CN207072067U - The cooling device of silicone sealant production - Google Patents

Abstract

The utility model discloses a kind of cooling device of silicone sealant production, including cooling bath and the heat exchanger tube for extending transversely through cooling bath, heat exchanger tube both ends connect with the feed end positioned at cooling bath side and positioned at the discharge end of cooling bath opposite side respectively；Cooling bath is divided into the primary cooling area, two level cooling zone and three-level cooling zone being spaced apart, and primary cooling area, two level cooling zone, the temperature of water gradually reduces successively in three-level cooling zone；The first drinking-water pipe that the water of three-level cooling zone is introduced to two level cooling zone is respectively arranged between two adjacent cooling zones, and the water of two level cooling zone is introduced to the second drinking-water pipe in primary cooling area, water in primary cooling area is introduced to cooling device by the first recovery tube, the water cooled down through apparatus for supercooling is flowed into heat insulation tank, and heat insulation tank is connected by pipeline with three-level cooling zone.The utility model by cooling layer by layer so that the silicone sealant cooling in pipeline is uniform, it is ensured that the silicone sealant quality of production.

Description

The cooling device of silicone sealant production

Technical field

The utility model belongs to cooling device technical field, and the cooling more particularly to a kind of production of silicone sealant fills Put.

Background technology

Silicone sealant requirement produces under conditions of closed, vacuum, and at present, the production method that the country is popularized is a kind of Silicone sealant requirement produces under conditions of closed, vacuum, and at present, the production method that the country is popularized is a kind of close to silicone Sealing is cooled down, when cooling effect do not reach silica gel production process specifications, then influence silicone sealant quality and Manufacturing schedule.

The existing silicone sealant type of cooling is typically directly by water cooling, but in the prior art, in order to accelerate The cooling of silicone sealant, the cooling water larger with the silicone sealant temperature difference is typically used, pipeline is directly put into cooling water In, directly contacted yet with cooling water with external pipe, then close to the silicone sealant then fast cooling of pipeline, inside pipeline Silicone sealant can not then cool down in time, thus the problem of cause the silicone sealant chilling temperature in pipeline uneven, from And influence the quality and speed of production of silicone sealant.Further, since pipeline is put into cooling bath after a period of time then cooling bath Interior temperature is changed, and because water temperature is not easily adjusted, thus causes the silicone sealant uneven heating in later stage even.

Utility model content

In view of this, in order to overcome the drawbacks described above of prior art, the purpose of this utility model is to provide a kind of silicone The cooling device of fluid sealant production, it by progressively cooling layer by layer, it is ensured that the silicone sealant cooling in pipeline is uniform, it is ensured that The quality of silicone sealant production.

In order to achieve the above object, the utility model provides a kind of cooling device of silicone sealant production, including cooling Groove and the heat exchanger tube for extending transversely through the cooling bath, the heat exchanger tube both ends respectively with the feed end positioned at cooling bath side and position Connect in the discharge end of cooling bath opposite side, inputted the silicone sealant of high temperature to heat exchanger tube by feed end by dehvery pump It is interior；

Primary cooling area, the two level cooling that the cooling bath is divided into being spaced apart from feed end towards direction of discharge Area and three-level cooling zone, the primary cooling area, two level cooling zone, the temperature of water gradually reduces successively in three-level cooling zone, The hot material of the heat exchanger tube in turn passes through the primary cooling area, two level cooling zone and three-level cooling zone；

It is respectively arranged between two adjacent cooling zones and the water of three-level cooling zone is introduced to the first of two level cooling zone Drinking-water pipe, and the second drinking-water pipe water of two level cooling zone being introduced in primary cooling area, in the primary cooling area Water is introduced to cooling device by the first recovery tube, and the water cooled down through apparatus for supercooling is flowed into heat insulation tank, the heat insulation tank Connected by pipeline with the three-level cooling zone.

Further, the both sides of the cooling bath are provided with bearing block, and the heat exchanger tube is arranged between two bearing blocks, The both ends of the heat exchanger tube are movably connected in the bearing block by bearing respectively, are also set up on the side of the cooling bath The rotating mechanism of the heat exchanger tube rotation can be driven by having.

Further, it is additionally provided with stirring slurry on the heat exchanger tube in cooling bath.

Further, the heat exchanger tube is corrugated tube.

Further, the crest of the corrugated tube and the position of trough are provided with stirring slurry.

Further, it is respectively arranged with the first temperature in the primary cooling area, two level cooling zone and three-level cooling zone Sensor, second temperature sensor and three-temperature sensor, first temperature sensor, second temperature sensor and Three-temperature sensor is electrically connected with a control cabinet respectively, and the control cabinet is controlling first recovery tube, second to take out The keying of water pipe and the first drinking-water pipe charging pump.

Further, it is respectively arranged with the first liquid level in the primary cooling area, two level cooling zone and three-level cooling zone Sensor, the second liquid level sensor and the 3rd liquid level sensor, first temperature sensor, second temperature sensor and Three-temperature sensor is electrically connected with the control cabinet respectively, and the control cabinet is arranged on always according to liquid level sensor to control On the second recovery tube in primary cooling area in the keying of suction pump, and the 3rd recovery tube being arranged in two level cooling zone The keying of suction pump.

Compared with prior art, the utility model has the advantages that：

The utility model may be such that the silicone sealant in heat exchanger tube by being provided with the setting of the cooling bath of different temperatures Cool successively layer by layer, avoid excessive temperature differentials and cause the too high and caused inhomogeneous cooling of silicone sealant temperature of inside even Problem, and it is advantageously uniform in the radiating and radiating of the silicone sealant in heat exchanger tube, improve the quality of silicone sealant.

Brief description of the drawings

In order that the purpose of this utility model, technical scheme and beneficial effect are clearer, the utility model provides as follows Accompanying drawing illustrates：

Fig. 1 is the structural representation of embodiment of the present utility model；

Fig. 2 is the structural representation of another embodiment of the present utility model.

Reference：

Cooling bath 1；Heat exchanger tube 2；Feed end 3；Discharge end 4；Dehvery pump 5；Primary cooling area 6；Two level cooling zone 7；Three-level Cooling zone 8；First drinking-water pipe 9；Second drinking-water pipe 10；First recovery tube 11；Cooling device 12；Heat insulation tank 13；Bearing block 14；Rotation Rotation mechanism 15；Agitating paddle 16；Second recovery tube 17；3rd recovery tube 18.

Embodiment

Below in conjunction with accompanying drawing, preferred embodiment of the present utility model is described in detail.

Refer to the attached drawing, the cooling device of silicone sealant production of the present utility model, it includes cooling bath 1 and transverse direction Through the heat exchanger tube 2 of cooling bath, the both ends of heat exchanger tube 2 respectively with the feed end 3 positioned at cooling bath side and another positioned at cooling bath The discharge end 4 of side connects, by dehvery pump 5 by the silicone sealant of high temperature by feed end input in heat exchanger tube to be dissipated Heat treatment.

Now cooling tank structure is described in detail：Cooling bath 1 divides successively from feed end 3 towards the direction of discharge end 4 For the primary cooling area 6, two level cooling zone 7 and three-level cooling zone 8 being spaced apart, the primary cooling area 6, two level cooling zone 7th, the temperature of water gradually reduces successively in three-level cooling zone 8, and the high temperature silicone sealant in heat exchanger tube 2 is then in turn through primary Cooling zone, two level cooling zone and three-level cooling zone.By the setting of this cooling tank structure, the high temperature in heat exchanger tube may be such that Silicone sealant passes sequentially through the cooling bath of different temperatures, may be such that the silicone sealant in heat exchanger tube cools step by step layer by layer, It ensure that silicone sealant cooling is uniform, avoid the problem of silicone sealant radiating close to heat exchanger tube is uneven and occur.

Because the temperature of water in primary cooling area 6, two level cooling zone 7, three-level cooling zone 8 gradually reduces successively, for reality Existing water source recycling, it is provided between adjacent two cooling zones and the water of three-level cooling zone is introduced to the of two level cooling zone One drinking-water pipe 9, and the second drinking-water pipe 10 water of two level cooling zone being introduced in primary cooling area, in primary cooling area Water is introduced to cooling device 12 by the first recovery tube 11, and the water cooled down through apparatus for supercooling 12 is flowed into heat insulation tank 13, protects Warm tank 13 is connected by pipeline with three-level cooling zone., can (such as the 3rd is cold by advanced cooling zone by the setting of this structure But area) in after heat exchange is handled the elevated water of temperature be introduced to by the first drinking-water pipe 9 in two level cooling zone, similarly, The elevated water of temperature is then introduced in primary cooling area by the second drinking-water pipe 10 after heat exchange is handled in two level cooling, just Water in level cooling agent can then be cooled down by the first recovery tube to be introduced in cooling device, and the water after cooling can continue to arrange Enter to advanced cooling zone, so as to realize the recycling of water resource.

Further, the both sides of cooling bath are provided with bearing block 14, and heat exchanger tube is arranged between two bearing blocks, passes through this Heat exchanger tube and feed end and discharge end can hermetically be connected together by kind structure.In order that obtain the silicone sealant in heat exchanger tube Radiating is more uniform, then the both ends of heat exchanger tube are movably connected in bearing block by bearing respectively, on the side of cooling bath also The rotating mechanism 15 of the heat exchanger tube rotation can be driven by being provided with, and specifically, the rotating mechanism includes motor, is driving The motor shaft of dynamic motor is provided with drive gear, and travelling gear, drive gear and travelling gear are provided with one end of heat exchanger tube Intermeshing, by the rotation of rotational structure so as to drive heat exchanger tube to rotate, when heat exchanger tube rotates, the silicon in heat exchanger tube can be driven Ketone seal gum is in heat exchange Bottomhole pressure, so that silicone sealant radiating is more uniform.

In order that water temperature in cooling bath keeps uniform, avoid with the water temperature over-high of heat exchanger tube adjacent part and away from changing The water temperature of heat pipe section is too low, then the also settable stirring slurry 16 on the heat exchanger tube in cooling bath.By the setting of agitating paddle, The even water temperature in cooling bath is may be such that, there is the radiating using heat exchanger tube.

With reference to figure 2, in another preferred embodiment, heat exchanger tube is corrugated tube, in the crest of corrugated tube and the position of trough Be provided with stirring slurry, so as to advantageously in the radiating of heat exchanger tube and cooling bath water temperature it is uniform.

In order to realize the Automated condtrol of water circulation of the present utility model, the primary cooling area, two level cooling zone and three The first temperature sensor, second temperature sensor and three-temperature sensor are respectively arranged with level cooling zone, and (temperature passes Sensor is not shown in figures), the first temperature sensor, second temperature sensor and three-temperature sensor are controlled with one respectively Case processed is electrically connected with, and control cabinet is controlling opening for the first recovery tube 11, the second drinking-water pipe 10 and the charging pump of the first drinking-water pipe 9 Close.Specifically, when the water temperature that three-temperature sensor is detected in three-level cooling zone is higher than predetermined temperature value, then signal is sent out Control cabinet is delivered to, control cabinet controls the unlatching of suction pump on the first drinking-water pipe 9；Similarly, when second temperature sensor detects two When water temperature in level cooling zone is higher than predetermined temperature value, then control cabinet is sent the signal to, control cabinet controls the second drinking-water pipe 10 The unlatching of upper suction pump；When the water temperature that the first temperature sensor is detected in primary cooling area is higher than predetermined temperature value, then will Signal sends to control cabinet, control cabinet and controls the pump startup that drawn water on the first recovery tube 11.

Further, in order to prevent the water temperature in cooling zone from meeting standard and water level is too high and causes the feelings of liquid spill Condition, the first liquid level sensor is respectively arranged with the primary cooling area, two level cooling zone and three-level cooling zone, the second liquid level passes Sensor and the 3rd liquid level sensor (liquid level sensor is not shown in figures), the first temperature sensor, second temperature pass Sensor and three-temperature sensor are electrically connected with control cabinet respectively, and control cabinet is arranged on always according to liquid level sensor to control The keying of suction pump on the second recovery tube 17 in primary cooling area, and the 3rd recovery tube 18 being arranged in two level cooling zone On suction pump keying.Specifically, when the liquid level that the 3rd liquid level sensor is detected in three-level cooling zone is higher than predetermined fluid level When, then control cabinet is sent the signal to, control cabinet controls the pump startup that drawn water on the first drinking-water pipe 9；When the second liquid level sensor is examined Measure liquid level in two level cooling zone it is too high when, then control cabinet controls the pump startup that draws water of the 3rd recovery tube；When the first liquid level passes When sensor detects that the liquid level in primary cooling area is too high, then control cabinet controls the pump startup that draws water of the second recovery tube.

Finally illustrate, preferred embodiment above is only unrestricted to illustrate the technical solution of the utility model, to the greatest extent The utility model has been described in detail by above preferred embodiment for pipe, but those skilled in the art should manage Solution, can make various changes, without departing from the utility model claims book institute to it in the form and details The scope of restriction.

Claims (7)

1. A kind of 1. cooling device of silicone sealant production, it is characterised in that：Including cooling bath and extend transversely through the cooling bath Heat exchanger tube, the heat exchanger tube both ends respectively with the feed end positioned at cooling bath side and the discharge end positioned at cooling bath opposite side Connection, is inputted the silicone sealant of high temperature to heat exchanger tube by feed end by dehvery pump；

   Primary cooling area that the cooling bath is divided into being spaced apart from feed end towards direction of discharge, two level cooling zone, And three-level cooling zone, the primary cooling area, two level cooling zone, the temperature of water gradually reduces successively in three-level cooling zone, institute The hot material for stating heat exchanger tube in turn passes through the primary cooling area, two level cooling zone and three-level cooling zone；

   It is respectively arranged between two adjacent cooling zones and the water of three-level cooling zone is introduced to the first of two level cooling zone draws water Manage, and the water of two level cooling zone is introduced to the second drinking-water pipe in primary cooling area, the water in the primary cooling area leads to Cross the first recovery tube and be introduced to cooling device, the water cooled down through apparatus for supercooling is flowed into heat insulation tank, and the heat insulation tank passes through Pipeline connects with the three-level cooling zone.
2. 2. the cooling device of silicone sealant production according to claim 1, it is characterised in that：The both sides of the cooling bath Bearing block is provided with, the heat exchanger tube is arranged between two bearing blocks, and the both ends of the heat exchanger tube are lived by bearing respectively It is dynamic to be connected in the bearing block, the whirler that can drive the heat exchanger tube rotation is additionally provided with the side of the cooling bath Structure.
3. 3. the cooling device of silicone sealant production according to claim 2, it is characterised in that：Changing in cooling bath Stirring slurry is additionally provided with heat pipe.
4. 4. the cooling device of silicone sealant production according to claim 2, it is characterised in that：The heat exchanger tube is waveform Pipe.
5. 5. the cooling device of silicone sealant production according to claim 4, it is characterised in that：The crest of the corrugated tube Stirring slurry is provided with the position of trough.
6. 6. the cooling device of silicone sealant production according to claim 1, it is characterised in that：The primary cooling area, The first temperature sensor, second temperature sensor and the 3rd temperature are respectively arranged with two level cooling zone and three-level cooling zone Sensor, first temperature sensor, second temperature sensor and three-temperature sensor are electrical with a control cabinet respectively Connection, the control cabinet is controlling the keying of first recovery tube, the second drinking-water pipe and the first drinking-water pipe charging pump.
7. 7. the cooling device of silicone sealant production according to claim 6, it is characterised in that：The primary cooling area, The first liquid level sensor, the second liquid level sensor and the 3rd liquid level are respectively arranged with two level cooling zone and three-level cooling zone Sensor, the first temperature sensor, second temperature sensor and the three-temperature sensor are electric with the control cabinet respectively Property connection, the control cabinet controls suction pump on the second recovery tube being arranged in primary cooling area always according to liquid level sensor Keying, and the keying of the suction pump on the 3rd recovery tube being arranged in two level cooling zone.