CN104842486A - Engagement cooling apparatus of extruder - Google Patents

Abstract

The invention relates to an engagement cooling apparatus of an extruder. The apparatus comprises a driving shaft and a driven shaft which are horizontal and are arranged in a mutual parallel manner; gear sleeves are sleeved on the driving shaft and the driven shaft respectively; a plurality of water slots are arranged between the driving shaft or the driven shaft and the gear sleeves; one end of each of the driving shaft and the driven shaft is provided with a water inlet hole, and the other end of each of the driving shaft and the driven shaft is provided with a water outlet hole; water inlet holes and water outlet holes are respectively connected with two ends of the water slots; the driving shaft and the driven shaft are correspondingly arranged on a support; the bottom of the support is provided with a water tank; one side of the support close to the water inlet holes is provided with at least one cooling water pump; the cooling water pumps are connected with the water tank through water suction holes; the cooling water pumps are respectively connected with the water inlet holes through water inlet tubes; and each of the water outlet holes is connected with the water tank through a water outlet tube. The apparatus improves the product cooling speed by increasing the extrusion area.

Description

A kind of engagement type cooling device of extruder

Technical field

The present invention relates to a kind of engagement type cooling device of extruder.

Background technology

In paint industry, extruder needs when producing to use cooler by thickness and the semi-finished product of high temperature carry out extruding and cooling, and is made into flake and is carrying out next step operation; And existing cooler due to water source extensive, major part with low cost adopts water cooling, by arranging at driving shaft and driven shaft inwall the tank paralleled to the axis, and the baffle plate placed at multiple interval is set in tank, under the obstruction of baffle plate, extend the time of staying of cooling water in driving shaft and driven shaft when cooling water is flowed in driving shaft and driven shaft, make the abundant heat-shift of the semi-finished product of cooling water and high temperature; But this method can extend the time of staying of cooling water in driving shaft and driven shaft at the beginning work, once after the cooling water in tank fills, the time of staying of cooling water in driving shaft and driven shaft can be very short, do not have abundant heat-shift effect, for this reason, we have developed a kind of engagement type cooling device playing the extruder of abundant heat-shift by increasing contact area, thus improve cooling effect.

Summary of the invention

The present invention seeks to provide a kind of engagement type cooling device playing the extruder of abundant heat-shift by increasing contact area to overcome the deficiencies in the prior art.

For achieving the above object, the technical solution used in the present invention is: a kind of engagement type cooling device of extruder, comprises level and the driving shaft of placement parallel to each other and driven shaft; Described driving shaft and driven shaft are arranged with the gear sleeve be meshed; Described driving shaft or be provided with many tanks between driven shaft and gear sleeve; One end of described driving shaft and driven shaft is provided with inlet opening, and the other end is provided with apopore; Described inlet opening and apopore communicate with the two ends of many tanks setting respectively; Described driving shaft and driven shaft corresponding be arranged on support; The bottom of described support is provided with water tank; Described support is provided with at least one cooling water pump on the side of inlet opening; Described cooling water pump is connected by suction hole with water tank; Described cooling water pump is connected with inlet opening respectively by water inlet pipe; Described each apopore is connected with water tank respectively by outlet pipe.

Preferably, described driving shaft is fixedly connected with gear sleeve respectively by polylith gripper shoe with driven shaft; A tank is formed between described adjacent two pieces of gripper shoes.

Preferably, the number of described gripper shoe and the number of teeth of gear sleeve consistent.

Preferably, the two ends of described each gear sleeve are respectively arranged with the end cap that sealing is arranged.

Preferably, described gear sleeve and end cap are fixedly connected by welding.

Preferably, the dead in line of described inlet opening and apopore, and with the dead in line of driving shaft or driven shaft.

Preferably, described driving shaft is connected with support respectively by bearing with the two ends of driven shaft.

Preferably, described water tank is arranged on the lower end of driving shaft and driven shaft, and the upper end of water tank is provided with cover plate.

Preferably, described water inlet pipe is connected with inlet opening by sealed bearing; Described outlet pipe is connected with apopore by sealed bearing.

Due to the utilization of technique scheme, the present invention compared with prior art has following advantages:

The engagement type cooling device of extruder of the present invention is by axle being provided with the gear sleeve be meshed, add squish area, thus improve the cooling velocity of half product, and decrease the stressed and cooling water pump delivery between diaxon simultaneously, improve service life.

Accompanying drawing explanation

Below in conjunction with accompanying drawing, technical solution of the present invention is described further:

Accompanying drawing 1 is the left view of the engagement type cooling device of extruder of the present invention;

Accompanying drawing 2 is A-A place complete section front view in Fig. 1;

Accompanying drawing 3 is D place partial enlarged drawing in Fig. 2;

Accompanying drawing 4 is B-B place full sectional view in Fig. 2;

Accompanying drawing 5 is E place partial enlarged drawing in Fig. 4;

Accompanying drawing 6 is C-C place full sectional view in Fig. 2;

Accompanying drawing 7 is F place partial enlarged drawing in Fig. 6;

Wherein: 1, support; 101, water tank; 102, suction hole; 2, driving shaft; 3, driven shaft; 31, inlet opening; 32, apopore; 33, tank; 4, gear sleeve; 5, gripper shoe; 6, bearing; 7 water inlet pipes; 8, cooling water pump; 9, outlet pipe; 10, cover plate; 11, end cap.

Detailed description of the invention

Below in conjunction with drawings and the specific embodiments, the present invention is described in further detail.

Accompanying drawing 1-7 is the engagement type cooling device of extruder of the present invention, comprises level and the driving shaft 2 of placement parallel to each other and driven shaft 3; Described driving shaft 2 and driven shaft 3 are arranged with the gear sleeve 4 be meshed; Described driving shaft 2 is fixedly connected with gear sleeve 4 respectively by polylith gripper shoe 5 with driven shaft 3, and the number of gripper shoe 5 is consistent with the number of teeth of gear sleeve 4; A tank 33 is formed between described adjacent two pieces of gripper shoes 5; The two ends of described each gear sleeve 4 are respectively arranged with the end cap 11 of sealing setting, and each gear sleeve 4 and end cap 11 are fixedly connected by welding, and anti-sealing flows out from the two ends of gear sleeve 4; One end of described driving shaft 2 and driven shaft 3 is provided with inlet opening 31, and the other end is provided with apopore 32, the dead in line of described inlet opening 31 and apopore 32, and with the dead in line of driving shaft 2 or driven shaft 3; Described inlet opening 31 and apopore 32 communicate with the two ends of many tanks 33 setting respectively; Described driving shaft 2 and driven shaft 3 correspondence be arranged on support 1; Described driving shaft 2 is connected with support 1 respectively by bearing 6 with the two ends of driven shaft 3; The bottom of described support 1 is provided with water tank 101; Described water tank 101 is arranged on the lower end of driving shaft 2 and driven shaft 3, and the upper end of water tank 101 is provided with cover plate 10, prevents semi-finished product work in-process from falling in water tank 101; Described support 1 is provided with two cooling water pumps 8 on the side of inlet opening 31; Described each cooling water pump 8 is connected respectively by suction hole 102 with water tank 101; Described each cooling water pump 8 is connected with inlet opening 31 respectively by water inlet pipe 7, and water inlet pipe 7 is connected with inlet opening 31 by sealed bearing, and anti-sealing outwards flows out from inlet opening 31; Described each apopore 32 is connected with water tank 101 respectively by outlet pipe 9, and outlet pipe 9 is connected with apopore 32 by sealed bearing, and anti-sealing outwards flows out from apopore 32.

During use: driving shaft 2 and driven shaft 3 do engaged transmission by external motor driven gear sleeve 4, half product is squeezed into thin slice, water in water tank 101 is sent in corresponding inlet opening 31 by suction hole 102 by each cooling water pump 8 simultaneously, water now in inlet opening 31 evenly flows in every bar tank 33, double product cools, and the water cooled in every bar tank 33 flows in apopore 32 respectively, apopore 32 flows in water tank 101 by outlet pipe 9, circulation like this, completes half-finished cooling.

Due to the utilization of technique scheme, the present invention compared with prior art has following advantages:

The engagement type cooling device of extruder of the present invention is by axle being provided with the gear sleeve be meshed, add squish area, thus improve the cooling velocity of half product, and decrease the stressed and cooling water pump delivery between diaxon simultaneously, improve service life.

Below be only embody rule example of the present invention, protection scope of the present invention is not constituted any limitation.The technical scheme that all employing equivalents or equivalence are replaced and formed, all drops within rights protection scope of the present invention.

Claims (9)

1. an engagement type cooling device for extruder, is characterized in that: comprise level and the driving shaft of placement parallel to each other and driven shaft; Described driving shaft and driven shaft are arranged with the gear sleeve be meshed; Described driving shaft or be provided with many tanks between driven shaft and gear sleeve; One end of described driving shaft and driven shaft is provided with inlet opening, and the other end is provided with apopore; Described inlet opening and apopore communicate with the two ends of many tanks setting respectively; Described driving shaft and driven shaft corresponding be arranged on support; The bottom of described support is provided with water tank; Described support is provided with at least one cooling water pump on the side of inlet opening; Described cooling water pump is connected by suction hole with water tank; Described cooling water pump is connected with inlet opening respectively by water inlet pipe; Described each apopore is connected with water tank respectively by outlet pipe.

2. the engagement type cooling device of extruder according to claim 1, is characterized in that: described driving shaft is fixedly connected with gear sleeve respectively by polylith gripper shoe with driven shaft; A tank is formed between described adjacent two pieces of gripper shoes.

3. the engagement type cooling device of extruder according to claim 2, is characterized in that: the number of described gripper shoe is consistent with the number of teeth of gear sleeve.

4. the engagement type cooling device of the extruder according to claim 1 or 2 or 3, is characterized in that: the two ends of described each gear sleeve are respectively arranged with the end cap of sealing setting.

5. the engagement type cooling device of extruder according to claim 4, is characterized in that: described gear sleeve and end cap are fixedly connected by welding.

6. the engagement type cooling device of the extruder according to claim 1 or 4 or 5, is characterized in that: the dead in line of described inlet opening and apopore, and with the dead in line of driving shaft or driven shaft.

7. the engagement type cooling device of the extruder according to claim 1 or 6, is characterized in that: described driving shaft is connected with support respectively by bearing with the two ends of driven shaft.

8. the engagement type cooling device of the extruder according to claim 1 or 7, is characterized in that: described water tank is arranged on the lower end of driving shaft and driven shaft, and the upper end of water tank is provided with cover plate.

9. the engagement type cooling device of the extruder according to claim 1 or 8, is characterized in that: described water inlet pipe is connected with inlet opening by sealed bearing; Described outlet pipe is connected with apopore by sealed bearing.