CN201143486Y - Anti-loose coating machine for fastener and fixing element - Google Patents

Abstract

The utility model relates to an anti-loosening coating machine used for fastening elements and fixing elements. The coating machine comprises a machine station, a material feeding element, a material guiding element, a heating device and a material supply device; the supply frame of the machine station is provided with a rotatable rotation shaft; the rotation shaft is provided with the material feeding element which moves along with the rotation shaft; the material guiding mechanism is connected with the mechanism feeding element and a component which guides most fixing elements and lead the fixing elements to be delivered to the material feeding element after arrangement; the heating device adopts high frequency current induction heating; the induction element of the heating device is closer to the fixing element than the material feeding element; the material supply device is arranged on the machine station and is connected with coating raw material; the position of the coating element is corresponding to that of the fixing element. When the anti-loosening coating machine of the invention is used for carrying screws and coating, only the surface is heated, the temperature increment during heating process and the temperature reduction during cooling process are fast; meanwhile, the nozzle of the coating element sprays enough coating raw material to be contacted with the screws; the heating, coating and cooling strokes are shortened, the whole mechanical volume is reduced, and the coating construction efficiency is improved.

Description

A kind of locking coating machine that is used for securing member and retaining element

Technical field

The utility model relates to a kind of surface applied machine, is specifically related to a kind of locking glue coating machine that is used for securing member and retaining element.

Background technology

General retaining element such as screw all are to utilize a firing equipment that screw is heated to design temperature, and the threaded shank site surface at screw applies the locking glue of one deck then, and provide locking to prevent to get loose.Mostly be to utilize nozzle will prevent that ground rosin body or liquid are sprayed on the screw rod position of screw at present, the contact powder at heating spiral rod position or liquid make locking glue form attach then; The firing equipment at the screw rod position of heating screw has many types at present, it is to utilize the high frequency eddy-current heating that a kind of firing equipment is arranged recently, this firing equipment can not contact the screw rod position of screw and heat, and is fit to very much the heating of screw rod position, is to use many a kind of firing equipments.

If use above-mentioned high frequency induction heating equipment, in the locking glue machine of coating commonly used, the rotating disk of carrying screw is for avoiding being subjected to the high frequency eddy-current heating, all be to select nonmetallic engineering plastic for use, and all be the screw rod position of screw to be heated with low-frequency high frequency eddy-current heating, this machine will cause the screw rod deep layer position of screw will be heated simultaneously, the screw rod bulk temperature all raises, so must have just to make screw surface reach both fixed temperatures long heat time heating time, because heat time heating time is long, the mobile distance of rotating disk rotation that is coated with carrying screw in the locking glue machine also just increases relatively, the interval that firing equipment forms the heating screw also is very long, so firing equipment and nozzle standoff distance can be very big, general firing equipment and nozzle are separated by about 180 degree at interval.Make with nonmetallic engineering plastic owing to rotating disk in addition, its heat loss through conduction poor effect, therefore can't offer the good direct heat loss through conduction condition of high temperature screw, and after the whole heating-up temperature in inside and outside layer position, screw rod position raises, making the screw rod position of screw drop to low temperature from high temperature also is to waste considerable time, so the locking glue machine of coating commonly used all increases the disk diameter size as far as possible.In order to increase screw rod is fully lowered the temperature in the reality, often after the locking glue screw of coating breaks away from rotating disk, still to move on to cooling device and cool off, do like this and not only cause mechanical volume own to enlarge, additionally increase cooling device again, cause the equipment manufacturing cost costliness; The more important thing is that screw applies the construction of locking glue and finishes the back when breaking away from rotating disk, screw applies locking glue and may not cool off, does solid fully, will cause screw to drop and compile and pile up, screw apply locking glue impaired, produce defective products.

Ejection element in the locking glue machine of coating commonly used all is provided with a roomy room, this room is connected with a nozzle, one feeding mouth and pipe fitting pilot gas, because the volume of roomy room is much larger than this nozzle in the ejection element, feeding mouth and pipe fitting, for making this roomy room of the convenient processing of this ejection element, this ejection element is all processed individually with a plurality of bodies, then with a plurality of body assemblies, do like this and not only make complexity, the cost height, and after this pipe fitting ejection gas flows into this room, gas this feeding mouth of behind the segment distance of advancing, just flowing through, so gas flow rate can reduce, the efficient that can cause like this extracting locking raw material in this feeding mouth reduces greatly, therefore need inject that more high pressure is quick, more the gas of volume just can increase the locking raw material of extraction slightly, and many disappearances but also very inconvenient are not only arranged in the use.

The utility model content

The purpose of this utility model provides a kind of locking coating machine that is used for securing member and retaining element, this coating machine utilizes very tight firmware of high frequency heating of metal and all kinds of retaining elements top layer, heating, cooling velocity are accelerated, heating, coating and cooling stroke shorten, whole machinery is less, has improved securing member and all kinds of retaining element and has covered with paint, lacquer, colour wash, etc. efficiency of construction.

For achieving the above object, the utility model adopts following technical scheme:

A kind of locking coating machine that is used for securing member and retaining element, this coating machine comprises board, feeding element, guide member, heater and feeding device, wherein:

A rotatable rotating shaft has been set up in the confession of described board, is equiped with the feeding element in this rotating shaft, and described feeding element moves in company with rotating shaft;

Described guide member is connected described feeding element, and described guide member is transported to the member in the described feeding element continuously for the most retaining elements of guiding and after it is arranged;

Described heater comprises feeding unit, sensible heat element and output, described feeding unit one end connects power supply, one end connects the sensible heat element, high-frequency high frequency heating is provided, described sensible heat element extends along described feeding element periphery lower position, and be separated with spacing mutually with described feeding element, described sensible heat element is than the more approaching described retaining element of described feeding element;

Described feeding device connects the former materials device of coating on the described board for the material spray element is set up in, described material spray element is corresponding with the position of retaining element, described material spray element is carried the coating raw material, and ejection coating raw material contacts on the described retaining element and the corresponding position of material spray element.

Described feeding element is the disc carrier, is provided with article putting groove around the described carrier, and described article putting groove is a deep-slotted chip breaker, and this deep-slotted chip breaker is used to put described retaining element.

Described retaining element is the magnetic conductivity retaining element, and described carrier is the non-magnetic carrier, and described non-magnetic carrier is a rigid body.

Described guide member is fixed on this board and with two guide plates and sets up at interval, and it is mobile that described firmware components places the interval between described two guide plates also can guide, and forms to arrange continuously in regular turn and carries.

The extended end of described sensible heat element along described carrier periphery lower position extend the described extended end in back around and form passage.

Described heater is close to described material spray element and is installed on described board, shorten the backplate that described feeding element carries described retaining element cooling shift motion and be installed on described board in abutting connection with described feeding element, backplate is fan-shaped extension, described carrier periphery article putting groove is closed in the inboard, and described feeding element carries described retaining element by described backplate interval.

Described backplate terminal position is provided with an aggregate bin, retaining element after the coating that described aggregate bin is accepted the carrying of described feeding element is finished, the air blowing element that one correspondence is arranged between described aggregate bin and described backplate end, described air blowing element pilot gas are blown described retaining element and are made more fast cooling and make it drop to described aggregate bin of its skin temperature.

Preferably described carrier bottom side is provided with recessed position, and an aggregate bin is located at this board, places the female downside position, and described aggregate bin can cover the scope of described material spray element ejection material fully.

Described material spray element is provided with room, and described room is communicated with nozzle, feeding mouth and air guide element; Described air guide element one end is communicated with external gas, and the other end gos deep into described room, makes gas pour into described room and will be blown out described coating raw material contact retaining element from the powder coating raw material that feeding mouth is drawn by described nozzle.

One slide bar is fixed on this board, and a slide is connected in this slide bar and can moves up and down adjusts the position, and described material spray element is set up in described slide and can moves horizontally adjusts the position.

Utilize the utility model that securing member and the locking coating of all kinds of retaining element are had the following advantages: retaining element is rapidly heated and supplies this coating raw material of sprayed coating to significantly reduce the time from being heated to, make this board size and volume reduce to reach the effect of light and handy reduced volume relatively, improved the covering with paint efficiency of construction.

Description of drawings

Fig. 1 is used for the locking coating machine external overall schematic diagram of securing member and retaining element for the utility model;

Fig. 2 is used for the locking coating machine whole cutaway view vertically of securing member and retaining element for the utility model;

Fig. 3 is used for the front view of the locking coating machine feeding device of securing member and retaining element for the utility model;

Fig. 4 is used for the locking coating machine material guide mechanism of securing member and retaining element and the vertical view of heater for the utility model;

Fig. 5 is used for the profile of the locking coating machine feeding machanism of securing member and retaining element for the utility model;

Fig. 6 is used for the locking coating machine heating spiral rod schematic diagram of securing member and retaining element for the utility model;

Among the figure: 1, board; 2, feeding element; 21, rotating shaft; 22, carrier; 23, article putting groove; 24, recessed portion; 25, backplate; 26, aggregate bin; 27, inflatable body; 271, control valve; 272, connect the arm of flexible pipe; 273, connect the arm of flexible pipe; 28, control cabinet; 3, guide member; 31, guide plate; 32, guide plate; 33, retaining element; 4, heater; 41, feeding unit; 42, output; 43, sensible heat element; 44, extended end; 45, passage; 5, feeding device; 51, slide bar; 52, slide; 53, material spray element; 54, room; 55, nozzle; 56, feeding mouth; 57, air guide element; 571, air guide end.

The specific embodiment

Following examples are used to illustrate the utility model, but are not used for limiting scope of the present utility model.

The locking coating processor preferred embodiment that is used for securing member and retaining element of the present utility model, this processor comprise that board 1, feeding element 2, guide member 3, heater 4 and feeding device 5 form, wherein:

The frame 6 that supplies of board 1 is provided with a rotatable rotating shaft 21 among this embodiment as shown in Figure 2, one feeding element 2 is set up in this rotating shaft 21, the disc carrier 22 of this feeding element 2 for making with the metallic copper or the aluminium of non-magnetic, this carrier 22 is with fixedly connected this rotating shaft 21 in center, can the concentric rotation move, these carrier 22 peripheries form thin outer shroud and periphery and are provided with most arc article putting grooves 23, these carrier 22 bottom sides are provided with recessed portion 24, are formed centrally the recessed annular shape of proper width in these recessed position 24 correspondences.

The backplate 25 that shortens described feeding element 2 carrying retaining elements 33 cooling shift motions among this embodiment is installed on described board 1 in abutting connection with feeding element 2, the described retaining element 33 of feeding element 2 carryings is by described backplate 25 intervals, backplate 25 is the fan-shaped suitable amplitude that extends to form, this carrier 22 periphery article putting grooves 23 are closed in these backplate 25 inboards, one aggregate bin 26 is located at this backplate 25 ends, be fixed in this board 1, one inflatable body, 27 logical external gases, which is provided with control valve 271, control valve 271 is communicated with two flexible arms 272 respectively, 273, arm 272,273 pilot gas are to the precalculated position; This board 1 side is provided with a control cabinet 28 for configuration circuit and Control Component.

Guide member 3 described in described this embodiment of Fig. 3 is fixed on this board 1 and with two guide plates 31,32 and sets up at interval, the retaining element 33 of a plurality of magnetic conductivity, retaining element is iron screw in the present embodiment, this firmware components 33 places the interval between this guide plate 31,32 and can guide mobile, form to arrange continuously in regular turn and carry, these guide plate 31,32 1 ends side respectively are connected this carrier 22 peripheries, this retaining element 33 places this article putting groove 23 location in regular turn, can be transported to the precalculated position by carrier 22.

Heater 4 described in this embodiment as shown in Figure 3, comprise the power supply that is connected with the output of feeding unit 41, described feeding unit 41 is output as high-frequency output, the output 42 of this feeding unit 41 connects a sensible heat element 43, described sensible heat element 43 produces electromagnetic induction and forms eddy-current heating, sensible heat element 43 in the present embodiment provides high-frequency high frequency eddy-current heating, the extended end 44 of this sensible heat element 43 extends suitable length along this carrier 22 periphery lower position, this extended end 44 around and form a passage 45.

Slide bar 51 described in Fig. 2 and this embodiment of Fig. 4 in this feeding device 5 is fixed on this board 1, one slide 52 is connected in this slide bar 51 and can moves up and down adjusts the position, one material spray element 53 is set up in this slide 52 and can moves horizontally adjusts the position, and this material spray element 53 is that a body is provided with a room 54; Room 54 front sides of this material spray element 53 connect a nozzle 55, it is to becoming radially and the screw position of this retaining element 33 that aligns at carrier 22 centers, these room 54 upsides are communicated with a feeding mouth 56, the tank of this feeding mouth 56 takes up the coating raw material of powder, these room 54 rear sides are communicated with an air guide element 57 and are communicated with external gas, and these air guide element 57 1 long straight guide end 571 stretch into this room 54 and extend to this feeding mouth 56 lower position persons.

When the foregoing description is specifically implemented, the arm 273 of this air blowing member 27 gives bending and makes these carrier 22 periphery appropriate locations of these guide plate 31 1 distolateral linkings of alignment, the gas that this arm 273 blows out is blown this retaining element 33 and is moved according to the guiding of the interval between this guide plate 31,32, makes this retaining element 33 place article putting groove 23 location of this carrier 22 in regular turn; The be separated by position of appropriate gap and this article putting groove 23 that aligns of the extended end 44 of sensible heat element 43 and these carrier 22 periphery downsides, these carrier 22 rotations also drive this retaining element 33 together with moving, the screw rod of this retaining element 33 down and move into this extended end 44 around the passage 45 that forms, also corresponding with article putting groove 23 these sensible heat element 33 assemblings except that the characteristic of tool magnetic conductivity of this retaining element 33, the efficient that this retaining element 33 is induction heated is quite high.

This feeding unit 41 makes this sensible heat element 43 produce electromagnetic induction together with power supply, the extended end 44 of this sensible heat element 43 forms magnetic field, electric current variation around the passage 45 that forms simultaneously, the screw rod position of this retaining element 33 produces eletric power induction by this passage 45, and the screw rod position of this retaining element 33 produces the high frequency eddy-current heating.The screw rod position of this retaining element 33 forms the top layer heating, and heighten with the frequency appropriateness, the specific thicknesses heating of control top layer, the only top layer heating of the screw rod position of this retaining element 33, so as long as the very short time can heat to and need temperature, the passage 45 of this extended end 44 can appropriateness shorten, these retaining element 33 heating are rapidly heated, can move on to simultaneously nozzle 55 positions of this material spray element 53 fast, this retaining element 33 is rapidly heated from being heated to, can significantly reduce the time for this coating raw material of sprayed coating, this carrier 22 drives this retaining element 33 and shortens shift motion relatively, that is to say that this extended end 44 not only can shorten length, more can be close to the position of this material spray element 53, it is long that the utility model is different from sensible heat component size commonly used, and it is far apart from the material spray position of components.

The element of sensible heat described in the present embodiment 43, material spray element 53 next-door neighbours install concentratedly in this board 1, move after this carrier 22 drives these retaining element 33 heating and applies processing and form long enough and continuous stroke, these carrier 22 these retaining elements 33 of drive of chien shih cool off when providing enough, as long as being installed, a backplate 25 closes on this carrier 22 periphery cooled regions in the present embodiment, be different from polylith backplate circular row sensible heat element, material spray element and cooled region commonly used, this backplate can protect retaining element 33 that article putting groove 23 puts and move and drop; By the only top layer heating of this retaining element 33, so proper temperature as long as the very short time just can cool, this carrier 22 drives these retaining element 33 cooling shift motions also can be shortened greatly, the stroke that this carrier 22 drives these retaining element 33 heating, this coating raw material of sprayed coating and cooling can shorten greatly, the circle footpath that is to say this carrier 22 can dwindle, and makes this board 1 size and volume reduce to reach the effect of light and handy reduced volume relatively.

Utilize metallic steel to have the characteristic of non-magnetic in the present embodiment, this carrier 22 has the low-down feature of eddy-current heating efficient for the metallic steel body, good the preventing of its rigidity and intensity is out of shape, the article putting groove 23 of this carrier 22 is put this retaining element 33 and is transported and moves through this sensing element 43, because this carrier 22 moves through further from sensible heat element 43 than retaining element 33, so carrier 22 is subjected to, and the eddy-current heating influence is quite little, temperature is also low.

The optional frequency of sensible heat element 43 is selected 400kHz, 300kHz or 200kHz generation high frequency eddy-current heating in the present embodiment, makes the screw rod position of this retaining element 33 can set the thickness heating.Utilize sensible heat element 43 to produce the characteristic that high frequency eddy-current heating intervals change with the height of frequency, sensing unit 41 is communicated with power supply, make this sensible heat element 43 produce high-frequency high frequency eddy-current heating, then sensible heat element 43 is concentrated in than the zonule and heats, the efficient that carrier 33 is induction heated can be lower, and this carrier 22 is far below these retaining element 33 temperature and form the matrix of low temperature; This carrier 22 has good thermal conduction characteristic for rigidity metallic steel body, after retaining element 33 these article putting grooves 23 of storing are induction heated intensification, retaining element 33 these carriers 22 of contact lower temperature, for the retaining element 33 that is coated with raw material provides good heat conduction condition its cooling, cooling velocity are accelerated, improved the coating efficiency of construction.

In the present embodiment this retaining element 33 be seated in article putting groove 23 on the carrier 22 transport move through heating, spraying and cooling procedure after, retaining element 33 moves on to and closes on aggregate bin 26 entry positions and break away from backplate 25 ends, arm 272 pilot gas are blown this retaining element 33, these retaining element 33 fast coolings, utilize the cooling once more of blowing, make this retaining element 33 can guarantee cooling effect, finish this coating raw material of spraying and form product; This moment, another arm 272 ejection gases were blown retaining elements 33, and this retaining element 33 is easy to break away from the derived set hopper 26 that also directly drops from this article putting groove 23, and retaining element 33 landing glove containers compile.

These slides 52 of material spray element 53 collocation, this slide bar 51 form and can reach horizontal direction up and down and adjust the position in the present embodiment, can the align screw rod desired location of this retaining element 33 of this nozzle 55 of material spray element 53 front sides; In the time will spraying this coating raw material, these feeding mouth 56 guiding coating raw materials are communicated with the room 54 of material spray element 53, and air guide element 57 is communicated with external gas and enters this room 54 through guide end 571 conductings, and these guide end 471 pilot gas flow at high speed feed this room 54.

Embodiment of the present utility model has been discussed with reference to accompanying drawing.The utility model is not restricted to previous described embodiment.It will be apparent to those skilled in the art that not breaking away from of the possible multiple change and the modification of the utility model scope previous embodiment.These changes and modification drop within the utility model scope.

Claims (10)

1, a kind of locking coating machine that is used for securing member and retaining element, this coating machine comprises board (1), feeding element (2), guide member (3), heater (4) and feeding device (5), it is characterized in that:

The frame (6) that supplies of described board (1) is provided with a rotatable rotating shaft (21), is equiped with feeding element (2) in this rotating shaft (21), and described feeding element (2) moves in company with rotating shaft (21);

Described guide member (3) is connected described feeding element (2), and described guide member (3) is transported to the member in the described feeding element (3) continuously for guiding most retaining elements (32) and after it is arranged;

Described heater (4) comprises feeding unit (41), sensible heat element (43) and output (42), described feeding unit (41) one ends connect power supply, one end connects sensible heat element (43), high-frequency high frequency heating is provided, described sensible heat element (43) extends along described feeding element (2) periphery lower position, and be separated with spacing mutually with described feeding element (2), described sensible heat element (43) is than the more approaching described retaining element of described feeding element (2) (32);

Described feeding device (5) is gone up the former materials device of connection coating for material spray element (53) is set up in described board (1), described material spray element (53) is corresponding with the position of retaining element (32), described material spray element (53) is carried the coating raw material, and ejection coating raw material contacts described retaining element (32) and goes up and the corresponding position of material spray element (53).

2, the locking coating machine that is used for securing member and retaining element as claimed in claim 1, it is characterized in that, described feeding element (2) is disc carrier (22), described carrier (22) is provided with article putting groove (23) on every side, described article putting groove (23) is a deep-slotted chip breaker, and this deep-slotted chip breaker is used to put described retaining element (32).

3, the locking coating machine that is used for securing member and retaining element as claimed in claim 2 is characterized in that, described retaining element (32) is the magnetic conductivity retaining element, and described carrier (22) is the non-magnetic carrier, and described non-magnetic carrier is a rigid body.

4, the locking coating machine that is used for securing member and retaining element as claimed in claim 1, it is characterized in that, described guide member (3) is fixed at this board (1) and goes up and set up at interval with two guide plates (31,32), and described firmware components (33) places the interval between described two guide plates (31,32) and can guide mobile.

5, the locking coating machine that is used for securing member and retaining element as claimed in claim 2, it is characterized in that, the extended end (44) of described sensible heat element (43) along described carrier (22) periphery lower position extend the described extended end in back (44) around and form passage (45).

6, the locking coating machine that is used for securing member and retaining element as claimed in claim 5, it is characterized in that, described heater (4) the described material spray element of next-door neighbour (5) is installed on described board (1), shorten the backplate (25) that described feeding element (2) carries described retaining element (32) cooling shift motion and be installed on described board (1) in abutting connection with described feeding element (2), backplate (25) is fan-shaped extension, described carrier (22) periphery article putting groove (23) is closed in the inboard, and described feeding element (2) carries described retaining element (32) by described backplate (25) interval.

7, the locking coating machine that is used for securing member and retaining element as claimed in claim 6, it is characterized in that described backplate (25) terminal position is provided with an aggregate bin (26), retaining element (32) after the coating that described aggregate bin (26) is accepted described feeding element (2) carrying is finished, the air blowing element (27) that one correspondence is arranged between described aggregate bin (26) and described backplate (25) end, described air blowing element (27) pilot gas are blown described retaining element (32) and are made more fast cooling and make it drop to described aggregate bin (26) of its skin temperature.

8, the locking coating machine that is used for securing member and retaining element as claimed in claim 2, it is characterized in that described carrier (22) bottom side is provided with recessed position (24), one aggregate bin (26) is located at this board (1), place the female position (24) downside, described aggregate bin (26) can cover the ejection material scope of described material spray element (53) fully.

9, the locking coating machine that is used for securing member and retaining element as claimed in claim 1 is characterized in that described material spray element (53) is provided with room (54), and described room (54) is communicated with nozzle (55), feeding mouth (56) and air guide element (57); Described air guide element (57) one ends are communicated with external gas, the other end gos deep into described room (54), make gas pour into described room (54) and will blow out described coating raw material contact retaining element (32) by described nozzle (55) from the powder coating raw material that feeding mouth (56) is drawn.

10, the locking coating machine that is used for securing member and retaining element as claimed in claim 9, it is characterized in that a slide bar (51) is fixed on this board (1), one slide (52) is connected in this slide bar (51) and can moves up and down adjusts the position, and described material spray element (53) is set up in described slide (52) and can moves horizontally adjusts the position.

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