CN215572312U - Wall-mounted heat exchanger for machining center - Google Patents

Abstract

The utility model discloses a wall-mounted heat exchanger for a machining center, which comprises an exhaust pipe, an assembly support, an access cover and a machine shell, wherein the access cover is arranged on one side of the machine shell, the assembly support is uniformly fixed on the other side of the machine shell, the exhaust pipe is fixed at one end of the top of the machine shell, and an air inlet pipe is fixed at one end of the bottom of the machine shell. According to the utility model, the access cover, the casing and the heat exchange tube monomer are arranged, so that when the device is used specifically, on one hand, a user can disassemble or assemble the access cover on the casing by utilizing the installation effect of the locking sheet and the screw, and further, the user can conveniently clean or overhaul the inside of the casing, on the other hand, the user can sequentially assemble or disassemble the plurality of heat exchange tube monomers in the casing by utilizing the installation effect of the assembling block and the screw, and the assembly of the plurality of heat exchange tube monomers is conveniently realized by respectively installing the first installing disc and the second installing disc at the two ends of the heat exchange tube monomer.

Description

Wall-mounted heat exchanger for machining center

Technical Field

The utility model relates to the technical field of heat exchangers, in particular to a wall-mounted heat exchanger for a machining center.

Background

The heat exchanger can realize the heat conduction heat transfer effect, through the heat exchange treatment, be convenient for realize the heat in the waste gas and recycle, heat exchanger uses extensively at the machining center, but current heat exchanger for the machining center still exists when in-service use not set up filtration purification mechanism, be difficult for overhauing, heat exchange efficiency low down, anti stick corrosion-resistant effect poor and difficult hanging assembly, the difficult problem of equipment maintenance of heat exchange mechanism, this is unfavorable for the long-term popularization of device.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a wall-mounted heat exchanger for a machining center, which aims to solve the problems that a filtering and purifying mechanism is not arranged, the heat exchange efficiency is low, the anti-sticking and anti-corrosion effects are poor, the wall-mounted assembly is not easy, and the heat exchange mechanism is not easy to assemble and maintain in the background technology.

In order to achieve the purpose, the utility model provides the following technical scheme: the utility model provides a wall-hanging heat exchanger for machining center, includes blast pipe, erection support, access cover and casing, the access cover is installed to one side of casing, and the opposite side of casing evenly is fixed with erection support, and the one end at casing top is fixed with the blast pipe to chassis bottom's one end is fixed with the intake pipe, the heat exchange tube monomer is evenly installed to the inside of casing, and the inside top of casing is fixed with heat exchange tube monomer assorted discharging pipe, and the inside bottom mounting of casing have with heat exchange tube monomer assorted inlet pipe, the free lateral wall of heat exchange tube is provided with outer screw thread layer, and the free inside wall of heat exchange tube is provided with interior screw thread layer, all weld on heat exchange tube monomer, discharging pipe and the inlet pipe has first mounting disc, and the heat exchange tube monomer is kept away from the one end of first mounting disc and is installed the second mounting disc.

Preferably, blast pipe, intake pipe, discharging pipe and inlet pipe all constitute integrated welded structure between with the casing, the inside wall of blast pipe, intake pipe, discharging pipe and inlet pipe all is provided with the ceramic non-stick layer of nanometer, makes it promote the anti-adhesion corrosion-resistant effect of pipeline structure inner wall, the clearance of being convenient for is maintained.

Preferably, the one end that the casing was kept away from to blast pipe, intake pipe, discharging pipe and inlet pipe all is fixed with the ring flange, and the inside of blast pipe and intake pipe all is linked together with the inside of casing, and the inside of discharging pipe and inlet pipe all is linked together with the free inside of heat exchange tube, makes it be convenient for assemble piping installation and external air guide equipment etc..

Preferably, the assembly support is provided with 4, and the lateral wall parcel of assembly support has the silicon rubber skid resistant course, and the assembly piece has all been welded at the both ends at heat exchange tube monomer top, and evenly is provided with the screw of being connected with the casing on the assembly piece, makes its person of facilitating the use install or dismantle a plurality of heat exchange tube monomers inside the casing in proper order.

Preferably, one end of the assembling support is provided with a threaded mounting hole, and one side of the assembling support is bonded with a rubber buffer pad connected with the machine shell, so that the damping effect of the wall hanging structure of the machine shell is improved.

Preferably, one side of the access cover is provided with a rubber sealing strip matched with the machine shell, the access cover is made of stainless steel, and the sealing effect of the access cover and the machine shell during assembly is improved.

Preferably, the inner side walls of the access cover and the machine shell are both provided with Teflon anti-adhesion layers, and the machine shell is made of stainless steel, so that the anti-adhesion and corrosion-resistant effects of the access cover and the machine shell are improved.

Preferably, the edge of the access cover is uniformly welded with a locking sheet, and the locking sheet is provided with a screw connected with the casing, so that a user can clean or overhaul the inside of the casing conveniently.

Preferably, the second mounting disc has the purge tube near the welding of heat exchange tube monomer one end, constitutes threaded connection between purge tube and the heat exchange tube monomer, and evenly be provided with on the second mounting disc with the single assorted silica gel sealing washer of heat exchange tube to the inside of purge tube evenly is fixed with the active carbon filter layer, makes it promote the sealed effect when second mounting disc and the equipment of heat exchange tube monomer.

Compared with the prior art, the utility model has the beneficial effects that:

(1) when the wall-mounted heat exchanger for the machining center is used, on one hand, a user uniformly installs the purification tubes on a heat exchange mechanism formed by splicing a plurality of heat exchange tube monomers and uniformly fixes the activated carbon filter layers in the purification tubes, so that waste gas guided into the heat exchange mechanism by other equipment can be filtered and purified, and the devices such as dust, oil mist and the like of impurities in the waste gas can be prevented from entering next-stage machining equipment, thereby further reducing the electrical fault of the machining center, on the other hand, the user can use the threaded connection effect between the purification tubes and the heat exchange tube monomers to disassemble and maintain the purification tubes and the second installation disc on the heat exchange tube monomers, and the silica gel seal rings matched with the heat exchange tube monomers are uniformly arranged on the second installation disc, the sealing effect of the second mounting disc and the heat exchange tube monomer during assembly is improved;

(2) the wall-mounted heat exchanger for the machining center is provided with the heat exchange tube monomer, the external thread layer and the internal thread layer, so that the structure of the wall-mounted heat exchanger is optimized, the external thread layer is arranged on the outer side wall of the heat exchange tube monomer, the internal thread layer is arranged on the inner side wall of the heat exchange tube monomer, when in actual heat exchange operation, a medium containing large heat energy is utilized to run in the heat exchange mechanism, and the heat exchange mechanism transfers the heat energy to the medium wrapped outside the heat exchange mechanism, therefore, on one hand, the external thread layer and the internal thread layer are respectively arranged on the outer side wall and the inner side wall of the heat exchange tube monomer, the surface area of the heat exchange tube monomer can be increased, and further the advantage of increasing the heat exchange efficiency is realized, on the other hand, the increase of the heat exchange surface area of the heat exchange tube monomer is realized through the thread type structure, the machining is convenient, and the thread structure on the inner wall and the outer wall of the tube body is the existing mature technology, compared with the common operations of welding a plurality of radiating fins and the like, the cost is saved, the processing efficiency is improved, and the anti-adhesion and corrosion-resistant effects of the device are improved and the cleaning and maintenance are facilitated as the nano ceramic non-adhesion layers are arranged on the inner side walls of the exhaust pipe, the air inlet pipe, the discharge pipe and the feed pipe and the Teflon anti-adhesion layers are arranged on the inner side walls of the access cover and the shell;

(3) the wall-mounted heat exchanger for the machining center is provided with the access cover, the machine shell, the heat exchange tube monomers and the assembly support, so that when the device is used specifically, on one hand, a user can disassemble or assemble the access cover on the machine shell by utilizing the installation effect of the locking pieces and the screws, and further, the user can clean or overhaul the interior of the machine shell conveniently, on the other hand, the user can sequentially assemble or disassemble the plurality of heat exchange tube monomers in the interior of the machine shell by utilizing the installation effect of the assembly blocks and the screws, and the assembly of the plurality of heat exchange tube monomers is convenient to realize by respectively installing the first installation disc and the second installation disc at the two ends of the heat exchange tube monomers, and the user can utilize the effect of the assembly support and the threaded installation hole at the back side of the machine shell to install the device attached to the wall by the screws, and simultaneously, a rubber cushion pad is arranged between the assembly support and the machine shell, utilize the elastic buffer effect of rubber, promoted the shock attenuation effect of casing wall hanging structure.

Drawings

FIG. 1 is a schematic front view of the present invention;

FIG. 2 is a schematic view of a front cross-sectional structure of the housing of the present invention;

FIG. 3 is a front view of the mounting bracket of the present invention;

FIG. 4 is a schematic rear view cross-sectional view of a heat exchange tube unit according to the present invention;

FIG. 5 is an enlarged view of the structure at A in FIG. 4 according to the present invention.

In the figure: 1. an exhaust pipe; 2. assembling a support; 3. a locking piece; 4. an access cover; 5. an air inlet pipe; 6. a housing; 7. a heat exchange tube monomer; 8. a discharge pipe; 9. assembling the block; 10. a feed pipe; 11. a rubber cushion pad; 12. a threaded mounting hole; 13. an outer threaded layer; 14. an internal thread layer; 15. a first mounting plate; 16. a second mounting plate; 17. a purge tube; 18. an activated carbon filter layer; 19. silica gel sealing ring.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-5, an embodiment of the present invention is shown: a wall-mounted heat exchanger for a machining center comprises an exhaust pipe 1, an assembly support 2, an access cover 4 and a machine shell 6, wherein the access cover 4 is installed on one side of the machine shell 6, the assembly support 2 is uniformly fixed on the other side of the machine shell 6, the exhaust pipe 1 is fixed at one end of the top of the machine shell 6, an air inlet pipe 5 is fixed at one end of the bottom of the machine shell 6, a heat exchange pipe monomer 7 is uniformly installed inside the machine shell 6, a discharge pipe 8 matched with the heat exchange pipe monomer 7 is fixed at the top end of the inside of the machine shell 6, a feed pipe 10 matched with the heat exchange pipe monomer 7 is fixed at the bottom end of the inside of the machine shell 6, an outer thread layer 13 is arranged on the outer side wall of the heat exchange pipe monomer 7, an inner thread layer 14 is arranged on the inner side wall of the heat exchange pipe monomer 7, first installation discs 15 are welded on the discharge pipe 8 and the feed pipe 10, and a second installation disc 16 is installed at one end, far away from the first installation disc 15, of the heat exchange pipe monomer 7, an integrated welding structure is formed among the exhaust pipe 1, the air inlet pipe 5, the discharge pipe 8 and the feed pipe 10 and the shell 6, and the inner side walls of the exhaust pipe 1, the air inlet pipe 5, the discharge pipe 8 and the feed pipe 10 are all provided with nano ceramic non-stick layers;

when in use, the nanometer ceramic non-stick layer is utilized, the anti-sticking and anti-corrosion effects of the inner walls of the exhaust pipe 1, the air inlet pipe 5, the discharge pipe 8 and the feed pipe 10 are improved, and the cleaning and maintenance are convenient;

flange plates are fixed at one ends of the exhaust pipe 1, the air inlet pipe 5, the discharge pipe 8 and the feed pipe 10, which are far away from the shell 6, the interiors of the exhaust pipe 1 and the air inlet pipe 5 are communicated with the interior of the shell 6, and the interiors of the discharge pipe 8 and the feed pipe 10 are communicated with the interior of the heat exchange pipe monomer 7;

when the device is used, a user can assemble the exhaust pipe 1, the air inlet pipe 5, the discharge pipe 8 and the feed pipe 10 with corresponding air guide equipment and material guide equipment respectively by utilizing the connecting action of flange plates fixed on the exhaust pipe 1, the air inlet pipe 5, the discharge pipe 8 and the feed pipe 10;

4 assembling support seats 2 are arranged, the outer side wall of each assembling support seat 2 is wrapped with a silicon rubber anti-slip layer, assembling blocks 9 are welded at two ends of the top of each heat exchange tube monomer 7, and screws connected with the shell 6 are uniformly arranged on the assembling blocks 9;

when in use, a user can sequentially mount or dismount the plurality of heat exchange tube monomers 7 in the shell 6 by using the mounting effect of the mounting blocks 9 and the screws;

one end of the assembling support 2 is provided with a threaded mounting hole 12, and one side of the assembling support 2 is bonded with a rubber cushion pad 11 connected with the shell 6;

when the device is used, a user can utilize the action of the assembling support 2 and the threaded mounting hole 12 on the back side of the machine shell 6 to mount the device on the wall by screws, and meanwhile, the rubber buffer cushion 11 is arranged between the assembling support 2 and the machine shell 6, and the damping effect of the wall-mounted structure of the machine shell 6 is improved by utilizing the elastic buffering effect of rubber;

one side of the access cover 4 is provided with a rubber sealing strip matched with the machine shell 6, and the access cover 4 is made of stainless steel;

when in use, the rubber sealing strip is arranged on the access cover 4, so that the sealing effect when the access cover 4 and the machine shell 6 are assembled is improved;

the inner side walls of the access cover 4 and the casing 6 are both provided with Teflon anti-sticking layers, and the casing 6 is made of stainless steel;

when in use, the anti-adhesion and corrosion-resistant effects of the access cover 4 and the machine shell 6 are improved through the Teflon anti-adhesion layer;

the edge of the access cover 4 is uniformly welded with a locking sheet 3, and the locking sheet 3 is provided with a screw connected with the shell 6;

when the machine shell is used, a user can disassemble or assemble the access cover 4 on the machine shell 6 by utilizing the installation effect of the locking sheet 3 and the screw, so that the user can clean or overhaul the interior of the machine shell 6 conveniently;

a purification pipe 17 is welded at one end, close to the heat exchange pipe monomer 7, of the second mounting disc 16, threaded connection is formed between the purification pipe 17 and the heat exchange pipe monomer 7, silica gel sealing rings 19 matched with the heat exchange pipe monomer 7 are uniformly arranged on the second mounting disc 16, and an active carbon filtering layer 18 is uniformly fixed inside the purification pipe 17;

when in use, on one hand, a user uniformly installs the purifying tubes 17 on the heat exchange mechanism assembled by the plurality of heat exchange tube monomers 7, and the activated carbon filter layer 18 is uniformly fixed in the purifying tubes 17, thereby filtering and purifying the waste gas led into the heat exchange mechanism by other equipment, preventing the dust, oil mist and other devices of impurities in the waste gas from entering the next-stage processing equipment, further reducing the electrical faults of the machining center, on the other hand, a user can use the threaded connection function between the purification pipe 17 and the heat exchange pipe single body 7 to disassemble and assemble the purification pipe 17 and the second mounting disc 16 on the heat exchange pipe single body 7 for maintenance, and through evenly being provided with on second mounting disc 16 with heat exchange tube monomer 7 assorted silica gel sealing washer 19, sealed effect when having promoted second mounting disc 16 and the equipment of heat exchange tube monomer 7.

The working principle is as follows: when in use, a user can firstly utilize the action of the assembly support 2 and the threaded mounting hole 12 on the back side of the machine shell 6 to carry out wall-attached mounting on the device through screws, and simultaneously utilize the elastic buffering effect of rubber to improve the damping effect of a wall-mounted structure of the machine shell 6 by arranging the rubber buffering cushion 11 between the assembly support 2 and the machine shell 6, and then the user can utilize the connecting action of the flange plates fixed on the exhaust pipe 1, the air inlet pipe 5, the exhaust pipe 8 and the feed pipe 10 to assemble the exhaust pipe 1, the air inlet pipe 5, the exhaust pipe 8 and the feed pipe 10 with the corresponding air guide equipment and material guide equipment respectively, then waste gas generated by working equipment in a machining center can enter the heat exchange mechanism formed by assembling a plurality of heat exchange pipe monomers 7 through the feed pipe 10 and then carries out heat exchange with heat exchange gas guided into the machine shell 6 through the air inlet pipe 5, therefore, the device can replace the heat in the waste gas through the heat exchange effect, thereby not only avoiding the heat waste, but also lightening the heat pollution, meanwhile, the purifying pipes 17 are evenly arranged on the heat exchange mechanism assembled by a plurality of heat exchange pipe monomers 7, and the activated carbon filter layers 18 are evenly fixed in the purifying pipes 17, thereby being capable of filtering and purifying the waste gas led into the heat exchange mechanism by other equipment, preventing the dust, oil mist and other devices of impurities in the waste gas from entering the next-stage processing equipment, further reducing the electrical fault of the processing center, in addition, when the device is used, on one hand, a user can use the installation effect of the locking pieces 3 and the screws to disassemble or assemble the maintenance cover 4 on the machine shell 6, further being convenient for the user to clean or maintain the interior of the machine shell 6, on the other hand, the user can use the installation effect of the assembly blocks 9 and the screws, the heat exchange tube single bodies 7 are sequentially installed or disassembled in the shell 6, the first installation disc 15 and the second installation disc 16 are respectively installed at the two ends of each heat exchange tube single body 7, so that the assembly of the heat exchange tube single bodies 7 is convenient, the heat exchange mechanism in the shell 6 is convenient to assemble and maintain, the outer thread layer 13 is arranged on the outer side wall of each heat exchange tube single body 7, the inner thread layer 14 is arranged on the inner side wall of each heat exchange tube single body 7, when in actual heat exchange operation, a medium containing large heat energy is utilized to run in the heat exchange mechanism, and the heat exchange mechanism transfers the heat energy to the medium wrapped outside the heat exchange mechanism, so that on one hand, the outer thread layer 13 and the inner thread layer 14 are respectively arranged on the outer side wall and the inner side wall of each heat exchange tube single body 7, the surface area of each heat exchange tube single body 7 can be increased, and the advantage of increasing the heat exchange efficiency is realized, on the other hand, the increase of the heat exchange surface area of the heat exchange tube monomer 7 is realized through the thread type structure, the processing is convenient, the thread structure is processed on the inner wall and the outer wall of the tube body, the existing mature technology is adopted, compared with the common operations of welding a plurality of radiating fins and the like, the cost is saved, and the processing efficiency is improved.

Claims (9)

1. The wall-mounted heat exchanger for the machining center is characterized by comprising an exhaust pipe (1), an assembly support (2), an access cover (4) and a machine shell (6), wherein the access cover (4) is installed on one side of the machine shell (6), the assembly support (2) is uniformly fixed on the other side of the machine shell (6), the exhaust pipe (1) is fixed at one end of the top of the machine shell (6), an air inlet pipe (5) is fixed at one end of the bottom of the machine shell (6), heat exchange pipe monomers (7) are uniformly installed inside the machine shell (6), a discharge pipe (8) matched with the heat exchange pipe monomers (7) is fixed at the top end of the inside of the machine shell (6), a feed pipe (10) matched with the heat exchange pipe monomers (7) is fixed at the bottom end of the inside of the machine shell (6), an external thread layer (13) is arranged on the outer side wall of the heat exchange pipe monomers (7), and an internal thread layer (14) is arranged on the inner side wall of the heat exchange pipe monomers (7), all welded on heat exchange tube monomer (7), discharging pipe (8) and inlet pipe (10) have first mounting disc (15), and second mounting disc (16) are installed to the one end that first mounting disc (15) were kept away from in heat exchange tube monomer (7).

2. A wall-hung heat exchanger for a machining center as claimed in claim 1, wherein: blast pipe (1), intake pipe (5), discharging pipe (8) and inlet pipe (10) all with casing (6) between constitute integrated welded structure, the inside wall of blast pipe (1), intake pipe (5), discharging pipe (8) and inlet pipe (10) all is provided with the ceramic non-stick coating of nanometer.

3. A wall-hung heat exchanger for a machining center as claimed in claim 1, wherein: the one end that casing (6) were kept away from in blast pipe (1), intake pipe (5), discharging pipe (8) and inlet pipe (10) all is fixed with the ring flange, and the inside of blast pipe (1) and intake pipe (5) all is linked together with the inside of casing (6), and the inside of discharging pipe (8) and inlet pipe (10) all is linked together with the inside of heat exchange tube monomer (7).

4. A wall-hung heat exchanger for a machining center as claimed in claim 1, wherein: the assembly support (2) is provided with 4, and the lateral wall parcel of assembly support (2) has the silicon rubber skid resistant course, and assembly piece (9) have all been welded at the both ends at heat exchange tube monomer (7) top, and evenly be provided with the screw of being connected with casing (6) on assembly piece (9).

5. A wall-hung heat exchanger for a machining center as claimed in claim 1, wherein: one end of the assembling support (2) is provided with a threaded mounting hole (12), and one side of the assembling support (2) is bonded with a rubber buffer (11) connected with the shell (6).

6. A wall-hung heat exchanger for a machining center as claimed in claim 1, wherein: one side of the access cover (4) is provided with a rubber sealing strip matched with the machine shell (6), and the access cover (4) is made of stainless steel.

7. A wall-hung heat exchanger for a machining center as claimed in claim 1, wherein: the inner side walls of the access cover (4) and the casing (6) are both provided with Teflon anti-sticking layers, and the casing (6) is made of stainless steel.

8. A wall-hung heat exchanger for a machining center as claimed in claim 1, wherein: the edge of the access cover (4) is uniformly welded with a locking sheet (3), and the locking sheet (3) is provided with a screw connected with the casing (6).

9. A wall-hung heat exchanger for a machining center as claimed in claim 1, wherein: second mounting disc (16) are close to the welding of heat exchange tube monomer (7) one end and have purifying tube (17), constitute threaded connection between purifying tube (17) and the heat exchange tube monomer (7), and evenly be provided with on second mounting disc (16) with heat exchange tube monomer (7) assorted silica gel sealing washer (19) to the inside of purifying tube (17) evenly is fixed with active carbon filter layer (18).

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