CN114495767A - Automatic content is put in with sightseeing display device based on internet - Google Patents

Abstract

The invention discloses sightseeing display equipment for automatic content delivery based on the internet, which belongs to the technical field of signs. The vertical pile comprises a vertical pile front shell and a vertical pile rear shell which are mutually folded to form a square column-shaped column structure, and further comprises a vertical pile top cover covering the top of the column structure and a water supply pipe assembly arranged in the column structure. The support rod comprises a support rod front shell and a support rod rear shell which are mutually folded to form an L-shaped rod body structure, and further comprises a glass sheet, a projector and a fog generator which are arranged inside the rod body structure. The projection content is light, so the environment is darker, the projection content is brighter, and no additional light source is needed for auxiliary illumination. The fog vertical pile of the fog curtain has moist air around, and the growing environment of the lawn around the vertical pile is improved.

Description

Automatic content is put in with sightseeing display device based on internet

Technical Field

The invention relates to the technical field of signs, in particular to sightseeing display equipment for automatic content delivery based on the Internet.

Background

The sightseeing agriculture refers to widely utilizing the space of suburbs of cities, natural resources of agriculture, folk custom amorous feelings of villages, culture of villages and other conditions, and establishing an agricultural area integrating agricultural production, ecology, life, tourism and landscape sightseeing through reasonable planning, design and construction.

To attract visitors to see, a board is usually set up beside the field to introduce crops in the field or guide the visitors. At present, the introduction board is mostly composed of a vertical pile inserted in soil and a plurality of plates installed at the top end of the vertical pile, and characters or patterns for introducing crops are written on the plates. The board can also be made in different shapes for aesthetic purposes and to attract visitors.

For example, a sign for sightseeing in an agricultural ecological park disclosed in chinese patent application No. CN201921725792.3 and a sign for sightseeing and traveling in an agricultural park disclosed in chinese patent application No. CN 201520483166.3. Although the content such as characters and patterns for introducing crops and icons for guiding directions can be written on the brands, the method has the following defects:

firstly, the cards are similar to the road cards at the road intersections, are lack of interest and are not beneficial to attracting visitors;

secondly, under the dim environment of light, need carry out auxiliary lighting through LED lamp or other types of lamps and lanterns, just can let the visitor discern the content on the tablet.

Based on the above, the invention designs the sightseeing display equipment for automatic content delivery based on the Internet, so as to solve the problems.

Disclosure of Invention

The invention aims to provide sightseeing display equipment for automatic content delivery based on the Internet, which aims to solve the problems that the cards proposed in the background technology are similar to the guideboards at road intersections, lack of interest and are not beneficial to attracting visitors; and under the dim environment of light, need carry out auxiliary lighting through LED lamp or other types of lamps and lanterns, just can let the problem of the content on the visitor discernment tablet.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides an automatic content is put in with sightseeing display device based on internet, is used for erectting the stake of installing on the farmland plot, still includes crisscross distribution and fixes branch that is used for making the fog curtain and throws projection content on the stake.

The vertical pile comprises a vertical pile front shell and a vertical pile rear shell which are mutually folded and fixed through bolts to form a square column-shaped column structure, and further comprises a vertical pile top cover which covers the top of the column structure formed by the vertical pile front shell and the vertical pile rear shell and a water supply pipe assembly which is arranged in the column structure formed by the vertical pile front shell and the vertical pile rear shell.

The water supply pipe assembly comprises a main water pipe, branch water pipes, a pipe sleeve and a first sealing ring, wherein the main water pipe is used for being connected with an external water supply pipeline, the pipe opening of the main water pipe faces downwards, the branch water pipes are evenly distributed on the main water pipe body in a staggered mode and are communicated with the pipe cavity of the main water pipe, the pipe sleeve is sleeved on the branch water pipe body and moves along the branch water pipe body, and the first sealing ring is installed in the pipe sleeve.

The pipe body at the pipe orifice at the outer end part of the branch water pipe is provided with a circular flange for preventing the pipe sleeve from being separated from the pipe body of the branch water pipe, and the inner cavity wall at the pipe orifice at the outer end part of the branch water pipe is provided with two square groove-shaped directional grooves which are symmetrically distributed in the front-back direction.

The inner port of the sleeve is connected with a circular check ring sleeved on the branch pipe body on the wall of the pipe cavity, and the first seal ring is attached to the check ring.

The support rod comprises a support rod front shell and a support rod rear shell which are mutually folded and fixed through screws to form an L-shaped rod body structure, and the support rod further comprises a glass sheet, a projector and a mist generator which are arranged in the rod body structure formed by the support rod front shell and the support rod rear shell.

The mist generator comprises a connector used for connecting a branch water pipe, a mist pipe used for storing water liquid, an electromagnetic valve connected between the connector and the mist pipe and used for controlling the connector to supply water to the mist pipe, and a mist generating component embedded in a pipe cavity of the mist pipe and used for manufacturing a mist curtain.

The connector comprises a water inlet pipe which is inserted into a pipe cavity of an outer port of the branch pipe and is in a circular straight pipe shape, a circular ring-shaped threaded sleeve is fixedly sleeved on the middle pipe body of the water inlet pipe, threads which are mutually bolted are arranged on an arc-shaped ring surface of an outer ring of the threaded sleeve and the pipe cavity of the pipe sleeve, and the pipe walls of the front side and the rear side of the pipe body of the water inlet pipe are respectively connected with a square column-shaped directional block which is inserted into a directional groove cavity.

The fog pipe comprises a fog pipe head which is in a round straight pipe shape and is communicated with the electromagnetic valve, a fog pipe body which is connected with the water outlet of the fog pipe head, and a fog pipe tail cover which covers the water outlet of the fog pipe body.

The mist generating assembly comprises a panel inserted into the inner cavity of the mist pipe body, a plurality of atomizing sheets embedded on the panel body, a wire pipe installed on the panel body and a water level sensor embedded on the panel body.

Preferably, the shell includes a cell body that is square groove form before the stake, and the plate body lateral wall uniform welding of the pterygoid lamina in the cell body has the return bend group, and the return bend group includes two hollow return bends that are symmetry form distribution from top to bottom, and the inner welding of hollow return bend is on the pterygoid lamina plate body of the cell body that is square groove form in the shell before the stake, and the inner mouth of pipe of hollow return bend runs through the inside wall of this pterygoid lamina.

Preferably, the plate body of the wing plate in the groove body of the vertical pile front shell is uniformly provided with a first bayonet in a semicircular hole shape.

Preferably, the inner side wall of a web plate in the groove body of the vertical pile front shell is uniformly welded with a first cylindrical column in a circular straight tubular shape, the axial lead of the first cylindrical column is perpendicular to the inner side wall of the web plate, and a cylinder cavity of the first cylindrical column is provided with threads capable of being bolted with bolts.

Preferably, the stud rear shell comprises a groove body in a square groove shape, a second bayonet which is in a semicircular hole shape and is communicated with the first bayonet arranged on the stud front shell is uniformly arranged on the front wall of the wing plate in the groove body, the second bayonet penetrates through the left wall surface and the right wall surface of the wing plate where the second bayonet is arranged, the second bayonet and the bayonet which are communicated form a circular through hole together, and the through hole is sleeved on the pipe body of the water supporting pipe in a hooping mode.

Preferably, the front wall of the wing plate in the groove body of the upright post rear shell is also uniformly provided with a first semicircular hole-shaped notch for hooping the hollow bent pipe body.

Preferably, a second cylindrical column which is in a circular straight tubular shape and is respectively aligned with the first cylindrical column welded to the front shell of the vertical pile is uniformly welded to the inner side wall of the web plate in the groove body of the rear shell of the vertical pile, the axial lead of the second cylindrical column is perpendicular to the inner side wall of the web plate, and a cylindrical cavity of the second cylindrical column penetrates through the outer side wall of the web plate.

Preferably, the top plate body inside wall of the web in the cell body of the shell before the stake and the top plate body inside wall of the web in the cell body of the shell behind the stake are respectively welded with a first limiting block for fixing and clamping the tube body of the main water pipe, and the first limiting block is provided with an arc-shaped notch which is attached to the top tube body of the main water pipe.

Preferably, the inner side wall of the lower plate body of the web plate in the groove body of the vertical pile front shell and the inner side wall of the lower plate body of the web plate in the groove body of the vertical pile rear shell are respectively welded with a second limiting block used for fixing and clamping the pipe body of the main water pipe, and the second limiting block is provided with an arc-shaped notch which is attached to the bottom pipe body of the main water pipe.

Preferably, the front supporting rod shell and the rear supporting rod shell respectively comprise a groove body in an L-shaped groove cavity shape.

Preferably, the groove body that is L type groove chamber form of shell before the branch with the groove body that is L type groove chamber form of shell behind the branch is respectively fixedly connected with the stopper three that is used for carrying out fixed centre gripping to the projecting apparatus in its fore-and-aft vallecular cavity.

Preferably, the groove body that is L type groove chamber form of shell before the branch with the groove body that is L type groove chamber form of shell behind the branch is respectively fixedly connected with the stopper four that is used for blockking the fog pipe tube head in the vallecular cavity of its department of buckling.

Preferably, the groove body of the front shell of the supporting rod, which is in the shape of the L-shaped groove cavity, and the groove body of the rear shell of the supporting rod, which is in the shape of the L-shaped groove cavity, are respectively fixedly connected with a fifth limiting block for fixedly clamping the fog pipe in the transverse groove cavity.

Preferably, a third semicircular-hole-shaped bayonet and two second semicircular-hole-shaped openings are formed in the end part of the transverse groove cavity of the groove body of the support rod front shell, and the third bayonet is located in the middle of the two second openings.

Preferably, a first notch in a square notch shape is formed in the top of the transverse groove cavity of the groove body of the support rod front shell.

Preferably, the bottom of the transverse groove cavity of the groove body of the strut front shell is uniformly provided with a third opening in the shape of a semicircular hole.

Preferably, a first clamping groove in a square notch shape is formed in the inner side wall of the longitudinal groove cavity of the groove body of the support rod front shell.

Preferably, the wall of the groove cavity of the groove body of the supporting rod front shell is uniformly and fixedly connected with a first mounting column, and a screw hole is formed in the middle of the first mounting column.

Preferably, the end part of the transverse groove cavity of the groove body of the rear support rod shell is provided with a bayonet fourth which is communicated with a bayonet third arranged on the front support rod shell and is in a semicircular hole shape, the bayonet fourth is positioned in the middle of the two inserting cylinders, and the two inserting cylinders are distributed in a vertically symmetrical manner by taking the axial lead of the bayonet fourth as a symmetrical axis; the three and four mutually communicated bayonets form a round pipe in a straight cylinder shape, and the pipe body of the water inlet pipe is sleeved with a hoop of the round pipe.

Preferably, the end part of the transverse groove cavity of the groove body of the support rod rear shell is connected with two insertion barrels in a circular straight tube shape, the opening secondary hoop is sleeved on the barrel body of the insertion barrel, and the hollow bent pipe welded on the vertical pile front shell is inserted into the barrel cavity of the insertion barrel.

Preferably, the top of the transverse groove cavity of the groove body of the rear support rod shell is provided with a second notch communicated with the first notch of the front support rod shell, and the first notch and the second notch which are communicated form a square notch-shaped through hole for discharging mist.

Preferably, the bottom of the transverse groove cavity of the groove body of the support rod rear shell is uniformly provided with a notch III communicated with the notch III arranged on the support rod front shell, and the communicated notch III and the notch IV form a through hole in a circular hole shape.

Preferably, the inner side wall of the longitudinal groove cavity of the groove body of the support rod rear shell is provided with a second clamping groove communicated with the first clamping groove formed in the support rod front shell, and the first clamping groove and the second clamping groove which are communicated with each other jointly form a through hole which is used for fixedly mounting the glass sheet and is in a square groove opening shape.

Preferably, the cavity wall of the groove body of the support rod rear shell is uniformly connected with a second mounting column aligned with the first mounting column connected with the support rod front shell, a stepped through hole used for inserting a screw is formed in the middle of the second mounting column, and the stepped through hole of the second mounting column is aligned with the screw hole of the first mounting column.

Preferably, the water outlet of the water inlet pipe is communicated with the water inlet of the electromagnetic valve.

Preferably, still the cover has sealing washer two and sealing washer three on the body of inlet tube, and the sealing washer two sets are established on the body of the water inlet department of inlet tube, and sealing washer three is laminated with the thread bush mutually, and sealing washer three is in between sealing washer two and the thread bush. The axial lead of the second sealing ring, the axial lead of the third sealing ring, the axial lead of the threaded sleeve and the axial lead of the water inlet pipe are all on the same straight line.

Preferably, the water inlet of the fog pipe head is communicated with the water outlet of the electromagnetic valve.

Preferably, the top of the pipe body at the water inlet of the fog pipe body is connected with a wire barrel which is used for threading a wire and is in a circular straight pipe shape, and a barrel cavity of the wire barrel is communicated with a pipe cavity of the fog pipe body.

Preferably, the top wall of the middle pipe body of the fog pipe body is provided with a rectangular hole-shaped fog discharge opening.

Preferably, the fog pipe tail cover is a screw cover, and a sealing plug for sealing the water outlet of the fog pipe body is embedded in a cover cavity of the fog pipe tail cover.

Preferably, the plate body of the panel is uniformly provided with through-hole-shaped leakage openings, and the panel divides the inner cavity of the mist pipe body into two vertically symmetrical cavities.

Preferably, the atomization sheet penetrates through the upper plate surface and the lower plate surface of the panel.

Preferably, the lumen of the conduit is used for arranging the electric wire of the atomization sheet.

Preferably, the wire of the atomization sheet and the water level sensor penetrate through the cylinder cavity of the wire cylinder.

Compared with the prior art, the invention has the beneficial effects that:

firstly, the caption or the picture is projected to the fog curtain through the projector, so that the caption or the picture has a smoke-turning dynamic effect, and the caption or the picture is favorable for attracting visitors to watch, especially visitors accompanied by children and accompanying the children to watch together in order to meet the curiosity of the children.

And secondly, because the projection content is light, the environment is dim, the projection content is bright, and additional light sources are not needed for auxiliary illumination.

And thirdly, as the device is applied to sightseeing agriculture, sometimes tourists need to pick crops in the farmland by hands. Therefore, after the tourists pick the crops, the palms inevitably stick to some soil or juice, stem liquid and the like of the fruits. At the moment, the paper towel carried by the tourist is put into the fog curtain, and the fog in the fog curtain moistens the paper towel, so that the tourist can conveniently clean hands by the moistened paper towel.

And fourthly, the air around the fog vertical pile of the fog curtain is wet, which is beneficial to improving the growing environment of the lawn around the vertical pile.

Of course, it is not necessary for any product in which the invention is practiced to achieve all of the above-described advantages at the same time.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

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

FIG. 2 is an enlarged view taken at A of FIG. 1 in accordance with the present invention;

FIG. 3 is a schematic view of the closed state of the present invention;

FIG. 4 is a front left side view of the stake of the present invention;

FIG. 5 is a right rear side view of the stake of the present invention;

FIG. 6 is an exploded view of the construction of the stake of the present invention;

FIG. 7 is a front left side view of the front shell of the stake of the present invention;

FIG. 8 is a right rear side view of the pile front shell of the present invention;

FIG. 9 is a front left side view of the pile backshell of the present invention;

FIG. 10 is a right rear side view of the stake back shell of the present invention;

FIG. 11 is a schematic view illustrating a structure of a water supply pipe assembly according to the present invention;

FIG. 12 is an assembled cross-sectional view of a lateral and a socket according to the present invention;

FIG. 13 is an assembled view of the post housing and water supply pipe assembly of the present invention;

figure 14 is an exploded view of the structure of the strut of the present invention;

FIG. 15 is a schematic view of a strut front shell construction of the present invention;

FIG. 16 is a schematic view of a strut backshell structure according to the present invention;

FIG. 17 is an enlarged view at B of FIG. 16 in accordance with the present invention;

FIG. 18 is an enlarged view of the invention at C of FIG. 16;

FIG. 19 is an enlarged view taken at D of FIG. 16 in accordance with the present invention;

FIG. 20 is a schematic view of a mist generator according to the present invention;

FIG. 21 is an enlarged view at E of FIG. 20 in accordance with the present invention;

fig. 22 is a cross-sectional view of a connector of the present invention;

FIG. 23 is a schematic view of the assembly of the mist tube and the mist generating assembly of the present invention;

FIG. 24 is an enlarged view at F of FIG. 23 in accordance with the present invention;

FIG. 25 is an enlarged view at G of FIG. 23 in accordance with the present invention;

FIG. 26 is a schematic view of a mist generating assembly according to the present invention;

FIG. 27 is a schematic view of the assembly of the atomization plate, the water level sensor and the panel of the present invention;

FIG. 28 is a schematic structural view of a rear housing of a projector, a mist generator and a strut according to the present invention;

FIG. 29 is an enlarged view at H of FIG. 28 in accordance with the invention;

FIG. 30 is an enlarged view taken at I of FIG. 28 in accordance with the present invention;

fig. 31 is a schematic view of the assembly of the stake and post of the present invention.

In the drawings, the components represented by the respective reference numerals are listed below:

100-vertical pile, 200-supporting rod, 1-fog curtain and 2-projection content;

110-a vertical pile front shell, 120-a vertical pile rear shell, 130-a vertical pile top cover and 140-a water supply pipe assembly;

101-bayonet I, 102-bayonet II, 103-notch I, 104-oriented groove, 111-elbow group, 112-cylinder I, 121-cylinder II, 01-limiting block I, and 02-limiting block II;

141-a main water pipe, 142-branch water pipes, 143-a pipe sleeve and 001-a sealing ring I;

210-a strut front shell, 220-a strut rear shell, 230-a glass sheet, 240-a projector, 300-a fog generator;

211-a first mounting column, 221-a second mounting column, 222-a barrel, 201-a third bayonet, 202-a second notch, 203-a first notch, 240-a third notch, 205-a first clamping groove, 206-a fourth bayonet, 207-a second notch, 208-a fourth notch, 209-a second clamping groove, 03-a third limiting block, 04-a fourth limiting block, 05-a fifth limiting block;

310-connector, 320-electromagnetic valve, 330-fog pipe, 340-fog-making component;

311-water inlet pipe, 312-thread bushing, 313-orientation block, 002-seal ring II, 003-seal ring III, 331-fog pipe head, 332-fog pipe body, 301-line cylinder, 302-fog discharge port, 333-fog pipe tail cover, 004-sealing plug, 341-panel, 303-leakage port, 342-atomization sheet, 343-line pipe and 344-water level sensor.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 to 3, the present invention provides an internet-based sightseeing display device for automatic content delivery, which includes a vertical pile 100 for supporting and five struts 200 fixed on the vertical pile 100 and alternately distributed for manufacturing a fog curtain 1 and projecting projection content 2.

Referring to fig. 4 to 6, the present invention provides a pile 100 including a front pile housing 110, a rear pile housing 120, a pile head 130, a water supply pipe assembly 140, and a plurality of bolts.

It should be noted that the front pile casing 110 and the rear pile casing 120 are folded and fixed to each other by bolts to form a square column structure, the top pile cover 130 covers the top end of the column structure, and the water supply pipe assembly 140 is fixedly clamped in the inner cavity of the column structure.

Referring to fig. 7 and 8, the front casing 110 of the present invention includes a groove body having a square groove shape and a backward groove opening, and the bent pipe groups 111 are uniformly welded to the outer side walls of the plate body at the rear end of the wing plate of the groove body. The elbow pipe group 111 includes two hollow elbows symmetrically distributed up and down, the inner ends of the hollow elbows are welded to the wing plate body of the groove body in the vertical pile front shell 110, and the inner end pipe orifices of the hollow elbows penetrate through the inner side walls of the wing plates.

In addition, in the square groove-shaped groove body of the stud front shell 110, the inner side wall of the wing plate faces the groove cavity of the groove body, and the outer side wall of the rear end plate body of the wing plate is opposite to the inner side wall of the wing plate.

The middle part of each bent pipe group 111 is provided with a first bayonet 101 in a semicircular hole shape, the first bayonet 101 is arranged on the rear wall of a wing plate in a groove body in a square groove shape of the vertical pile front shell 110, and the first bayonet 101 penetrates through the left wall surface and the right wall surface of the wing plate where the first bayonet 101 is arranged.

In addition, the two hollow bent pipes in the bent pipe group 111 take the axial lead of the bayonet one 101 arranged at the middle part of the bent pipe group 111 as a symmetry axis.

The inner side wall of a web plate in a groove body in a square groove shape of the vertical pile front shell 110 is uniformly welded with a first cylindrical column 112 in a circular straight pipe shape, the axial lead of the first cylindrical column 112 is perpendicular to the inner side wall of the web plate, and a cylinder cavity of the first cylindrical column 112 is provided with threads capable of being bolted with a bolt. The inside wall welding of the top plate body of the web of this cell body has stopper one 01, and an arc breach has been seted up to the rear end of stopper one 01. The inner side wall of the lower plate body of the web plate of the groove body is welded with a second limiting block 02, and the rear end of the second limiting block 02 is provided with an arc-shaped notch.

In the square groove-shaped groove body of the stud front shell 110, the inner side wall of the web plate faces the groove cavity of the groove body, and the inner side wall of the top plate body of the web plate and the inner side wall of the lower plate body of the web plate are wall surfaces of different parts of the inner side wall of the web plate respectively.

Referring to fig. 9 and 10, the rear casing 120 of the present invention includes a groove body having a square groove shape and a forward groove opening, the front wall of the wing plate of the groove body is uniformly provided with a second bayonet 102 having a semicircular hole shape, and the second bayonet 102 penetrates through the left and right wall surfaces of the wing plate where the second bayonet 102 is located.

The second bayonet 102 of the pile rear housing 120 is respectively communicated with the first bayonet 101 of the pile front housing 110, and the second bayonet 102 and the first bayonet 101 which are communicated with each other form a circular through hole.

A first opening 103 in a semicircular hole shape is respectively arranged right above and right below each second bayonet 102, and the two first openings 103 are vertically and symmetrically distributed by taking the axial lead of the second bayonet 102 as a symmetry axis. The first notch 103 is formed in the front wall of the wing plate in the groove body of the rear shell 120 of the vertical pile, and the first notch 103 penetrates through the left wall surface and the right wall surface of the wing plate where the first notch is formed.

Specifically, the first opening 103 of the rear pile casing 120 is distributed and hooped on the inner end pipe body of the hollow elbow of the elbow set 111 in the front pile casing 110.

The inner side wall of the web plate in the groove body in the square groove shape of the vertical pile rear shell 120 is uniformly welded with a second cylindrical column 121 in a circular straight tubular shape, the axial lead of the second cylindrical column 121 is perpendicular to the inner side wall of the web plate, and the cylindrical cavity of the second cylindrical column 121 penetrates through the outer side wall of the web plate. The inside wall welding of the top plate body of the web of this cell body has the stopper one 01 the same with stopper one 01 that shell 110 welded before the stake, and an arc breach has been seted up to the front end of stopper one 01 that the web of this cell body welded. The inner side wall of the lower plate body of the web plate of the groove body is welded with a second limiting block 02 which is identical to the second limiting block 02 welded to the vertical pile front shell 110, and the front end of the second limiting block 02 welded to the web plate of the groove body is provided with an arc-shaped notch.

In addition, in the groove body of the stud front shell 110, which is shaped like a square groove, the inner side wall of the web faces the groove cavity of the groove body, the outer side wall of the web is opposite to the inner side wall of the web, and the inner side wall of the top plate body of the web and the inner side wall of the lower plate body of the web are wall surfaces of different parts of the inner side wall of the web respectively.

In addition, in the front and rear vertical pile cases 110 and 120, the rear walls of the wing plates on the left and right sides of the front vertical pile case 110 are respectively attached to the front walls of the wing plates on the left and right sides of the rear vertical pile case 120, so that the rectangular groove-shaped groove body of the front vertical pile case 110 and the rectangular groove-shaped groove body of the rear vertical pile case 120 are folded to form a rectangular column-shaped structure. The first cylindrical columns 112 welded to the front pile casing 110 of the rear pile casing 120 are respectively aligned with the second cylindrical columns 121 welded to the rear pile casing 120, bolts are inserted into the cylindrical cavities of the second cylindrical columns 121 from the rear of the rear pile casing 120, the bolts are screwed into the cylindrical cavities of the first cylindrical columns 112 aligned with the second cylindrical columns 121, and the front pile casing 110 and the rear pile casing 120 can be fixedly installed together by screwing the bolts. The first limiting block 01 welded to the vertical pile front shell 110 and the arc-shaped notch formed in the first limiting block 01 welded to the vertical pile rear shell 120 and the arc-shaped notch formed in the first limiting block 01 are arranged in a front-back symmetrical mode, and the second limiting block 02 welded to the vertical pile front shell 110 and the arc-shaped notch formed in the second limiting block 02 welded to the vertical pile rear shell 120 and the arc-shaped notch formed in the second limiting block 02 are arranged in a front-back symmetrical mode.

Referring to fig. 11 to 13, the water supply pipe assembly 140 of the present invention includes a main water pipe 141 with a downward pipe opening, five branch water pipes 142 distributed on the pipe body of the main water pipe 141 in a staggered manner, five pipe sleeves 143 respectively sleeved on the pipe bodies of the five branch water pipes 142, and five first sealing rings 001 respectively installed in the five pipe sleeves 143.

The first limit block 01 welded to the front vertical pile shell 110 and the first limit block 01 welded to the rear vertical pile shell 120 fixedly clamp the top pipe body of the main water pipe 141 through the arc-shaped notches respectively formed in the two limit blocks, and the second limit block 02 welded to the front vertical pile shell 110 and the second limit block 02 welded to the rear vertical pile shell 120 fixedly clamp the bottom pipe body of the main water pipe 141 through the arc-shaped notches respectively formed in the two limit blocks. The bottom nozzle of the main water pipe 141 is used to connect an external water supply pipeline, and water is supplied to the lumen of the main water pipe 141 through the external water supply pipeline. The pipe body of the branch pipe 142 is fixedly clamped by a circular through hole formed by combining the first bayonet 101 of the vertical pile front shell 110 and the second bayonet 102 of the vertical pile rear shell 120.

The branch water pipe 142 is a circular straight pipe, the inner end of the branch water pipe 142 is welded to the body of the main water pipe 141, and the lumen of the branch water pipe 142 is communicated with the lumen of the main water pipe 141. The pipe body at the pipe opening at the outer end of the branch pipe 142 is provided with a circular flange to prevent the pipe sleeve 143 fitted around the pipe body of the branch pipe 142 from being separated from the outer end of the branch pipe 142. The inner cavity wall at the outer end mouth of the branch water pipe 142 is provided with two square groove shaped directional grooves 104 which are symmetrically distributed in front and back.

The pipe sleeve 143 is a metal part cast by an integral molding process, the pipe sleeve 143 is a circular straight tubular pipe body, a circular ring-shaped retaining ring is connected to the cavity wall of the pipe cavity at the inner port of the pipe sleeve 143, and the axial line of the retaining ring is on the same straight line with the axial line of the pipe sleeve 143. The stopper is sleeved on the pipe body of the branch pipe 142 and can move left and right along the pipe body of the branch pipe 142. The inner lumen wall of the tube sleeve 143 is provided with threads for bolting the strut 200. The outer wall of the inner port of the sleeve 143 is in the shape of a hexagon bolt, which facilitates the use of a wrench to screw the sleeve 143.

The outer port of the sleeve 143 faces the same direction as the outer port of the branch pipe 142, and the inner port of the sleeve 143 faces the same direction as the inner port of the branch pipe 142. The first sealing ring 001 is embedded in the inner cavity of the tube body of the sleeve 143, the axial lead of the first sealing ring 001 and the axial lead of the retaining ring in the sleeve 143 are on the same straight line, and the first sealing ring 001 is attached to the retaining ring. The first sealing ring 001 is firstly arranged in the sleeve 143, then the sleeve 143 is sleeved on the body of the branch water pipe 142, and finally the inner end of the branch water pipe 142 is welded on the body of the main water pipe 141.

The joint seam between the branch water pipe 142 and the main water pipe 141 is sealed by welding, so that the water in the tube cavity of the main water pipe 141 is prevented from leaking out when flowing into the tube cavity of the branch water pipe 142. A water outlet hole for communicating with the lumen of the branch pipe 142 is reserved on the main pipe 141, so that water in the lumen of the main pipe 141 can flow into the lumen of the branch pipe 142 from the water outlet hole.

In the application of the invention, a cement pile for installing the vertical pile is laid on the ground of the farmland plot, the cement pile is buried under the soil, and the bottom of the vertical pile is fixedly arranged at the top of the cement pile through the foundation bolt. So for the stake fixed mounting is on the landmass in farmland. In addition, lawns are uniformly planted on the land around the vertical piles.

Referring to fig. 14, the strut 200 according to the present invention includes a strut front shell 210, a strut rear shell 220, a glass plate 230, a projector 240, a mist generator 300, and a plurality of screws.

It should be noted that the front strut shell 210 and the rear strut shell 220 are folded and fixed by screws to form an L-shaped rod structure, and the glass sheet 230, the projector 240 and the mist generator 300 are all fixedly clamped in an inner cavity of the rod structure.

Referring to fig. 15-19, the front and rear strut shells 210 and 220 of the present invention each include an L-shaped slot, and the L-shaped slot of the front strut shell 210 and the L-shaped slot of the rear strut shell 220 are engaged with each other to form an L-shaped rod structure.

A third limiting block 03 is fixedly connected in the longitudinal groove cavity of each of the groove body in the L-shaped groove cavity of the support rod front shell 210 and the groove body in the L-shaped groove cavity of the support rod rear shell 220.

The groove body of the strut front shell 210 in the shape of the L-shaped groove cavity and the groove body of the strut rear shell 220 in the shape of the L-shaped groove cavity are respectively and fixedly connected with a limiting block four 04 in the groove cavity at the bending position.

The groove body of the strut front shell 210 in the shape of the L-shaped groove cavity and the groove body of the strut rear shell 220 in the shape of the L-shaped groove cavity are respectively and fixedly connected with a limiting block five 05 in the transverse groove cavity.

In the strut front shell 210, a semicircular hole-shaped bayonet third 201 and two semicircular hole-shaped openings second 202 are formed in the end portion of the transverse slot cavity, the bayonet third 201 is located in the middle of the two openings second 202, and the two openings second 202 are distributed in a vertically symmetrical manner by taking the axial lead of the bayonet third 201 as a symmetrical axis.

In the strut rear shell 220, a bayonet socket four 206 in a semicircular hole shape and two insertion cylinders 222 in a circular straight tube shape are formed at the end part of a transverse slot cavity, the bayonet socket four 206 is located in the middle of the two insertion cylinders 222, and the two insertion cylinders 222 are distributed in a vertically symmetrical manner by taking the axial lead of the bayonet socket four 206 as a symmetrical axis.

The bayonet three 201 and the bayonet four 206 are communicated with each other, and the bayonet three 201 and the bayonet four 206 which are communicated with each other form a circular tube in a shape of a straight cylinder. The two second openings 202 are respectively hooped and sleeved on the cylinder bodies of the two inserting cylinders 222.

In the front shell 210 of the strut, the top of the transverse slot cavity is provided with a first opening 203 in the shape of a square slot.

In the strut rear shell 220, the top of the transverse slot cavity is provided with a second notch 207 which has the same shape and size as the first notch 203.

The first notch 203 and the second notch 207 are communicated with each other, and the first notch 203 and the second notch 207 which are communicated with each other form a through hole in a square notch shape.

In the front shell 210 of the strut, the bottom of the transverse slot cavity is uniformly provided with a third opening 204 in the shape of a semicircular hole.

In the strut rear shell 220, the bottom of the transverse groove cavity is uniformly provided with a notch four 208 which has the same shape and size as the notch three 204.

It should be noted that the third notch 204 of the strut front shell 210 is respectively communicated with the fourth notch 208 of the strut rear shell 220, and the three communicated notches 204 and the fourth notch 208 form a through hole in a circular hole shape.

In the front shell 210 of the strut, a first slot 205 in the shape of a square slot is formed on the inner side wall of the longitudinal slot cavity.

In the strut rear shell 220, a second slot 209 having the same shape and size as the first slot 205 is formed on the inner side wall of the longitudinal slot cavity.

It should be noted that the longitudinal inner side wall of the groove cavity in the front strut shell 210 is located at the internal corner of the L-shaped groove cavity of the front strut shell 210, and the longitudinal inner side wall of the groove cavity in the rear strut shell 220 is located at the internal corner of the L-shaped groove cavity of the rear strut shell 220. The first clamping groove 205 and the second clamping groove 209 are communicated with each other, and the first clamping groove 205 and the second clamping groove 209 which are communicated with each other form a through hole in a square notch shape. The glass sheet 230 is fixedly bonded in the through hole cavity formed by the first slot 205 and the second slot 209 and is in a square slot shape, and the through hole cavity is sealed.

In the front shell 210 of the strut, the wall of the slot cavity is uniformly and fixedly connected with a first mounting column 211, and the middle part of the first mounting column 211 is provided with a screw hole which can be bolted with a screw.

In the strut rear shell 220, the cavity wall of the slot cavity is uniformly connected with a second mounting column 221, and the second mounting column 221 of the strut rear shell 220 is respectively aligned with the first mounting column 211 of the strut front shell 210. The middle of the second mounting post 221 is provided with a stepped through hole for inserting a screw, and the stepped through hole of the second mounting post 221 is aligned with the screw hole of the first mounting post 211.

Specifically, after a screw is inserted into the hole of the stepped through hole, the screw can be screwed into the hole of the screw hole aligned with the stepped through hole, and the screw is tightened to fix the front strut shell 210 and the rear strut shell 220 together.

Referring to fig. 20 to 27, the mist generator 300 of the present invention includes a connector 310, an electromagnetic valve 320, a mist pipe 330 and a mist generating assembly 340.

Illustratively, the connector 310 is in communication with the mist pipe 330 via a solenoid valve 320, and the mist generating assembly 340 is installed in a lumen of the mist pipe 330.

The connector 310 includes a water inlet pipe 311 in the shape of a straight pipe, a circular threaded sleeve 312 is fixedly sleeved on the middle pipe body of the water inlet pipe 311, and a thread is arranged on the arc-shaped ring surface of the outer ring of the threaded sleeve 312 and is used for bolting with a thread arranged on the pipe sleeve 143.

The pipe body of the water inlet pipe 311 is further sleeved with a second sealing ring 002 and a third sealing ring 003, the second sealing ring 002 is sleeved on the pipe body at the water inlet of the water inlet pipe 311, the third sealing ring 003 is attached to the threaded sleeve 312, and the third sealing ring 003 is positioned between the second sealing ring 002 and the threaded sleeve 312. The axial lead of the second sealing ring 002, the axial lead of the third sealing ring 003, the axial lead of the threaded sleeve 312 and the axial lead of the water inlet pipe 311 are all on the same straight line.

Two square column-shaped directional blocks 313 are arranged between the third sealing ring 003 and the second sealing ring 002, the two directional blocks 313 are respectively fixedly welded on the pipe walls at the front side and the rear side of the pipe body of the water inlet pipe 311, and the two directional blocks 313 are symmetrically arranged in the front and the rear direction by taking the axial lead of the water inlet pipe 311 as a symmetry axis.

The pipe body at the water outlet of the water inlet pipe 311 is communicated with the water inlet of the electromagnetic valve 320.

The mist pipe 330 includes a pipe head 331 of a round straight pipe shape, and a pipe body at a water inlet of the pipe head 331 of the mist pipe is communicated with a water outlet of the solenoid valve 320. The pipe body at the water outlet of the fog pipe head 331 is communicated with a round and straight pipe-shaped fog pipe body 332. The top of the mist pipe body 332 at the water inlet is connected with a round straight pipe-shaped wire barrel 301 for threading wires, and the barrel cavity of the wire barrel 301 is communicated with the pipe cavity of the mist pipe body 332. The top wall of the middle pipe body of the fog pipe body 332 is provided with a fog discharge port 302 in a rectangular hole shape. The pipe body at the water outlet of the fog pipe body 332 is provided with a fog pipe tail cover 333, the fog pipe tail cover 333 is a screw cap, and a sealing plug 004 is embedded in a cover cavity of the fog pipe tail cover 333 and used for sealing the water outlet of the fog pipe body 332.

The mist generating assembly 340 includes a panel 341, a plurality of atomizing plates 342, a conduit 343, and a water level sensor 344.

The panel 341 is a rectangular plate, and the panel 341 is fixedly inserted into the lumen of the mist pipe body 332. The panel body of the panel 341 is uniformly provided with through-hole shaped orifices 303.

The plurality of atomizing sheets 342 are uniformly embedded in the plate body of the panel 341, and the atomizing sheets 342 penetrate through the upper and lower plate surfaces of the panel 341.

The tube 343 is a tube body having a square tube shape, the tube 343 is fixedly mounted on the panel body, and the lumen of the tube 343 is used for arranging the electric wires of the atomizing plate 342.

The water level sensor 344 is embedded in the panel body, and the water level sensor 344 penetrates both upper and lower panel surfaces of the panel 341. The electric wire of the atomizing plate 342 and the water level sensor 344 pass through the cylinder cavity of the bobbin 301.

Referring to fig. 28-31, in the present invention, the projector 240 is limited by the stopper 03 in the longitudinal tube cavity formed by the strut front shell 210 and the strut rear shell 220, and the lens of the projector 240 faces the glass sheet 230.

In the invention, the mist generator 300 is limited in the transverse pipe body pipe cavity formed by the strut front shell 210 and the strut rear shell 220 by the limiting block 05, and the first notch 203 and the second notch 207 together form a through hole in a square notch shape and are aligned with the mist discharge opening 302. The limit block 04 limits the tail cover 333 of the fog pipe.

In the present invention, the third bayonet 201 and the fourth bayonet 206 together form a circular tube in a shape of a straight cylinder, the circular tube is hooped on the body of the water inlet pipe 311, and the threaded sleeve 312 is located outside the lumen formed by the strut front shell 210 and the strut rear shell 220.

In the present invention, the tube body at the water inlet of the water inlet tube 311 is inserted into the lumen of the outer port of the branch tube 142, and the two directional blocks 313 on the water inlet tube 311 are respectively inserted into the groove cavities of the two directional grooves 104 at the outer port of the branch tube 142, so as to maintain the opening of the mist outlet 302 at the top of the mist tube body 332.

In the present invention, the sleeve 143 is bolted to the threaded sleeve 312 such that the branch pipe 142 is communicated with the inlet pipe 311, so that the water in the branch pipe 142 flows into the lumen of the inlet pipe 311.

In the present invention, the barrel cavity of the insertion barrel 222 is used for inserting the hollow elbow of the elbow pipe group 111 so as to assist in supporting the strut 200 through the hollow elbow. The electric wires of the projector 240, the atomizing sheet 342, the water level sensor 344 and the electromagnetic valve 320 all pass through the hollow elbow pipe of the elbow pipe group 111 and enter the cavity of the column structure formed by the stud front shell 110 and the stud rear shell 120, and finally are connected to an external circuit from the bottom of the column structure and controlled by an external microcomputer.

In the present invention, the water in the lumen of the water inlet tube 311 flows into the lumen of the mist pipe head 331 through the solenoid valve 320, and then flows into the mist pipe body 332. When the liquid level in the tube cavity of the mist tube body 332 reaches the top surface of the panel 341, the water level sensor 344 feeds back the information to the external microcomputer, and the external microcomputer controls the valve 320 to close, so that the liquid in the water inlet tube 311 does not flow into the tube cavity of the mist tube body 332 any more. When the liquid level of the water in the tube cavity of the mist tube body 332 reaches the bottom surface of the atomizing plate 342, the water level sensor 344 feeds back the information to the external microcomputer, and the external microcomputer controls the valve 320 to open, so that the water in the water inlet tube 311 continuously flows into the tube cavity of the mist tube body 332.

In the invention, the atomizing sheet 342 atomizes the water in the lumen of the mist pipe body 332, the mist is discharged upwards through the mist discharge port 302, and the mist curtain 1 is formed above the supporting rod 200. The external microcomputer controls the projector 240 to be turned on, and the projector 240 projects the projection content 2 into the fog curtain 1. The projection content 2 can be welcome phrases, character introduction of farmland crops or patterns of fruits and vegetables and other information.

In the foregoing, exemplary embodiments of the proposed solution have been described in detail with reference to preferred embodiments, however, it will be understood by those skilled in the art that many variations and modifications may be made to the specific embodiments described above, and that many combinations of the various features and structures presented in the present invention may be made without departing from the inventive concept, the scope of which is defined by the appended claims.

Claims (10)

1. The utility model provides an automatic content is put in with sightseeing display device based on internet, includes and is used for installing stump (100) on the farmland parcel, its characterized in that: the device also comprises supporting rods (200) which are uniformly fixed on the vertical piles (100) and used for manufacturing the fog curtain (1) and projecting the projection content (2);

the vertical pile (100) comprises a vertical pile front shell (110) and a vertical pile rear shell (120) which are mutually folded to form a square column-shaped column structure, and the vertical pile (100) also comprises a vertical pile top cover (130) covering the top of the column structure and a water supply pipe assembly (140) arranged inside the column structure;

the water supply pipe assembly (140) comprises a main water pipe (141), branch water pipes (142) uniformly distributed on the pipe body of the main water pipe (141), a pipe sleeve (143) sleeved on the pipe body of the branch water pipe (142) and a first sealing ring (001) installed in the pipe sleeve (143);

a pipe body at the pipe orifice at the outer end part of the branch water pipe (142) is provided with a circular flange for preventing the pipe sleeve (143) from being separated from the pipe body of the branch water pipe (142), and the inner cavity wall at the pipe orifice at the outer end part of the branch water pipe (142) is provided with two square groove-shaped directional grooves (104) which are symmetrically distributed in the front-back direction;

a circular retaining ring sleeved on the body of the branch water pipe (142) is connected to the cavity wall of the tube cavity at the inner port of the sleeve (143);

the support rod (200) comprises a support rod front shell (210) and a support rod rear shell (220) which are mutually folded to form an L-shaped rod body structure, and the support rod (200) further comprises a glass sheet (230), a projector (240) and a fog generator (300) which are arranged inside the rod body structure;

the mist generator (300) comprises a connector (310) for connecting the branch water pipe (142), a mist pipe (330) for storing water liquid, an electromagnetic valve (320) which is connected between the connector (310) and the mist pipe (330) and controls the connector (310) to supply water to the mist pipe (330), and a mist generating component (340) which is embedded in the pipe cavity of the mist pipe (330) and is used for manufacturing the mist curtain (1);

the connector (310) comprises a water inlet pipe (311) which is inserted into a pipe cavity of an outer port of the branch water pipe (142) and is in a circular straight pipe shape, a circular threaded sleeve (312) is fixedly sleeved on a pipe body in the middle of the water inlet pipe (311), an arc-shaped ring surface of an outer ring of the threaded sleeve (312) and a pipe cavity of the pipe sleeve (143) are respectively provided with threads which are mutually bolted, and pipe walls on the front side and the rear side of the pipe body of the water inlet pipe (311) are respectively connected with a square column-shaped orientation block (313) which is inserted into a groove cavity of the orientation groove (104);

the fog pipe (330) comprises a fog pipe head (331) communicated with the electromagnetic valve (320), a fog pipe body (332) connected at the water outlet of the fog pipe head (331) and a fog pipe tail cover (333) covered at the water outlet of the fog pipe body (332);

the mist generating assembly (340) comprises a panel (341) inserted into the inner cavity of the mist pipe body (332), a plurality of atomizing sheets (342) embedded on the plate body of the panel (341), a pipe (343) installed on the plate body of the panel (341) and a water level sensor (344) embedded on the plate body of the panel (341).

2. The internet-based sightseeing display device for automated content delivery according to claim 1, wherein: the vertical pile front shell (110) comprises a groove body in a square groove shape, the outer side wall of a plate body of a wing plate in the groove body is uniformly welded with a bent pipe group (111), the bent pipe group (111) comprises two hollow bent pipes which are distributed in an up-down symmetrical mode, and the inner ends of the hollow bent pipes are welded on the wing plate body of the groove body in the vertical pile front shell (110);

a first bayonet (101) in a semicircular hole shape is uniformly formed in a plate body of a wing plate in a groove body of the vertical pile front shell (110);

the inner side wall of a web plate in a groove body of the vertical pile front shell (110) is uniformly welded with a first cylindrical column (112) in a circular straight tubular shape, and a cylinder cavity of the first cylindrical column (112) is provided with threads capable of being bolted with bolts.

3. The internet-based sightseeing display device for automated content delivery according to claim 2, wherein: the vertical pile rear shell (120) comprises a groove body in a square groove shape, a second bayonet (102) which is communicated with a first bayonet (101) arranged on the vertical pile front shell (110) and is in a semicircular hole shape is uniformly arranged on the front wall of a wing plate in the groove body, the second bayonet (102) and the first bayonet (101) which are communicated mutually form a circular through hole, and the through hole is sleeved on the pipe body of the water supporting pipe (142) in a hooped mode;

the front wall of a wing plate in the groove body of the upright post rear shell (120) is also uniformly provided with a first semicircular hole-shaped notch (103) for hooping the hollow bent pipe body;

and a second cylindrical column (121) which is in a circular straight tubular shape and is aligned with the first cylindrical column (112) welded to the vertical pile front shell (110) is uniformly welded to the inner side wall of a web plate in the groove body of the vertical pile rear shell (120).

4. The internet-based sightseeing display device for automated content delivery according to claim 3, wherein: the inner side wall of a top plate body of a web plate in the groove body of the vertical pile front shell (110) and the inner side wall of a top plate body of a web plate in the groove body of the vertical pile rear shell (120) are respectively welded with a first limiting block (01) for fixedly clamping a pipe body of a main water pipe (141);

and the inner side wall of the lower plate body of the web plate in the groove body of the vertical pile front shell (110) and the inner side wall of the lower plate body of the web plate in the groove body of the vertical pile rear shell (120) are respectively welded with a second limiting block (02) for fixing and clamping the pipe body of the main water pipe (141).

5. The internet-based sightseeing display device for automated content delivery according to claim 2, wherein: the strut front shell (210) and the strut rear shell (220) respectively comprise a groove body in an L-shaped groove cavity shape;

the groove body of the support rod front shell (210) and the groove body of the support rod rear shell (220) are respectively fixedly connected with a third limiting block (03) used for fixedly clamping the projector (240) in longitudinal groove cavities thereof;

the groove body of the strut front shell (210) and the groove body of the strut rear shell (220) are respectively fixedly connected with a limiting block IV (04) used for blocking the fog pipe head (331) in the groove cavity of the bent part;

the groove body of the support rod front shell (210) and the groove body of the support rod rear shell (220) are respectively fixedly connected with a limiting block five (05) used for fixedly clamping the fog pipe (330) in a transverse groove cavity.

6. The internet-based sightseeing display device for automated content delivery according to claim 5, wherein: a bayonet III (201) in a semicircular hole shape and two notches II (202) in a semicircular hole shape are formed in the end part of a transverse groove cavity of the groove body of the strut front shell (210);

a first notch (203) is formed in the top of a transverse groove cavity of the groove body of the strut front shell (210);

the bottom of a transverse groove cavity of the groove body of the strut front shell (210) is uniformly provided with three notches (204);

a first clamping groove (205) is formed in the inner side wall of a longitudinal groove cavity of the groove body of the support rod front shell (210);

the wall of the groove cavity of the groove body of the support rod front shell (210) is uniform and fixedly connected with a first mounting column (211), and a screw hole is formed in the middle of the first mounting column (211).

7. The internet-based sightseeing display device for automated content delivery according to claim 6, wherein: the end part of a transverse groove cavity of the groove body of the supporting rod rear shell (220) is provided with a bayonet fourth (206) which is communicated with the bayonet third (201) arranged on the supporting rod front shell (210) and is in a semicircular hole shape, the bayonet third (201) and the bayonet fourth (206) which are communicated with each other form a circular straight cylindrical round pipe together, and the round pipe is sleeved on the pipe body of the water inlet pipe (311) in a hooping mode;

the end part of a transverse groove cavity of the groove body of the strut rear shell (220) is connected with two insertion barrels (222) in a circular straight tube shape, a second opening (202) is hooped on the barrel body of the insertion barrel (222), and a hollow bent pipe welded on the vertical pile front shell (110) is inserted into the barrel cavity of the insertion barrel (222);

the top of a transverse groove cavity of the groove body of the supporting rod rear shell (220) is provided with a second notch (207) which is mutually communicated with the first notch (203) arranged on the supporting rod front shell (210), and the first notch (203) and the second notch (207) which are mutually communicated form a through hole which is used for discharging fog and is in a square notch shape;

the bottom of a transverse groove cavity of the groove body of the strut rear shell (220) is uniformly provided with a notch four (208) which is communicated with a notch three (204) arranged on the strut front shell (210), and the notch three (204) and the notch four (208) which are communicated form a through hole in a circular hole shape;

a second clamping groove (209) which is mutually communicated with the first clamping groove (205) formed in the front support shell (210) is formed in the inner side wall of the longitudinal groove cavity of the groove body of the rear support shell (220), and the first clamping groove (205) and the second clamping groove (209) which are mutually communicated form a through hole which is used for fixedly mounting a glass sheet (230) and is in a square groove opening shape;

the wall of the groove cavity of the groove body of the supporting rod rear shell (220) is uniformly connected with a second mounting column (221) aligned with the first mounting column (211) connected with the supporting rod front shell (210), a stepped through hole used for inserting a screw is formed in the middle of the second mounting column (221), and the stepped through hole of the second mounting column (221) is aligned with the screw hole of the first mounting column (221).

8. The internet-based sightseeing display device for automated content delivery according to claim 1, wherein: the water outlet of the water inlet pipe (311) is communicated with the water inlet of the electromagnetic valve (320);

still the cover has sealing washer two (002) and sealing washer three (003) on the body of inlet tube (311), and sealing washer two (002) cover is established on the body of the water inlet department of inlet tube (311), and sealing washer three (003) laminate mutually with thread bush (312), and sealing washer three (003) are in between sealing washer two (002) and thread bush (312), and the axial lead of sealing washer two (002), the axial lead of sealing washer three (003), the axial lead of thread bush (312) and the axial lead of inlet tube (311) all are on same straight line.

9. The internet-based sightseeing display device for automated content delivery according to claim 1, wherein: the water inlet of the fog pipe head (331) is communicated with the water outlet of the electromagnetic valve (320);

the top of the pipe body at the water inlet of the fog pipe body (332) is connected with a wire barrel (301) for threading a wire;

the top wall of the middle pipe body of the fog pipe body (332) is provided with a rectangular hole-shaped fog discharge opening (302);

the fog pipe tail cover (333) is a screw cover, and a sealing plug (004) for sealing the water outlet of the fog pipe body (332) is embedded in a cover cavity of the fog pipe tail cover (333).

10. The internet-based sightseeing display device for automated content delivery according to claim 9, wherein: the plate body of the embedded plate (341) is uniformly provided with through-hole-shaped leakage openings (303), and the embedded plate (341) divides the inner cavity of the fog pipe body (332) into two chambers which are symmetrical up and down;

the atomizing sheet (342) penetrates through the upper plate surface and the lower plate surface of the panel (341);

the lumen of the conduit (343) is used for arranging the electric wire of the atomizing sheet (342);

the electric wire of the atomization sheet (342) and the water level sensor (344) penetrate through the barrel cavity of the bobbin (301).

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