阅读说明：本技术 一种电缆用防潮存储仓库 (Dampproofing storage warehouse is used to cable ) 是由 吴正明 于 2019-10-23 设计创作，主要内容包括：本发明属于电力设备领域,具体涉及一种电缆用防潮存储仓库,包括：电缆用防潮存储仓库,包括：控制模块、若干合围的竖立墙体、位于各竖立墙体内侧底部的称重系统、放置在称重系统上的防潮组件、位于竖立墙体上的报警器；其中所述防潮组件适于吸收周围湿气,并增加重量；所述称重系统适于检测防潮组件的吸水重量值；当吸水重量值大于控制模块的设定值时,所述控制模块控制报警器报警,即该竖立墙体对应的防潮组件失效,可以起到预警作用,保证仓库中的空气处于干燥状态,提高电缆的保存效果。(The invention belongs to the field of power equipment, and particularly relates to a moisture-proof storage warehouse for cables, which comprises: dampproofing storage warehouse for cable includes: the system comprises a control module, a plurality of surrounded vertical walls, weighing systems positioned at the bottoms of the inner sides of the vertical walls, a moisture-proof component arranged on the weighing systems, and an alarm positioned on the vertical walls; wherein the moisture barrier assembly is adapted to absorb ambient moisture and add weight; the weighing system is suitable for detecting the water absorption weight value of the moisture-proof component; when the weight value that absorbs water is greater than control module's setting value, control module control alarm reports to the police, should erect the dampproofing subassembly that the wall body corresponds promptly and become invalid, can play the early warning effect, guarantees that the air in the warehouse is in dry state, improves the save effect of cable.)

1. A moisture-proof storage warehouse for cables, comprising:

the system comprises a control module, a plurality of surrounded vertical walls, weighing systems positioned at the bottoms of the inner sides of the vertical walls, a moisture-proof component arranged on the weighing systems, and an alarm positioned on the vertical walls; wherein

The moisture barrier member is adapted to absorb ambient moisture and add weight, i.e., a weight-to-water absorption value;

the weighing system is suitable for detecting the water absorption weight value of the moisture-proof component;

when the water absorption weight value is larger than the set value of the control module, the control module controls the alarm to give an alarm, namely, the moisture-proof component corresponding to the vertical wall body fails.

2. The moisture-proof storage warehouse for cables of claim 1,

the moisture barrier assembly includes: the glass fiber net comprises a base plate positioned on a weighing system, base cloth covered on the surface of the base plate, a plurality of core moulds positioned on the surface of the base cloth and glass fiber net cloth covered on the surface of the core moulds; wherein

The base plate is paved on the inner side of the vertical wall body and is separated from the vertical wall body;

the core mold is suitable for forming a semi-closed structure by the bottom wall and two side walls and is suitable for containing granular desiccant so as to absorb ambient moisture;

the bottom of the semi-closed structure is bordered with the surface of the base cloth, and the opening of the semi-closed structure faces the glass fiber gridding cloth.

3. The moisture-proof storage warehouse for cables of claim 2,

micropores suitable for gas to pass through are reserved on the glass fiber gridding cloth.

4. The moisture-proof storage warehouse for cables of claim 2,

the glass fiber gridding cloth is suitable for being woven on the surface of the core mold through weaving lines;

a plurality of core moulds are arranged in rows; and

the braided wire is suitable for stitch-bonding along the gap between adjacent core molds so as to fix the glass fiber gridding cloth on the corresponding position of the base cloth.

5. The moisture-proof storage warehouse for cables of claim 2,

the lower end of the core mold is connected with a drying agent recovery box through a horizontally arranged discharge pipeline; wherein

The discharging pipeline comprises a hollow cylindrical shaft body with a discharging notch on the side surface;

when the moisture-proof component fails, namely the granular desiccant fails to absorb water, the hollow cylindrical shaft body is suitable for rotating, so that the discharge notch is aligned with the lower end of the core mold, and the granular desiccant can flow out of the inner part of the core mold to the desiccant recovery box, namely the granular desiccant is unloaded.

6. The moisture-proof storage warehouse for cables of claim 5,

the upper end of the core die is connected with a fan through a soft feeding pipeline;

the inlet end of the fan is provided with a drying agent storage bin;

when the granular drying agent is loaded, the fan is suitable for blowing air flow into the core mold, and the granular drying agent in the drying agent storage bin is driven by the air flow to enter the core mold; and

the hollow cylindrical shaft body is suitable for rotating, so that the discharge notch is back to the lower end of the core mold, and the granular drying agent is blocked in the core mold.

7. The moisture resistant storage warehouse for cables of claim 6,

dampproofing warehouse still includes for cable: a rotating motor located at the end of the hollow cylindrical shaft;

the control module controls the rotating motor to drive the hollow cylindrical shaft body to rotate so as to unload or load the granular drying agent.

8. The moisture resistant storage warehouse for cables of claim 7,

the feeding pipelines corresponding to the vertical walls are sequentially communicated through movable pipe joints respectively to form communicated feeding assemblies;

the blower is adapted to load each moisture barrier assembly with granular desiccant through the feed assembly.

Technical Field

The invention relates to the field of power equipment, in particular to a moisture-proof storage warehouse for cables.

Background

The cable is often produced in batches and stored in a dry environment to prevent the core wire inside from rusting or oxidizing, and the normal use is influenced. In the existing warehouse, in order to provide a drying environment, a drying agent is arranged around the wall, so that a short-time drying effect is achieved. Due to the fact that the orientation and ventilation conditions of all positions of the warehouse are different, drying time of the drying agents in all the positions are different, and it often happens that some drying agents are still in an effective state, and other drying agents lose drying functions, and the drying environment of the warehouse is seriously affected.

Disclosure of Invention

The invention aims to provide a moisture-proof storage warehouse for cables.

In order to solve the above technical problem, the present invention provides a moisture-proof storage warehouse for cables, comprising: the system comprises a control module, a plurality of surrounded vertical walls, weighing systems positioned at the bottoms of the inner sides of the vertical walls, a moisture-proof component arranged on the weighing systems, and an alarm positioned on the vertical walls; wherein the moisture barrier member is adapted to absorb ambient moisture and add weight, i.e., a weight-to-water absorption value; the weighing system is suitable for detecting the water absorption weight value of the moisture-proof component; when the water absorption weight value is larger than the set value of the control module, the control module controls the alarm to give an alarm, namely, the moisture-proof component corresponding to the vertical wall body fails.

Further, the moisture barrier assembly includes: the glass fiber net comprises a base plate positioned on a weighing system, base cloth covered on the surface of the base plate, a plurality of core moulds positioned on the surface of the base cloth and glass fiber net cloth covered on the surface of the core moulds; wherein the base plate is paved on the inner side of the vertical wall body and is arranged separately from the vertical wall body; the core mold is suitable for forming a semi-closed structure by the bottom wall and two side walls and is suitable for containing granular desiccant so as to absorb ambient moisture; the bottom of the semi-closed structure is bordered with the surface of the base cloth, and the opening of the semi-closed structure faces the glass fiber gridding cloth.

Furthermore, micropores suitable for gas to pass through are reserved on the glass fiber gridding cloth.

Further, the glass fiber gridding cloth is suitable for being woven on the surface of the core mold through weaving wires; a plurality of core moulds are arranged in rows; and the knitting lines are suitable for stitch-bonding along the gaps of the adjacent core moulds so as to fix the glass fiber gridding cloth on the corresponding position of the base cloth.

Further, the lower end of the core mold is connected with a drying agent recovery box through a horizontally arranged discharge pipeline; the discharging pipeline comprises a hollow cylindrical shaft body with a discharging notch on the side surface; when the moisture-proof component fails, namely the granular desiccant fails to absorb water, the hollow cylindrical shaft body is suitable for rotating, so that the discharge notch is aligned with the lower end of the core mold, and the granular desiccant can flow out of the inner part of the core mold to the desiccant recovery box, namely the granular desiccant is unloaded.

Further, the upper end of the core mold is connected with a fan through a soft feeding pipeline; the inlet end of the fan is provided with a drying agent storage bin; when the granular drying agent is loaded, the fan is suitable for blowing air flow into the core mold, and the granular drying agent in the drying agent storage bin is driven by the air flow to enter the core mold; and the hollow cylindrical shaft body is suitable for rotating, so that the discharge notch is back to the lower end of the core mold, and the granular drying agent is blocked in the core mold.

Further, dampproofing warehouse still includes for cable: a rotating motor located at the end of the hollow cylindrical shaft; the control module controls the rotating motor to drive the hollow cylindrical shaft body to rotate so as to unload or load the granular drying agent.

Furthermore, the feeding pipelines corresponding to the vertical walls are sequentially communicated through movable pipe joints respectively to form communicated feeding assemblies; the blower is adapted to load each moisture barrier assembly with granular desiccant through the feed assembly.

The moisture-proof storage warehouse for the cables has the advantages that the moisture-proof storage warehouse for the cables detects the water absorption weight value of the moisture-proof component by using the weighing system, so that whether the moisture-proof component fails or not is judged by the control module, an early warning effect can be achieved, the air in the warehouse is ensured to be in a dry state, and the storage effect of the cables is improved; each weighing system sets up alone for whether the dampproofing subassembly that respectively erects the wall body and correspond became invalid is detected respectively, can satisfy the demand of different humidity environment.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a top plan view of a moisture-resistant storage warehouse for cables of the present invention;

FIG. 2 is a front view of the erected wall of the present invention;

FIG. 3 is a schematic view of the construction of the moisture barrier assembly of the present invention;

figure 4a is a schematic representation of the position of the mandrel body and lower end of the mandrel when unloading granular desiccant.

Fig. 4b is a schematic view showing the positions of the mandrel body and the lower end of the mandrel when the granular desiccant is loaded.

In the figure: the device comprises a vertical wall body 1, a weighing system 2, a moisture-proof component 3, a base plate 31, a base cloth 32, a core mould 33, a glass fiber mesh cloth 34, a braided wire 35, a granular desiccant 4, a desiccant recovery box 5, a discharge pipeline 51, a discharge gap 511, a fan 6, a feed pipeline 61, a feed assembly 62, a movable pipe joint 63 and a rotating motor 7.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic views illustrating only the basic structure of the present invention in a schematic manner, and thus show only the constitution related to the present invention.

Fig. 1 is a top plan view of the moisture-proof storage warehouse for cables of the present invention.

Fig. 2 is a front view of the erected wall of the present invention.

As shown in fig. 1 and 2, the present embodiment provides a moisture-proof storage warehouse for cables, including: the system comprises a control module, a plurality of surrounded vertical walls 1, a weighing system 2 positioned at the bottom of the inner side of each vertical wall 1, a moisture-proof component 3 arranged on the weighing system 2, and an alarm (not shown in the figure, any position on the surface of the vertical wall 1 can be used, and when the alarm is given, the failure of the corresponding moisture-proof component on the vertical wall can be displayed); wherein the moisture barrier member 3 is adapted to absorb ambient moisture and add weight, i.e. a weight-to-water absorption value; the weighing system 2 is adapted to detect the value of the weight of the moisture barrier 3 to absorb water; when the water absorption weight value is larger than the set value of the control module, the control module controls the alarm to give an alarm, namely, the moisture-proof component corresponding to the vertical wall body fails.

In general, the weight setting can be determined according to the water absorption capacity of the moisture-proof component, and when 80% or more of the granular desiccant in the moisture-proof component fails, the moisture-proof component 3 corresponding to the vertical wall 1 can be judged to fail through weight.

In order to calculate the water absorption weight value of the moisture-proof component 3, the reading of the weighing system can be reset before the moisture-proof component absorbs water, so that the display reading of the weighing system is the water absorption weight value of the moisture-proof component 3, and the control module sets a corresponding set value, and therefore the moisture-proof component failure early warning can be realized. Of course, the weighing system of this application also can be before dampproofing subassembly absorbs water, does not clean zero and examines, and the weight value that shows dampproofing subassembly this moment sets up the corresponding default of dampproofing subassembly through control module, and after dampproofing subassembly absorbs water, when its total weight value (the weight value of dampproofing subassembly with absorb water weight value) is greater than corresponding default, control module control alarm was reported to the police, realizes dampproofing subassembly inefficacy early warning equally.

Optionally, the control module is, for example and without limitation, an industrial control board or a PLC module, and the industrial control board may be a MYD-C7Z010/20 industrial control board.

Optionally, referring to fig. 2, the weighing system 2 includes, but is not limited to, a plurality of electronic loadlocks located at the bottom of the moisture-proof component 3, and the electronic loadlocks are adapted to detect the water absorption weight value of the moisture-proof component 3 and send the water absorption weight value to the control module to determine whether the moisture-proof component 3 corresponding to the vertical wall 1 is failed.

The moisture-proof storage warehouse for the cables of the embodiment utilizes the weighing system to detect the water absorption weight value of the moisture-proof component, so that whether the moisture-proof component fails or not is judged through the control module, and the alarm is used for prompting, so that the air in the warehouse can be ensured to be in a dry state, and the storage effect of the cables is improved; each weighing system sets up in corresponding base plate bottom alone for whether the dampproofing subassembly that each erects the wall body and corresponds became invalid respectively is detected, can satisfy the dry demand of different humidity environment.

Fig. 3 is a schematic view of the construction of the moisture barrier assembly of the present invention.

As an alternative embodiment of the moisture barrier assembly.

Referring to fig. 3, the moisture barrier assembly 3 comprises: a base plate 31 positioned on the weighing system 2, a base cloth 32 covered on the base plate 31, a plurality of core moulds 33 positioned on the surface of the base cloth 32, and a glass fiber gridding cloth 34 covered on the surface of the core moulds 33; wherein the substrate 31 is laid on the inner side of the vertical wall 1 and is separated from the vertical wall 1; the core mold 33 is adapted to form a semi-closed structure with a bottom and two side walls for containing granular desiccant 4 to absorb ambient moisture; the bottom of the semi-closed structure borders the surface of the base fabric 32 with its opening facing the fiberglass mesh 34.

Optionally, the height of the substrate 31 is greater than the heights of the base cloth 32, the core mold 33 and the glass fiber mesh cloth 34, the bottom of the substrate 31 abuts against the weighing system 2, and after the moisture-proof assembly is installed, the reading value of the electronic wagon balance returns to zero, so that the water absorption weight value of the moisture-proof assembly can be displayed in real time.

Optionally, the glass fiber mesh 34 is provided with micropores suitable for gas to pass through.

Optionally, the base fabric is, for example, but not limited to, asbestos cloth or fiberglass cloth, and the surface of the base fabric is flat and suitable for being attached to the surface of the substrate.

Alternatively, see fig. 3, the mandrel 33 may have a cross-section such as, but not limited to, a rectangle with an opening at the top and covered with a fiberglass mesh 34 and a bottom bordering the surface of the base fabric 32 to maintain the surface of the moisture barrier assembly flat.

Preferably, referring to fig. 3, the fiberglass mesh 34 is suitable for being woven on the surface of the core mold 33 through the weaving lines 44; a plurality of mandrels 33 are arranged in rows; and the braided wire 44 is adapted to be stitch-bonded along the gap between adjacent mandrels 33 to secure the fiberglass scrim 34 in place on the base fabric 32. The core mould can be prevented from falling off or shifting in the using or carrying process, and the firmness of the core mould is further improved.

The moisture-proof component of the embodiment dries air through the granular drying agent positioned in the core mold, so that the weight of the moisture-proof component is reduced, the adhesion firmness of the moisture-proof component is improved, the contact area of the drying agent and the air is increased, and the drying effect is improved; meanwhile, the glass fiber mesh cloth is inorganic fiber, so that the combustible content is low and can be 0.4-1%, and the glass fiber mesh cloth is not easy to burn, so that the glass fiber mesh cloth has the characteristics of good drying effect, fire resistance and flame retardance.

Figure 4a is a schematic representation of the position of the mandrel body and lower end of the mandrel when unloading granular desiccant.

Further, referring to fig. 2, the lower end of the core mold 33 is connected with a desiccant recovery tank 5 through a horizontally arranged discharge pipe 51; wherein the discharge pipe 51 comprises a hollow cylindrical shaft body with a discharge gap 511 on the side; one end of the hollow cylindrical shaft body is closed, and the other end of the hollow cylindrical shaft body is connected with a drying agent recovery box 5; when the moisture barrier assembly fails, i.e., the granular desiccant absorbs water and fails, the hollow cylindrical shaft is adapted to rotate such that the discharge notch 511 is aligned with the lower end of the core 33 (as shown in fig. 4 a) to facilitate the flow of granular desiccant out of the interior of the core 33 into the desiccant recovery tank 5, i.e., to unload the granular desiccant.

Of course, to avoid the clogging of the spent granular desiccant in the plug 33 or the accumulation in the discharge pipe 51, air flow can be introduced into the plug by means of a blower, and the spent granular desiccant in the plug can be completely discharged without supplying new granular desiccant. Of course, the discharge conduit 51 may be angled slightly downward to angle the desiccant recovery tank 5 to facilitate the flow of spent granular desiccant into the desiccant recovery tank 5.

Fig. 4b is a schematic view showing the positions of the mandrel body and the lower end of the mandrel when the granular desiccant is loaded.

Further, referring to fig. 2, the upper end of the core mold 33 is connected to a blower 6 through a soft feeding pipe 61; a desiccant storage bin (not shown in the figure, the desiccant storage bin is only used for supplying granular desiccant to the feed pipe 61 through the fan, and therefore the position of the desiccant storage bin is not required to be limited) is arranged at the inlet end of the fan 6; when the granular drying agent is loaded, the fan 6 is suitable for blowing air flow into the core mould 33 and driving the granular drying agent in the drying agent storage bin into the core mould 33 through the air flow; and the hollow cylindrical shaft body is adapted to rotate so that the discharge notch 511 faces away from the lower end of the core mold 33 (as shown in fig. 4 b) to plug the granular desiccant in the core mold 33, i.e., to carry the granular desiccant for absorbing ambient moisture.

Further, referring to fig. 2, the moisture-proof storage warehouse for cables further includes: a rotating motor 7 located at the end of the hollow cylindrical shaft; the control module controls the rotating motor 7 to drive the hollow cylindrical shaft body to rotate so as to unload or load the granular drying agent.

Further, as shown in fig. 2, the feeding pipes 61 corresponding to each vertical wall 1 are respectively and sequentially communicated through a movable pipe joint 63 to form a communicated feeding assembly 62; the fan 6 is adapted to load each moisture barrier 3 with granular desiccant via the feed assembly 62.

In conclusion, the moisture-proof storage warehouse for the cable detects the water absorption weight value of the moisture-proof component by using the weighing system, so that whether the moisture-proof component fails or not is judged by the control module, then the discharge pipeline is rotated by rotating the motor, and the granular drying agents can be unloaded or loaded by combining the fan, so that the replacement process of the failed granular drying agents is completed, the durability of the moisture-proof storage warehouse is improved, the moisture-proof component is ensured to be always in a working state, the air in the warehouse can be effectively kept dry, and the storage effect of the cable is improved; each weighing system sets up in corresponding base plate bottom alone for whether the dampproofing subassembly that each erects the wall body and correspond became invalid respectively is detected, can be directed against the demand of different humidity environment, changes the drier respectively to the dampproofing subassembly that each erects the wall body and corresponds, reduces the humidity fluctuation in the warehouse. In addition, the alarm also has the function that when the failed granular drying agent fails to discharge, the alarm can continuously give an alarm to prompt.

In light of the foregoing description of the preferred embodiment of the present invention, many modifications and variations will be apparent to those skilled in the art without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.