JPH0544468A - Cooling device of top valve water cooled engine - Google Patents

Abstract

PURPOSE:To assemble a thermostat in an engine simply while reducing the number of parts, in relation to the cooling device of a water cooled engine, to say concretely, in relation to a device for circulating cooling water into the water jacket of the engine by a thermostat in order to raise a cooling water temperature rapidly at the time of starting the engine. CONSTITUTION:A thermostat chamber 2 is opened in lateral direction on a cylinder head 12, and a thermostat 7 is elastically pressed and fixed provisionally on the engaging port 16 of a thermostat cover 14 by the elastically pressing part 23 of a spring gasket 20 through a flange 8, also the thermostat cover 14 is sealed and fixed on the cylinder head 12 by the airtight part 22 of the spring gasket 20. It is thus possible to assemble the thermostat 7 in the engine E simply and rapidly. Since the thermostat 7 can be installed on an engine main body by only two members consisting of the thermostat cover 14 and the spring gasket 20, it is possible to reduce the number of parts, and manufacture the cooling device with a low cost.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a cooling device for a water-cooled engine, and more particularly to a device for circulating cooling water in a water jacket of an engine with a thermostat to quickly raise the cooling water temperature at the time of starting the engine. (EN) Provided is one that can be easily assembled to an engine and can be inexpensively implemented by reducing the number of parts.

[0002]

2. Description of the Related Art As shown in FIG. 3 or 9, the basic structure of a cooling system for a water-cooled engine to which the present invention is applied includes an overhead valve water-cooled engine E, a water jacket 1, a thermostat chamber 2, a water pump chamber 3 and Provide a radiator 4,
The thermostat chamber 2 is branched via a thermostat 7 into a radiator-side water passage 5 and a short-circuit water passage 6 so that the water passage can be switched. The thermostat 7 is formed by projecting a flange 8 on a valve casing 10 containing a valve body. The outlet 1b of 1 communicates with the inlet 1a of the water jacket 1 through the thermostat chamber 2, the radiator side water passage 5, the radiator 4 and the water pump chamber 3, and the thermostat chamber 2 communicates with the water pump chamber 3 through the short circuit water passage 6. Then, when the cooling water temperature falls below the set water temperature, the thermostat 7 is closed and the cooling water is short-circuited from the thermostat chamber 2 to the water pump chamber 3 via the short-circuiting water passage 6 and the water jacket 1
When the cooling water temperature rises above the set water temperature, the thermostat 7 opens and the cooling water circulates from the thermostat chamber 2 through the radiator 4 to the water jacket 1.

As a conventional technique of this type, as shown in FIGS. 9 and 10, an elbow tubular water flange 50 is vertically fixed to a cylinder head 12 of a vertical water-cooled engine E and is provided in the water flange 50. There is also a thermostat chamber 2 in which the thermostat 7 is housed vertically, and a thermostat lid 51 is fitted over the water flange 50 via a gasket 52.

[0004]

In the above prior art, the water flange 50 must be fixed to the cylinder head 12, and the thermostat lid 51 must be fixed to the water flange 50 via the thermostat 7 and the gasket 52. Assembling work becomes complicated.

As the mounting structure of the thermostat 7, a water flange 50 for accommodating the thermostat 7, a thermostat lid 51 for covering the water flange 50, and a fastener 53 and a gasket 52 for hermetically fixing both members. A fastener 55 and a gasket 54 for hermetically fixing the water flange 50 to the cylinder head 12 are required, which increases the number of parts. An object of the present invention is to easily mount a thermostat on an engine and to reduce the number of parts required for mounting.

[0006]

Means for achieving the above object will be described below with reference to the drawings illustrating an embodiment. That is, the present invention 1 is the cooling device for a water-cooled engine having the above basic structure, in which the thermostat chamber 2 is opened laterally in the receiving end wall 13 of the cylinder head 12 of the overhead valve engine E, and the thermostat lid 14 is laterally provided in the thermostat chamber 2. Fixed from the thermostat chamber 2 and the thermostat lid 14
The thermostat 7 via the spring gasket 20 between
And the pressing end wall 1 of the thermostat lid 14
5, the engaging port 16 is opened, and the rear end of the engaging port 16 is formed on the receiving surface 17, and the spring gasket 20 is formed by a hollow smooth surface-like confidential portion 22 and a secret portion 22 that is formed upright to form a hollow opening. 21 is composed of an elastic pressure portion 23 acting in the outer diameter direction, and a flange pressing portion 24 provided at the tip of the elastic pressure portion 23. The confidential portion 22 of the spring gasket 20 is pressed against the end wall 15 of the thermostat lid 14 and the cylinder head. 12 is in close contact with the receiving end wall 13 of the spring 12, and the elastic portion 23 of the spring gasket 20 is attached to the inner wall 1 of the engaging opening 16 of the thermostat lid 14.
It is characterized in that the flange 8 of the thermostat 7 is engaged with the receiving surface 17 of the thermostat cover 14 by the flange pressing portion 24 of the spring gasket 20.

According to a second aspect of the present invention, in the cooling device for a water-cooled engine having the basic structure, the thermostat chamber 2 is opened laterally in the receiving end wall 13 of the cylinder head 12 of the overhead valve engine E, and the thermostat lid 1 is provided in the thermostat chamber 2.
4 is fixed from the side, and the thermostat 7 is accommodated between the thermostat chamber 2 and the thermostat lid 14 via the spring gasket 20. The spring gasket 20 stands from the hollow smooth surface-shaped confidential portion 22 and the confidential portion 22. It is composed of an elastic pressure portion 23 that is raised and acts in the outer diameter direction of the hollow, and presses the confidential portion 22 of the spring gasket 20 against the end wall 15 of the thermostat lid 14 and the receiving end wall 1 of the cylinder head 12.
3, the elastic gasket 23 of the spring gasket 20 is elastically abutted against the inner wall 2a of the thermostat chamber 2, and the elastic casing 23 locks the valve casing 10 of the thermostat 7. It is a feature.

According to a third aspect of the present invention, in the cooling apparatus for a water-cooled engine having the basic structure, the thermostat chamber 2 is opened laterally in the receiving end wall 13 of the cylinder head 12 of the overhead valve engine E, and the thermostat lid 1 is provided in the thermostat chamber 2.
4 is fixed from the side, the thermostat 7 is accommodated between the thermostat chamber 2 and the thermostat lid 14 via the spring gasket 20, and the engagement port 16 is provided from the receiving end wall 13 of the cylinder head 12 toward the thermostat chamber 2. The spring gasket 20 is opened and formed on the receiving surface 17 for receiving the rear end portion of the engaging opening 16.
2, a pressure-sensitive portion 23 that is formed upright from the confidential portion 22 and acts in the outer diameter direction of the hollow mouth 21, and a flange pressing portion 24 provided at the tip of the elastic portion 23. 22 is brought into close contact with the pressing end wall 15 of the thermostat lid 14 and the receiving end wall 13 of the cylinder head 12, and the elastic pressure portion 23 of the spring gasket 20 is elastically pressure contacted with the inner wall 16a of the engagement opening 16 of the thermostat chamber 2. The flange 8 of the thermostat 7 is configured to be locked to the receiving surface 17 of the thermostat chamber 2 by the flange pressing portion 24 of the spring gasket 20.

[0009]

[Action]

(1) In the present invention 1, the procedure for attaching the thermostat 7 is as follows. Engagement port 1 of thermostat lid 14 on thermostat 7
6 and press the flange 8 against the receiving surface 17. The spring gasket 20 is loaded into the engagement opening 16 of the thermostat lid 14, the elastic pressure portion 23 of the spring gasket 20 is elastically pressed against the inner wall 16a of the engagement opening 16, and the flange pressing portion 24 is attached.
Press the flange 8 of the thermostat 7 with. The thermostat lid 14 to which the thermostat 7 is temporarily fixed is pressed against the thermostat chamber 2 of the cylinder head 12 as it is, and the thermostat 7 is accommodated sideways in the thermostat chamber 2, and the pressing end wall 15 of the thermostat lid 14 and the cylinder head The receiving end wall 13 of 12 is sealed with the seal 22 of the spring gasket 20. That is, it suffices to temporarily elastically fix the thermostat 7 to the thermostat lid 14 with the spring gasket 20 and fix the thermostat lid 14 to the cylinder head 12.

(2) In the second aspect of the present invention, the thermostat 7 is temporarily fixed to the thermostat chamber 2 side with the spring gasket 20 without using the flange 8 and the thermostat lid 14 is fixed to the cylinder head 12.

(3) In the present invention 3, the horizontally oriented thermostat 7 is temporarily fixed to the thermostat chamber 2 of the cylinder head 12 with the spring gasket 20 via the flange 8 and the thermostat lid 14 is fixed to the cylinder head 12.

[0012]

According to the first to third aspects of the present invention, the thermostat can be quickly accommodated in the lateral thermostat chamber simply by temporarily fixing the thermostat laterally with the spring gasket and fixing the thermostat lid to the cylinder head. Easy to assemble.

Further, since only two parts, a thermostat lid and a spring gasket having a predetermined shape, are sufficient for mounting the thermostat, a water flange or a water flange in which the thermostat chamber is formed vertically as in the prior art is used. Fasteners for fixing to the head can be omitted, the number of parts can be reduced, and the cost can be reduced. Furthermore, since the number of parts can be reduced and the number of assembling steps can be reduced, the thermostat can be quickly assembled.

[0014]

Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is a longitudinal sectional view of a main part around a thermostat chamber of a vertical overhead valve water-cooled engine showing a first embodiment, FIG. 2 is an exploded perspective view of the main part of the engine, and FIG. 3 is a schematic explanatory view of the engine.

As shown in FIG. 3, a radiator 4 is arranged in front of a vertical overhead valve water-cooled engine E, a water jacket 1 is formed on a cylinder 11 and a cylinder head 12 of the engine E, and the inlet 1a side of the water jacket 1 is formed. The water pump chamber 3 is installed in the
The thermostat chamber 2 is provided on the b side. The thermostat chamber 2 is connected to the radiator side water passage 5 via the thermostat 7.
And a short-circuit water channel 6 so that the water channel can be switched. A thermostat 7 is configured by projecting a flange 8 on a valve box 10 containing a valve body. The outlet 1b of the water jacket 1 is connected to the thermostat chamber 2 and the radiator-side water channel 5. , The radiator 4 and the water pump chamber 3 communicate with the inlet 1a of the water jacket 1, and the thermostat chamber 2 communicates with the water pump chamber 3 through the short-circuit water passage 6.

In this case, (1) When the cooling water temperature becomes equal to or lower than the set water temperature (for example, when the engine is started), the thermostat 7 is closed and the cooling water is cooled by the thermostat chamber 2 → short-circuit water passage 6 → water pump chamber 3 → It flows into the water jacket 1 in a short circuit and circulates in the engine body. (2) When the cooling water temperature rises above the set water temperature (that is, during normal operation), the thermostat 7 opens and the cooling water flows from the thermostat chamber 2 to the radiator side water passage 5 to the radiator 4 to the water pump chamber 3 to the water jacket 1. And is radiated by the radiator 4.

As shown in FIGS. 1 and 2, the thermostat chamber 2 is opened laterally in the receiving end wall 13 of the cylinder head 12 of the overhead valve engine E, and the thermostat lid 14 is fixed to the thermostat chamber 2 from the side. The thermostat 7 is accommodated between the thermostat chamber 2 and the thermostat lid 14 via a spring gasket 20. The thermostat lid 14 is configured by integrally connecting a horizontal hollow bowl-shaped lid main body 14a and a vertical tubular water passage 14a, and an engaging port 16 is opened in a pressing end wall 15 of the lid main body 14a.
The stepped receiving surface 17 is formed at the rear end of the engagement opening 16.

As shown in FIGS. 4 to 6, the spring gasket 20 has a hollow smooth surface-shaped confidential portion 22 and a confidential portion 22.
And a flange pressing part 24 provided at the tip of the elastic pressure part 23. That is, as shown in FIG. 6, the rubber gasket 26 is coated on the front and back of the core material 25 of the SPCC to form the spring gasket 20.
The pressure-reducing portion 23 is erected so as to be opposed to each other in a corrugated cross section at a position that divides into four. As shown in FIGS. 1 and 2, the airtight portion of the spring gasket 20 is brought into close contact with the pressing end wall 15 of the thermostat lid 14 and the receiving end wall 13 of the cylinder head 12 with the airtight portion 22 of the spring gasket 20. 23 is elastically pressed against the inner wall 16a of the engagement opening 16 of the thermostat lid 14, and the flange 8 of the thermostat 7 is locked to the receiving surface 17 of the thermostat lid 14 by the flange pressing portion 24 of the spring gasket 20.

Therefore, the procedure for mounting the thermostat chamber 2 of the thermostat 7 will be described. (1) The thermostat 7 is fitted into the engagement opening 16 of the thermostat lid 14, and the flange 8 is pressed against the receiving surface 17. (2) The spring gasket 20 is loaded into the engagement opening 16 with the elastic pressure portion 23 facing the thermostat lid 14, and the four elastic pressure portions 23 of the spring gasket 20 are elastically pressed against the inner wall 16a of the engagement opening 16 to form the elastic pressure portion. The flange pressing portion 24 at the tip of 23 presses the flange 8 of the thermostat 7,
Is temporarily fixed to the thermostat lid 14. (3) The thermostat lid 14 to which the thermostat 7 has been temporarily pressed is pressed against the thermostat chamber 2 of the cylinder head 12 with the water passage 14b facing upward, and the thermostat 7 is accommodated sideways in the thermostat chamber 2. (4) At this time, the pressing end wall 1 of the thermostat lid 14
The airtight portion 22 of the spring gasket 20 is brought into close contact with the gap between the bearing 5 and the receiving end wall 13 of the cylinder head 12 to seal the gap.

In the first embodiment, the thermostat 7 is temporarily fixed to the thermostat lid 14 by the spring gasket 20 and the thermostat lid 14 is fixed to the cylinder head 12 with the fastener 27. Therefore, the thermostat is simple and quick. 7 can be housed in a sideways thermostat chamber 12. In addition, the thermostat 7 is composed of only two parts, the thermostat lid 12 and the spring gasket 20 having a predetermined shape.
Since the water flange 50, the fastener 55 and the gasket 54 for fixing the water flange 50 to the cylinder head 12 can be omitted as in the prior art described above, the number of parts can be reduced and the cost can be reduced.

FIG. 7 shows a second embodiment of the present invention, which differs from the first embodiment in that the spring gasket 20 is locked to the cylinder head 12 side and the thermostat 7 is temporarily fixed to the thermostat chamber 2.

That is, the spring gasket 20 is attached to the confidential portion 2.
2 and the elastic pressure portion 23, the confidential portion 22 of the spring gasket 20 is closely contacted with the pressing end wall 15 of the thermostat lid 14 and the receiving end wall 13 of the cylinder head 12 to form the elastic pressure portion of the spring gasket 20. 23 is pressed against the inner wall 2a of the thermostat chamber 2,
The valve box 10 of the thermostat 7 is configured to be locked. Reference numeral 28 is a retainer for positioning the flange 8 of the thermostat 7 in the engagement opening 16 of the thermostat lid 14.

In the second embodiment, it suffices to temporarily fix the thermostat 7 to the thermostat chamber 2 with the spring gasket 20 without using the flange 8 and fix the thermostat lid 14 to the cylinder head 12. Further, the retainer 28 may be omitted and the flange 8 of the thermostat 7 may be sandwiched between the pressing end wall 15 of the thermostat lid 14 and the receiving end wall 13 of the cylinder head 12.

FIG. 8 shows a third embodiment of the present invention, which is similar to the second embodiment in that the spring gasket 20 is locked to the cylinder head 12 side, but the thermostat chamber is provided via the flange 8 of the thermostat 7. It is different in that it is temporarily fixed to 2. In other words, the temporary fixing structure of the first embodiment is replaced with the thermostat chamber 2 from the side of the thermostat lid 14.

That is, the engagement port 16 is opened from the receiving end wall 13 of the cylinder head 12 toward the thermostat chamber 2, the rear end portion of the engaging port 16 is formed on the receiving surface 17, and the spring gasket 20 and the confidential portion 22 are formed. Repression section 23 and repression section 2
3 and a flange pressing portion 24 provided at the tip of the thermostat lid 14 of the spring gasket 20.
Of the spring gasket 20 is pressed against the pressing end wall 15 of the cylinder head 12 and the receiving end wall 13 of the cylinder head 12.
3 is elastically pressed against the inner wall 16a of the engagement port 16 of the thermostat chamber 2, and the flange 8 of the thermostat 7 is locked to the receiving surface 17 of the thermostat chamber 2 by the flange pressing portion 24 of the spring gasket 20. ..

In the third embodiment, it is sufficient to temporarily fix the horizontally oriented thermostat 7 to the thermostat chamber 2 of the cylinder head 12 with the spring gasket 20 via the flange 8 and fix the thermostat lid 14 to the cylinder head 12. Again, the thermostat 7 can be housed in the thermostat chamber 2 simply and quickly.

[Brief description of drawings]

FIG. 1 is a vertical cross-sectional view of a main part around a thermostat chamber of a vertical overhead valve water-cooled engine according to a first embodiment.

FIG. 2 is an exploded perspective view of a main part of the engine.

FIG. 3 is a schematic explanatory diagram of the engine.

FIG. 4 is a front view of a spring gasket.

5 is a sectional view taken along line VV of FIG.

FIG. 6 is an enlarged vertical sectional view of a main part of the spring gasket.

FIG. 7 is a view corresponding to FIG. 1 showing a second embodiment.

FIG. 8 is a view corresponding to FIG. 1 showing a third embodiment.

FIG. 9 is a view equivalent to FIG. 3 showing a conventional technique.

FIG. 10 is a view corresponding to FIG. 2 showing the conventional technique.

[Explanation of symbols]

 1 Water Jacket 1a 1 Inlet 1b 1 Outlet 2 Thermostat Chamber 2a 2 Inner Wall 3 Water Pump Chamber 4 Radiator 5 Radiator Side Water Channel 6 Short Circuit Water Channel 7 Thermostat 8 7 Flange 10 7 Valve Box 12 Cylinder Head 13 12 Receiving End Wall 14 Thermostat chamber 15 Pushing end wall 16 of 14 Engagement port 16a Inner wall 16 of 16 17 Receiving surface 20 Spring gasket 21 20 Hollow port 22 20 Sensitive part of 22 20 Resilient part of 20 24 Flange pressing part of 20 E Overhead valve water-cooled engine

Claims (3)

[Claims] 1. An overhead valve water-cooled engine (E), a water jacket (1), a thermostat chamber (2), and a water pump chamber.
(3) and radiator (4) are installed, and thermostat room (2)
Through the thermostat (7) to the radiator side waterway (5) and the short-circuited waterway (6) so that the waterway can be switched. The thermostat (7) has a flange (8) on the valve box (10) containing the valve body. The water jacket (1) has an outlet (1
b) thermostat chamber (2), radiator side water channel (5),
The thermostat chamber (2) communicates with the inlet (1a) of the water jacket (1) through the radiator (4) and the water pump chamber (3), and the thermostat chamber (2) through the short circuit channel (6).
If the cooling water temperature drops below the set water temperature, communicating with (3), the thermostat
(7) is closed and cooling water is short-circuited from the thermostat chamber (2) to the water pump chamber (3) via the short-circuiting water channel (6) and circulates in the water jacket (1). The higher it goes, the thermostat
In a cooling device for a water-cooled engine, in which the cooling water is circulated from the thermostat chamber (2) through the radiator (4) to the water jacket (1) by opening the valve (7), the cylinder of the overhead valve engine (E) Open the thermostat chamber (2) sideways in the receiving end wall (13) of the head (12),
The thermostat cover (14) is fixed to the thermostat chamber (2) from the side, and the thermostat chamber (2) and the thermostat cover are fixed.
A thermostat (7) is accommodated between the thermostat (7) and the (14) via a spring gasket (20), and an engaging port (16) is opened in the pressing end wall (15) of the thermostat lid (14) to engage the engaging port ( 16) is formed on the receiving surface (17) of the rear end of the spring gasket (20), and the spring gasket (20) has a hollow smooth surface-shaped confidential portion (2).
2) and a hollow part (2
Repulsion part (23) acting in the outer diameter direction of 1) and repulsion part (2
3) a flange pressing part (24) provided at the tip of the spring gasket (20) and the sensitive part (22) of the spring gasket (20) against the end face (15) of the thermostat lid (14) and the cylinder head (12).
Adhere closely to the receiving end wall (13) of the
The elastic portion (23) of (20) is elastically pressed against the inner wall (16a) of the engagement opening (16) of the thermostat lid (14) to form a spring gasket.
The flange retainer (24) of (20) attaches the flange (8) of the thermostat (7) to the receiving surface of the thermostat lid (14).
A cooling device for a water-cooled engine, characterized in that the cooling device is configured to engage with (17). 2. An overhead valve water-cooled engine (E), a water jacket (1), a thermostat chamber (2), and a water pump chamber.
(3) and radiator (4) are installed, and thermostat room (2)
Through the thermostat (7) to the radiator side waterway (5) and the short-circuited waterway (6) so that the waterway can be switched. The thermostat (7) has a flange (8) on the valve box (10) containing the valve body. The water jacket (1) has an outlet (1
b) thermostat chamber (2), radiator side water channel (5),
The thermostat chamber (2) communicates with the inlet (1a) of the water jacket (1) through the radiator (4) and the water pump chamber (3), and the thermostat chamber (2) through the short circuit channel (6).
If the cooling water temperature drops below the set water temperature, communicating with (3), the thermostat
(7) is closed and cooling water is short-circuited from the thermostat chamber (2) to the water pump chamber (3) via the short-circuiting water channel (6) and circulates in the water jacket (1). The higher it goes, the thermostat
In a cooling device for a water-cooled engine, in which the cooling water is circulated from the thermostat chamber (2) through the radiator (4) to the water jacket (1) by opening the valve (7), the cylinder of the overhead valve engine (E) Open the thermostat chamber (2) sideways in the receiving end wall (13) of the head (12),
The thermostat cover (14) is fixed to the thermostat chamber (2) from the side, and the thermostat chamber (2) and the thermostat cover are fixed.
The thermostat (7) is housed between the thermostat (7) and the (14) via a spring gasket (20).
2) and the elastic portion (23) that rises from the confidential portion (22) and acts in the outer diameter direction of the hollow. The sensitive portion (22) of the spring gasket (20) is pushed by the thermostat lid (14). Contact end wall (15) and cylinder head (12)
Adhere closely to the receiving end wall (13) of the
The repression part (23) of (20) is the inner wall of the thermostat chamber (2).
A cooling device for a water-cooled engine, which is configured so as to elastically contact with (2a) and lock the valve box (10) of the thermostat (7) with the elastic pressure part (23). 3. An overhead valve water-cooled engine (E), a water jacket (1), a thermostat chamber (2), and a water pump chamber.
(3) and radiator (4) are installed, and thermostat room (2)
Through the thermostat (7) to the radiator side waterway (5) and the short-circuited waterway (6) so that the waterway can be switched. The thermostat (7) has a flange (8) on the valve box (10) containing the valve body. The water jacket (1) has an outlet (1
b) thermostat chamber (2), radiator side water channel (5),
The thermostat chamber (2) communicates with the inlet (1a) of the water jacket (1) through the radiator (4) and the water pump chamber (3), and the thermostat chamber (2) through the short circuit channel (6).
If the cooling water temperature drops below the set water temperature, communicating with (3), the thermostat
(7) is closed and cooling water is short-circuited from the thermostat chamber (2) to the water pump chamber (3) via the short-circuiting water channel (6) and circulates in the water jacket (1). The higher it goes, the thermostat
In a cooling device for a water-cooled engine, in which the cooling water is circulated from the thermostat chamber (2) through the radiator (4) to the water jacket (1) by opening the valve (7), the cylinder of the overhead valve engine (E) Open the thermostat chamber (2) sideways in the receiving end wall (13) of the head (12),
The thermostat cover (14) is fixed to the thermostat chamber (2) from the side, and the thermostat chamber (2) and the thermostat cover are fixed.
A thermostat (7) is accommodated between the thermostat (7) and a spring gasket (20) between the (14) and the engaging end (16) from the receiving end wall (13) of the cylinder head (12) toward the thermostat chamber (2). Is formed on the receiving surface (17) of the engagement opening (16), and the spring gasket (20) is a hollow smooth surface-shaped confidential portion (2).
2) and a hollow part (2
Repulsion part (23) acting in the outer diameter direction of 1) and repulsion part (2
3) is composed of a flange retainer (24) provided at the tip of the spring gasket (20), and the confidential portion (22) of the spring gasket (20) is pressed against the end wall (15) of the thermostat lid (14) and the cylinder head (12).
Adhere closely to the receiving end wall (13) of the
The elastic portion (23) of (20) is connected to the engaging port of the thermostat chamber (2).
Spring-contact the inner wall (16a) of (16) with a spring gasket.
The flange retainer (24) of (20) is used to attach the flange (8) of the thermostat (7) to the receiving surface (1) of the thermostat chamber (2).
A cooling device for a water-cooled engine, which is configured to be locked to 7).