CN210508206U

CN210508206U - Temperature control wiring assembly of geothermal floor

Info

Publication number: CN210508206U
Application number: CN201921154880.2U
Authority: CN
Inventors: 皇海亮; 皇明祥; 沈向锋
Original assignee: Huzhou Lianshi Huangsheng Wood Industry Co ltd
Current assignee: Huzhou Lianshi Huangsheng Wood Industry Co ltd
Priority date: 2019-07-22
Filing date: 2019-07-22
Publication date: 2020-05-12
Anticipated expiration: 2029-07-22

Abstract

The utility model discloses a temperature control wiring assembly of a geothermal floor, which comprises a substrate, wherein a panel is arranged above the substrate; the substrate comprises a plate body, wherein a wire groove is formed in the upper surface of the plate body, a heating cable is arranged in the wire groove, first connector lugs are arranged at two ends of the heating cable, and each first connector lug is connected with a temperature control connecting wire; the temperature control connecting wire comprises a wire holder, wherein a wire inlet is arranged at one end of the wire holder, and a transmission wire and a wire outlet are arranged at the other end of the wire holder; the wire distribution device is characterized by further comprising a temperature control switch located at the other end of the wire holder, one end of the temperature control switch is connected with a wire outlet, a wire distribution is arranged at the other end of the temperature control switch, and a third wire connector matched with the first wire connector is arranged at the end part of the wire distribution. The utility model has the characteristics of can effectively reduce fire control potential safety hazard and reduce the energy consumption.

Description

Temperature control wiring assembly of geothermal floor

Technical Field

The utility model relates to a wiring subassembly, especially a accuse temperature wiring subassembly on geothermal floor.

Background

The geothermal floor for generating heat by electricity is characterized in that a heating cable is arranged inside the floor, heat is generated through the heating cable, the floor is heated by radiation, the temperature is radiated upwards from the ground and gradually decreased from bottom to top, and then heating is realized. The heating cable is connected with an external circuit through a connector and a connecting wire, the overall temperature of the whole geothermal floor area is controlled through a general temperature control switch arranged outside, and the temperature control switch can start to work only when the temperature of the whole area reaches a set value. However, after the floor heating floor is laid, some areas of the surface of the floor heating floor are covered by some objects such as blankets and furniture, so that the temperature of the areas is increased faster than that of other areas, so that certain areas are heated to a higher temperature, which is easy to cause fire, and thus certain safety hazards exist, and energy consumption is increased correspondingly. Therefore, the prior art has certain fire safety hidden danger and the problem of large energy consumption.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a control temperature wiring subassembly on geothermal floor. The utility model has the characteristics of can effectively reduce fire control potential safety hazard and reduce the energy consumption.

The technical scheme of the utility model: a temperature control wiring assembly of a geothermal floor comprises a substrate, wherein a panel is arranged above the substrate; the substrate comprises a plate body, wherein a wire groove is formed in the upper surface of the plate body, a heating cable is arranged in the wire groove, first connector lugs are arranged at two ends of the heating cable, and each first connector lug is connected with a temperature control connecting wire; the temperature control connecting wire comprises a wire holder, wherein a wire inlet is arranged at one end of the wire holder, and a transmission wire and a wire outlet are arranged at the other end of the wire holder; the wire distribution device is characterized by further comprising a temperature control switch located at the other end of the wire holder, one end of the temperature control switch is connected with a wire outlet, a wire distribution is arranged at the other end of the temperature control switch, and a third wire connector matched with the first wire connector is arranged at the end part of the wire distribution.

In the temperature control wiring assembly for the geothermal floor, one transmission line and two outgoing lines are arranged at the other end of the wiring base; the number of the branch lines is also two.

In the aforementioned temperature control wiring assembly for a geothermal floor, the end of the incoming line is provided with a second connector lug, and the end of the transmission line is provided with a fourth connector lug matched with the second connector lug.

In the temperature control wiring assembly for a geothermal floor, the first wiring head and the second wiring head are both wiring female heads; the third connector lug and the fourth connector lug are male connector lugs.

In the temperature control wiring assembly for the geothermal floor, a plurality of annular sealing bulges are arranged on the outer wall of the wiring female head; a sealing ring is arranged outside the male connector, and a sealing cavity is arranged between the sealing ring and the male connector.

In the temperature control wiring assembly for the geothermal floor, openings corresponding to the first wiring terminals are formed in two ends of the wiring groove, a wiring groove located at the outer end of each opening is further formed in the lower surface of the plate body, and annular fixing grooves are formed in two ends of the wiring groove; and the inner wall of the annular fixing groove is provided with an elastic buckle with a conical structure with a small lower part and a large upper part.

Compared with the prior art, the utility model discloses a set up the accuse temperature connecting wire at the both ends of first connector lug, carry out real time monitoring to the temperature at geothermal floor both ends, both realized carrying out the purpose of individual accuse temperature to each geothermal floor, namely the heating work will be stopped automatically after the single plate reaches the temperature of settlement, guarantee that each plate is all within the safe temperature range of settlement, thereby can effectively reduce the fire control potential safety hazard, also can reduce the energy consumption to a certain extent; in addition, the temperature at the two ends of the geothermal floor is monitored, so that the use safety performance is further improved, and the fire safety hidden danger is reduced. In addition, the wiring groove is formed in the lower surface of the plate body, the annular fixing grooves are formed in the two ends of the wiring groove, and the elastic buckles are arranged in the annular fixing grooves, so that the branching can be effectively fixed, and the connection stability is guaranteed; furthermore, the length of the split line can be adjusted by winding. To sum up, the utility model has the characteristics of can effectively reduce fire control potential safety hazard and reduce the energy consumption.

Drawings

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

FIG. 2 is a schematic view of a substrate;

fig. 3 is a schematic structural view of the substrate with the first connector lug omitted;

FIG. 4 is a schematic diagram of a temperature control connection line;

FIG. 5 is a schematic view of the structure of the backside of the substrate;

FIG. 6 is a cross-sectional view of the resilient catch;

fig. 7 is a partially enlarged view of fig. 5.

The labels in the figures are: 1-substrate, 2-panel, 3-plate body, 4-wire groove, 5-heating cable, 6-first connector lug, 7-temperature control connecting wire, 701-connector base, 702-incoming wire, 703-transmission wire, 8-temperature control switch, 9-branching, 10-third connector lug, 11-second connector lug, 12-fourth connector lug, 13-opening, 14-wire groove, 15-annular fixing groove and 16-elastic buckle.

Detailed Description

The following description is made with reference to the accompanying drawings and examples, but not to be construed as limiting the invention.

Examples are given. A temperature control wiring assembly of a geothermal floor is shown in figures 1 to 7 and comprises a substrate 1, wherein a panel 2 is arranged above the substrate 1; the base plate 1 comprises a plate body 3, a wire groove 4 is formed in the upper surface of the plate body 3, a heating cable 5 is arranged in the wire groove 4, first connector lugs 6 are arranged at two ends of the heating cable 5, and each first connector lug 6 is connected with a temperature control connecting wire 7; the temperature control connecting wire 7 comprises a wire holder 701, wherein one end of the wire holder 701 is provided with a wire inlet 702, and the other end of the wire holder 701 is provided with a transmission wire 703 and a wire outlet; the wire holder is characterized by further comprising a temperature control switch 8 located at the other end of the wire holder 701, one end of the temperature control switch 8 is connected with a wire outlet, a branch wire 9 is arranged at the other end of the temperature control switch 8, and a third wire connector 10 matched with the first wire connector 6 is arranged at the end portion of the branch wire 9.

The other end of the wire holder 701 is provided with a transmission line 703 and two outgoing lines; the number of the branch lines 9 is also two.

The end of the incoming line 702 is provided with a second connector lug 11, and the end of the transmission line 703 is provided with a fourth connector lug 12 matched with the second connector lug 11.

The first connector lug 6 and the second connector lug 11 are both female connector lugs; the third and

fourth terminals

10, 12 are male terminals.

A plurality of annular sealing bulges are arranged on the outer wall of the wiring female head; a sealing ring is arranged outside the male connector, and a sealing cavity is arranged between the sealing ring and the male connector.

Openings 13 corresponding to the first connector lug 6 are formed in two ends of the wiring groove 4, wiring grooves 14 located at the outer ends of the openings 13 are further formed in the lower surface of the plate body 3, and annular fixing grooves 15 are formed in two ends of each wiring groove 14; and the inner wall of the annular fixing groove 15 is provided with an elastic buckle 16 with a conical structure with a small lower part and a large upper part.

The elastic buckle is an elastic rubber buckle.

Be equipped with the conducting strip in the connecting seat, divide into three mutually independent transmission lines and be qualified for the next round of competitions with a single inlet wire, be qualified for the next round of competitions, transmission line and inlet wire all link to each other with the conducting strip, carry out the conduction of electricity through the conducting strip.

The heating cable is a carbon fiber heating cable.

In inserting the public head of working a telephone switchboard female head, the sealed arch of the outer sealing washer of public head of working a telephone switchboard cooperatees with the annular on the female head outer wall of working a telephone switchboard, realizes multiple sealed, prevents to take place the phenomenon of leaking.

The temperature control switch is a temperature controller using a bimetallic strip as a temperature sensing element, when an electric appliance normally works, the bimetallic strip is in a free state, a contact is in a closed/open state, when the temperature rises to an action temperature value, the bimetallic element is heated to generate internal stress to quickly act, the contact is opened/closed, and a circuit is cut off/connected, so that the thermal protection effect is achieved. When the temperature is gradually reduced to the reset temperature, the contact is automatically closed/opened, and the normal working state is recovered.

One end of the temperature control switch is provided with two input ends, and the other end is provided with two output ends.

The temperature control switch selects temperature controllers suitable for various models of the product, the voltage is 210V-250V, the current is 2A-10A, and the set temperature is 20-60 ℃. When the temperature control switch detects that the temperature of the area exceeds the set value, the temperature control switch is disconnected, namely power supply is lost, and heating is stopped. When the temperature of the electric heating floor is reduced to a set temperature value, the temperature control switch is automatically electrified, and the geothermal floor starts to heat again.

For example, the temperature control switch may be a KSD9700 sensor manufactured by Keyed corporation, with a voltage of 250V, a current of 5A, and a set temperature of 35 ℃. When the temperature control switch detects that the temperature of the area exceeds 35 ℃, the area is disconnected, the corresponding heating cable loses power, and then heating is stopped. The heating of the geothermal floor is stopped as long as the temperature of one end of the geothermal floor exceeds the set value of the temperature control switch. When the geothermal floor is reduced to the set temperature value (30 ℃), the temperature control switch is automatically electrified, and the geothermal floor starts to heat again.

Assembling the third connector lug with the first connector lug, and then assembling the second connector lug with a fourth connector lug on another adjacent connector lug; and then, sequentially connecting the temperature control connecting lines on the adjacent hot floors according to the installation steps to connect the geothermal floors of the whole area.

Claims

1. A temperature control wiring assembly of a geothermal floor comprises a substrate (1), wherein a panel (2) is arranged above the substrate (1); base plate (1) is including plate body (3), and plate body (3) upper surface is equipped with wire casing (4), is equipped with heating cable (5) in wire casing (4), and heating cable (5) both ends are equipped with first connector lug (6), its characterized in that: each first connector lug (6) is connected with a temperature control connecting wire (7); the temperature control connecting wire (7) comprises a wire holder (701), one end of the wire holder (701) is provided with an incoming wire (702), and the other end of the wire holder (701) is provided with a transmission line (703) and an outgoing wire; the wire connector is characterized by further comprising a temperature control switch (8) located at the other end of the wire holder (701), one end of the temperature control switch (8) is connected with a wire outlet, a wire distributing part (9) is arranged at the other end of the temperature control switch (8), and a third wire connector head (10) matched with the first wire connector head (6) is arranged at the end part of the wire distributing part (9).

2. A temperature-controlling wiring member for a geothermal floor according to claim 1, wherein: the other end of the wire holder (701) is provided with a transmission line (703) and two outgoing lines; the number of the branch lines (9) is also two.

3. A temperature-controlling wiring member for a geothermal floor according to claim 1, wherein: the end of the incoming line (702) is provided with a second connector lug (11), and the end of the transmission line (703) is provided with a fourth connector lug (12) matched with the second connector lug (11).

4. A temperature-controlling wiring member for a geothermal floor according to claim 3, wherein: the first connector lug (6) and the second connector lug (11) are both female connector lugs; the third connector lug (10) and the fourth connector lug (12) are male connector lugs.

5. The temperature-controlling wiring assembly of a geothermal floor as recited in claim 4, wherein: a plurality of annular sealing bulges are arranged on the outer wall of the wiring female head; a sealing ring is arranged outside the male connector, and a sealing cavity is arranged between the sealing ring and the male connector.

6. The temperature-controlling wiring assembly of a geothermal floor as recited in claim 4, wherein: openings (13) corresponding to the first connector lug (6) are formed in the two ends of the wire groove (4), a wire groove (14) located at the outer end of each opening (13) is further formed in the lower surface of the plate body (3), and annular fixing grooves (15) are formed in the two ends of each wire groove (14); and the inner wall of the annular fixing groove (15) is provided with an elastic buckle (16) with a conical structure with a section being small at the bottom and big at the top.