CN217373599U - Waste heat circulating device of hydraulic forming machine - Google Patents

Abstract

The utility model provides a waste heat circulating device of hydraulic forming machine, the utility model discloses an including the heat transfer case, heat transfer coil pipe and rose box, the heat transfer coil pipe sets up the inside at the heat transfer case, the heat transfer case includes heat transfer owner box and heat transfer case apron, heat transfer owner box and heat transfer case apron are connected through the bolt, the upper end of heat transfer case apron is provided with the thermal current import, the lower extreme of heat transfer owner box is provided with the thermal current export, the upper end of rose box is provided with filters the import, the left lower extreme of rose box is provided with filters the export, the inside of rose box is provided with filter equipment, filter equipment includes first filter equipment and second filter equipment, first filter equipment sets up the upper end at second filter equipment, filter the export and set up the lower extreme at second filter equipment, it is linked together through communicating pipe to filter export and thermal current import, the department installs the first pump body communicating pipe. The utility model discloses not only have and to have saved the cost, the energy saving moreover, the characteristics of more environmental protection.

Description

Waste heat circulating device of hydraulic forming machine

Technical Field

The utility model relates to a waste heat circulating device technical field especially relates to a waste heat circulating device of hydraulic forming machine.

Background

Plastic molding processing equipment is developed on the basis of rubber machinery and metal die casting machines. Since the 70 s in the 19 th century the polymer injection molding process and simple molding equipment appeared, as an industry, it was not developed until the 30 s in the 20 th century, and plastic molding processing equipment was gradually commercialized, and injection molding and extrusion molding became industrial processing methods. Blow molding is the third largest plastic molding method second to injection molding and extrusion, and is the fastest growing plastic molding method.

However, the existing hydraulic forming machine has the problems that the equipment can discharge waste water with higher temperature during operation, and the existing equipment directly discharges the waste water into a waste water tank, so that the waste of heat energy is caused.

SUMMERY OF THE UTILITY MODEL

To the weak point that exists in the above-mentioned problem, the utility model provides a waste heat circulating device of hydraulic forming machine makes it not only have and to have saved the cost, the energy saving moreover, the characteristics of more environmental protection.

In order to solve the above problem, the utility model provides a technical scheme as follows:

a waste heat circulating device of a hydraulic forming machine comprises a heat exchange box, a heat exchange coil and a filter box, wherein the heat exchange coil is arranged inside the heat exchange box, the heat exchange box comprises a heat exchange main box body and a heat exchange box cover plate, the heat exchange main box body and the heat exchange box cover plate are connected through bolts, the upper end of the heat exchange box cover plate is provided with a heat flow inlet, the lower end of the heat exchange main box body is provided with a heat flow outlet, the upper end of the filter box is provided with a filter inlet, the left lower end of the filter box is provided with a filter outlet, the inside of the filter box is provided with a filter device, the filter device comprises a first filter device and a second filter device, the first filter device is arranged at the upper end of the second filter device, the filter outlet is arranged at the lower end of the second filter device, and the filter outlet is communicated with the heat flow inlet through a communicating pipe, the communicating pipe is provided with a first pump body.

Further, the heat exchange coil pipe comprises a heat exchange main pipe body, a first connecting body and a second connecting body, the first connecting body is in threaded connection with the left end of the heat exchange main pipe body, the right end of the second connecting body is in threaded connection with the heat exchange main pipe body, the left end of the heat exchange main pipe body is communicated with a heat exchange inflow pipe, the right end of the heat exchange main pipe body is communicated with a heat exchange outflow pipe, and a second pump body is installed at the heat exchange outflow pipe.

Further, the heat exchange main box is internally and fixedly provided with a mounting plate, the mounting plate comprises a first mounting plate and a second mounting plate, a first mounting hole is formed in the first connecting body, the first connecting body is connected with the first mounting plate through a first mounting screw, the first mounting screw penetrates through the first mounting hole, a second mounting hole is formed in the second connecting body, the second connecting body is connected with the second mounting plate through a second mounting screw, and the second mounting screw penetrates through the second mounting hole.

Furthermore, the first filtering device comprises a first filtering layer and a first fixing net, the left end of the first fixing net is fixedly arranged in the first left fixing frame, the right end of the first fixed net is fixedly arranged in the first right fixed frame, the first fixed net comprises a first upper fixed net and a first lower fixed net, the first upper fixing net is arranged at the upper end of the first filter layer, the first lower fixing net is arranged at the lower end of the first filter layer, the second filtering device comprises a second filtering layer and a second fixed net, the left end of the second fixed net is fixedly arranged in a second left fixed frame, the right end of the second fixed net is fixedly pressed in the second right fixed frame, the second fixed net comprises a second upper fixed net and a second lower fixed net, the second upper fixing net is arranged at the upper end of the second filter layer, and the second lower fixing net is arranged at the lower end of the second filter layer.

Furthermore, a first cover plate is fixedly arranged at the right end of the first right fixing frame, a first handle is installed at the right end of the first cover plate, a second cover plate is fixedly arranged at the right end of the second right fixing frame, and a second handle is installed at the right end of the second cover plate.

Further, the first filter layer and the second filter layer are made of activated carbon materials.

Furthermore, a sealing rubber ring is arranged at the joint of the heat exchange box cover plate and the heat exchange main box body.

Compared with the prior art, the utility model has the advantages of it is following:

1. the filter box is arranged, so that high-temperature wastewater discharged by the hydraulic forming machine during operation can be filtered, and pollution caused by direct discharge is avoided;

2. set up the heat transfer case, the waste water of the high temperature after crossing filters enters into the heat transfer incasement through the heat flow import via communicating pipe, carries out the heat transfer with heat exchange coil, and the effectual resource of having practiced thrift avoids causing the wasting of resources.

To sum up, this hydraulic forming machine's waste heat circulating device has extensive practicality to there is equipment can discharge the waste water that has higher temperature in service in the current hydraulic forming machine who proposes in the solution above-mentioned background art, and current equipment directly discharges it to the wastewater disposal basin in, causes the extravagant problem of the thermal energy, has extensive spreading value.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

FIG. 2 is a schematic structural view of the heat exchange coil of the present invention;

FIG. 3 is a schematic structural view of a first filtering device of the present invention;

fig. 4 is a schematic structural diagram of a second filtering device of the present invention.

Description of the main element symbols:

1-filter box, 101-filter inlet, 102-filter outlet, 2-heat exchange main box body, 3-heat exchange box cover plate, 4-first filter device, 401-first filter layer, 402-first lower fixing net, 403-first upper fixing net, 404-first left fixing frame, 405-first right fixing frame, 406-first cover plate, 407-first handle, 5-second filter device, 501-second filter layer, 502-second lower fixing net, 503-second upper fixing net, 504-second left fixing frame, 505-second right fixing frame, 506-second cover plate, 507-second handle, 6-heat flow inlet, 7-heat flow outlet, 8-heat exchange coil, 801-heat exchange main tube body, 802-first connecting body, 80201-a first mounting hole, 803-a second connecting body, 80301-a second mounting hole, 9-a heat exchange outlet pipe, 10-a heat exchange inlet pipe, 11-a first mounting plate, 12-a second mounting plate, 13-a communicating pipe, 14-a first pump body, 15-a second pump body, 16-a sealing rubber ring, 17-a first mounting screw and 18-a second mounting screw.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention will be further described in detail with reference to the accompanying drawings and examples, which are not intended to limit the present invention.

As shown in FIGS. 1-4, the embodiment of the present invention comprises a heat exchange box, a heat exchange coil 8 and a filter box 1, wherein the upper end of the filter box 1 is provided with a filtering inlet 101, the left lower end of the filter box 1 is provided with a filtering outlet 102, the interior of the filter box 1 is provided with a filtering device, the filtering device comprises a first filtering device 4 and a second filtering device 5, the filter box 1 is arranged to filter the high-temperature waste water discharged during the operation of the hydraulic forming machine, so as to avoid direct discharge and pollution, the first filtering device 4 is arranged at the upper end of the second filtering device 5, the filtering outlet 102 is arranged at the lower end of the second filtering device 5, the filtering outlet 102 is communicated with a heat flow inlet 6 through a communicating pipe 13, a first pump 14 is arranged at the communicating pipe 13, the first filtering device 4 comprises a first filtering layer 401 and a first fixing net, the left end of the first fixing net is fixedly arranged in a first left fixing frame 404, the right end of the first fixed net is fixedly arranged in a first right fixed mount 405, the first fixed net comprises a first upper fixed net 403 and a first lower fixed net 402, the first upper fixed net 403 is arranged at the upper end of the first filter layer 401, the first lower fixed net 402 is arranged at the lower end of the first filter layer 401, the right end of the first right fixed mount 405 is fixedly provided with a first cover plate 406, the right end of the first cover plate 406 is provided with a first handle 407, the second filter device 5 comprises a second filter layer 501 and a second fixed net, the left end of the second fixed net is fixedly arranged in a second left fixed mount 504, the right end of the second fixed net is fixedly pressed in a second right fixed mount 505, the second fixed net comprises a second upper fixed net 503 and a second lower fixed net 502, the second upper fixed net 503 is arranged at the upper end of the second filter layer 501, the second lower fixed net 502 is arranged at the lower end of the second filter layer 501, the right end of the second right fixed mount 505 is fixedly provided with a second cover plate 506, the right end of the second cover plate 506 is provided with a second handle 507, and the first filter layer 401 and the second filter layer 501 are made of activated carbon material.

Filtered high-temperature wastewater enters the heat exchange box through the communicating pipe through the heat flow inlet to exchange heat with the heat exchange coil, so that resources are effectively saved, and resource waste is avoided, the heat exchange box comprises a heat exchange main box body 2 and a heat exchange box cover plate 3, the heat exchange main box body 2 is connected with the heat exchange box cover plate 3 through bolts, a sealing rubber ring 16 is arranged at the joint of the heat exchange box cover plate 3 and the heat exchange main box body 1, the upper end of the heat exchange box cover plate 3 is provided with a heat flow inlet 6, the lower end of the heat exchange main box body 2 is provided with a heat flow outlet 7, the heat exchange coil 8 is arranged in the heat exchange box, the heat exchange coil 8 comprises a heat exchange main pipe body 801, a first connecting body 802 and a second connecting body 803, the first connecting body 802 is in threaded connection with the left end of the heat exchange main pipe body 801, the right end of the second connecting body 803 is in threaded connection with the heat exchange main pipe body 801, and the left end of the heat exchange main pipe body 801 is communicated with the heat exchange flow inlet pipe 10, the right end of the heat exchange main pipe body 801 is communicated with the heat exchange outflow pipe 9, the second pump body 15 is installed at the heat exchange outflow pipe 9, a mounting plate is fixedly arranged in the heat exchange main pipe body 2 and comprises a first mounting plate 11 and a second mounting plate 12, a first mounting hole 80201 is formed in the first connecting body 802, the first connecting body 802 is connected with the first mounting plate 17 through a first mounting screw 17, the first mounting screw penetrates through the first mounting hole, a second mounting hole 80301 is formed in the second connecting body 803, the second connecting body 803 is connected with the second mounting plate 12 through a second mounting screw 18, and the second mounting screw 18 penetrates through the second mounting hole 80301.

Use the utility model relates to a during waste heat circulating device of hydraulic forming machine, at first hydraulic forming machine exists equipment and can discharge the waste water that has the high temperature in service and get into rose box 1 through filtering import 101 in, filter the back through first filter equipment 4 and second filter equipment 5 in rose box 1, can flow out through filtering export 102, the waste water of the high temperature after the warp filters enters into the heat transfer incasement through heat flow import 6 via communicating pipe 13, carry out the heat transfer with heat transfer coil 8, later can flow out through heat flow export 7.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (7)

1. A waste heat circulating device of a hydraulic forming machine comprises a heat exchange box, a heat exchange coil and a filter box, wherein the heat exchange coil is arranged inside the heat exchange box, and is characterized in that the heat exchange box comprises a heat exchange main box body and a heat exchange box cover plate, the heat exchange main box body is connected with the heat exchange box cover plate through bolts, the upper end of the heat exchange box cover plate is provided with a heat flow inlet, the lower end of the heat exchange main box body is provided with a heat flow outlet, the upper end of the filter box is provided with a filter inlet, the left lower end of the filter box is provided with a filter outlet, the inside of the filter box is provided with a filter device, the filter device comprises a first filter device and a second filter device, the first filter device is arranged at the upper end of the second filter device, the filter outlet is arranged at the lower end of the second filter device, and the filter outlet is communicated with the heat flow inlet through a communicating pipe, the communicating pipe is provided with a first pump body.

2. The waste heat recycling device of a hydraulic forming machine as claimed in claim 1, wherein the heat exchange coil comprises a main heat exchange tube, a first connecting body and a second connecting body, the first connecting body is in threaded connection with the left end of the main heat exchange tube, the right end of the second connecting body is in threaded connection with the main heat exchange tube, the left end of the main heat exchange tube is communicated with a heat exchange inlet tube, the right end of the main heat exchange tube is communicated with a heat exchange outlet tube, and a second pump body is installed at the heat exchange outlet tube.

3. The waste heat recycling device for the hydraulic forming machine as claimed in claim 2, wherein mounting plates are fixedly arranged in the heat exchange main tank, the mounting plates include a first mounting plate and a second mounting plate, a first mounting hole is formed in the first connecting body, the first connecting body is connected with the first mounting plate through a first mounting screw, the first mounting screw penetrates through the first mounting hole, a second mounting hole is formed in the second connecting body, the second connecting body is connected with the second mounting plate through a second mounting screw, and the second mounting screw penetrates through the second mounting hole.

4. The waste heat recycling device of a hydraulic forming machine as claimed in claim 3, characterized in that the first filtering device comprises a first filtering layer and a first fixing net, the left end of the first fixing net is fixedly installed in a first left fixing frame, the right end of the first fixing net is fixedly installed in a first right fixing frame, the first fixing net comprises a first upper fixing net and a first lower fixing net, the first upper fixing net is arranged at the upper end of the first filtering layer, the first lower fixing net is arranged at the lower end of the first filtering layer, the second filtering device comprises a second filtering layer and a second fixing net, the left end of the second fixing net is fixedly installed in a second left fixing frame, the right end of the second fixing net is fixedly pressed in a second right fixing frame, the second fixing net comprises a second upper fixing net and a second lower fixing net, the second upper fixing net is arranged at the upper end of the second filter layer, and the second lower fixing net is arranged at the lower end of the second filter layer.

5. The waste heat recycling device for hydraulic forming machines as claimed in claim 4, characterized in that a first cover plate is fixedly arranged at the right end of the first right fixing frame, a first handle is mounted at the right end of the first cover plate, a second cover plate is fixedly arranged at the right end of the second right fixing frame, and a second handle is mounted at the right end of the second cover plate.

6. The waste heat recycling device of a hydraulic forming machine as claimed in claim 5, wherein the first filter layer and the second filter layer are made of activated carbon material.

7. The waste heat recycling device for a hydraulic forming machine as claimed in claim 6, wherein a sealing rubber ring is arranged at the joint of the heat exchange box cover plate and the heat exchange main box body.

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