JPH0528031Y2 - - Google Patents

Description

[Detailed Description of the Invention] (Industrial Application Field) The present invention relates to a temperature detection device for a mold used in thermoforming.

(Prior art) Conventionally, in order to measure the temperature of a mold, it is common practice to drill a hole in the mold, insert a thermocouple into the hole, and detect the change in current that occurs in an electric wire extending from the thermocouple. It is true. As for this kind of thing, Utsukai 59-
There is a temperature measuring device for mold casting disclosed in Japanese Patent No. 124334. This temperature measuring device
As shown in the figure, a thermocouple wire 5 surrounded by a pipe member 3 and a wire protection tube 4 is inserted into a hole 2 made in a mold 1. The thermocouple element wire 5 is connected to a compensation conductor 6 and extends to the outside through an insulator 7.

(Problems to be Solved by the Invention) In the temperature measuring device having the above configuration, since the compensating lead wire 6 extends from the mold 1 to the outside, when the mold 1 is replaced or transported, the device is attached to the pipe member 3. All the components have to be pulled out from the mold 1, and if the frequency of attachment and detachment increases, dirt and damage become severe, leading to errors in temperature detection and making the work complicated. Furthermore, since the mold 1 moves during the manufacturing process, the compensating conductor 6 extending from the mold 1 may be severely damaged and must be replaced frequently, making the replacement work complicated.

Therefore, the present invention was devised to solve the above problems, and the temperature detection device is divided into a temperature display part and a temperature sensing part, and the temperature sensing part is built in the temperature sensing part embedded in the mold. The purpose of the present invention is to provide a temperature detection device for a mold that is heat resistant, durable, and highly workable by detachably connecting a thermocouple wire to a temperature display section via an elastic member. .

(Means for Solving the Problems) The feature of the present invention for achieving the above object is that it consists of a temperature display section disposed outside the mold and a temperature sensing section disposed inside the mold. , the temperature sensing section includes a connector that is electrically connected to a lead wire extending from the thermocouple wire and attached to the outer surface of the mold, and the connector is connected to the lead wire within a ceramic connector body. A socket for receiving a plug at the end of the transmission line of the temperature display section is arranged, and the socket is held by the connector body via an elastic member made of a heat-resistant material. .

(Function) With the above configuration, when performing molding work, the temperature display section is connected to the temperature sensing section, and the temperature change detected by the temperature sensing section is displayed on the temperature display section. It's getting old. When replacing or transporting the mold, the mold can be simplified by separating the connector of the temperature display section from the temperature sensing section, so there is no chance of damage to both the temperature display section and the temperature sensing section. It is convenient to handle.

Moreover, since the connector body is made of ceramic, it has excellent heat resistance.Furthermore, since an elastic member made of a heat-resistant material is interposed between the connector body and the socket, errors in dimensional accuracy can be avoided. Eliminates looseness during assembly.

(Example) Below, an example of the present invention will be described based on the drawings. FIG. 1 shows an example of a casting apparatus 9 equipped with a mold temperature detection device 8 of the present invention. This casting device 9 has an upper base 10 that is movable up and down, and an upper mounting part 1.
An upper mold 12 is attached to the lower base 13 through the lower base 13 at a fixed position, and a lower mold 15 is attached to the lower base 13 through the lower mounting part 14. Push-out plates 16, 16 are provided in each of the upper mounting portion 11 and the lower mounting portion 14, and the push-out plates 16, 16 include push-out pins 17.
... has been erected. Each of the extrusion pins 17 is slidably fitted into the upper mold 12 and the lower mold 15, respectively, and faces the respective cavity surfaces.

The upper mold 12 and the lower mold 15 have a sheath wire hole 18,
18 is bored, and its end reaches close to the cavity in which the casting is to be formed.
Sheathed wires 19, 19 each having a thermocouple wire (not shown) built therein are inserted into the sheathed wire holes 18, 18 as temperature sensing portions. The tips of the sheathed wires 19, 19 are located at the bottoms of the sheathed wire holes 18, 18, and are connected to the upper mounting portion 1.
1 and the lower mounting part 14, the pushbutton 2
0,20 and then bent at right angles. The proximal ends of the sheathed wires 19, 19 are connected to connectors 22, 22 that are fitted into and fixed in mounting holes 21, 21 opened in the upper mounting part 11 and the lower mounting part 14, respectively. . The details of this connection are as shown in Figures 2 to 5.
9 is screwed to a holding fitting 24 by an adapter 23, and the holding fitting 24 is held between a holding fitting 25 and an elastic member 26 made of ceramic fiber or the like. The outer side of the elastic member 26 is sandwiched between stainless steel fittings 27, and the opposite side to which the sheathed wire 19 is fixed is bent at a right angle and has mounting holes 28, 28.
have. A connector main body 29, which will be described later, is located inside the presser fitting 25.
A bolt passes through the stainless steel fitting 27 from the outside and is screwed therein. All of the above-mentioned members are heat resistant, and the connector main body 29 made of heat resistant material such as ceramic is divided into two parts, and the inside of the two parts has a recess into which each member fits. It is formed. This structure is the fifth
As shown in the figure, first, the sheath wire 19 is screwed into the port 30 fixed to the holding fitting 24 by the adapter 23, so that the connector 2
It is integrated with 2. A lead wire 31 extending from a thermocouple wire (not shown) located at the tip of the sheath wire 19 is pulled out within the connector body 29 and connected to a locking bolt 33 screwed into a terminal 32. has been done. The terminal 32 is integrated with a socket 35 for receiving a plug 36 which is a part of a temperature display section to be described later.
These are connected to the connector body 29 via an elastic member 34 made of a heat-resistant material such as ceramic fiber.
is held in Therefore, even if there is an error in dimensional accuracy in the ceramic connector body 29,
There is no longer any looseness between the socket 35 and the connector body 29, and even if the plug 36 is repeatedly attached to and removed from the socket 35, the terminals 32 and lead wires 31 will not break. As shown in FIG.
28 and is screwed to each upper mounting portion 11 and lower mounting portion 14.

As shown in FIG. 1, the temperature display section includes the aforementioned plugs 36, 36, transmission lines 37, 37 extending from the plugs 36, 36, and temperature indicators 38, 3.
The transmission lines 37, 37 are fixed through brackets 39, 39 protruding from the upper base 10 and lower base 13 through bushes 40, 40, respectively.

According to the mold temperature detection device 8 having the above configuration, the upper mold 12 is integrated with the upper mounting part 11 and includes the sheathed wires 19, 19 as temperature sensing parts and the connectors 22, 22, and the lower mounting part 14. An integral lower die 15 is attached to the upper base 10 and the lower base 13, respectively. After that, each plug 36, 36 is inserted into each socket 35, 35 of the upper mold 12 and lower mold 15, and the temperature of each upper mold 12 and lower mold 15 during the casting operation is displayed on the temperature display 38, 38. be done. When replacing the upper mold 12 and lower mold 15, each plug 36, 36 is separated from each socket 35, 35, the temperature sensing part and the temperature display part are separated, and the temperature sensing part is replaced with the upper mold 12 and lower mold 15. can be transported and managed together. Additionally, in order to prevent the occurrence of heat cracks, the mold is generally preheated in a heating furnace prior to molding, but such preheating is also useful because the temperature sensing part has excellent heat resistance. It became possible.

(Effects of the invention) From the above, the temperature detection device for molds of the present invention is divided into a temperature display section and a temperature sensing section, and the temperature can be measured by simply inserting the plug of the temperature display section into the connector of the temperature sensing section. Since the preparation is complete, work efficiency is significantly improved, and by separating the temperature display section from the temperature sensing section, the surroundings of the mold become simpler, making it easier to set up and transport the mold. Moreover, since the connector body is made of ceramic,
It has excellent heat resistance and can withstand the preheating of the mold, and in addition, an elastic member made of a heat-resistant material is interposed between the connector body and the socket, which improves dimensional accuracy. Assembling looseness caused by errors can be eliminated, and durability can be improved.

[Brief explanation of the drawing]

FIG. 1 is a schematic vertical sectional view showing a casting apparatus equipped with a mold temperature detection device of the present invention, FIG. 2 is a plan view showing a temperature sensing section, and FIG. 3 is an arrow A shown in FIG.
4 is a side view indicated by arrow B--B in FIG. 2; FIG. 5 is a sectional view indicated by arrow C--C in FIG. FIG. 6 is a longitudinal sectional view showing a conventional mold temperature measuring device. 11, 12, 14, 15... Molding mold (upper mounting part, upper mold, lower mounting part, lower mold), 19, 22, 31
...Temperature sensing part (sheath wire, connector, lead wire), 36, 37, 38...Temperature display part (plug,
transmission line, temperature indicator).

Claims (1)

[Scope of utility model registration request] It consists of a temperature display section placed outside the mold and a temperature sensing section placed inside the mold. A connector is provided to be attached to the outer surface of the mold, and the connector includes a socket that is connected to the lead wire and receives a plug at the terminal of the transmission wire of the temperature display section in the ceramic connector body; A temperature detection device for a mold, characterized in that the connector body is held by an elastic member made of a heat-resistant material.