CN209917886U - High-efficiency glass lining reaction tank - Google Patents
High-efficiency glass lining reaction tank Download PDFInfo
- Publication number
- CN209917886U CN209917886U CN201920588023.7U CN201920588023U CN209917886U CN 209917886 U CN209917886 U CN 209917886U CN 201920588023 U CN201920588023 U CN 201920588023U CN 209917886 U CN209917886 U CN 209917886U
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- China
- Prior art keywords
- hole
- retort
- sets
- locking
- crossbeam
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- Expired - Fee Related
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Abstract
The utility model discloses a high-efficient glass-lined reaction tank, including the support, the support has the crossbeam, and the crossbeam both ends set up the sloping, set up the retort between crossbeam and the installation face, and the retort bottom is connected with the bearing through lower pivot, and the retort top sets up down the motor, and lower motor is connected with the agitator, and the retort top sets up inboard support, and inboard support top sets up the pivot, sets up the motor on the crossbeam, and the bearing is installed in the bearing frame, the bearing frame top sets up the convex part, and convex part one side sets up the through-hole, and the opposite side sets up the blind hole, sets up the fixed orifices in the lower pivot, and through-hole, fixed orifices and blind hole constitute the locking hole jointly; a locking rod is arranged in the locking hole, a spring is arranged at the right end of the locking rod, and a fastening bolt is arranged at the left end of the locking hole so as to press the locking rod into the locking hole and lock the lower rotating shaft. The utility model discloses owing to set up locking mechanism, the retort can be in complete fixed state when shutting down the maintenance, does benefit to the maintenance, protects maintainer safety simultaneously.
Description
Technical Field
The utility model relates to a reaction tank, in particular to a high-efficiency glass lining reaction tank.
Background
The existing glass lining reaction tank comprises a support, wherein the support is provided with a cross beam, the two ends of the cross beam are provided with oblique beams, the bottom of each oblique beam is provided with a fixed base, a reaction tank is arranged between the cross beam and an installation surface, the bottom of the reaction tank is connected with a bearing through a lower rotating shaft, the top of the reaction tank is provided with a lower motor, the lower motor is connected with a stirrer, the stirrer is arranged inside the reaction tank, the top of the reaction tank is provided with an inner side support, the top of the inner side support is provided with an upper rotating shaft, the cross beam is provided with an upper motor, and the. Go up the motor and turn to opposite with motor down to improve stirring effect in the retort. This scheme exists not enoughly, when shutting down the maintenance promptly, because the motor can not be in complete fixed state completely the dead event retort, influences the maintainer and overhauls the operation and leads to the fact the people even and injure.
SUMMERY OF THE UTILITY MODEL
The utility model aims at solving the above problem, providing a high-efficient glass-lined reaction jar, the reaction jar can be in complete stationary state when shutting down the maintenance to do benefit to the maintenance, protect maintainer safety simultaneously.
In order to achieve the above purpose, the utility model adopts the following technical scheme: a high-efficiency glass lining reaction tank comprises a bracket, wherein the bracket is provided with a cross beam, the two ends of the cross beam are provided with oblique beams, the bottom of each oblique beam is provided with a fixing base, a reaction tank is arranged between the cross beam and an installation surface, the bottom of the reaction tank is connected with a bearing through a lower rotating shaft, the top of the reaction tank is provided with a lower motor, the lower motor is connected with a stirrer, the stirrer is arranged in the reaction tank, the top of the reaction tank is provided with an inner side bracket, the top of the inner side bracket is provided with an upper rotating shaft, the cross beam is provided with an upper motor, the upper motor is,
the bearing is arranged in a bearing seat, a convex part is arranged at the top of the bearing seat, a through hole is arranged on one side of the convex part, a blind hole is arranged on the other side of the convex part, a fixing hole is arranged on the lower rotating shaft, and the through hole, the fixing hole and the blind hole form a locking hole together;
a locking rod is arranged in the locking hole, a spring is arranged at the right end of the locking rod, and a fastening bolt is arranged at the left end of the locking hole so as to press the locking rod into the locking hole and lock the lower rotating shaft.
Further: the blind hole bottom sets up the protection pressure spring, and the one end of protection pressure spring is fixed in the blind hole bottom, and one end connects in the visor, and when the protection pressure spring resets, the visor is located the blind hole oral area for prevent that the foreign matter from getting into, set up the safety vent on the protection lid.
Further: the surface of the fastening bolt is provided with a luminous coating.
Compared with the prior art, the utility model discloses following beneficial effect has: the utility model discloses owing to set up locking mechanism, the retort can be in complete fixed state when shutting down the maintenance, does benefit to the maintenance, protects maintainer safety simultaneously.
Drawings
FIG. 1 is a structural diagram of a high-efficiency glass-lined reactor.
Fig. 2 is an enlarged view of a portion of the bearing seat in section.
Detailed Description
Example 1: referring to fig. 1 and 2, this embodiment relates to a high-efficient glass-lined reaction tank, which comprises a bracket, the support has crossbeam 11, crossbeam 11 both ends set up sloping 12, sloping 12 bottom sets up fixed base, set up retort 21 between crossbeam 11 and the installation face, retort 21 bottom is connected with bearing 31 through pivot 21a down, motor 22 is down set up at retort 21 top, motor 22 is connected with the agitator down, the agitator sets up inside retort 21, retort 21 top sets up inboard support 23, inboard support 23 top sets up the pivot, set up motor 13 on the crossbeam 11, it is used for driving the pivot to go up motor 13.
It should be noted that the glass-lined reactor is partially in the prior art, and is not the point of the invention of the present application, so detailed description is not given, and reference can be made to the prior art.
The bearing 31 is arranged in the bearing seat 3, the top of the bearing seat 3 is provided with a convex part, one side of the convex part is provided with a through hole, the other side of the convex part is provided with a blind hole, the lower rotating shaft 21a is provided with a fixing hole, and the through hole, the fixing hole and the blind hole together form a locking hole; a locking rod 42 is arranged in the locking hole, a spring 43 is arranged at the right end of the locking rod 42, and a fastening bolt 41 is arranged at the left end of the locking hole so as to press the locking rod into the locking hole and lock the lower rotating shaft.
During maintenance, the equipment is in a shutdown state, the through hole, the fixing hole and the blind hole are coaxial to form a locking hole, the locking rod is installed (pressed) into the locking hole, and the locking rod is fixed through the fastening bolt. The locking rod locks the lower rotating shaft, and the reaction tank cannot rotate and is in a stable state. Because the locking rod is fixed by the fastening bolt, the locking rod cannot be separated from the locking hole due to an accident condition, and further safety accidents are caused. After the overhaul is completed, the fastening bolt is disassembled, and under the action of the spring, the end part of the locking rod is popped up and taken out.
The surface of the fastening bolt 41 is provided with a luminescent coating. The operation under the dark light environment is favorable to, and the dismouting is convenient.
Example 2: the basic structure is the same as that of embodiment 1, and the difference is that a protection pressure spring (not shown) is arranged at the bottom of the blind hole, one end of the protection pressure spring is fixed at the bottom of the blind hole, and the other end of the protection pressure spring is connected to a protective cover. When the blind hole is not used, the protective cover can prevent foreign matters from entering, and the spring cannot be loaded in the blind hole after the foreign matters enter. When the locking rod is installed, the spring can extrude the protective cover to further compress the protective pressure spring, so that the protective cover is sunk into the blind hole, and the normal use of the blind hole is not influenced.
In addition, the convex part is annular as a whole, and when lubricating oil is filled to lubricate the bearing, the convex part prevents the lubricating oil from overflowing and is beneficial to lubrication. Due to the existence of the through holes, in order to avoid the flowing of redundant lubricating oil, the bottom of the outer side of the bearing seat is provided with an oil storage ring which is circumferentially arranged, and the oil storage ring can be made of sponge and other materials. The oil storage ring is tightly close to the bearing seat, so that oil can be stored, and the overflow of the flowing lubricating oil is avoided.
Above only do the preferred embodiment of the present invention, the protection scope of the present invention is not limited to the above embodiment, all belong to the technical scheme of the present invention all belong to the protection scope of the present invention. For those skilled in the art, several modifications can be made without departing from the principle of the present invention, and such modifications should also be considered as the protection scope of the present invention.
Claims (3)
1. The utility model provides a high-efficient glass-lined reaction tank, which comprises a bracket, the support has crossbeam (11), crossbeam (11) both ends set up sloping (12), sloping (12) bottom sets up the fixed base of using, set up retort (21) between crossbeam (11) and the installation face, retort (21) bottom is connected with bearing (31) through pivot (21a) down, motor (22) under retort (21) top sets up, lower motor (22) are connected with the agitator, the agitator sets up inside retort (21), retort (21) top sets up inboard support (23), inboard support (23) top sets up the upper rotating shaft, set up motor (13) on crossbeam (11), go up motor (13) and be used for driving the upper rotating shaft, a serial communication port,
the bearing (31) is arranged in the bearing seat (3), a convex part is arranged at the top of the bearing seat (3), a through hole is arranged at one side of the convex part, a blind hole is arranged at the other side of the convex part, a fixing hole is arranged on the lower rotating shaft (21a), and the through hole, the fixing hole and the blind hole form a locking hole together;
a locking rod (42) is installed in the locking hole, a spring (43) is arranged at the right end of the locking rod (42), and a fastening bolt (41) is arranged at the left end of the locking hole so as to press the locking rod into the locking hole and lock the lower rotating shaft.
2. The efficient glass-lined reactor according to claim 1, wherein: the blind hole bottom sets up the protection pressure spring, and the one end of protection pressure spring is fixed in the blind hole bottom, and one end connects in the visor, and when the protection pressure spring resets, the visor is located the blind hole oral area for prevent that the foreign matter from getting into, set up the safety vent on the protection lid.
3. The efficient glass-lined reactor according to claim 1, wherein: the surface of the fastening bolt (41) is provided with a luminous coating.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201920588023.7U CN209917886U (en) | 2019-04-26 | 2019-04-26 | High-efficiency glass lining reaction tank |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201920588023.7U CN209917886U (en) | 2019-04-26 | 2019-04-26 | High-efficiency glass lining reaction tank |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN209917886U true CN209917886U (en) | 2020-01-10 |
Family
ID=69088587
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN201920588023.7U Expired - Fee Related CN209917886U (en) | 2019-04-26 | 2019-04-26 | High-efficiency glass lining reaction tank |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN209917886U (en) |
-
2019
- 2019-04-26 CN CN201920588023.7U patent/CN209917886U/en not_active Expired - Fee Related
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Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| GR01 | Patent grant | ||
| GR01 | Patent grant | ||
| CF01 | Termination of patent right due to non-payment of annual fee | ||
| CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20200110 Termination date: 20210426 |