CN220892701U - Heat abstractor is used in betel nut production - Google Patents

Abstract

The utility model provides a heat abstractor is used in betel nut production, relates to betel nut production technical field, which comprises a housin, the ventilation hole has been seted up to the casing front, the hot air hole has been seted up to the casing back, the pipeline hole has been seted up to casing one side, swing joint has the air heater in the hot air hole, air heater bottom fixedly connected with fixed plate, fixed plate one side fixedly connected with is in casing one side, the equal fixedly connected with spliced pole in casing both sides, the inside swing joint of spliced pole has coupling assembling, the first backup pad of casing inner chamber bottom fixedly connected with, first backup pad top fixedly connected with screens piece, screens groove has been seted up to screens piece top one end, the inside swing joint of screens groove has steam heat dissipation coil pipe. By adopting the structure, the utility model improves the heat transfer efficiency of the steam heat dissipation coil, and improves the convenience of disassembly, assembly and maintenance of the steam heat dissipation coil.

Description

Heat abstractor is used in betel nut production

Technical Field

The utility model belongs to the technical field of betel nut production, and particularly relates to a heat dissipation device for betel nut production.

Background

In the betel nut production process, firstly, equipment generates heat, secondly, operations such as steaming, boiling, airing and the like are needed in the betel nut production process flow, and the heat can influence the production process of the production equipment, so that a novel heat dissipation device is needed to dissipate heat in the betel nut production process so as to improve the production process.

An example is disclosed as a Chinese patent of CN202407024U, which discloses a betel nut drying device, wherein the heat energy of a gas boiler is conveyed through a steam heat dissipation coil pipe on a pipeline and a hot air blower arranged above the steam heat dissipation coil pipe, and then enters a betel nut drying area through a hot air inlet, so that the heat dissipation efficiency and the drying efficiency are improved.

Although the device has improved gas boiler's radiating efficiency, there is not enough in its structure, for example blows into betel nut drying area through the hot-blast import of heat dissipation area with the heat energy through the air heater, and hot-blast import is in the below, and hot-blast export is in the top and the direction of blowing of air heater and hot-blast import direction become the vertical state, leads to convection efficiency not high for heat energy transfer's inefficiency, and simultaneously, air heater and heat dissipation dish structure are fixed, inconvenient dismantlement maintenance.

Disclosure of utility model

Aiming at the problems in the background art, the utility model aims to provide a heat dissipating device for betel nut production, which solves the problems of low heat energy transfer efficiency of the heat dissipating device and inconvenient disassembly and maintenance of the fixed heat dissipating structure.

The technical aim of the utility model is realized by the following technical scheme:

The utility model provides a heat abstractor is used in betel nut production, includes the casing, the ventilation hole has been seted up openly to the casing, the hot-blast hole has been seted up to the casing back, the pipeline hole has been seted up to casing one side, hot-blast downthehole swing joint has the air heater, air heater bottom fixedly connected with fixed plate, fixed plate one side fixedly connected with is in casing one side, the equal fixedly connected with spliced pole in casing both sides, the inside swing joint of spliced pole has coupling assembling, the first backup pad of casing inner chamber bottom fixedly connected with, first backup pad top fixedly connected with screens piece, screens groove has been seted up to screens piece top one end, screens piece inside swing joint has steam heat dissipation coil pipe, screens piece top fixedly connected with screens subassembly, screens subassembly one end swing joint is at steam heat dissipation coil pipe top, steam heat dissipation coil pipe one side grafting has the grafting subassembly, grafting subassembly bottom fixedly connected with second backup pad's bottom, second backup pad fixedly connected with is in the bottom of casing inner chamber, steam heat dissipation coil pipe one side fixedly connected with communicating pipe, top cap fixedly connected with communicating pipe.

As the preferred technical scheme, coupling assembling includes recess, connecting block and bolt subassembly, the front at the spliced pole is seted up to the recess, connecting block sliding connection is in the inside of recess, the top swing joint of bolt subassembly movable one end through the spliced pole is in one side of connecting block.

As the preferred technical scheme, the bolt subassembly includes draw-in groove, jack and right angle piece, the top at the spliced pole is seted up to the draw-in groove, the jack is seted up in one side of draw-in groove, the jack is linked together with the draw-in groove, right angle piece one end is pegged graft inside the draw-in groove, the right angle piece other end runs through jack swing joint in one side of connecting block.

As the preferred technical scheme, the grafting subassembly includes fixed block, rotation groove and rotation subassembly, fixed block fixed connection is at the top of second backup pad, the rotation groove is seted up at the top of fixed block, rotation subassembly one end fixed connection is in the inside of rotation groove, the rotation subassembly other end is pegged graft in steam heat dissipation coil pipe one side.

As the preferred technical scheme, the rotating assembly comprises a rotating block, a rotating shaft and a slot, wherein two ends of the rotating shaft are fixedly connected to two sides of the rotating groove, the rotating shaft penetrates through the rotating block, the rotating block is rotationally connected to the outer wall of the rotating shaft, the slot is formed in one side of the rotating block, and one side of the steam heat dissipation coil is inserted into the slot.

As the preferred technical scheme, clamping assembly includes spout, slider and direction subassembly, the spout is seted up at the top of clamping piece, slider sliding connection is in the inside of spout, direction subassembly one end fixed connection is in the inside of spout, direction subassembly other end swing joint is at steam heat dissipation coil pipe's top.

As the preferred technical scheme, the direction subassembly includes guide bar, guiding hole and screens board, guide bar both ends fixed connection is in the both sides of spout, the slider passes through guiding hole sliding connection at the outer wall of guide bar, screens board one end fixed connection is at the top of slider, screens board other end swing joint is at steam heat dissipation coil's top.

In summary, the utility model has the following advantages:

Firstly, through the ventilation hole that the casing openly was seted up and the hot air hole that the casing back was seted up, the hot-blast and the ventilation hole that hot air in the hot air hole blown out form good convection current, make the outside of the blowout ventilation hole that steam heat dissipation coil pipe heat can be quick, peg graft inside the grafting subassembly through steam heat dissipation coil pipe one end, the other end swing joint is inside the screens groove of screens piece, under the effect of screens subassembly, it conveniently shifts out from the top of steam heat dissipation coil pipe to remove the slider area, simultaneously under the effect of grafting subassembly, steam heat dissipation coil pipe shifts out the rotation that can be convenient from the screens subassembly then shift out the grafting subassembly, the purpose that steam heat dissipation coil pipe made things convenient for the dismouting has been reached, this structure has improved the transmission efficiency of steam heat dissipation coil pipe heat, the flexibility of steam heat dissipation coil pipe dismouting has been improved simultaneously;

Second, through casing both sides fixed connection's connection, under coupling assembling's effect, the connecting block slides in the recess, and inside inserting the jack when the right angle piece one end of inserting the subassembly, when the other end grafting was in the draw-in groove for the slider can not slide, when actual implementation, can be in one side of drying device through connecting block fixed connection for heat abstractor and drying device can be convenient equipment together, and this structure has improved heat abstractor's flexibility and convenience.

Drawings

FIG. 1 is a schematic elevational view of the present utility model;

FIG. 2 is a schematic view of the back structure of the present utility model;

FIG. 3 is a schematic view of the internal cavity structure of the housing of the present utility model;

FIG. 4 is a schematic view of a vapor heat dissipating coil of the present utility model;

Fig. 5 is a schematic view of the structure of the connecting assembly of the present utility model.

Reference numerals: 1. the heat exchanger comprises a shell, 11, a ventilation hole, 12, a hot air hole, 13, a pipeline hole, 14, a connecting column, 2, a top cover, 3, a connecting component, 31, a groove, 32, a connecting block, 33, a bolt component, 331, a clamping groove, 332, an inserting hole, 333, a right-angle block, 4, a fixing plate, 41, a hot air blower, 5, a first supporting plate, 51, a second supporting plate, 52, a clamping block, 53, a clamping groove, 6, a plug-in component, 61, a fixing block, 62, a rotating groove, 63, a rotating component, 631, a rotating block, 632, a rotating shaft, 633, a slot, 7, a clamping component, 71, a sliding groove, 72, a sliding block, 73, a guiding component, 731, a guiding rod, 732, a guiding hole, 733, a clamping plate, 8, a steam heat dissipation coil, 81 and a communicating pipe.

Detailed Description

Example 1

Referring to fig. 1 to 5, the heat dissipating device for betel nut production according to the present embodiment includes a housing 1, a ventilation hole 11 is provided on the front side of the housing 1, a hot air hole 12 is provided on the back side of the housing 1, a pipe hole 13 is provided on one side of the housing 1, a hot air fan 41 is movably connected in the hot air hole 12, a fixing plate 4 is fixedly connected to the bottom of the hot air fan 41, one side of the fixing plate 4 is fixedly connected to one side of the housing 1, both sides of the housing 1 are fixedly connected with a connecting column 14, a connecting component 3 is movably connected inside the connecting column 14, a first support plate 5 is fixedly connected to the bottom of an inner cavity of the housing 1, a clamping block 52 is fixedly connected to the top of the first support plate 5, a clamping groove 53 is provided at one end of the top of the clamping block 52, a steam heat dissipating coil 8 is movably connected inside the clamping groove 53, a clamping component 7 is fixedly connected to the top of the clamping block 52, one end of the clamping component 7 is movably connected to the top of the steam heat dissipating coil 8, a plug component 6 is plugged into one side of the steam coil 8, a plug component 6 is fixedly connected to the bottom of the second support plate 51, a second support plate 51 is fixedly connected to the top of the top cover 1, and a communication pipe 81 is fixedly connected to the top of the top cover 1;

The heat is radiated through the steam heat radiation coil 8, under the effect of the air heater 41 in the hot air hole 12, the heat is blown out by the vent hole 11, and the direction of blowing out of the air heater 41 and the vent hole 11 are on the same horizontal line, the heat is blown out faster under the effect of air convection, the heat radiation efficiency is improved, under the combined action of the plug-in component 6 and the clamping component 7, the heat radiation coil can be conveniently disassembled and assembled, the heat radiation device can be conveniently maintained, through the connecting components 3 on two sides of the shell 1, and the heat radiation device and the drying device can be conveniently disassembled and assembled under the effect of the connecting components 3.

Example 2

Referring to fig. 5, the connection assembly 3 includes a groove 31, a connection block 32, and a latch assembly 33, wherein the groove 31 is formed on the front surface of the connection column 14, the connection block 32 is slidably connected inside the groove 31, and a movable end of the latch assembly 33 penetrates through the top of the connection column 14 and is movably connected to one side of the connection block 32; through connecting at recess 31 internal slip, connecting block 32 can conveniently slide in and roll-off, under limit assembly's effect, connecting block 32 can be stable install inside recess 31, in actual use, fix connecting block 32 at drying device outer wall for heat abstractor and drying device can be together stable the connection, convenient dismouting simultaneously.

Referring to fig. 5, the latch assembly 33 includes a slot 331, a jack 332, and a right angle block 333, where the slot 331 is formed at the top of the connection column 14, the jack 332 is formed at one side of the slot 331, the jack 332 is in communication with the slot 331, one end of the right angle block 333 is inserted into the slot 331, and the other end of the right angle block 333 penetrates through the jack 332 to be movably connected to one side of the connection block 32; the right angle block 333 is inserted into the jack 332, and the right angle is stably inserted under the action of the clamping groove 331, so that the connecting block 32 cannot move, and the aim of stable installation of the connecting block 32 is fulfilled.

Referring to fig. 3, the plugging assembly 6 includes a fixed block 61, a rotating groove 62 and a rotating assembly 63, wherein the fixed block 61 is fixedly connected to the top of the second support plate 51, the rotating groove 62 is formed at the top of the fixed block 61, one end of the rotating assembly 63 is fixedly connected to the inside of the rotating groove 62, and the other end of the rotating assembly 63 is plugged to one side of the steam heat dissipation coil 8; one end of the rotating assembly 63 is fixed in the rotating groove 62, and the other end of the rotating assembly is inserted into one side of the steam heat dissipation coil 8, so that the steam heat dissipation coil 8 can conveniently rotate and then move out of the rotating assembly 63.

Example 3

Referring to fig. 3, the rotating assembly 63 includes a rotating block 631, a rotating shaft 632 and a slot 633, two ends of the rotating shaft 632 are fixedly connected to two sides of the rotating groove 62, the rotating shaft 632 penetrates through the rotating block 631, the rotating block 631 is rotatably connected to an outer wall of the rotating shaft 632, the slot 633 is formed on one side of the rotating block 631, and one side of the steam heat dissipation coil 8 is inserted into the slot 633; the steam heat dissipation coil pipe 8 can be conveniently installed and detached under the combined action of the slot 633 and the clamping component 7 by inserting a pipe on one side of the steam heat dissipation coil into the slot 633.

Referring to fig. 3, the clamping assembly 7 includes a sliding groove 71, a sliding block 72 and a guiding assembly 73, wherein the sliding groove 71 is formed at the top of the clamping block 52, the sliding block 72 is slidably connected inside the sliding groove 71, one end of the guiding assembly 73 is fixedly connected inside the sliding groove 71, and the other end of the guiding assembly 73 is movably connected at the top of the steam heat dissipation coil 8; the sliding block 72 slides in the sliding groove 71 to drive the clamping plate 733 to move in or out of the top of the steam heat dissipation coil 8, so that one end of the steam heat dissipation coil 8 can be conveniently disassembled and assembled.

Referring to fig. 3, the guide assembly 73 includes a guide rod 731, a guide hole 732, and a clamping plate 733, wherein two ends of the guide rod 731 are fixedly connected to two sides of the chute 71, the slider 72 is slidably connected to an outer wall of the guide rod 731 through the guide hole 732, one end of the clamping plate 733 is fixedly connected to a top of the slider 72, and the other end of the clamping plate 733 is movably connected to a top of the steam heat dissipating coil 8; the slider 72 slides on the outer wall of the guide rod 731 through the guide hole 732 so that the slider 72 can be stabilized in the slide groove 71.

The use principle and the advantages are that: by placing the shell 1 on a stable plane, fixedly connecting the connecting block 32 on one side of the drying device through the connecting column 14 and the connecting component 3, sliding the connecting block 32 into the groove 31, inserting one end of the right-angle block 333 of the inserting component 6 into the inserting hole 332, inserting the other end into the clamping groove 331, stabilizing the sliding block 72 in the groove 31, radiating heat through the steam radiating coil 8 by the hot steam input through the communicating pipe 81 in the pipeline hole 13, blowing the hot air 41 in the hot air hole 12, accelerating the heat to blow out from the ventilation hole 11, stably installing the hot air 41 on the fixed plate 4, inserting one end of the steam radiating coil 8 into the clamping groove 331 of the clamping block 52 through the clamping block 52 on the top of the first supporting plate 5, driving the clamping plate 733 to move into or out of the top of the steam radiating coil 8 by the sliding block 72 in the sliding chute 71 under the action of the clamping component 7, make steam heat dissipation coil pipe 8 conveniently peg graft or shift out screens groove 53, simultaneously under the effect of slider 72 at guide assembly 73, slider 72 slides at the outer wall of guide bar 731 through guiding hole 732, make slider 72 can stable slip, through bolt assembly 33, steam heat dissipation coil pipe 8 shifts out screens groove 53 back, rotate again, because steam heat dissipation coil pipe 8 one end peg graft in slot 633, consequently, the rotatory piece 631 that drives rotation assembly 63 rotates in fixed block 61 top rotation groove 62, rotatory piece 631 rotates under the effect of axis of rotation 632, make steam heat dissipation coil pipe 8 relative level through second backup pad 51 and backup pad, this structure has improved thermal transfer efficiency, convenience and the convenience of maintenance through being the improvement heat abstractor dismouting.

Claims (7)

1. The utility model provides a heat abstractor is used in betel nut production, includes casing (1), its characterized in that: the utility model discloses a steam heat dissipation coil pipe, including casing (1), connecting column (14) inside swing joint has connecting component (3), casing (1) inner chamber bottom fixedly connected with first backup pad (5), first backup pad (5) top fixedly connected with screens piece (52), screens piece (53) have been seted up at screens piece (52) top one end, screens piece (52) top fixedly connected with screens piece (7) in casing (1) one side, screens piece (7) one end swing joint is in steam heat dissipation coil pipe (8) top, the first backup pad (6) of grafting (6) are connected with in steam heat dissipation coil pipe (8) top fixedly connected with first backup pad (5) inside swing joint, screens piece (5) top fixedly connected with screens piece (52), screens piece (53) inside swing joint has steam heat dissipation coil pipe (8), the second support plate (51) is fixedly connected to the bottom of the inner cavity of the shell (1), one side of the steam radiating coil pipe (8) is fixedly connected with a communicating pipe (81), the communicating pipe (81) penetrates through the pipe guide hole, and the top of the shell (1) is fixedly connected with a top cover (2).

2. The heat dissipating device for betel nut production according to claim 1, wherein: the connecting assembly (3) comprises a groove (31), a connecting block (32) and a bolt assembly (33), wherein the groove (31) is formed in the front face of the connecting column (14), the connecting block (32) is slidably connected in the groove (31), and one movable end of the bolt assembly (33) penetrates through the top of the connecting column (14) and is movably connected to one side of the connecting block (32).

3. The heat dissipating device for betel nut production according to claim 2, wherein: the bolt subassembly (33) is including draw-in groove (331), jack (332) and right angle piece (333), the top at spliced pole (14) is seted up in draw-in groove (331), one side at draw-in groove (331) is seted up in jack (332), jack (332) are linked together with draw-in groove (331), right angle piece (333) one end is pegged graft inside draw-in groove (331), right angle piece (333) other end runs through one side of jack (332) swing joint in connecting block (32).

4. The heat dissipating device for betel nut production according to claim 1, wherein: the plug-in assembly (6) comprises a fixed block (61), a rotating groove (62) and a rotating assembly (63), wherein the fixed block (61) is fixedly connected to the top of the second supporting plate (51), the rotating groove (62) is formed in the top of the fixed block (61), one end of the rotating assembly (63) is fixedly connected to the inside of the rotating groove (62), and the other end of the rotating assembly (63) is plugged in one side of the steam radiating coil (8).

5. The heat dissipating device for betel nut production of claim 4, wherein: the rotating assembly (63) comprises a rotating block (631), a rotating shaft (632) and a slot (633), two ends of the rotating shaft (632) are fixedly connected to two sides of the rotating groove (62), the rotating shaft (632) penetrates through the rotating block (631), the rotating block (631) is rotationally connected to the outer wall of the rotating shaft (632), the slot (633) is formed in one side of the rotating block (631), and one side of the steam radiating coil (8) is inserted into the slot (633).

6. The heat dissipating device for betel nut production according to claim 1, wherein: the clamping assembly (7) comprises a sliding groove (71), a sliding block (72) and a guiding assembly (73), wherein the sliding groove (71) is formed in the top of the clamping block (52), the sliding block (72) is slidably connected in the sliding groove (71), one end of the guiding assembly (73) is fixedly connected in the sliding groove (71), and the other end of the guiding assembly (73) is movably connected to the top of the steam heat dissipation coil pipe (8).

7. The heat dissipating device for betel nut production of claim 6, wherein: the guide assembly (73) comprises a guide rod (731), guide holes (732) and clamping plates (733), two ends of the guide rod (731) are fixedly connected to two sides of the sliding groove (71), the sliding block (72) is slidably connected to the outer wall of the guide rod (731) through the guide holes (732), one end of each clamping plate (733) is fixedly connected to the top of the sliding block (72), and the other end of each clamping plate (733) is movably connected to the top of the steam radiating coil (8).