CN208938800U - A kind of cooling device of neodymium iron boron processing - Google Patents

Abstract

The utility model discloses a kind of cooling devices of neodymium iron boron processing, including furnace body, discharge port, cold plate, first air inlet pipe, booster, flow regulator load push-pull, coldplate, muffler, air accumulator and crossbeam, the furnace body is fixedly connected with overarm, the discharge port is internally provided with baffle, the second air inlet pipe and an air outlet pipe is separately connected on the right side of the cold plate, first air inlet pipe is separately connected booster and air inlet, valve is provided among the booster and air accumulator, the flow regulator includes baffle and telescopic rod, the load push-pull is fixedly connected with overarm, cooling tube is provided in the coldplate, the muffler is separately connected gas outlet and cooler, the air accumulator is connected with cooler, the crossbeam and socle weld.The cooling device of neodymium iron boron processing, cooling product quality is more efficient, and the device is because the exhaust gas that condensation generates, can pollute the environment, and can economize on resources to avoid other direct emissions.

Description

A kind of cooling device of neodymium iron boron processing

Technical field

The utility model relates to neodymium iron boron technical field of processing equipment, specially a kind of cooling device of neodymium iron boron processing.

Background technique

Material neodymium iron boron is a kind of important magnetic material, is widely used in multiple fields, with excellent magnetic property Referred to as " magnetic king ", but because the neodymium iron boron under natural environment can not directly process use, after needing to melt neodymium iron boron It can be used to process each part, in process, temperature when melting generally reaches nd-fe-b permanent magnetic alloy material It is 1400 DEG C or more, expected brilliant to reach in order to make nd-fe-b permanent magnetic alloy material realize crystallisation by cooling within the predetermined time Body structure and material property, it usually needs NdFeB material is cooled down；

But the cooling equipment of existing processing does not exist still to a certain extent, i.e., after thawing in cooling procedure, because For the area reason of cooling device, cooling effect is poor, and cooling time is uncontrolled, therefore entire cooling procedure is more long, secondly It is existing equipment to condensed gas direct emission after cooling, such mode not only causes environmental pollution, and also very waste provides Source.

Utility model content

The purpose of this utility model is to provide a kind of cooling devices of neodymium iron boron processing, to solve in above-mentioned background technique The existing equipment of proposition is in the Shortcomings on cooling effect and efficiency, and the asking there are environmental pollution in cooling gas processing Topic.

To achieve the above object, the utility model provides the following technical solutions: a kind of cooling device of neodymium iron boron processing, packet Include furnace body, discharge port, cold plate, the first air inlet pipe, booster, flow regulator load push-pull, coldplate, muffler, air accumulator And crossbeam, the furnace body are fixedly connected with overarm, and are connected with discharge port on the downside of furnace body, the discharge port is internally provided with gear Plate, and baffle is connect by contracting bar with flow regulator, is separately connected the second air inlet pipe and an air outlet pipe on the right side of the cold plate, and Cold plate is fixedly connected with socle, and first air inlet pipe is separately connected booster and air inlet, and the first air inlet pipe and gas storage Tank connection, is provided with valve among the booster and air accumulator, and the flow regulator includes baffle and telescopic rod, described to push away It draws device to be fixedly connected with overarm, and load push-pull or so is connected with scraper plate, cooling tube is provided in the coldplate, and cooling tube is distinguished The second air inlet pipe and an air outlet pipe is connected, and air inlet and air outlet are installed on the outside of cooling tube, the muffler is separately connected Gas outlet and cooler, the air accumulator are connected with cooler, and the crossbeam and socle weld, and air accumulator is provided on crossbeam And cooler.

Preferably, the lower end of the furnace body is upside-down triangle shape setting, and furnace body is directly connected to discharge port

Mode is to be flexibly connected.

Preferably, first air inlet pipe, the second air inlet pipe, air inlet, muffler, gas outlet, escape pipe and cooling tube Between connection type be flexibly connected.

Preferably, the range of baffle side-to-side movement in discharge port is 0-15cm.

Preferably, the scraper plate is 0-30cm along cold plate side-to-side movement range.

Preferably, the cooling tube is in serpentine structure setting, and adheres to one layer of Nd Fe B alloys material on the outside of cooling tube.

Compared with prior art, the utility model has the beneficial effects that the cooling device of neodymium iron boron processing, passes through flow The design of adjuster and scraper plate, so that entire cooling procedure is by manual control, cooling product quality is more efficient, and the device Because condensing the exhaust gas generated, the effect of cooling tube can be passed through, it is first that exhaust gas is automatically cooling a part of under Natural regulation, then It again passes by cooler and carries out cooling utilization, can be polluted the environment to avoid other direct emissions, and money can be saved Source.

Detailed description of the invention

Fig. 1 is the utility model side structure schematic diagram；

Fig. 2 is perspective structure schematic diagram inside the utility model；

Fig. 3 is the utility model flow regulator structural schematic diagram.

In figure: 1, furnace body, 2, discharge port, 3, cold plate, the 4, first air inlet pipe, 5, booster, 6, socle, 7, valve, 8, Flow regulator, 801, baffle, 802, telescopic rod, 9, scraper plate, 10, load push-pull, the 11, second air inlet pipe, 12, overarm, 13, cooling Plate, 14, air inlet, 15, muffler, 16, gas outlet, 17, air accumulator, 18, cooler, 19, crossbeam, 20, escape pipe, 21, cold But it manages.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work Every other embodiment obtained, fall within the protection scope of the utility model.

Fig. 1-3 is please referred to, the utility model provides a kind of technical solution: a kind of cooling device of neodymium iron boron processing, including Furnace body 1, cold plate 3, the first air inlet pipe 4, booster 5, socle 6, valve 7, flow regulator 8, baffle 801, is stretched discharge port 2 Contracting bar 802, scraper plate 9, load push-pull 10, the second air inlet pipe 11, overarm 12, coldplate 13, air inlet 14, muffler 15, gas outlet 16, air accumulator 17, cooler 18, crossbeam 19, escape pipe 20 and cooling tube 21, furnace body 1 is fixedly connected with overarm 12, and furnace body 1 Downside is connected with discharge port 2, and the lower end of furnace body 1 is upside-down triangle shape setting, and furnace body 1 is directly connected to mode with discharge port 2 and is It is flexibly connected, such design can be such that the neodymium iron boron under molten condition smoothly flows out, and can be more convenient control flow, discharge port 2 It is internally provided with baffle 801, and baffle 801 is connect by contracting bar 802 with flow regulator 8, the is separately connected on the right side of cold plate 3 Two air inlet pipe 11 and escape pipe 20, and cold plate 3 is fixedly connected with socle 6, the first air inlet pipe 4 be separately connected booster 5 and into Port 14, and the first air inlet pipe 4 is connect with air accumulator 17, the first air inlet pipe 4, the second air inlet pipe 11, air inlet 14, muffler 15, connection type is to be flexibly connected between gas outlet 16, escape pipe 20 and cooling tube 21, can be local when local Pipeline damage Valve 7 is provided among replacement, booster 5 and air accumulator 17, flow regulator 8 includes baffle 801 and telescopic rod 802, The range of the side-to-side movement in discharge port 2 of baffle 801 is 0-15cm, which is exactly the diameter of discharge port 2, can be complete Totally-enclosed discharge port 2 and setting maximum stream flow, load push-pull 10 is fixedly connected with overarm 12, and load push-pull 10 or so is connected with scraper plate 9, Scraper plate 9 is 0-30cm along 3 side-to-side movement range of cold plate, can be struck off in time when neodymium iron boron is fallen on cold plate 3, is guaranteed cold But effect is provided with cooling tube 21 in coldplate 13, and cooling tube 21 is separately connected the second air inlet pipe 11 and escape pipe 20, and Air inlet 14 and gas outlet 16 are installed, cooling tube 21 is in serpentine structure setting, and 21 outside of cooling tube is attached on the outside of cooling tube 21 One layer of Nd Fe B alloys material, exhaust gas after cooling can be subjected to cooling recycling by cooling tube 21, muffler 15 connects respectively Port 16 and cooler 18 are picked out, air accumulator 17 and cooler 18 connect, and crossbeam 19 and socle 6 weld, and set up on crossbeam 19 There are air accumulator 17 and cooler 18.

Working principle: it before the cooling device processed using the neodymium iron boron, by adjusting flow regulator 8, and opens Valve 7, so that the condensed gas in air accumulator 17 can pass through the first air inlet pipe 4 and the second air inlet pipe under the action of booster 5 11 are flowed into cold plate 3, and secondly the neodymium iron boron under molten condition can be transferred on cold plate 3 with metered flow, and molten Neodymium iron boron under state can be cooled down under the action of condensed gas, after cooled, finally be struck off by scraper plate 9, simultaneously as The cooling exhaust gas generated can be precooled by escape pipe 20 and cooling tube 21, and finally complete under the action of cooler 18 Complete cooling enter in air accumulator 17 utilizes again, and whole process is to complete the cooling work of the primary device.

While there has been shown and described that the embodiments of the present invention, for the ordinary skill in the art, It is understood that these embodiments can be carried out with a variety of variations in the case where not departing from the principles of the present invention and spirit, repaired Change, replacement and variant, the scope of the utility model is defined by the appended claims and the equivalents thereof.

Claims (6)

1. a kind of cooling device of neodymium iron boron processing, including furnace body (1), discharge port (2), cold plate (3), the first air inlet pipe (4), Booster (5), flow regulator (8) load push-pull (10), coldplate (13), muffler (15), air accumulator (17) and crossbeam (19), It is characterized by: the furnace body (1) with overarm (12) be fixedly connected, and furnace body (1) on the downside of be connected with discharge port (2), it is described go out Material mouth (2) is internally provided with baffle (801), and baffle (801) is connect by contracting bar (802) with flow regulator (8), described cold It is separately connected the second air inlet pipe (11) and escape pipe (20) on the right side of solidifying plate (3), and cold plate (3) is fixedly connected with socle (6), institute It states the first air inlet pipe (4) and is separately connected booster (5) and air inlet (14), and the first air inlet pipe (4) is connect with air accumulator (17), It is provided with valve (7) among the booster (5) and air accumulator (17), the flow regulator (8) includes baffle (801) and stretches Contracting bar (802), the load push-pull (10) are fixedly connected overarm (12), and load push-pull (10) left and right is connected with scraper plate (9), described cold But it is provided with cooling tube (21) in plate (13), and cooling tube (21) is separately connected the second air inlet pipe (11) and escape pipe (20), and And air inlet (14) and gas outlet (16) are installed on the outside of cooling tube (21), the muffler (15) is separately connected gas outlet (16) With cooler (18), the air accumulator (17) and cooler (18) connection, the crossbeam (19) and socle (6) are welded, and crossbeam (19) air accumulator (17) and cooler (18) are provided on.

2. a kind of cooling device of neodymium iron boron processing according to claim 1, it is characterised in that: under the furnace body (1) End is that upside-down triangle shape is arranged, and it is to be flexibly connected that furnace body (1), which is directly connected to mode with discharge port (2),.

3. a kind of cooling device of neodymium iron boron processing according to claim 1, it is characterised in that: first air inlet pipe (4), the second air inlet pipe (11), air inlet (14), muffler (15), gas outlet (16), escape pipe (20) and cooling tube (21) it Between connection type be flexibly connected.

4. a kind of cooling device of neodymium iron boron processing according to claim 1, it is characterised in that: the baffle (801) exists The range of discharge port (2) interior side-to-side movement is 0-15cm.

5. a kind of cooling device of neodymium iron boron processing according to claim 1, it is characterised in that: the scraper plate (9) is along cold Solidifying plate (3) side-to-side movement range is 0-30cm.

6. a kind of cooling device of neodymium iron boron processing according to claim 1, it is characterised in that: the cooling tube (21) is in Serpentine structure setting, and adhere to one layer of Nd Fe B alloys material on the outside of cooling tube (21).