CN212501561U - Antistatic glass fiber reinforced plastic tower - Google Patents

Abstract

The utility model discloses an antistatic glass fiber reinforced plastic tower, which comprises a left tower, wherein one end of the left tower is provided with a transition tower, one end of the transition tower, which is far away from the left tower, is provided with a right tower, and the inner walls of the left tower, the transition tower and the right tower are adhered with conductive powder and are wound with conductive metal wires; the transition tower comprises a transition inner cavity, a transition ring is fixedly connected to the outer peripheral face of the transition inner cavity, a transition base is fixedly connected to the bottom of the transition ring, and a first flange plate is fixedly connected to one end of the transition inner cavity. The utility model discloses a change of storage volume in the glass steel tower ware is realized to the connection between a plurality of transition towers, and the user can purchase a left tower ware, a right tower ware and a plurality of transition towers as required and can adjust the storage capacity and the length of this glass steel tower ware, has reduced the purchase cost, has improved economic benefits to can carry out nimble selection according to the place.

Description

Antistatic glass fiber reinforced plastic tower

Technical Field

The utility model relates to a glass steel tower ware technical field, concretely relates to antistatic glass steel tower ware.

Background

Vinyl resin is selected as a material for manufacturing the glass fiber reinforced plastic tower, alkali-free and twist-free continuous fibers are selected as a reinforcing material, and the glass fiber reinforced plastic tower is manufactured into a cylinder liner for molding: the glass fiber reinforced plastic lining is divided into an inner lining layer and a transition layer according to the structure, the anti-corrosion and anti-seepage effects are mainly achieved, the resin content of the inner lining layer is higher than 92%, the resin content of the transition layer is 80%, after the whole manufacturing process is finished (including fitting installation), the protective layer is sprayed, the ultraviolet absorbent and the toughening agent are added into anti-aging gel coat resin, and due to the fact that the glass fiber reinforced plastic performance has designability, various storage tanks can be designed according to different purposes, the characteristics of all components are effectively exerted, reasonable materials are made, and the glass fiber reinforced plastic tank is provided with: the weight is light: the density of the glass fiber reinforced plastic is about 1.5-1.9g/cm3, the glass fiber reinforced plastic is 1/4 of steel material and is lighter than metal aluminum by about 1/3, and the static mechanical strength can approach or exceed the level of common carbon steel. The corrosion-resistant coating is corrosion-resistant, can resist various acids, alkalis, salts, various oils and solvents by selecting different types of resins, can be widely applied to various aspects of chemical corrosion resistance, and can replace stainless steel, nonferrous metals and other materials. The coefficient of roughness n of the smooth surface of the inner wall is 0.0084, the sanitary property is good, the cleaning is easy, the microorganism corrosion resistance and the low temperature resistance are good, the inner wall can be used at the temperature of minus 80 ℃, and the inner wall is suitable for cold regions.

However, in actual use, the main technical problems are that the solution in the glass reinforced plastic tower can generate static electricity by friction in the flowing process, the solution can generate static electricity by collision when entering the glass reinforced plastic tower from a pipeline and spraying the solution to the wall of an inner cavity, the solution can generate static electricity, the solution with particles can generate static electricity when settling, and the glass reinforced plastic tower is flammable and explosive and is easy to cause danger, and meanwhile, the glass reinforced plastic tower is a whole, so that the storage amount and length can not be adjusted according to needs after the glass reinforced plastic tower is purchased, and the improvement is needed.

Therefore, it is necessary to develop an antistatic glass fiber reinforced plastic tower to solve the above problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an antistatic glass steel tower ware through the connection between a plurality of transition towers, realizes the change of storage volume in the glass steel tower ware, and the user can purchase a left tower ware, a right tower ware and a plurality of transition towers as required and can adjust the storage capacity of this glass steel tower ware and the static that length solution produced can pass through the conducting rod, then conducts ground through the iron chain to solve the above-mentioned weak point in the technique.

In order to achieve the above object, the present invention provides the following technical solutions: an antistatic fiber reinforced plastic tower comprises a left tower, wherein one end of the left tower is provided with a transition tower, one end of the transition tower, which is far away from the left tower, is provided with a right tower, and conductive powder is attached to the inner walls of the left tower, the transition tower and the right tower and is wound with conductive metal wires;

the transition tower ware is including cavity in the transition, cavity outer peripheral face fixedly connected with transition ring in the transition, transition ring bottom fixedly connected with transition base, the first ring flange of cavity one end fixedly connected with in the transition, the first ring of cavity other end fixedly connected with in the transition, the first post of cavity one side fixedly connected with in the transition is kept away from to first ring, first ring one end is kept away from to first post outer peripheral face is opened there is the external screw thread, the internal portion is equipped with the conducting rod in the transition, the conducting rod runs through cavity, transition ring and transition base in the transition to it is outside to extend to transition base, the internal portion is opened in the transition has the outlet, transition base outer wall one side fixedly connected with outlet, the inside and outlet intercommunication of outlet.

Preferably, the tower ware includes cavity in a left side, the outside fixedly connected with left ring in the cavity in a left side, left side ring bottom fixedly connected with left base, cavity one end fixedly connected with second ring flange in a left side.

Preferably, right side tower includes the cavity in the right side, the outside fixedly connected with right ring in the cavity in the right side, right side ring bottom fixedly connected with right side base, cavity one end fixedly connected with second ring in the right side, cavity one side fixedly connected with second post in the right side is kept away from to the second ring, right side ring outer peripheral face fixedly connected with admission pipe, the inside and right side cavity inside intercommunication of admission pipe, right ring one end fixedly connected with third flange dish is kept away from to the admission pipe.

Preferably, the number of the transition towers is multiple, and the multiple transition towers are distributed between the left tower and the right tower in a linear array.

Preferably, the conductive rod is a conductive metal member, and the conductive metal member is a material that does not react with the solution stored in the tower.

Preferably, the number of the first columns is set to be a plurality of, the first columns are in sliding connection with the through holes in the first flange plate, the first columns are in sliding connection with the through holes in the second flange plate, and nuts are connected to the outer portions of the first columns through threads.

Preferably, the number of the second columns is set to be a plurality of, and the second columns are in sliding connection with the through holes in the first flange plate.

In the technical scheme, the utility model provides a technological effect and advantage:

through being connected between a plurality of transition towers, realize the change of storage volume in the glass steel tower ware, the user can purchase a left tower ware as required, the storage capacity and the length of this glass steel tower ware can be adjusted to a right tower ware and a plurality of transition towers, the purchase cost has been reduced, economic benefits has been improved, and can carry out nimble selection according to the place, the static that solution produced can pass through the conducting rod simultaneously, then conduct ground through the iron chain, prevent because the static reason, lead to flammable and explosive solution to take place the dangerous accident in storage and transportation.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments described in the present invention, and other drawings can be obtained by those skilled in the art according to these drawings.

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

fig. 2 is a front view of the present invention;

fig. 3 is a perspective view of the transition tower of the present invention;

fig. 4 is a perspective view of a transition tower of the present invention;

fig. 5 is a perspective view of the right tower of the present invention.

Description of reference numerals:

1 left tower, 2 transition towers, 3 right towers, 4 transition inner cavities, 5 transition rings, 6 transition bases, 7 first flange plates, 8 first rings, 9 first columns, 10 conductive rods, 11 outflow holes, 12 outflow pipes, 13 left inner cavities, 14 left rings, 15 left bases, 16 second flange plates, 17 right inner cavities, 18 right rings, 19 right bases, 20 second rings, 21 second columns, 22 inflow pipes, 23 third flange plates and 24 nuts.

Detailed Description

In order to make the technical solution of the present invention better understood by those skilled in the art, the present invention will be further described in detail with reference to the accompanying drawings.

The utility model provides an antistatic glass fiber reinforced plastic tower as shown in figures 1-5, which comprises a left tower 1, wherein one end of the left tower 1 is provided with a transition tower 2, one end of the transition tower 2, which is far away from the left tower 1, is provided with a right tower 3, and the inner walls of the left tower 1, the transition tower 2 and the right tower 3 are adhered with conductive powder and wound with conductive metal wires;

the transition tower 2 comprises a transition inner cavity 4, a transition circular ring 5 is fixedly connected with the peripheral surface of the transition inner cavity 4, the bottom of the transition circular ring 5 is fixedly connected with a transition base 6, one end of the transition inner cavity 4 is fixedly connected with a first flange 7, the other end of the transition inner cavity 4 is fixedly connected with a first circular ring 8, one side of the first circular ring 8 far away from the transition inner cavity 4 is fixedly connected with a first column 9, an external thread is arranged at one end of the peripheral surface of the first column 9, which is far away from the first circular ring 8, a conductive rod 10 is arranged inside the transition inner cavity 4, the conductive rod 10 penetrates through the transition inner cavity 4, the transition circular ring 5 and the transition base 6, and extend to the outside of transition base 6, cavity 4 inside opening has outlet 11 in the transition, and transition base 6 outer wall one side fixedly connected with outflow pipe 12, outflow pipe 12 inside and outlet 11 intercommunication.

Further, in above-mentioned technical scheme, left side tower 1 includes cavity 13 in a left side, cavity 13 outside fixedly connected with left ring 14 in a left side, left side ring 14 bottom fixedly connected with left base 15, cavity 13 one end fixedly connected with second ring flange 16 in a left side, through the second ring flange 16 on the cavity 13 in a left side for first post 9 and second ring flange 16 sliding connection, then screw up on first post 9 with nut 24, do well sealing process simultaneously, accomplish the fixed connection of left side tower 1 and transition tower 2.

Further, in the above technical solution, the right tower 3 includes a right inner cavity 17, the right inner cavity 17 is externally and fixedly connected with a right ring 18, the bottom of the right ring 18 is fixedly connected with a right base 19, one end of the right inner cavity 17 is fixedly connected with a second ring 20, the second ring 20 is far away from one side of the right inner cavity 17 and is fixedly connected with a second column 21, the outer peripheral surface of the right ring 18 is fixedly connected with an inlet pipe 22, the inside of the inlet pipe 22 is communicated with the inside of the right inner cavity 17, one end of the right ring 18 is far away from the inlet pipe 22 and is fixedly connected with a third flange 23, the right tower 3 is slidably connected with the first flange 7 on the transition tower 2 through the second column 21, then a nut 24 is screwed on the second column 21, and meanwhile, sealing treatment is performed, the right tower 3 and the transition tower 2 are fixed, a solution conveniently stored by the inlet pipe 22 enters the glass fiber reinforced plastic tower, the third flange 23 facilitates connection with external piping.

Further, in the above technical scheme, the number of the transition towers 2 is set to be a plurality, the transition towers 2 are distributed between the left tower 1 and the right tower 3 in a linear array, and the plurality of transition towers 2 are fixedly connected with each other, so that the length and the storage capacity of the glass fiber reinforced plastic tower can be adjusted as required, and the flexibility and the economic value are improved.

Further, in the above technical solution, the conductive rod 10 is a conductive metal member, and the conductive metal member is a material that does not react with the solution stored in the tower, and the conductive rod 10 is a conductive metal member, so that the static electricity generated by the solution in the glass fiber reinforced plastic tower can be led out through the conductive rod 10, thereby preventing the static electricity from causing the solution to burn and explode.

Further, in the above technical scheme, the number of the first columns 9 is set to be a plurality of, the through holes of the first columns 9 and the first flange 7 are slidably connected, the through holes of the first columns 9 and the second flange 16 are slidably connected, the nuts 24 are connected to the outer threads of the first columns 9, and the connection stability between the transition tower 2 is improved through the first columns 9.

Further, in the above technical solution, the number of the second columns 21 is set to be a plurality of, and the plurality of second columns 21 are connected with the through holes in the first flange 7 in a sliding manner, so that the connection stability between the right tower 3 and the transition tower 2 is improved by the plurality of second columns 21.

The implementation mode is specifically as follows: moving a first column 9 on one transition tower to be inserted into a first flange 7 on another transition tower 2, then screwing a nut 24 on the first column 9, sealing to complete the fixation between the two transition towers, installing a required number of transition towers similarly, moving the right tower 3 to enable a second column 21 to be inserted into the first flange 7, sealing to complete the fixation between the right tower 3 and the transition tower 2, screwing the nut 24 on the second column 21, finally moving the left tower 1 to enable the first column 9 to be inserted into a through hole in a second flange 16, then screwing the nut 24 on the first column 9 to complete the fixation between the whole glass fiber reinforced plastic towers, then fixedly connecting a valve at the port of an outflow pipe 12, fixing an iron chain at the bottom of a conductive rod 10 to enable the iron chain to be contacted with the ground, and then pouring a solution into the glass fiber reinforced plastic tower from an inflow pipe 22, static electricity generated among solutions is conducted to the conductive rod 10 through conductive powder and conductive metal wires, the conductive rod conducts the static electricity to an iron chain and then conducts the static electricity to the ground, after the solution is filled, the inlet pipe 22 is sealed, when the solution is needed, the valve is opened, the solution flows into the inlet hole 11 from the inner cavity of the glass fiber reinforced plastic tower and then flows out from the valve through the outlet pipe 12, the change of the storage volume in the glass fiber reinforced plastic tower is realized through the connection among the plurality of transition towers 2, a user can purchase one left tower 1, one right tower 3 and the plurality of transition towers 2 according to needs to adjust the storage volume and the length of the glass fiber reinforced plastic tower, the purchase cost is reduced, the economic benefit is improved, and the flexible selection can be carried out according to the field, meanwhile, the static electricity generated by the solution can pass through the conductive rod 10 and then is conducted to the ground through the iron chain, the reason of the static electricity is prevented, the implementation mode specifically solves the problems that in the prior art, the solution in the glass fiber reinforced plastic tower can generate static electricity by friction in the flowing process, the solution can collide with the inner cavity wall to generate liquid drops when entering the glass fiber reinforced plastic tower from the pipeline and is sprayed to the inner cavity wall, the solution can generate static electricity, the solution with particles can generate static electricity when settling, and the glass fiber reinforced plastic tower is flammable and explosive and is easy to cause danger.

This practical theory of operation:

referring to the attached drawings 1-5 of the specification, a first column 9 on one transition tower is moved to be inserted into a first flange 7 on another transition tower 2, then a nut 24 is screwed on the first column 9, sealing treatment is carried out, fixing between the two transition towers is completed, a required number of transition towers are installed in the same way, then a right tower 3 is moved, a second column 21 is inserted into the first flange 7, sealing treatment is carried out, the nut 24 is screwed on the second column 21, fixing between the right tower 3 and the transition tower 2 is completed, finally a left tower 1 is moved, the first column 9 is inserted into a through hole in a second flange 16, then the nut 24 is screwed on the first column 9, fixing installation between the whole glass fiber reinforced plastic towers is completed, a valve is fixedly connected to a port of a flow-out pipe 12, an iron chain is fixed at the bottom of a conductive rod 10, and the iron chain is contacted with the ground, then the solution is poured into the glass fiber reinforced plastic tower from the inlet pipe 22, static electricity generated among the solutions is conducted to the conductive rod 10 through conductive powder and conductive metal wires, the conductive rod conducts the static electricity to the iron chain and then to the ground, after the solution is filled, the inlet pipe 22 is sealed, when the solution is needed, the valve is opened, and the solution flows into the outlet hole 11 from the inner cavity of the glass fiber reinforced plastic tower and then flows out of the valve through the outlet pipe 12.

While certain exemplary embodiments of the present invention have been described above by way of illustration only, it will be apparent to those of ordinary skill in the art that the described embodiments may be modified in various different ways without departing from the spirit and scope of the present invention. Accordingly, the drawings and description are illustrative in nature and should not be construed as limiting the scope of the invention.

Claims (7)

1. The utility model provides an antistatic glass steel tower, includes left tower (1), its characterized in that: one end of the left tower (1) is provided with a transition tower (2), one end of the transition tower (2) far away from the left tower (1) is provided with a right tower (3), and conductive powder is attached to the inner walls of the left tower (1), the transition tower (2) and the right tower (3) and is wound with conductive metal wires;

transition tower (2) including cavity (4) in the transition, cavity (4) outer peripheral face fixedly connected with transition ring (5) in the transition, transition ring (5) bottom fixedly connected with transition base (6), cavity (4) one end fixedly connected with first ring flange (7) in the transition, cavity (4) other end fixedly connected with first ring (8) in the transition, cavity (4) one side fixedly connected with first post (9) in the transition is kept away from in first ring (8), the first post (9) outer peripheral face is kept away from first ring (8) one end and is opened there is the external screw thread, cavity (4) inside is equipped with conducting rod (10) in the transition, conducting rod (10) run through cavity (4) in the transition, transition ring (5) and transition base (6) to extend to transition base (6) outside, cavity (4) inside is opened there is outlet (11) in the transition, an outflow pipe (12) is fixedly connected to one side of the outer wall of the transition base (6), and the interior of the outflow pipe (12) is communicated with the outflow hole (11).

2. The antistatic fiberglass tower of claim 1, wherein: left side tower (1) is including cavity (13) in a left side, cavity (13) outside fixedly connected with left ring (14) in a left side, left side ring (14) bottom fixedly connected with left base (15), cavity (13) one end fixedly connected with second ring flange (16) in a left side.

3. The antistatic fiberglass tower of claim 1, wherein: right side tower (3) are including cavity (17) in the right side, cavity (17) outside fixedly connected with right ring (18) in the right side, right side ring (18) bottom fixedly connected with right base (19), cavity (17) one end fixedly connected with second ring (20) in the right side, cavity (17) one side fixedly connected with second cylinder (21) in the right side is kept away from in second ring (20), right side ring (18) outer peripheral face fixedly connected with admission pipe (22), inside and the right side cavity (17) inside intercommunication in admission pipe (22), right side ring (18) one end fixedly connected with third flange dish (23) are kept away from in admission pipe (22).

4. The antistatic fiberglass tower of claim 1, wherein: the number of the transition towers (2) is set to be a plurality, and the transition towers (2) are distributed between the left tower (1) and the right tower (3) in a linear array manner.

5. The antistatic fiberglass tower of claim 1, wherein: the conductive rod (10) is a conductive metal component, and the conductive metal component is made of a material which does not react with the solution stored in the tower.

6. The antistatic fiberglass tower of claim 2, wherein: the quantity of first post (9) sets up to a plurality ofly, through-hole sliding connection on a plurality of first posts (9) and first ring flange (7), through-hole sliding connection on a plurality of first posts (9) and second ring flange (16), first post (9) outside threaded connection has nut (24).

7. The antistatic fiberglass tower of claim 3, wherein: the number of the second columns (21) is set to be a plurality of, and the second columns (21) are connected with the through holes in the first flange plate (7) in a sliding mode.

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