated with the inner cavity; the jacket between the middle sleeve and the core column is communicated with the inner cavity; the cylindrical spray head penetrates through the spherical shell from bottom to top, and the upper part of the outer sleeve is fixedly connected with the lower part of the spherical shell; the outer wall of the upper end of the middle sleeve is hermetically connected with the upper part of the spherical shell; in the vertical state, the central axes of the cylindrical spray head, the lower rotating water pipe and the electric ring are superposed; the vertical rotating structure comprises a bearing plate and a second worm and gear mechanism; the bearing plate is horizontally arranged and fixedly connected to the upper side of the three-way straight pipe, and the second worm and gear mechanism is fixedly connected to the bearing plate; the second worm gear mechanism comprises a worm gear II supporting shaft; the central axis of the supporting shaft of the worm gear II is parallel to the horizontal axis of the spherical shell capable of realizing vertical rotation; two sides of the second worm gear mechanism are respectively provided with a driving gear and a sector gear which are meshed with each other; the upper end of the sector gear is fixedly connected to the outer wall of the spherical shell, and the driving gear is sleeved at one end of a worm gear II supporting shaft; the second worm and gear mechanism can realize the vertical rotation of the spherical shell through the driving gear and the sector gear; the first worm gear mechanism and the second worm gear mechanism are both driven by a stepping motor.

Further, the vertical rotating structure and the water spraying system are symmetrical relative to the central axis of the lower rotating water pipe.

Furthermore, a cover plate is arranged above the spherical shell; the cover plate is provided with a through hole, and the gap is sleeved on the upper part of the spherical shell.

Compared with the prior art, the utility model, following positive effect has:

1. the utility model discloses a horizontal rotation structure, electric ring, vertical rotation structure, water injection system include inlet tube, lower rotation water pipe, tee bend, first side water pipe, second side water pipe, spherical shell, cylinder shower nozzle down, and the cylinder shower nozzle is double-layered shell type sleeve structure, include by outer and interior coaxial gap suit's outer sleeve, middle sleeve, stem, the cylinder shower nozzle runs through spherical shell from bottom to top, and spherical shell can rotate perpendicularly around horizontal axis. When the fountain is used, water sequentially enters the inner cavity of the spherical shell through the lower water inlet pipe, the lower rotating water pipe, the tee joint, the first side water pipe and the second side water pipe, enters the inner cavity of the cylindrical sprayer through the outer sleeve of the cylindrical sprayer and the jacket between the middle sleeves from the inner cavity of the cylindrical sprayer, enters the jacket between the middle sleeves and the core column from the inner cavity of the cylindrical sprayer, is sprayed out from the upper end of the jacket between the middle sleeves and the core column to form a hollow water column, and a breakthrough fountain effect can be obtained under the action of two-dimensional numerical control.

2. The vertical rotating structure and the water spraying system are symmetrical relative to the central axis of the lower rotating water pipe, so that the stress is uniform, and the service life is obviously prolonged.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a left side view of fig. 1.

Fig. 3 is a sectional view taken along line a-a of fig. 1.

Fig. 4 is a sectional view taken along line B-B in fig. 2.

Fig. 5 is an enlarged schematic view of the middle cylinder type nozzle of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the protection scope of the present invention.

The two-dimensional numerical control dry fountain type spray head device shown in the attached drawing comprises a horizontal rotating structure 1, an electric ring 2, a vertical rotating structure 3 and a water spraying system 4, wherein the vertical rotating structure 3 is arranged right above the horizontal rotating structure 1; the electrical ring 2 is arranged between the horizontal rotary structure 1 and the vertical rotary structure 3.

The water spraying system 4 comprises a lower water inlet pipe 41, a lower rotary water pipe 42, a tee joint 43, a first side water pipe 44, a second side water pipe 45, a spherical shell 46 and a cylindrical spray head 47; the lower rotating water pipe 42 is a vertically arranged straight pipe.

The horizontal rotating structure 1 comprises a bottom plate 11 and a first worm and gear mechanism 12; the bottom plate 11 is horizontally arranged, and the shell I121 of the first worm gear mechanism 12 is fixedly connected to the bottom plate 11; the central axis of a worm wheel I122 of the first worm and gear mechanism 12 is vertically arranged; the lower rotating water pipe 42 sequentially penetrates through the hollow rotor of the electric ring 2 and the worm wheel I122 of the first worm and gear mechanism 12 from top to bottom, and can synchronously rotate with the worm wheel I122 under the driving of the worm wheel I122; the lower end of the lower rotating water pipe 42 is connected with a water pump through a lower water inlet pipe 41, and the upper end of the lower rotating water pipe is fixedly connected with a through hole in the middle of a straight pipe of a horizontally arranged tee 43; the spherical shell 46 is arranged right above the tee joint 43, the first side water pipe 44 and the second side water pipe 45 are vertically arranged at two sides of the spherical shell 46, and two ends of the first side water pipe and the second side water pipe are respectively provided with a right-angle elbow facing to one side of the spherical shell 46; two ends of the straight pipe of the tee 43 are respectively fixedly connected with the right-angled bends at the lower ends of the first side water pipe 44 and the second side water pipe 45; the two sides of the spherical shell 46 are respectively connected and supported on the right-angled bends at the upper ends of the first side water pipe 44 and the second side water pipe 45 in a rotating manner, so that the spherical shell 46 can vertically rotate around a horizontal axis.

The barrel-type spray head 47 is of a jacket-type sleeve structure and comprises an outer sleeve 471, a middle sleeve 472 and a core column 473 which are sleeved with a coaxial gap from outside to inside; in the vertical state, the bottom of the outer sleeve 471 is closed, the lower ends of the middle sleeve 472 and the stem 473 are connected, and are connected with the inner wall of the outer sleeve 471, and an inner cavity 4711 is formed at the bottom of the outer sleeve 471; the jacket between the outer sleeve 471 and the middle sleeve 472 is communicated with the inner cavity 4711; the jacket between the middle sleeve 472 and the stem 473 is communicated with the inner cavity 4711; the barrel type spray head 47 penetrates through the spherical shell 46 from bottom to top, and the upper part of the outer sleeve 471 is fixedly connected with the lower part of the spherical shell 46; the upper outer wall of the intermediate sleeve 472 is sealingly connected to the upper portion of the spherical shell 46.

In the vertical state, the central axes of the cylindrical nozzle 47, the lower rotating water pipe 42 and the electrical ring 2 are overlapped.

The vertical rotation structure 3 comprises a support plate 31 and a second worm gear mechanism 32; the support plate 31 is horizontally arranged and fixedly connected to the upper side of the straight pipe of the tee 43, and the second worm gear mechanism 32 is fixedly connected to the support plate 31; the second worm gear mechanism 32 includes a worm gear ii support shaft 321; the central axis of the worm gear II supporting shaft 321 is parallel to the horizontal axis of the spherical shell 46 capable of realizing vertical rotation; two sides of the second worm gear 32 are respectively provided with a driving gear 33 and a sector gear 34 which are meshed; the upper end of the sector gear 34 is fixedly connected with the outer wall of the spherical shell 46, and the driving gear 33 is sleeved at one end of a worm gear II supporting shaft 321; the second worm gear 32 can realize the vertical rotation of the spherical shell 46 through the driving gear 33 and the sector gear 34.

The first worm gear mechanism 12 and the second worm gear mechanism 32 are both driven by stepping motors.

The vertical rotating structure 3 and the water spraying system 4 are symmetrical relative to the central axis of the lower rotating water pipe 42, and in other embodiments, the vertical rotating structure 3 and the water spraying system 4 are asymmetrical relative to the central axis of the lower rotating water pipe 42, so that the use is not affected, but the stress effect is not uniform in a symmetrical state.

A cover plate 5 is arranged above the spherical shell 46; the cover plate 5 is provided with a through hole, and the gap is sleeved on the upper part of the spherical shell 46.

In the description herein, references to the description of "one embodiment," "an example," "a specific example," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The preferred embodiments of the present invention disclosed above are intended only to help illustrate the present invention. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and its practical applications, to thereby enable others skilled in the art to best understand the invention for and utilize the invention. The present invention is limited only by the claims and their full scope and equivalents.

Claims (3)

1. A two-dimensional numerical control dry fountain type spray head device comprises a horizontal rotating structure (1), an electric ring (2), a vertical rotating structure (3) and a water spraying system (4), wherein the vertical rotating structure (3) is arranged right above the horizontal rotating structure (1); the electric ring (2) is arranged between the horizontal rotating structure (1) and the vertical rotating structure (3); the method is characterized in that:

the water spraying system (4) comprises a lower water inlet pipe (41), a lower rotary water pipe (42), a tee joint (43), a first side water pipe (44), a second side water pipe (45), a spherical shell (46) and a cylindrical spray head (47); the lower rotating water pipe (42) is a vertical straight pipe;

the horizontal rotating structure (1) comprises a bottom plate (11) and a first worm and gear mechanism (12); the bottom plate (11) is horizontally arranged, and a shell I (121) of the first worm gear mechanism (12) is fixedly connected to the bottom plate (11); the central axis of a worm wheel I (122) of the first worm and gear mechanism (12) is vertically arranged; the lower rotating water pipe (42) sequentially penetrates through the hollow rotor of the electric ring (2) and the worm wheel I (122) of the first worm and gear mechanism (12) from top to bottom, and can synchronously rotate with the worm wheel I (122) under the driving of the worm wheel I (122); the lower end of the lower rotating water pipe (42) is connected with a water pump through a lower water inlet pipe (41), and the upper end of the lower rotating water pipe is fixedly connected with a through hole in the middle of a straight pipe of a horizontally arranged tee joint (43); the spherical shell (46) is arranged right above the tee joint (43), the first side water pipe (44) and the second side water pipe (45) are vertically arranged on two sides of the spherical shell (46), and two ends of the spherical shell are respectively provided with a right-angle elbow facing to one side of the spherical shell (46); two ends of a straight pipe of the tee joint (43) are respectively fixedly connected with right-angled bends at the lower ends of the first side water pipe (44) and the second side water pipe (45); two sides of the spherical shell (46) are respectively rotatably connected and supported on the right-angle bent heads at the upper ends of the first side water pipe (44) and the second side water pipe (45), so that the spherical shell (46) can vertically rotate around a horizontal axis;

the barrel type spray head (47) is of a jacket type sleeve structure and comprises an outer sleeve (471), a middle sleeve (472) and a core column (473) which are sleeved with a coaxial gap from outside to inside; in a vertical state, the bottom of the outer sleeve (471) is closed, the lower ends of the middle sleeve (472) and the stem (473) are connected, and are connected with the inner wall of the outer sleeve (471), and an inner cavity (4711) is formed at the bottom of the outer sleeve (471); the jacket between the outer sleeve (471) and the middle sleeve (472) is communicated with the inner cavity (4711); the jacket between the middle sleeve (472) and the core column (473) is communicated with the inner cavity (4711); the barrel type spray head (47) penetrates through the spherical shell (46) from bottom to top, and the upper part of the outer sleeve (471) is fixedly connected with the lower part of the spherical shell (46); the outer wall of the upper end of the middle sleeve (472) is hermetically connected with the upper part of the spherical shell (46);

in the vertical state, the central axes of the cylindrical spray head (47), the lower rotating water pipe (42) and the electric ring (2) are superposed;

the vertical rotating structure (3) comprises a support plate (31) and a second worm and gear mechanism (32); the bearing plate (31) is horizontally arranged and fixedly connected to the upper side of a straight pipe of the tee joint (43), and the second worm and gear mechanism (32) is fixedly connected to the bearing plate (31); the second worm gear mechanism (32) comprises a worm gear II supporting shaft (321); the central axis of the worm gear II supporting shaft (321) is parallel to the horizontal axis of the spherical shell (46) capable of realizing vertical rotation; two sides of the second worm gear mechanism (32) are respectively provided with a driving gear (33) and a sector gear (34) which are meshed with each other; the upper end of the sector gear (34) is fixedly connected to the outer wall of the spherical shell (46), and the driving gear (33) is sleeved at one end of a worm gear II supporting shaft (321); the second worm gear mechanism (32) can realize the vertical rotation of the spherical shell (46) through a driving gear (33) and a sector gear (34);

the first worm gear mechanism (12) and the second worm gear mechanism (32) are driven by stepping motors.

2. The two-dimensional, numerically controlled, fountain-type sprinkler head apparatus of claim 1, wherein: the vertical rotating structure (3) and the water spraying system (4) are symmetrical relative to the central axis of the lower rotating water pipe (42).

3. The two-dimensional numerically controlled fountain head apparatus of claim 1 or 2, wherein: a cover plate (5) is arranged above the spherical shell (46); the cover plate (5) is provided with a through hole, and the gap is sleeved on the upper part of the spherical shell (46).

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