CN203973916U - A kind of structure improved waste heat gathers thermal storage device - Google Patents

Abstract

The utility model discloses a kind of structure improved waste heat and gather thermal storage device, its thermal storage device body comprises upper cover, lower cover, upper cover comprises stacked thermal-arrest layer, upper heat-insulation layer, upper coat of metal, upper heat-insulation layer inner surface arranges outer heat-reflecting layer, thermal-arrest layer inner surface arranges interior heat-reflecting layer, between outer heat-reflecting layer and thermal-arrest layer, heat collector cavity is set, lower cover comprises lower heat-insulation layer, lower coat of metal, thermal storage device body is equipped with air intake tube connector, air-out tube connector, air intake tube connector is equipped with blast pipe, air-out tube connector is equipped with discharge pipe, blast pipe air outlet installing blast pipe joint, discharge pipe air inlet installing discharge pipe joint, blast pipe joint, discharge pipe joint comprises respectively outer joint sleeve, interior joint sleeve, in each, joint sleeve bottom is intercalated in respectively corresponding air intake tube connector, in air-out tube connector.By said structure, design, the utility model can effectively be collected the heat that utilizes injection machine gun barrel to distribute, novel, the easy to use and easy accessibility of structural design.

Description

A kind of structure improved waste heat gathers thermal storage device

Technical field

The utility model relates to thermal source recycle device technical field, relates in particular to a kind of structure improved waste heat and gathers thermal storage device.

Background technology

Along with science and technology is constantly progressive, in daily life and industrial processes, a lot of metallic articles are replaced by plastic products gradually.Existing plastic products generally adopt the molding modes such as injection mo(u)lding, compression forming, extrusion molding to be prepared from, and wherein, injection mo(u)lding is most widely used.In actual plastic processing process, moulding the moisture that smectic plastics absorb and can have a strong impact on the final Forming Quality of plastic products, the stronger plastics of water imbibition such as nylon, ABS, polycarbonate before storage and processing; In addition, for water imbibition, compared with for weak or non-absorptive plastics, the moisture contamination of frosting (moisture accumulation is on the surface of plastic grain) also can produce harmful effect to the Forming Quality of plastic products; So for above-mentioned situation, plastics should carry out suitably removal moisture drying before injection molding to be processed, to guarantee to obtain good molding effect.Existing injection machine formation system generally disposes the drying machine for removal moisture drying plastics, existing drying machine is generally to adopt electrically heated mode that thermal source is provided, and the hot blast after heating enters heat preservation and dryness bucket and the plastics in heat preservation and dryness bucket are carried out to removal moisture drying processing from air intake vent; To completing the air that removal moisture drying is processed and discharge from the air outlet of heat preservation and dryness bucket, also carry certain heat, if this part heat directly enters workshop, can increase the dust content in workshop air and affect the healthy of operator on the one hand, can increase on the other hand energy consumption and increase the weight of the financial burden of enterprise.

In addition, utilizing injection machine to carry out in the process of injection mo(u)lding processing, the heater configuring on injection machine gun barrel carries out heat treated to the plastics to be formed in gun barrel, in this process, has quite a few heat to be distributed to the external world (for example workshop) by heater; For the workshop of carrying out industrial production processing, the heat that heater distributes can cause operating ambient temperature to raise on the one hand and operating condition is worsened, and also can cause on the other hand the significant wastage of the energy, and then increases the financial burden of enterprise.

Existence form various kinds for recycling the thermal source recycle device of heater work time institute's distribute heat of injection machine gun barrel in prior art; For existing thermal source recycle device, the waste heat that fits over injection machine gun barrel periphery gathers structural design and seems particularly important.

Utility model content

The purpose of this utility model is to provide a kind of structure improved waste heat to gather thermal storage device, and this structure improved waste heat gathers the heat distributing when thermal storage device structural design heater novel, easy to use and that can effectively collect injection machine gun barrel is worked.

For achieving the above object, the utility model is achieved through the following technical solutions.

A kind of structure improved waste heat gathers thermal storage device, include the thermal storage device body that is set in the peripheral and heat that distributes when collecting the heater work of injection machine gun barrel of injection machine gun barrel, thermal storage device body includes interconnective upper cover and lower cover, upper cover includes the thermal-arrest layer being cascading from inside to outside, upper heat-insulation layer and upper coat of metal, the inner surface of upper heat-insulation layer is provided with outer heat-reflecting layer, the inner surface of thermal-arrest layer is provided with interior heat-reflecting layer, between the outer heat-reflecting layer of the outer heat-reflecting layer of upper heat-insulation layer and the outer surface interval of thermal-arrest layer layout and upper heat-insulation layer and thermal-arrest layer, be provided with heat collector cavity, lower cover includes lower heat-insulation layer and the lower coat of metal being cascading from inside to outside,

Thermal storage device body is fitted with for air being directed into air intake tube connector and the air-out tube connector for the air in heat collector cavity is derived in heat collector cavity, air intake tube connector is fitted with blast pipe, air-out tube connector is fitted with discharge pipe, the corresponding air intake tube connector of air outlet of blast pipe is equiped with blast pipe joint, the corresponding air-out tube connector of air inlet of discharge pipe is equiped with discharge pipe joint, blast pipe joint and discharge pipe joint include respectively outer joint sleeve and are flush-mounted in the interior joint sleeve in the through hole of outer joint sleeve, interior joint sleeve is fixedly welded in the through hole of outer joint sleeve, the bottom of interior joint sleeve extends to the lower end side of corresponding outer joint sleeve, each outer adapter sleeve pipe box is stuck in the air inlet position of air outlet position and the discharge pipe of corresponding blast pipe, in each, the bottom of joint sleeve is intercalated in respectively in corresponding air intake tube connector and air-out tube connector.

Wherein, be embedded with the thermal-arrest metallic conduit of hollow in described heat collector cavity, the air inlet of thermal-arrest metallic conduit is connected with described air intake tube connector, and the air outlet of thermal-arrest metallic conduit is connected with described air-out tube connector.

Wherein, the inside of the described heat collector cavity dividing plate that has evenly been intervally arranged, between adjacent dividing plate, be formed with thermal-arrest passage, all thermal-arrest passages are connected in series successively, the air inlet that is connected in series successively the thermal-arrest passage assembly forming by each thermal-arrest passage is connected with described air intake tube connector, and the air outlet of thermal-arrest passage assembly is connected with described air-out tube connector.

Wherein, described in each, in thermal-arrest passage, be equiped with respectively the heat-conducting block that touches and be fin shape with described thermal-arrest layer.

Wherein, the straight body that described upper cover is provided with the tapered end of the conical section that is set in injection machine gun barrel and is set in the flat segments of injection machine gun barrel, tapered end is connected from front to back successively with straight body.

The beneficial effects of the utility model are: a kind of structure improved waste heat described in the utility model gathers thermal storage device, its thermal storage device body comprises upper cover, lower cover, upper cover comprises the thermal-arrest layer stacking gradually, upper heat-insulation layer, upper coat of metal, upper heat-insulation layer inner surface arranges outer heat-reflecting layer, thermal-arrest layer inner surface arranges interior heat-reflecting layer, between outer heat-reflecting layer and thermal-arrest layer outer surface, heat collector cavity is set, lower cover comprises stacked lower heat-insulation layer, lower coat of metal, thermal storage device body is equipped with air intake tube connector, air-out tube connector, air intake tube connector is equipped with blast pipe, air-out tube connector is equipped with discharge pipe, blast pipe air outlet installing blast pipe joint, discharge pipe air inlet installing discharge pipe joint, blast pipe joint, discharge pipe joint comprises respectively outer joint sleeve, interior joint sleeve, interior joint sleeve is fixedly welded in the through hole of outer joint sleeve, in each, joint sleeve bottom is intercalated in respectively corresponding air intake tube connector, in air-out tube connector.By said structure, design, the heat that injection machine gun barrel when work distribute can be collected and utilize to the utility model effectively, and dismounting is very convenient, the utlity model has structural design novelty, easy to use, easy accessibility, advantage that Heat-collecting effect is good.

Accompanying drawing explanation

Utilize accompanying drawing to be further detailed the utility model below, but the embodiment in accompanying drawing does not form any restriction of the present utility model.

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

Fig. 2 is sectional schematic diagram of the present utility model.

Fig. 3 is the sectional schematic diagram of the another kind of embodiment of the utility model.

Fig. 4 is the structural representation of another embodiment of the utility model.

In Fig. 1 to Fig. 4, include:

1---upper cover 11---thermal-arrest layer

12---upper heat-insulation layer 13---upper coat of metal

14---heat collector cavity 2---lower cover

21---lower heat-insulation layer 22---lower coat of metal

30---air intake tube connector 31---air-out tube connector

40---blast pipe 41---discharge pipe

50---blast pipe joint 51---discharge pipe joint

52---outer joint sleeve 53---interior joint sleeve

6---thermal-arrest metallic conduit 70---dividing plate

71---thermal-arrest passage 72---heat-conducting block

80---outer heat-reflecting layer 81---interior heat-reflecting layer

100---tapered end 101---straight body.

The specific embodiment

Below in conjunction with concrete embodiment, the utility model is described.

As depicted in figs. 1 and 2, a kind of structure improved waste heat gathers thermal storage device, include the thermal storage device body that is set in the peripheral and heat that distributes when collecting the heater work of injection machine gun barrel of injection machine gun barrel, thermal storage device body includes interconnective upper cover 1 and lower cover 2, upper cover 1 includes the thermal-arrest layer 11 being cascading from inside to outside, upper heat-insulation layer 12 and upper coat of metal 13, the inner surface of upper heat-insulation layer 12 is provided with outer heat-reflecting layer 80, the inner surface of thermal-arrest layer 11 is provided with interior heat-reflecting layer 81, between the outer heat-reflecting layer 80 of the outer heat-reflecting layer 80 of upper heat-insulation layer 12 and the outer surface interval of thermal-arrest layer 11 layout and upper heat-insulation layer 12 and thermal-arrest layer 11, be provided with heat collector cavity 14, lower cover 2 includes lower heat-insulation layer 21 and the lower coat of metal 22 being cascading from inside to outside.

Wherein, thermal storage device body is fitted with for air being directed into air intake tube connector 30 and the air-out tube connector 31 for the air in heat collector cavity 14 is derived in heat collector cavity 14, air intake tube connector 30 is fitted with blast pipe 40, air-out tube connector 31 is fitted with discharge pipe 41, the corresponding air intake tube connector 30 of air outlet of blast pipe 40 is equiped with blast pipe joint 50, the corresponding air-out tube connector 31 of air inlet of discharge pipe 41 is equiped with discharge pipe joint 51, blast pipe joint 50 and discharge pipe joint 51 include respectively outer joint sleeve 52 and are flush-mounted in the interior joint sleeve 53 in the through hole of outer joint sleeve 52, interior joint sleeve 53 is fixedly welded in the through hole of outer joint sleeve 52, the bottom of interior joint sleeve 53 extends to the lower end side of corresponding outer joint sleeve 52, each outer joint sleeve 52 covers are stuck in the air inlet position of air outlet position and the discharge pipe 41 of corresponding blast pipe 40, in each, the bottom of joint sleeve 53 is intercalated in respectively in corresponding air intake tube connector 30 and air-out tube connector 31.

Upper cover 1 of the present utility model and lower cover 2 can realize assembly connection by snapping mode, and certainly, above-mentioned assembly connection mode does not form restriction of the present utility model; In the utility model course of work, upper cover 1 and lower cover 2 fit over injection machine gun barrel periphery, thermal-arrest layer 11 touches by interior heat-reflecting layer 81 and the periphery wall of injection machine gun barrel, interior heat-reflecting layer 81 can strengthen the heat reflection of thermal-arrest layer 11 and make the heat that injection machine gun barrel comes out can partly be reflected back injection machine gun barrel, and then saves the power consumption of injection machine gun barrel; The heat conducting in heat collector cavity 14 through thermal-arrest layer 11 is stored in heat collector cavity 14, upper heat-insulation layer 12 can play the effect of insulation, and the outer heat-reflecting layer 80 of upper heat-insulation layer 12 can strengthen the heat reflection of upper heat-insulation layer 12, and then reduce further the heat loose heat insulating effect that also improves further upper heat-insulation layer 12 outward; For upper cover 1, upper coat of metal 13 is mainly as the outer layer metal safeguard structure of upper cover 1.

Same, for lower cover 2, lower heat-insulation layer 21 also mainly plays the effect of heat-insulation and heat-preservation, and lower coat of metal 22 is mainly as the outer layer metal safeguard structure of lower cover 2.

At the utility model, connect in the process of blast pipe 40 and discharge pipe 41, staff only need be connected to completing blast pipe 40 in air intake tube connector 30 interior joint sleeve 53 intercalations of blast pipe joint 50 with air intake tube connector 30, and only interior joint sleeve 53 intercalations of discharge pipe joint 51 can need be completed to discharge pipe 41 and are connected with air-out tube connector 31 to air-out tube connector 31 is interior; Said structure design can reach the effect of easy accessibility.During work, through blast pipe 40, enter to the absorption of air heat in heat collector cavity 14 and finally via discharge pipe 41, discharge, the heat distributing when the utility model can effectively utilize injection machine gun barrel work, energy-conserving and environment-protective.

Comprehensive above-mentioned situation is known, the utlity model has structural design novelty, easy to use, assembling is quick and the good advantage of Heat-collecting effect.

Wherein, as shown in Figure 2, be embedded with the thermal-arrest metallic conduit 6 of hollow in heat collector cavity 14, the air inlet of thermal-arrest metallic conduit 6 is connected with air intake tube connector 30, and the air outlet of thermal-arrest metallic conduit 6 is connected with air-out tube connector 31.

As preferred embodiment, as shown in Figure 3, the inside of heat collector cavity 14 dividing plate 70 that has evenly been intervally arranged, between adjacent dividing plate 70, be formed with thermal-arrest passage 71, all thermal-arrest passages 71 are connected in series successively, the air inlet that is connected in series successively thermal-arrest passage 71 assemblies that form by each thermal-arrest passage 71 is connected with air intake tube connector 30, and the air outlet of thermal-arrest passage 71 assemblies is connected with air-out tube connector 31.Wherein, in order to improve further heat conduction efficiency, the utility model can touch and be the heat-conducting block 72 of fin shape at the interior installing respectively of each thermal-arrest passage 71 and thermal-arrest layer 11, and heat-conducting block 72 can accelerate the dissipation of heat of thermal-arrest layer 11 to thermal-arrest passage 71.

As preferred embodiment, as shown in Figure 4, the straight body 101 that upper cover 1 is provided with the tapered end 100 of the conical section that is set in injection machine gun barrel and is set in the flat segments of injection machine gun barrel, tapered end 100 is connected from front to back successively with straight body 101.The utility model is designed to straight body 101 and tapered end 100 combining structures by upper cover 1, its object is: by tapered end 100 and the conical section of injection machine gun barrel, fit, and then the heat that distributes of the conical section that utilizes injection machine gun barrel, to improve Heat-collecting effect of the present utility model.

Above content is only preferred embodiment of the present utility model, for those of ordinary skill in the art, according to thought of the present utility model, all will change in specific embodiments and applications, this description should not be construed as restriction of the present utility model.。

Claims (5)

1. a structure improved waste heat gathers thermal storage device, it is characterized in that: include the thermal storage device body that is set in the peripheral and heat that distributes when collecting the heater work of injection machine gun barrel of injection machine gun barrel, thermal storage device body includes interconnective upper cover (1) and lower cover (2), upper cover (1) includes the thermal-arrest layer (11) being cascading from inside to outside, upper heat-insulation layer (12) and upper coat of metal (13), the inner surface of upper heat-insulation layer (12) is provided with outer heat-reflecting layer (80), the inner surface of thermal-arrest layer (11) is provided with interior heat-reflecting layer (81), between the outer heat-reflecting layer (80) of the outer heat-reflecting layer (80) of upper heat-insulation layer (12) and the outer surface interval of thermal-arrest layer (11) layout and upper heat-insulation layer (12) and thermal-arrest layer (11), be provided with heat collector cavity (14), lower cover (2) includes lower heat-insulation layer (21) and the lower coat of metal (22) being cascading from inside to outside,

Thermal storage device body is fitted with for air being directed into air intake tube connector (30) and the air-out tube connector (31) for the air in heat collector cavity (14) is derived in heat collector cavity (14), air intake tube connector (30) is fitted with blast pipe (40), air-out tube connector (31) is fitted with discharge pipe (41), the corresponding air intake tube connector of air outlet (30) of blast pipe (40) is equiped with blast pipe joint (50), the corresponding air-out tube connector of air inlet (31) of discharge pipe (41) is equiped with discharge pipe joint (51), blast pipe joint (50) and discharge pipe joint (51) include respectively outer joint sleeve (52) and are flush-mounted in the interior joint sleeve (53) in the through hole of outer joint sleeve (52), interior joint sleeve (53) is fixedly welded in the through hole of outer joint sleeve (52), the bottom of interior joint sleeve (53) extends to the lower end side of corresponding outer joint sleeve (52), each outer joint sleeve (52) cover is stuck in the air inlet position of air outlet position and the discharge pipe (41) of corresponding blast pipe (40), in each, the bottom of joint sleeve (53) is intercalated in respectively in corresponding air intake tube connector (30) and air-out tube connector (31).

2. a kind of structure improved waste heat according to claim 1 gathers thermal storage device, it is characterized in that: the thermal-arrest metallic conduit (6) that is embedded with hollow in described heat collector cavity (14), the air inlet of thermal-arrest metallic conduit (6) is connected with described air intake tube connector (30), and the air outlet of thermal-arrest metallic conduit (6) is connected with described air-out tube connector (31).

3. a kind of structure improved waste heat according to claim 1 gathers thermal storage device, it is characterized in that: the inside of described heat collector cavity (14) dividing plate (70) that has evenly been intervally arranged, between adjacent dividing plate (70), be formed with thermal-arrest passage (71), all thermal-arrest passages (71) are connected in series successively, the air inlet that is connected in series successively thermal-arrest passage (71) assembly forming by each thermal-arrest passage (71) is connected with described air intake tube connector (30), and the air outlet of thermal-arrest passage (71) assembly is connected with described air-out tube connector (31).

4. a kind of structure improved waste heat according to claim 1 gathers thermal storage device, it is characterized in that: described in each, in thermal-arrest passage (71), be equiped with respectively the heat-conducting block (72) that touches and be fin shape with described thermal-arrest layer (11).

5. according to a kind of structure improved waste heat described in claim 1 to 4 any one, gather thermal storage device, it is characterized in that: the straight body (101) that described upper cover (1) is provided with the tapered end (100) of the conical section that is set in injection machine gun barrel and is set in the flat segments of injection machine gun barrel, tapered end (100) is connected from front to back successively with straight body (101).