CN217819271U - Cooling tower guide vane device based on anti-seismic test uses - Google Patents

Abstract

The utility model provides a cooling tower flow deflector device based on anti-seismic test, which comprises a base frame, wherein the base frame is arranged on a vibrating table through bolts; the mounting bracket is welded on the mounting bracket to form a four-side enclosure, wherein three continuous sides are vertically arranged, and the other side is obliquely arranged to form a three-dimensional right-angled triangle structure; the supporting network is vertically arranged and is arranged on the vertical side surface of the mounting bracket; the flow deflectors are arranged on the support network at equal intervals from top to bottom; and the sensor unit is arranged on the base frame, the supporting network and the flow guide plate according to the sampling requirement. The utility model discloses a bed frame, installing support, support network, water conservancy diversion piece and sensor unit have realized the on-the-spot quick installation, the equivalent purpose of intensity and cooling tower actual conditions.

Description

Cooling tower guide vane device based on anti-seismic test uses

Technical Field

The utility model belongs to the technical field of the cooling tower antidetonation and specifically relates to a cooling tower annex water conservancy diversion piece shock resistance test field specifically is a cooling tower water conservancy diversion piece device based on shock resistance test uses.

Background

The model selection of the cooling tower accessory test piece must be completely the same as the model, the material, the geometric dimension and the connection supporting mode of a cooling tower actually used on site, but because the laboratory site is limited, and the cost and the time consumption are high when the cooling tower accessory is tested simultaneously, the success rate is influenced along with the increase of the floor area, and therefore, the targeted anti-seismic test is respectively carried out after the cooling tower accessory is split.

In addition, the test support must still possess sufficient rigidity and joint strength, ensures that the test piece accords with the equivalence requirement with on-the-spot actual conditions.

Disclosure of Invention

In view of the above shortcomings in the prior art, an object of the present invention is to provide a cooling tower deflector device based on anti-seismic testing for solving the difficulties in the prior art.

In order to realize above-mentioned purpose and other relevant mesh, the utility model provides a cooling tower water conservancy diversion piece device based on shock-proof test uses, include:

the base frame 1 is installed on the vibrating table through bolts;

the mounting bracket is welded on the base frame 1 to form a four-side enclosure, wherein three continuous sides are vertically arranged, and the other side is obliquely arranged to form a three-dimensional right-angled triangle structure;

the supporting network 2 is vertically arranged and is installed on the vertical side face of the installation support;

the flow deflectors 4 are arranged on the support network 2 at equal intervals from top to bottom;

and the sensor unit 9 is arranged on the base frame 1, the supporting network 2 and the flow deflector 4 according to sampling requirements.

According to a preferred solution, the base frame 1 comprises:

the outer ring 101 is arranged into a quadrilateral structure through section steel connected with the periphery of the outer ring 101;

the supporting steel section 102, the supporting steel section 102 is welded on the inner side of the outer peripheral ring 101 to form a convex structure, and the convex structure is provided with a mounting bracket;

and reinforcing steel bars 103, wherein the reinforcing steel bars 103 are welded between the supporting steel bars 102.

According to the preferred scheme, the reinforced steel 103 is provided with a plurality of groups, and the plurality of groups of reinforced steel 103 are arranged at equal intervals.

According to a preferred solution, the reinforcing section steel 103 is arranged between a pair of parallel section steels of the outer peripheral ring 101.

According to a preferred scheme, the outer peripheral ring 101 and the reinforcing steel bars 103 are provided with mounting holes 104 for mounting with a vibration table.

According to a preferred embodiment, the mounting holes 104 are arranged in plurality on the outer circumferential ring 101 and the reinforcing steel bars 103 at equal intervals.

According to a preferred aspect, the mounting bracket comprises:

the flow deflector mounting bracket 5 is vertically welded on one side of the support section steel 102, and the flow deflector mounting bracket 5 is rectangular to the support network 2;

the left support 6 and the right support 7 are both right-angled triangles, the bottoms of the left support 6 and the right support 7 are welded on two adjacent sides of the support section steel 102 and the guide vane mounting bracket 5, and the vertical sides of the left support 6 and the right support are welded with two sides of the guide vane mounting bracket 5;

the connecting support 8 is rectangular, the bottom of the connecting support 8 is welded to the side face, opposite to the flow deflector mounting support 5, of the support section steel 102, the top of the connecting support 8 is welded to the top of the flow deflector mounting support 5, and the two sides of the connecting support 8 are welded to the inclined planes of the left support 6 and the right support 7.

According to a preferred solution, the mounting bracket is provided with three layers, at least between the bottom layer and the middle layer a cross-like structure 10 is welded.

According to a preferred solution, the support network 2 comprises:

the pair of outer frames 201 are arranged on the outer frames 201 and are respectively welded on the two vertical sides of the flow deflector mounting bracket 5;

a pair of inner support frames 202 are also arranged on each inner support frame 202 and are respectively welded on two sides of the middle vertical beam of the guide vane mounting bracket 5;

and reinforcing ribs 203, wherein the reinforcing ribs 203 are welded between each flow deflector 4 and the outer frame 201 and the inner support frame 202.

According to a preferred solution, the sensor units 9 are arranged at the end of the base frame 1, at the top and at one third of the height of the guide vane mounting bracket 5, and on the guide vane 4 located at the upper, middle and lower positions.

According to a preferred solution, the end of the base frame 1, the top of the guide vane mounting bracket 5 and the sensor units at one third of the height are all arranged on the same side.

According to a preferred embodiment, the sensor of the sensor unit 4 is a piezoelectric acceleration sensor.

According to the preferred scheme, 022Cr19Ni10 is adopted by the bottom frame unit and the filler test piece frame 1.

The utility model discloses a bed frame, installing support, support network, water conservancy diversion piece and sensor unit have realized the on-the-spot quick installation, the equivalent purpose of intensity and cooling tower actual conditions.

The following description of the preferred embodiments for carrying out the present invention will be made in detail with reference to the accompanying drawings so that the features and advantages of the present invention can be easily understood.

Drawings

Fig. 1 is a schematic perspective view of the present invention;

fig. 2 is a schematic perspective view of another perspective of the present invention;

fig. 3 is a schematic perspective view of the present invention with a part of the flow deflector installed therein;

fig. 4 is a perspective view of the mounting bracket according to the present invention;

FIG. 5 is a perspective view of the base of the present invention;

fig. 6 is a top view of the base according to the present invention;

fig. 7 is a rear view of the present invention;

description of the reference symbols

1. The device comprises a base frame 101, an outer periphery 102, supporting section steel 103, reinforcing section steel 104 and mounting holes; 2. a support network 201, an outer frame 202, an inner support frame 203 and reinforcing ribs; 4. a flow deflector; 5. a guide vane mounting bracket; 6. a left bracket; 7. a right bracket; 8. connecting a bracket; 9. a sensor unit; 10. a cross-like structure.

Detailed Description

In order to make the purpose, technical scheme and advantage of the technical scheme of the utility model clearer, will combine in the following the utility model discloses the drawing of concrete embodiment is right the technical scheme of the embodiment of the utility model carries out clear, complete description. Like reference symbols in the various drawings indicate like elements. It should be noted that the described embodiments are some, not all embodiments of the present invention. All other embodiments, which can be obtained by a person skilled in the art without any inventive work based on the described embodiments of the present invention, belong to the protection scope of the present invention.

Possible embodiments within the scope of the invention may have fewer parts, have other parts not shown in the figures, different parts, differently arranged parts or differently connected parts, etc. than the examples shown in the figures. In addition, two or more of the components in the drawings may be implemented in a single component, or a single component shown in the drawings may be implemented as multiple separate components.

Unless defined otherwise, technical or scientific terms used herein shall have the ordinary meaning as understood by one of ordinary skill in the art to which this invention belongs. The use of "first," "second," and similar terms in the description and in the claims is not intended to indicate any order, quantity, or importance, but rather is used to distinguish one element from another. Also, the use of the terms "a" or "an" and the like do not necessarily denote a limitation of quantity. The word "comprising" or "comprises", and the like, means that the element or item preceding the word comprises the element or item listed after the word and its equivalent, but does not exclude other elements or items. The terms "connected" or "coupled" and the like are not restricted to physical or mechanical connections, but may include electrical connections, whether direct or indirect. "upper", "lower", "left", "right", and the like are used merely to indicate relative positional relationships, and when the absolute position of the object being described is changed, the relative positional relationships may also be changed accordingly.

The utility model provides a cooling tower water conservancy diversion piece device based on antidetonation is experimental to be used for among the antidetonation test technology, the utility model discloses do not limit to the type of water conservancy diversion piece, nevertheless this structure specially adapted cooling tower is with water conservancy diversion piece in the experiment.

Generally, the utility model provides a cooling tower water conservancy diversion piece device based on shock resistance test usefulness mainly includes bed frame 1, installing support, support network 2, water conservancy diversion piece 4 and sensor unit 9. Reference may be made to fig. 1, which shows the arrangement of the base frame 1, the mounting bracket, the support network 2, the flow deflector 4 and the sensor unit 9.

When the test device is installed, the field condition needs to be simulated, the actual cooling tower body on the field is a reinforced concrete structure, in the embodiment, the bottom frame unit and the filler test piece frame 1 are used for simulating the reinforced concrete structure, in order to achieve the strength of the reinforced concrete structure and meet the requirement of equivalence of the actual condition, the design is carried out on the aspects of material and structure, and the bottom frame unit and the filler test piece frame 1 both adopt 022Cr19Ni10 on the aspect of material.

Structurally, firstly, the whole structure is installed on a vibrating table through a base frame 1 at the bottom, for this reason, the base frame 1 is structurally arranged into a structure with an outer peripheral ring 101, supporting section steel 102 and reinforcing section steel 103 in order to achieve a stable installation and a supporting effect with enough strength, the outer peripheral ring 101 is firstly arranged into a quadrilateral structure through section steel connected at the periphery, then the supporting section steel 102 is welded on the inner side of the outer peripheral ring 101 to form a raised structure, the raised structure also has the periphery, a mounting support is welded on the periphery, preferably, the reinforcing section steel 103 is welded between the supporting section steel 102 to play a role in fixing and reinforcing the strength, the reinforcing section steel 103 is provided with a plurality of groups, and the plurality of groups of reinforcing section steel 103 are arranged at equal intervals;

as shown in fig. 6 and 7, on the other hand, for the purpose of stability of installation, the base frame 1 does not separate from the vibration table, and for this purpose, the outer circumferential ring 101 and the reinforcing steel 103 are provided with mounting holes 104 for mounting to the vibration table, the mounting holes 104 are arranged in plurality on the outer circumferential ring 101 and the reinforcing steel 103 at equal intervals, the circumferential direction and the inside of the base frame 1 can be fixedly mounted on the vibration table through bolts through the mounting holes 104, and the base frame can be fixedly connected at any angle.

To the installation of joining in marriage water conservancy diversion piece 4, the welding has the installing support in the top of bed frame 1, and the installing support forms the enclosure on four sides, and wherein continuous trilateral all vertical setting, the another side slope sets up, forms three-dimensional right angled triangle's structure, utilizes triangle-shaped to have the purpose of stability, establishes a stable and firm mounting structure.

On this basis, preferably, the mounting bracket is preferably arranged to have a structure of a baffle mounting bracket 5, a left bracket 6, a right bracket 7, and a connecting bracket 8, wherein the baffle mounting bracket 5 is used for mounting the supporting network 2, the supporting network 2 is utilized to achieve the purpose of fixedly mounting the baffle 4, the baffle mounting bracket 5 is vertically welded on one side of the supporting profile steel 102, and the baffle mounting bracket 5 is rectangular to match the supporting network 2, and the baffle mounting bracket 5 plays a role of transition to the baffle 4.

Next, a left support 6 and a right support 7 are welded on the two vertical sides of the guide vane mounting support 5, because the mounting support integral structure is in a right triangle shape, for this purpose, the left support 6 and the right support 7 are also in a right triangle shape, the bottom of the left support 6 and the right support 7 is welded on the two adjacent sides of the support section steel 102 and the guide vane mounting support 5, the vertical side of the left support is welded on the two sides of the guide vane mounting support 5, as shown in fig. 1, a connecting support 8 for sealing the left support 6 and the right support 7 is further provided, the connecting support 8 is in a rectangular shape, the bottom of the connecting support section steel 102 is welded on the side opposite to the guide vane mounting support 5, the top of the guide vane mounting support 5 is welded on the top of the left support 6 and the right support 7, a three-dimensional right triangle structure assembled by section steel is formed by enclosing, the structure is convenient for field installation, time and labor are saved, and the purpose of simulating the strength of an actual cooling tower can be achieved.

In addition, because the installing support is built by the shaped steel welding, for the increase of strength, the installing support is provided with the three-layer, and the welding has crossing structure 10 between at least bottom and the intermediate level, utilizes crossing structure 10 to play the effect of guaranteeing the intensity in guide vane installing support 5, left socle 6 and right branch frame 7 to and linking bridge 8 self.

As shown in fig. 2 and 3, the baffle mounting bracket 5 is provided with a plurality of baffles 4 at equal intervals from top to bottom through the support network 2, the baffles 4 also have a certain weight and length, in the length direction, the support network 2 is configured with a structure having an outer frame 201 and inner support frames 202, specifically, the outer frame 201 is provided with a pair of inner support frames 202 welded to the two vertical sides of the baffle mounting bracket 5, respectively, a pair of outer support frames 202 is provided between the outer frames 201 and welded to the two sides of the middle vertical beam of the baffle mounting bracket 5, each baffle 4 can be welded to the left outer frame 201, the left inner support frame 202, the right inner support frame 202 and the right outer frame 201 in sequence from left to right, and firm mounting performance can be effectively ensured by using four-point support;

in terms of weight, a reinforcing rib 203 is welded between each flow deflector 4 and the outer frame 201 and the inner support frame 202, and is used for lifting and supporting the flow deflector 4 to form an upward inclined angle.

In the testing process of the device, six positions are arranged on the sensor unit 9, the sensors of the sensor unit 4 adopt piezoelectric acceleration sensors which are respectively positioned at the end part of the base frame 1, the top part and the one-third height position of the guide vane mounting bracket 5 and on the guide vane 4 positioned at the upper, middle and lower positions, and in addition, in order to ensure the contrast of monitoring data, the sensor units at the end part of the base frame 1, the top part and the one-third height position of the guide vane mounting bracket 5 are all arranged at the same side.

The above embodiments are merely illustrative of the principles and effects of the present invention, and are not intended to limit the present invention. Any person skilled in the art can modify or change the above embodiments without departing from the spirit and scope of the present invention. Accordingly, it is intended that all equivalent modifications or changes which may be made by those skilled in the art without departing from the spirit and technical spirit of the present invention be covered by the claims of the present invention.

Claims (7)

1. The utility model provides a cooling tower water conservancy diversion piece device based on antidetonation test is used which characterized in that includes:

the base frame (1), the said base frame (1) is installed on shaking table through the bolt;

the mounting bracket is welded on the base frame (1) to form a four-side enclosure, wherein three continuous sides are vertically arranged, and the other side is obliquely arranged to form a three-dimensional right-angled triangle structure;

the supporting network (2) is vertically arranged and is arranged on the vertical side surface of the mounting bracket;

the flow deflectors (4) are arranged on the supporting network (2) at equal intervals from top to bottom;

the sensor unit (9) is arranged on the base frame (1), the supporting network (2) and the flow deflector (4) according to sampling requirements.

2. The cooling tower deflector device for seismic testing according to claim 1, wherein the base frame (1) comprises:

the outer circumference ring (101), the outer circumference ring (101) is arranged into a quadrilateral structure through section steel connected with the periphery;

the supporting steel section (102), the supporting steel section (102) is welded on the inner side of the outer peripheral ring (101) to form a convex structure, and a mounting bracket is mounted on the convex structure;

and the reinforcing steel bars (103), wherein the reinforcing steel bars (103) are welded between the supporting steel bars (102).

3. The cooling tower guide vane device for the earthquake-proof test is characterized in that the outer circumference (101) and the reinforcing steel bar (103) are provided with mounting holes (104) for mounting with a vibration table.

4. The cooling tower deflector device for seismic testing as defined in claim 3, wherein the mounting bracket comprises:

the flow deflector mounting bracket (5) is vertically welded on one side of the support profile steel (102), and the flow deflector mounting bracket (5) is rectangular to the support network (2);

the left support (6) and the right support (7) are both right-angled triangles, the bottoms of the left support (6) and the right support (7) are welded on two adjacent sides of the support profile steel (102) and the guide vane mounting bracket (5), and the vertical sides of the left support and the right support are welded with two sides of the guide vane mounting bracket (5);

the connecting support (8), connecting support (8) are the rectangle, and the bottom welding is on supporting shaped steel (102) and the relative side of water conservancy diversion piece installing support (5), and the top welding is at the top of water conservancy diversion piece installing support (5), both sides and the inclined plane welding of left socle (6) and right branch frame (7).

5. The cooling tower deflector device for earthquake-proof testing according to claim 4, wherein the mounting bracket is provided with three layers, and a cross-shaped structure (10) is welded between at least the bottom layer and the middle layer.

6. The cooling tower deflector device for seismic testing according to claim 5, wherein the support network (2) comprises:

the pair of the outer frames (201) are arranged, and are respectively welded on the two vertical sides of the flow deflector mounting bracket (5);

the inner support frames (202) are also provided with a pair of inner support frames (202) which are respectively welded on two sides of a vertical beam in the middle of the guide vane mounting bracket (5);

and the reinforcing ribs (203) are welded among each guide vane (4), the outer frame (201) and the inner support frame (202).

7. The cooling tower baffle device for earthquake-proof testing according to claim 6, wherein the sensor units (9) are arranged at the end of the base frame (1), at the top and one third of the height of the baffle mounting bracket (5), and on the baffles (4) at the upper, middle and lower positions.

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