CN201439262U - Movable platform structure of heat transfer printing machine - Google Patents

Abstract

The utility model discloses a movable platform structure of a heat transfer printing machine, which comprises a raised fixed platform. An upper platform is arranged at the upper end of the fixed platform at a proper spacing. The upper platform is connected with a driving shaft and can be lifted up and down. The movable platform structure comprises more than one moving platform and elastic devices connected on the left side and the right side or the front side and the rear side of the moving platform and the fixed platform. The elastic devices can raise the moving platform in the air by using the principle of lever to form a clearance between the moving platform and the fixed platform. Moreover, the moving platform is connected with the fixed platform in a matching way by using a guide rod and a bearing. Thereby, when the moving platform is driven to move, the accurate sliding function is obtained and the moving platform has the buffer function and the shock absorbing function.

Description

The movable platform structure of heat transfer machine

Technical field

The utility model relates to a kind of heat transfer machine structure, refers to a kind of heat transfer machine tool elastic buffer especially, but and the movable platform structure of autobalance adjustment.

Background technology

At present, the existing public technology relevant with the application, as the TaiWan, China patent announcement number be 522931, name is called the heat transfer machine slide carriage structure, its independent claims are: this slide also stand tall and upright in its surperficial end and is provided with one and falls L shaped arm, and be equiped with control cabinet and a heating plate, this heating plate also can be controlled by y direction decline and rising resets, and it is characterized in that: this slide seat surface also has the C shape rail groove of two breach phases, and convexes with a liptinite in the aforementioned heating plate lower position of correspondence; Also can set up a loading plate at this slide seat surface, it is in plate body two bottom sides position, also respectively be equiped with two groups of supporters, constituted with the connecting rod that this intersects pike pole knot place rank knot by pair of cross bar and a bottom, and this crossbar end all pivot is equipped with as rolling members such as bearings, and contain appearance in aforementioned C shape rail groove, be able to a spring in addition between this crossbar and link.

Above-mentioned public technology discloses, mainly is respectively to link one group of supporter in four corners, loading plate bottom, but to reach horizontal displacement and tool longitudinal elasticity function.Just the shortcoming of this application structure existence is:

1, the structure of this supporter too in complexity, has the consuming time and expensive shortcoming of assembling as mentioned above.

2, every group of supporter bottom all is pivoted with two rolling members, when rolling member hold be placed in C shape rail groove after, both meetings are because of being reserved with the gap, and cause loading plate when mobile, the generation double swerve; In case and after accumulating dust and dirt in the C shape rail groove, produce the vibration of jolting in the time of more can causing loading plate to move.

3, this supporter is located at the spring of crossbar below with horizontal mode of connection, cause spring to bear an export-oriented tensile stress forever because of holding the loading plate relation, add that the each upper and lower displacement of loading plate all can affect crossbar opening and closing interlock, this poor design all can acceleration spring produces tiredly, and loses its usefulness ahead of time.

4, being provided with highly of loading plate can be tired and reduce gradually along with spring, and the design of Height Adjustment can't be provided.

The utility model content

In view of this, the technical problems to be solved in the utility model is to provide a kind of designs simplification, moves smooth and easy, as can to carry out the heat transfer machine of highly fine setting, tool buffering elastic force usefulness movable platform structure.

For solving the problems of the technologies described above, the technical solution of the utility model is achieved in that a kind of movable platform structure of heat transfer machine, this heat transfer machine has a high fixed platform, is provided with liftable driving shaft above fixed platform, and this driving shaft lower end links a upper mounting plate; The feature of this movable platform structure comprises:

One displacement platform is located at the relative top of fixed platform; At least two group elastic force apparatus are attached at the limit, front end two opposite sides, the end of displacement platform and fixed platform respectively, make this displacement platform can carry out front and back and move horizontally, and have elastic force fine setting automatically up and down.

Another technical scheme that adopts is: a kind of movable platform structure of heat transfer machine, this heat transfer machine have a high fixed platform, are provided with the driving shaft of lifting above fixed platform, and this driving shaft lower end links a upper mounting plate; The feature of this movable platform structure comprises:

At least one or two can the left and right mutual displacement platforms that moves, and it is located at the fixed platform top; At least two group guide rod device are attached at the bottom front and back ends of displacement platform and fixed platform; At least two group elastic force apparatus, group is located at the limit, the left and right two opposite sides of bottom center of fixed platform respectively, can keep the gap by made displacement platform and fixed platform by guide rod device and elastic force apparatus, and make displacement platform can produce vertical shock-absorbing elastic force.

The technique effect that the utility model reaches is as follows:

1, the movable platform of the utility model heat transfer machine mainly be between fixed platform and displacement platform with elastic force apparatus as binding, and this elastic force apparatus is that the utilization lever principle is with displacement platform launching cradle height, make between displacement platform and fixed platform and produce the space, in view of the above, when dilatory displacement platform moves, can reduce contact resistance, and obtain best slippage function.

2, the utility model displacement platform mainly is that the rectangular tubular guide rod of utilization cooperates linear bearing, with its in good time being attached at separately on the predetermined part, impels displacement platform to have the most stable and slippage function non-migration.

3, the movable platform of the utility model heat transfer machine can set up single displacement platform or dibit to move two kinds of types of platform according to process requirements.

Description of drawings

Fig. 1 looks exploded view for the master of the utility model preferred embodiment one;

Fig. 2 looks up exploded view for the part of the utility model preferred embodiment one;

Fig. 3 looks three-dimensional combination figure for the master of the utility model preferred embodiment one;

Fig. 4 is the local constitutional diagram of looking up of the utility model preferred embodiment one;

Fig. 5 looks local constitutional diagram for the master of the utility model preferred embodiment one;

Fig. 6 is the local constitutional diagram of the side-looking of the utility model preferred embodiment one;

Fig. 7 looks exploded view for the master of the utility model preferred embodiment two;

Fig. 8 is the exploded view of looking up of the utility model preferred embodiment two;

Fig. 9 is the forward sight three-dimensional combination figure of the utility model preferred embodiment two;

Figure 10 is the three-dimensional combination figure of looking up of utility model preferred embodiment two;

Figure 11 looks local constitutional diagram for the master of the utility model preferred embodiment two;

Figure 12 is the side-looking constitutional diagram of the utility model preferred embodiment two;

Figure 13 is the profile at Figure 11 institute A-A place;

Figure 14 is the profile at Figure 12 institute B-B place;

Figure 15 is that state stereogram is implemented in the utility model structure preferred embodiment two;

Figure 16 is the front view of Figure 15;

Figure 17 is the partial sectional view of Figure 16.

Wherein, the parts label declaration is as follows:

Heat transfer machine----10 fixed platforms----11 pivot seat hole------111

Screw--------112 driving shafts------12 upper mounting plates-------13

Heater------14 controllers------15 movable platforms----200

Displacement platform----21 concane gaps------22 elastomeric pads-----23

Handle--------24 elastic force apparatus----30 guide rods---------31

Panel seat--------32 pivot holes--------321 conduits--------322

Perforation--------323 screws--------324 axostylus axostyles---------33

Motion bar------34 bearings--------341 elastic force screw rods-----35

Nut--------351 springs---------36 Height Adjustment screws-37

Pulley--------38 guide rod device----40 guide rods---------41

Guide rod seat------42 lugs--------421 microscler platforms----422

Link screw rod----43 bearings--------44 screws---------45

The specific embodiment

At first, consult Fig. 1-shown in Figure 6, movable platform structure preferred embodiment one for a kind of heat transfer machine of the utility model, this heat transfer machine 10 is provided with a high fixed platform 11, the position is provided with the vertical driving shaft 12 of lifting in fixed platform 11 relative top positions, these driving shaft 12 lower ends link upper mounting plate 13, is equipped with a heater 14 at upper mounting plate 13; One controller 15, but whether control heater 14 and driving shaft 12 move.

These movable platform 200 structures comprise:

One can forward and backward mobile displacement platform 21, it is erected at the relative top of fixed platform 11, and the length and width of displacement platform 21 is all greater than fixed platform 11, the back segment portion of this displacement platform 21 is formed with a concane gap 22, the upper surface of displacement platform 21 is provided with the above elastomeric pad 23 of a slice at least, be extended with deckle board downwards along displacement platform 21 bottom peripheral edge in addition, the front end of former frame plate then is provided with more than one handle 24.

At least two group elastic force apparatus 30 are attached at the limit, front end two opposite sides, the end of displacement platform 21 and fixed platform 11 respectively, and each organizes elastic force apparatus 30, comprising:

One guide rod 31, for being erected at displacement platform 21 bottoms near inner side edge, the forward and backward deckle board that its front and back ends with guide rod 31 locks respectively at displacement platform 21 connects to one;

One panel seat 32, one end is provided with symmetrical pivot hole 321, can be with being preset in fixed platform 11 bottoms one-sided symmetrical pivot seat hole 111 is involutory, and wear binding with an axostylus axostyle 33 and form a fixed pivot, this panel seat 32 holds the two relative outsides to be provided with one group of above symmetrical conduit 322 at least in addition, respectively be with a motion bar 34 in the pore of each limit conduit 322, these motion bar 34 1 ends then are provided with a linear bearing 341, can wear binding for the guide rod 31 of being located at displacement platform 21 corresponding sides;

One elastic force screw rod, 35, one ends are spirally connected and are positioned at the outside that fixed platform 11 bottoms are positioned at pivot seat hole 111, and pass the perforation 323 that panel seat 32 is scheduled to;

One spring 36 is placed in elastic force screw rod 35 hypomere portions, and its contact is in panel seat 32 bottom surfaces, and end leans at the nut 351 that is bolted in elastic force screw rod 35 bottoms in addition;

Height Adjustment screw 37 more than at least one, it is bolted in the default screw 324 of panel seat 32 near conduit 322 ends;

Form via above-mentioned member, the panel seat 32 of this elastic force apparatus 30 can be via the pushing tow of the spring 36 that is located at elastic force screw rod 35, the upper surface of this panel seat 32 can be reclined mutually with fixed platform 11 lower surfaces, under this state, this displacement platform 21 can be via the fit relation of guide rod 31 and bearing 341, and the fit relation of the conduit 322 of the motion bar 34 of bearing 341 and panel seat 32, indirectly that 21 of displacement platforms is high, make the lower surface of displacement platform 21 and the upper surface of fixed platform 11 now have maximum clearance height, so, the function that when drawing displacement platform 21, has sliding smooth and easy row.

Moreover, when pressing to, develop unlatching driving shaft 12 traction upper mounting plates 13 in displacement platform 21, during again to displacement platform 21 declines, can be via the guide rod 31 and axostylus axostyle 33 interlocks of elastic force apparatus 30, and then affect panel seat 32 decline displacements, make panel seat 32 and fixed platform 11 form the angle that spacing strengthens, because the power of the releasing state that panel seat 32 declines can make the spring 36 that is placed in elastic force screw rod 35 be compressed presents a kind of pushing tow outward, at the same time, the power of the releasing state that this displacement platform 21 just produces by described spring 36, and reach the function of tool shock-absorbing buffering and automatic horizontal fine setting; In addition, this displacement platform 21 is only final positioning states after can being pressurized to and touching fixed platform 11, just the pattern heat on the transfer printing adhesive film (not shown) can be transferred to the machining object (not shown) that is placed on the displacement platform 21.Continue, after upper mounting plate 13 liftings of pressurization at displacement platform 21, this displacement platform 21 can discharge the effect of storage power immediately via aforementioned spring 36, displacement platform 21 is made progress jacking to making itself and fixed platform 11 reply gap state once more.

The person can protrude out the height of panel seat 32 upper surfaces via Height Adjustment screw 37 upper ends of rotating missile power apparatus 30 again, and then the angle of panel seat 32 and fixed platform 11 is strengthened or reduces, and so, can change the gap width of displacement platform 21 and fixed platform 11.

It is shown in Figure 17 to see also 7-, movable platform structure preferred embodiment two for a kind of heat transfer machine of the utility model, aforementioned hot transfer interpreter 10 is provided with a high fixed platform 11, the position is provided with the vertical driving shaft 12 of lifting in fixed platform 11 relative top positions, these driving shaft 12 lower ends link upper mounting plate 13, is equipped with a heater 14 at upper mounting plate 13; One controller 15, but whether control heater 14 and driving shaft 12 move;

This movable platform structure 200 comprises:

At least one or two can left and right mobile displacement platforms 21, it is erected at the relative top of fixed platform 11, and the front and back of displacement platform 21 are wider than fixed platform 11, the upper surface of this displacement platform 21 is provided with the above elastomeric pad 23 of a slice at least, a forward and backward and outboard peripheries is extended with deckle board downwards along displacement platform 21 bottoms in addition, and the outer end of former frame plate and side frame plate then is provided with more than one handle 24.

At least two group guide rod device 40, be attached at the bottom front and back ends of displacement platform 21 and fixed platform 11, each organizes guide rod device 40, comprise: the guide rod 41 of a rectangular circle, two ends are fixed in 421 of two lugs of guide rod seat 42 respectively, this guide rod seat 42 is preset with microscler platform 422 at two lugs, 421 relative outboard ends, and suitable at interval apart from upwards being connected with symmetry binding screw rod 43 at microscler platform 422, it is solid at the default screw 112 of 11 end of fixed platform front end or rear end, the end that this links screw rod 43 upper end snails; At least more than one bearing 44, be placed in this guide rod 41, and these each bearing 44 outsides all cooperate screw 45 locking to be positioned at the corresponding outside that deckle board before the displacement platform 21 or rear framing plate are set up handle 24 relatively, provide displacement platform 21 by linking all-in-one-piece bearing 44 with it, can follow with fixed platform 11 and link all-in-one-piece guide rod 41, carry out the horizontal displacement of left and right directions, in view of the above, can with displacement platform 21 whole slippages to upper mounting plate 13 just below, ascend the throne in the centre position of fixed platform 11, or displacement platform 21 whole slippages can be gone out the corresponding scope of upper mounting plate 13.

At least two group elastic force apparatus 30, group is located at the limit, the left and right two opposite sides of bottom center of fixed platform 11 respectively, and each organizes elastic force apparatus 30, comprising:

One panel seat 32, one end is provided with symmetrical pivot hole 321, can be with being preset in fixed platform 11 bottoms one-sided symmetrical pivot seat hole 111 is involutory, and wear binding with an axostylus axostyle 33 and form a fixed pivot, this panel seat 32 end in addition is provided with symmetrical conduit 322, and all linking at the pore of every conduit 322 has a pulley 38, when the subsides of panel seat 32 upper surfaces are touched in fixed platform 11 bottom faces, the top wheel face of this pulley 38 protrudes and is higher than fixed platform 11 upper surfaces, can paste for displacement platform 21 lower surface relative positions and touch on pulley 38.

In addition, this panel seat 32 is provided with a Height Adjustment screw 37 near pivot hole 321 locks, and the top of this Height Adjustment screw 37 can be rotated protrudes panel seat 32 upper surfaces, or is lower than panel seat 32 upper surfaces; When Height Adjustment screw 37 protrudes panel seat 32 upper surfaces topmost, and lean when fixed platform 11 bottom surfaces, can make panel seat 32 and fixed platform 11 present a kind of angle form, panel seat 32 is descended gradually, to reach the spacing size that tool changes fixed platform 11 upper surfaces and pulley 38 the top faces.

This panel seat 32 is provided with a perforation 323 near conduit 322 ends, and 323 places are arranged with an elastic force screw rod 35 in perforation, the solid outside that is positioned at pivot seat hole 111 in fixed platform 11 bottoms of these elastic force screw rod 35 upper end snails, and elastic force screw rod 35 bottoms are bolted with a nut 351; One spring 36 is placed in elastic force screw rod 35, and its upper end relies on panel seat 32 lower surfaces, and its lower end leans the nut 351 at elastic force screw rod 35.

By above-mentioned member, can form the displacement platform 21 that two left and right horizontal move, to reach the effect that can effectively promote the processing operation.

Each assembly of movable platform structure that more than is a kind of heat transfer machine of the utility model detailed descriptions such as structure, position and combination that are associated; Enforcement effect and the feature of reaching with regard to the utility model institute expectability more below is described as follows:

The movable platform of the utility model heat transfer machine mainly be between fixed platform and displacement platform with elastic force apparatus as binding, and this elastic force apparatus is that the utilization lever principle is with displacement platform launching cradle height, make between displacement platform and fixed platform and produce the space, in view of the above, when dilatory displacement platform moves, can reduce contact resistance, and obtain best slippage function.

Again, the utility model displacement platform mainly is that the rectangular tubular guide rod of utilization cooperates linear bearing, with its in good time being attached at separately on the predetermined part, impels displacement platform to have the most stable and slippage function non-migration.

The movable platform of the utility model heat transfer machine can set up single displacement platform or dibit to move two kinds of types of platform according to process requirements.

The above is preferred embodiment of the present utility model only, is not to be used to limit protection domain of the present utility model.

Claims (10)

1. the movable platform structure of a heat transfer machine is characterized in that, this heat transfer machine has a high fixed platform, is provided with the driving shaft of lifting above fixed platform, and this driving shaft lower end links a upper mounting plate; The feature of this movable platform structure comprises:

One displacement platform is located at the relative top of fixed platform; At least two group elastic force apparatus are attached at the limit, front end two opposite sides, the end of displacement platform and fixed platform respectively, make this displacement platform can carry out front and back and move horizontally, and have automatic fine tuning elastic force up and down.

2. the movable platform structure of described heat transfer machine as claimed in claim 1 is characterized in that, this displacement platform has forward and backward deckle board; This elastic force apparatus comprises: a guide rod, and the front and back ends locking connects to one at the forward and backward deckle board of displacement platform; One panel seat, an end are provided with symmetrical pivot hole, and are linked to axostylus axostyle and are preset in one-sided symmetrical pivot seat hole, fixed platform bottom, other holds two outsides to be provided with symmetrical conduit, each conduit all is with a motion bar, and this motion bar one end is provided with a linear bearing, can wear binding for the guide rod of corresponding sides; One elastic force screw rod, an end are screwed onto the fixed platform bottom, and pass the default perforation of panel seat; One spring is enclosed within elastic force screw rod hypomere portion, and an end contact is in the panel seat bottom surface, and end leans at the nut that is bolted in elastic force screw rod bottom in addition.

3. the movable platform structure of heat transfer machine as claimed in claim 2, it is characterized in that, this panel seat is provided with more than one screw near catheter end, and this elastic force apparatus still includes: the Height Adjustment screw more than at least one, it is bolted in the screw of described panel seat.

4. the movable platform structure of heat transfer machine as claimed in claim 1, it is characterized in that, the length and width of this displacement platform is all greater than fixed platform, and back segment portion is formed with a concane gap, be extended with deckle board downwards in the displacement platform bottom peripheral edge in addition, the front end of former frame plate then is provided with more than one handle.

5. the movable platform structure of heat transfer machine as claimed in claim 1 is characterized in that, the upper surface of the displacement platform of this displacement platform is provided with the above elastomeric pad of a slice at least.

6. the movable platform structure of a heat transfer machine is characterized in that, this heat transfer machine has a high fixed platform, is provided with the driving shaft of lifting above fixed platform, and this driving shaft lower end links a upper mounting plate; The feature of this movable platform structure comprises:

At least one or two can the left and right mutual displacement platforms that moves, and it is located at the fixed platform top; At least two group guide rod device are attached at the bottom front and back ends of displacement platform and fixed platform; At least two group elastic force apparatus, group is located at the limit, the left and right two opposite sides of bottom center of fixed platform respectively, can keep the gap by made displacement platform and fixed platform by guide rod device and elastic force apparatus, and make displacement platform can produce vertical shock-absorbing elastic force.

7. as the movable platform structure of heat transfer machine as described in the claim 6, it is characterized in that, the front and back width of this displacement platform is greater than fixed platform, and be provided with the elastomeric pad more than a slice at least in the upper surface of displacement platform, and forward and backward and outboard peripheries is extended with deckle board downwards along displacement platform bottom, and the outer end of former frame plate or side frame plate is provided with more than one handle.

8. as the movable platform structure of heat transfer machine as described in the claim 6, it is characterized in that, this guide rod device comprises: a guide rod, two ends are fixed between two lugs of a guide rod seat, this guide rod seat is provided with microscler platform in the outside relatively at two lugs, be connected with symmetry in microscler platform both sides and link screw rod, this links the screw rod upper end snail default screw in front end or rear end, the end at the bottom of fixed platform admittedly; At least more than one bearing is enclosed within this guide rod, and each bearing outside all cooperates preceding deckle board or rear framing plate one side of screw locking at displacement platform, makes displacement platform and bearing connect to one, can follow guide rod to carry out the horizontal displacement of left and right directions.

9. as the movable platform structure of heat transfer machine as described in the claim 6, it is characterized in that, this elastic force apparatus comprises: a panel seat, one end is provided with symmetrical pivot hole, can be with being preset in fixed platform bottom one-sided symmetrical pivot seat hole is involutory, and connect to fixed pivot with an axostylus axostyle, this panel seat end in addition is provided with symmetrical conduit, every conduit links a pulley, when the subsides of panel seat upper surface are touched in the fixed platform bottom face, this pulley topmost wheel face protrudes the fixed platform upper surface, displacement platform lower surface relative position can be pasted touch on pulley; This panel seat is provided with a perforation near catheter end, is arranged with an elastic force screw rod in perforation place, the solid outside that is positioned at pivot seat hole in the fixed platform bottom of this elastic force screw rod upper end snail, and elastic force screw rod bottom is bolted with a nut; One spring is placed in the elastic force screw rod, and its upper end relies on the panel seat lower surface, and its lower end relies on the nut of elastic force screw rod.

10. the movable platform structure of the described heat transfer machine of claim 9, it is characterized in that, this elastic force apparatus also comprises: be provided with a Height Adjustment screw at this panel seat near pivot nose end lock, the top of this Height Adjustment screw can be rotated protrudes the panel seat upper surface, or is lower than the panel seat upper surface.

Images