CN206259788U - New type linear motor module - Google Patents

Abstract

The utility model discloses a kind of New Type Linear Motor module, including installing plate, boss, side plate, linear electric motors, support board, guide rail, microchannel heat sink, refrigerant fluid storage organization, micropump and semiconductor cooler, boss upper table surface is provided with guide rails assembling groove, and linear electric motors include stator and mover；Support board is located at guide rail and the top of mover and the lower face of support board is connected with mover, guide rail is located in guide rails assembling groove and mover can be moved freely along guide rail, boss is located at the top of installing plate and is fixedly connected with installing plate, stator is located on installing plate upper face and positioned at the side of boss, and microchannel heat sink is provided between stator and installing plate.The utility model effectively can quickly make linear electric motors lower the temperature and ensure linear electric motors running precision, quickly and efficiently radiated using microchannel heat sink, heat inside linear electric motors is excluded, it is ensured that the running precision of linear electric motors, and then ensure that the accuracy of equipment.

Description

New Type Linear Motor module

Technical field

The utility model is related to Linear motor device, more particularly, to a kind of New Type Linear Motor module.

Background technology

Linear electric motors are also referred to as linear electric machine, linear motor, line motor, pusher motor, the most frequently used linear electric motors type It is flat, U-type groove formula and tubular type.The control of linear electric motors as electric rotating machine, as brushless rotary motor, mover and stator Mechanical connects (brushless), and unlike the aspect of electric rotating machine, mover rotation and position of stator keep fixing, and linear induction motor system can Being that track is dynamic or thrust coil is dynamic (most of alignment system application is that track is fixed, and thrust coil is moved).Transported with thrust coil Dynamic motor, the weight and duty factor very little of thrust coil.But need high flexibility cable and its management system.Moved with track Motor, not only to bear load, still suffer from track quality, but without cable management system.But working long hours to produce Substantial amounts of heat is given birth to and accumulates, and the heat that linear electric motors base plate sends can influence the running precision of linear electric motors, and then influence The accuracy of equipment, significantly limit the lifting of linear motor performance.

Utility model content

In view of this, the utility model purpose is to be to provide one kind effectively can quickly make linear electric motors lower the temperature and ensure The New Type Linear Motor module of linear electric motors running precision, is quickly and efficiently radiated using microchannel heat sink, by linear electric motors Internal heat is excluded, it is ensured that the running precision of linear electric motors, and then ensure that the accuracy of equipment.

To reach above-mentioned purpose, the utility model uses following technical proposals：New Type Linear Motor module, including install Plate, boss, side plate, linear electric motors, support board, guide rail, microchannel heat sink, refrigerant fluid storage organization, micropump and partly lead Chiller, the boss upper table surface is provided with guide rails assembling groove, and the linear electric motors include stator and mover；The support board It is located at the guide rail and the top of the mover and the lower face of the support board is connected with the mover, the guide rail is located at institute State in guide rails assembling groove and the mover can be moved freely along the guide rail, the boss be located at the top of the installing plate and with The installing plate is fixedly connected, and the stator is located on the installing plate upper face and positioned at the side of the boss, described fixed The microchannel heat sink is provided between the sub and installing plate；The high temperature refrigerant fluid outflow end of the microchannel heat sink with The high temperature refrigerant fluid of the refrigerant fluid storage organization flows into the connection of end fluid communication, the refrigerant fluid storage organization it is low Warm refrigerant fluid outflow end flows into end fluid communication and is connected with the low temperature refrigerant fluid of the micropump, the low temperature of the micropump Refrigerant fluid outflow end flows into end fluid communication and is connected with the low temperature refrigerant fluid of the microchannel heat sink；The semiconductor system The refrigeration end of cooler is located in the cavity of the refrigerant fluid storage organization；The installing plate is respectively arranged at two ends with the side plate And the side plate is fixedly connected with the boss.

Above-mentioned New Type Linear Motor module, the micropump is separately mounted to the peace with the refrigerant fluid storage organization On dress plate.

Above-mentioned New Type Linear Motor module, the refrigerant fluid storage organization is refrigerant fluid storage tank, the semiconductor The refrigeration end of refrigerator is located in the refrigerant fluid storage tank, and the heating end of the semiconductor cooler is located at the refrigerant stream Insulation material layer is provided with the tank skin of body storage tank and and the tank skin of the refrigerant fluid storage tank between.

Above-mentioned New Type Linear Motor module, the low temperature refrigerant fluid input of the microchannel heat sink is provided with flow distribution plate, The high temperature refrigerant fluid exit of the microchannel heat sink is provided with collector plate.

Above-mentioned New Type Linear Motor module, the microchannel heat sink includes upper heat sink and lower heat sink, described scattered The upper face of the lower face of hot plate and/or the lower heat sink is provided with refrigerant fluid circulation groove, the upper heat sink and described Lower heat sink is tightly connected and the lower face of the upper heat sink, the upper face of the lower heat sink circulate with the refrigerant fluid Groove surrounds refrigerant flow microchannel.

Above-mentioned New Type Linear Motor module, the refrigerant fluid circulation groove is netted circulation groove.

The beneficial effects of the utility model are as follows：

1. the utility model is combined realization using the high efficiency and heat radiation ability of microchannel heat sink with micropump small volume Linear electric motors internal heat is quickly discharged, it is ensured that the running precision of linear electric motors.Wherein, micropump is PHW water and gas dual-purposes Micropump.

2. refrigerant fluid for radiating heat is constituted with upper heat sink and/or lower heat sink using netted circulation groove in the utility model Pipe, it is to avoid part pipeline blockage causes the obvious reduction of heat sink heat sinking function or can not radiate, and advantageously ensures that linear electric motors Long-term stable operation.

Brief description of the drawings

Fig. 1 is the structural representation of New Type Linear Motor module of the present utility model；

Fig. 2 is the structural representation of another line of vision of New Type Linear Motor module of the present utility model；

Fig. 3 is the structural representation of microchannel heat sink in New Type Linear Motor module of the present utility model；

Fig. 4 is the structural representation of lower heat sink in New Type Linear Motor module of the present utility model.

In figure：1- support boards；2- movers；3- stators；4- guide rails；5- boss；6- side plates；7- microchannels heat sink；8- pacifies Dress plate；9- flow distribution plates；10- collector plates；11- micropumps；12- semiconductor coolers；13- refrigerant fluid storage tanks；The heat-insulated materials of 14- The bed of material；The upper heat sinks of 15-；Heat sink under 16-；17- refrigerant flow microchannels；18- refrigerant fluid circulation grooves.

Specific embodiment

In order to illustrate more clearly of the utility model, the utility model is done into one with reference to preferred embodiments and drawings The explanation of step.Similar part is indicated with identical reference in accompanying drawing.It will be appreciated by those skilled in the art that below Specifically described content is illustrative and be not restrictive, and should not limit protection domain of the present utility model with this.

As depicted in figs. 1 and 2, New Type Linear Motor module of the present utility model, including installing plate 8, boss 5, side plate 6, Linear electric motors, support board 1, guide rail 4, microchannel heat sink, refrigerant fluid storage organization, micropump 11 and semiconductor cooler 12, the upper table surface of the boss 5 is provided with guide rails assembling groove, and the linear electric motors include stator 3 and mover 2；The support board 1 sets It is connected with the mover 2 in the guide rail 4 and the top of the mover 2 and the lower face of the support board 1, the guide rail 4 sets In the guide rails assembling groove and the mover 2 can be moved freely along the guide rail 4, the boss 5 is located at the installing plate 8 Top and it is fixedly connected with the installing plate 8, the stator 3 is located on the upper face of the installing plate 8 and positioned at the boss 5 Side, is provided with side microchannel heat sink 7 between the stator 3 and the installing plate 8；Side microchannel heat sink 7 High temperature refrigerant fluid outflow end flows into end fluid communication and is connected with the high temperature refrigerant fluid of the refrigerant fluid storage organization, described The low temperature refrigerant fluid outflow end of refrigerant fluid storage organization flows into end fluid and leads with the low temperature refrigerant fluid of the micropump 11 Lead to and connect, the low temperature refrigerant fluid outflow end of the micropump 11 and the low temperature refrigerant fluid stream of side microchannel heat sink 7 Enter and hold fluid communication to connect；The refrigeration end of the semiconductor cooler 12 is located in the cavity of the refrigerant fluid storage organization； The installing plate 8 be respectively arranged at two ends with the side plate 6 and the side plate 6 is fixedly connected with the boss 5.

In order to reduce the length of connection and connector between part of appliance in the utility model running, the present embodiment In, the micropump 11 is separately mounted on the installing plate 8 with the refrigerant fluid storage organization.Wherein, from refrigerant stream Body storage tank 13 is used as the refrigerant fluid storage organization, and the refrigeration end of the semiconductor cooler 12 is located at the refrigerant In fluid storage tank 13, the heating end of the semiconductor cooler 12 be located on the tank skin of the refrigerant fluid storage tank 13 and with Insulation material layer 14 is provided between the tank skin of the refrigerant fluid storage tank 13.

In order to there is refrigerant fluid to flow through and uniform flow in microchannel in the microchannel heat sink 7, in this implementation, Flow distribution plate 9 is provided with the low temperature refrigerant fluid input of the microchannel heat sink 7, and in the height of the microchannel heat sink 7 Warm refrigerant fluid exit is provided with collector plate 10.Wherein, as shown in Figure 3 and Figure 4, the microchannel heat sink 7 includes upper radiating The upper face of plate 15 and lower heat sink 16, the lower face of the upper heat sink 15 and the lower heat sink 16 is provided with refrigerant fluid Circulation groove 18, the upper heat sink 15 and the lower heat sink 16 are tightly connected and the lower face of the upper heat sink 15, described The upper face of lower heat sink 16 surrounds refrigerant flow microchannel 17, and the refrigerant fluid stream with the refrigerant fluid circulation groove 18 Groove 18 is netted circulation groove 18, and this just makes the upper heat sink 15 and the lower heat sink 16 be tightly connected and the upper radiating The refrigerant flow microchannel that the lower face of plate 15, the upper face of the lower heat sink 16 are surrounded with the refrigerant fluid circulation groove 18 17 is a netted refrigerant flow microchannel 17, so as to ensure that local microchannel appearance blocking also will not in whole netted microchannel Circulation of the influence refrigerant fluid in the refrigerant flow microchannel 17, and then ensure that the radiating of the microchannel heat sink 7 Function, so as to ensure that running precision during linear electric motors long-term work.

During utility model works, using the micropump 11 by the low temperature cold of the memory storage of refrigerant fluid storage tank 13 Matchmaker's fluid is pumped into the netted refrigerant flow microchannel 17 on the microchannel heat sink 7, when low temperature refrigerant fluid is from netted cold The heat that linear electric motors generation is absorbed when being flowed through in matchmaker's flow microchannel 17 becomes high temperature refrigerant fluid, then flows into described cold In matchmaker's fluid storage tank 13 and cooling is carried out by the semiconductor cooler 12 and be re-converted into low temperature refrigerant fluid.It is whole at this During individual radiating and cooling, because the diameter of refrigerant flow microchannel 17 is smaller, refrigerant fluid can be made to be fully used, from And the efficiency of whole radiation processes can be improved, reduce energy consumption.

Obviously, above-described embodiment of the present utility model is only intended to clearly illustrate the utility model example, and It is not the restriction to implementation method of the present utility model, for those of ordinary skill in the field, in described above On the basis of can also make other changes in different forms, all of implementation method cannot be exhaustive here, It is every to belong to the obvious change or change still in of the present utility model that the technical solution of the utility model extends out The row of protection domain.

Claims (6)

1. New Type Linear Motor module, it is characterised in that including installing plate (8), boss (5), side plate (6), linear electric motors, loading Plate (1), guide rail (4), microchannel heat sink (7), refrigerant fluid storage organization, micropump (11) and semiconductor cooler (12), Boss (5) upper table surface is provided with guide rails assembling groove, and the linear electric motors include stator (3) and mover (2)；The support board (1) guide rail (4) is located to connect with the mover (2) with the top of the mover (2) and the lower face of the support board (1) Connect, the guide rail (4) is located in the guide rails assembling groove and the mover (2) can move freely along the guide rail (4), described convex Platform (5) is located at the top of the installing plate (8) and is fixedly connected with the installing plate (8), and the stator (3) is located at the installation It is provided with described micro- on plate (8) upper face and between the side of the boss (5), the stator (3) and the installing plate (8) Passage heat sink (7)；The high temperature refrigerant fluid outflow end of the microchannel heat sink (7) and the refrigerant fluid storage organization High temperature refrigerant fluid flow into end fluid communication connection, the low temperature refrigerant fluid outflow end of the refrigerant fluid storage organization with it is described The low temperature refrigerant fluid of micropump (11) flows into the connection of end fluid communication, the low temperature refrigerant fluid outflow end of the micropump (11) End fluid communication is flowed into the low temperature refrigerant fluid of the microchannel heat sink (7) to be connected；The semiconductor cooler (12) Refrigeration end is located in the cavity of the refrigerant fluid storage organization；The installing plate (8) is respectively arranged at two ends with the side plate (6) And the side plate (6) is fixedly connected with the boss (5).

2. New Type Linear Motor module according to claim 1, it is characterised in that the micropump (11) and the refrigerant Fluid storage organization is separately mounted on the installing plate (8).

3. New Type Linear Motor module according to claim 2, it is characterised in that the refrigerant fluid storage organization is cold Matchmaker's fluid storage tank (13), the refrigeration end of the semiconductor cooler (12) is located in the refrigerant fluid storage tank (13), institute State semiconductor cooler (12) heating end be located on the tank skin of the refrigerant fluid storage tank (13) and with the refrigerant fluid Insulation material layer (14) is provided between the tank skin of storage tank (13).

4. New Type Linear Motor module according to claim 3, it is characterised in that the microchannel heat sink (7) it is low Warm refrigerant fluid input is provided with flow distribution plate (9), and the high temperature refrigerant fluid exit of the microchannel heat sink (7) is provided with afflux Plate (10).

5. according to any described New Type Linear Motor modules of claim 1-4, it is characterised in that the microchannel heat sink (7) including upper heat sink (15) and lower heat sink (16), the lower face and/or the lower heat sink of the upper heat sink (15) (16) upper face is provided with refrigerant fluid circulation groove (18), and the upper heat sink (15) and the lower heat sink (16) sealing connect Connect and the lower face of the upper heat sink (15), the upper face of the lower heat sink (16) and the refrigerant fluid circulation groove (18) Surround refrigerant flow microchannel (17).

6. New Type Linear Motor module according to claim 5, it is characterised in that the refrigerant fluid circulation groove (18) is Netted circulation groove.