CN217622711U - Bottom assembly of thermal transfer printer and thermal transfer printer - Google Patents

Abstract

The utility model relates to a heat-transfer seal equipment technical field, concretely relates to bottom subassembly of heat-transfer seal machine, include: a lower support, a bracket and a pad; the bracket is arranged on the lower support through the guide rail device and comprises a plastic base and a metal supporting plate, the plastic base comprises a supporting surface and a positioning bulge arranged on the edge of the supporting surface, the positioning bulge surrounds the supporting surface to form a supporting plate assembly area, the metal supporting plate is assembled in the supporting plate assembly area and is fixedly connected to the supporting surface, and the positioning bulge extends out of the upper side of the metal supporting plate; the pad is assembled on the upper side of the metal supporting plate and is positioned by the positioning protrusion, and the thickness of the pad is configured to be protruded out of the upper surface of the positioning protrusion. The bracket is designed into the plastic base and the metal supporting plate, the metal supporting plate can resist high temperature and is not softened, the structural strength of the bracket is ensured, meanwhile, the plastic base can not generate heat accumulation, and the low temperature can not cause high-temperature injury to human bodies; this construction reduces the overall weight of the bracket. The utility model also provides a thermal transfer machine of using above-mentioned bottom subassembly.

Description

Bottom assembly of thermal transfer printer and thermal transfer printer

Technical Field

The utility model relates to a heat-transfer seal equipment technical field, concretely relates to bottom subassembly of heat-transfer seal machine, especially the improvement of bracket.

Background

The existing automatic pressure thermal transfer printer comprises a printer body, a base, a bracket and a heating pressing plate assembly, wherein the bracket is arranged on the base, and a pad piece is generally placed on the bracket in order to improve the air permeability and the hot pressing effect.

Because the bracket needs the great operating pressure of bearing, the operating temperature of heating clamp plate subassembly is to the influence of bracket moreover, in order to ensure the structural strength of bracket, generally adopts the metal material structure, but metal material can lead to the bracket weight heavy, and is with high costs, produces heat accumulation moreover easily, causes high temperature injury to the human body easily.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving current bracket and adopting metal material weight heavier, produce heat accumulation easily, cause the problem of high temperature injury to the human body easily, through designing into plastics base and metal layer board with the bracket, the plastics base includes bearing surface and sets up the location arch at the bearing surface border, and the location arch is around forming layer board assembly area, and metal layer board assembly is in layer board assembly area and fixed connection solves on the bearing surface.

A base assembly for a thermal transfer printer, comprising: a lower support, a bracket and a pad; the bracket is installed on the undersetting, the bracket includes plastic base and metal supporting plate, and the plastic base includes the bearing surface, and the metal supporting plate assembly is on the bearing surface, and the outer border of metal supporting plate is extended along the outer border of plastic base, and the pad spare assembly is in metal supporting plate upside.

The bracket is designed into the plastic base and the metal supporting plate, the metal supporting plate can resist high temperature and is not softened, the structural strength of the bracket can be ensured, meanwhile, the plastic base can not generate heat accumulation, and the low temperature can not cause high-temperature damage to human bodies; in addition, this structure reduces the overall weight of the bracket.

Preferably, the edge of the pad is provided with a plurality of tension members, the lower side or the outer side of the side part of the plastic base is provided with a connecting part, and the tension members are connected to the corresponding connecting parts to enable the pad to be positioned on the upper side of the metal supporting plate. Through adopting above-mentioned structure, can make the backing member fix the upside at metal layer board, avoid sliding the dislocation.

One scheme of the tensioning piece is a pull rope, the connecting part is a buckling position, and the pull rope can be designed into two ends to be connected with the cushion piece, so that the pull rope can be directly buckled on the buckling position. The pull rope can also be buckled on the buckling position through an annular part or an annular part arranged at the tail end. Of course, the pull rope can also be tied on the button position. The buckle position is a structure which can fix the pull rope, such as a bulge or a hook, even a connector connected with the pull rope.

Another scheme of the tensioning piece is a Moshu drawstring, and the connecting part is a Moshu sticking cloth. The scheme is quick and convenient to connect.

The other scheme of the tensioning piece is a cloth sleeve arranged at the edge of the ring cushion piece, the connecting part is the edge of the plastic base, and the cloth sleeve is sleeved on the edge of the plastic base.

Another scheme of the tensioning piece is that the cushion piece is connected with the metal supporting plate through a magic tape.

The metal supporting plate is connected with the bearing surface by two schemes, one scheme is that the metal supporting plate is fixedly connected with the bearing surface by a connecting piece, so that the connection scheme is simple and reliable; and the second is fixedly connected to the bearing surface through bonding materials.

Preferably, the bracket is connected to the lower support through a rail device, the rail device bracket mounting member is connected with the lower support, the bracket mounting member comprises a rail connecting part which is oppositely arranged and used for mounting two rail devices, and the inner end of the rail connecting part is designed into an inclined surface structure along the upper side and the outer side. The inclined plane structure can avoid being placed on the cushion piece and buckling the inner end of the connecting part of the guide rail when the fabric is pulled out outwards to cause damage.

The utility model also provides a heat transfer machine of using above-mentioned bottom subassembly, include: the machine body is provided with an upper support and a bottom component; the hot pressing plate assembly is arranged below the upper support and is controlled by the driving mechanism to move up and down; the driving mechanism comprises a motor, a reduction gear, a transmission gear component and a screw rod nut pair, wherein the motor, the reduction gear and the transmission gear component are arranged on the upper support; and the hot pressing plate assembly is arranged below the upper support, is fixedly connected with the nut at the middle part of the lower part of the upper support and is driven by the screw rod to rotate to move up and down.

Drawings

FIG. 1 is a perspective view of a thermal transfer printer

FIG. 2 is a perspective view showing a state where a holder of a thermal transfer printer is pulled out

FIG. 3 is a perspective cross-sectional view of a thermal transfer printer

FIG. 4 is a perspective cross-sectional view of the drive mechanism

FIG. 5 is a partial perspective view of the drive mechanism

FIG. 6 is a perspective schematic view of the foot assembly

FIG. 7 is an exploded view of the base assembly

FIG. 8 is an exploded view of the bracket

FIG. 9 is a bottom perspective view of the bracket

Detailed Description

The first embodiment is as follows:

referring to fig. 6 to 9, a bottom assembly of a thermal transfer printer includes: a lower support 1.2, a bracket 3 and a cushion d; the bracket 3 is arranged on the lower support 1.2, the bracket 3 comprises a plastic base 3.1 and a metal supporting plate 3', the plastic base 3.1 comprises a bearing surface 3.10, the metal supporting plate 3' is assembled on the bearing surface 3.10, the outer edge of the plastic base 3.1 extends to the outer edge of the metal supporting plate 3', and a pad piece d is assembled on the upper side of the metal supporting plate 3'.

By designing the bracket 3 into the plastic base 3.1 and the metal supporting plate 3', the metal supporting plate 3' can resist high temperature without softening, the structural strength of the bracket 3 can be ensured, meanwhile, the plastic base 3.1 can not generate heat accumulation, and the outer edge of the plastic base 3.1 has low temperature and can not cause high-temperature damage to human bodies; in addition, this structure reduces the overall weight of the bracket 3, reducing costs.

The edge of the padding element d is provided with a plurality of tensioning elements (not shown), the lower side or the outer side of the side part of the plastic base 3.1 is provided with a connecting part, and the tensioning elements are connected on the corresponding connecting part to position the padding element d on the upper side of the metal supporting plate 3'. By adopting the structure, the cushion piece d can be fixed on the upper side of the metal supporting plate 3' to avoid sliding dislocation.

The tensioning piece is a pull rope, the connecting part is a buckling position, and the pull rope can be designed into two ends to be connected with the cushion piece d, so that the pull rope can be directly buckled on the buckling position. The pull rope can also be buckled on the buckling position through an annular part or an annular part arranged at the tail end. Of course, the pull rope can also be tied on the button position. The clasp is a structure that can hold the pull cord, such as a protrusion or hook K (shown in fig. 9), or even a tab that is connected to the pull cord.

The pull rope is preferably an elastic rope, so that the tensioning effect is better, and the pull rope can also be a partial section with elasticity.

In other embodiments (not shown), the tensioning member may be a morse strap and the connecting portion is a morse patch. The scheme is quick and convenient to connect. The mousse pulling strip can be fixed on the holding piece d by common modes such as sewing, bonding and the like, and the mousse sticking cloth can be fixed on the plastic base 3.1 by common modes such as bonding, connecting pieces such as nails and the like.

In other embodiments (not shown), the tension member may be a cloth cover disposed at the edge of the ring cushion member d, the connecting portion is the edge of the plastic base 3.1, and the cloth cover is disposed on the edge of the plastic base 3.1. The cloth cover is a skirt extending downwards from the edge of the cushion element d, and elastic ribs are preferably arranged on the skirt to facilitate the fixation on the plastic base 3.1. The cloth cover can be integrated with the outer cover of the cushion piece d or fixed on the holding piece d by common manners such as sewing, bonding and the like.

In other embodiments (not shown), the pad d is connected to the metal pallet 3' by a hook and loop fastener. One of the magic tapes is fixed on the lower side of the cushion piece d in a common mode such as sewing, bonding and the like, and the other magic tape is fixed on the bearing surface 3.10 in a common mode such as sewing, nailing and the like. The magic tape can be one whole large area or a plurality of magic tapes.

Referring to fig. 8, the metal supporting plate 3' is connected with the supporting surface 3.10 by two schemes, one is that the metal supporting plate is fixedly connected with the supporting surface 3.10 by a connecting piece, so that the connection scheme is simple and reliable; and secondly, the bearing surface is fixedly connected to the bearing surface 3.10 through bonding materials.

Referring to fig. 6 and 7, the bracket 3 is connected to the lower support 1.2 by two rail means S, the rail means S is connected to the lower support 1.2 by bracket mounting means S1, the bracket mounting means S1 comprises rail connecting portions S11 for mounting the two rail means S in an opposed arrangement, and an inner end S110 of the rail connecting portions S11 is designed as a sloping structure along the upper side outwards. The inclined plane structure can avoid damage to the inner end of the guide rail connecting part S11 when the fabric is pulled out when the fabric is placed on the pad piece d. The front side of the bracket 3 is provided with a handle for convenient operation.

Referring to fig. 8, the edge of the bearing surface 3.1 is provided with a positioning protrusion 3.2, the positioning protrusion 3.2 surrounds to form a supporting plate assembly area 3.1', the metal supporting plate 3' is assembled in the supporting plate assembly area 3.1', and the metal supporting plate is convenient to install and position by configuring the positioning protrusion 3.2.

Referring to fig. 8, a notch 3.11 is arranged in the middle of the plastic base 3.1, and a bearing surface 3.1 is formed between the notch 3.11 and the positioning protrusion 3.2. The use of materials can be reduced by adopting the structure.

The positioning bulge 3.2 is a circle of convex edge arranged around the edge of the bearing surface 3.1. The scheme has good structural strength and is easy to manufacture.

Alternatively, the positioning protrusions 3.2 are provided in a plurality and arranged around a circle on the edge of the bearing surface.

Example two:

referring to fig. 1 to 9, the present embodiment is an automatic thermal transfer printing machine to which a base assembly of the embodiment is applied, including: the hot pressing machine comprises a machine body 1, a hot pressing plate assembly 2, a bracket 3 and a cushion piece d; the machine body 1 is provided with an upper support 1.1 and a lower support 1.2 which extend horizontally; the hot-pressing plate assembly H is arranged below the upper support 1.1 and is controlled by a driving mechanism m to move up and down.

The front end face of the upper support 1.1 is provided with a control area e, and the control area e is provided with elements of control equipment, such as keys and a touch screen.

Referring to fig. 4 and 5, an embodiment of the driving mechanism m includes a motor m1, a reduction gear m2, a transmission gear member m3 and a lead screw nut pair R installed in an upper support 1.1, wherein the upper end of a lead screw R1 is fixedly connected with the middle part of the reduction gear m 2; the middle part of the hot pressing plate assembly H is fixedly connected with a nut R2 and is rotationally driven by a screw rod R1 to move up and down, and a screw rod avoiding channel R0 is arranged in the middle part of the hot pressing plate assembly H.

In one embodiment, the gearbox m4 comprises a first box m41 and a second box m42 which are arranged up and down, a first bearing mounting part m411 is arranged on the inner wall of the first box m41, a second bearing mounting part m421 and a screw rod mounting hole m422 penetrating the middle part of the second bearing mounting part m421 are correspondingly arranged on the inner wall of the second box m42, the upper end of a screw rod R1 penetrates through the upper side of a reduction gear m2, a first plane bearing m51 and a second plane bearing m52 are respectively connected to the lower side and the lower side of the reduction gear m2 at the upper end of the screw rod R1, the first plane bearing m51 is mounted on the first bearing mounting part m411, and the second plane bearing m52 is mounted on the second bearing mounting part m421. The upper end of the screw rod R1 is assembled with a first box m41 and a second box m42 by adopting a first plane bearing m51 and a second plane bearing m52, and is assembled with a first bearing installation part m411 and a second bearing installation part m421 by utilizing the axial bearing characteristics of the first plane bearing m51 and the second plane bearing m52, so that the axial positioning of the screw rod R1 is realized, the universal screw rod R1 can be adopted without processing an axial positioning structure on the screw rod R1, and the economy is better.

In order to maintain the concentricity of the screw rod R1, a radial bearing m53 is also assembled below the screw rod assembly hole m422, the screw rod R1 is installed on the radial bearing m53, and the radial bearing m53 refers to a bearing capable of realizing the coaxiality maintenance, such as a roller bearing. In order to facilitate the installation of the radial bearing m53, a third bearing mounting portion m423 opened at a lower side is provided below the screw mounting hole m422, and the radial bearing m53 is installed in the third bearing mounting portion m423 and the lower side is fixed by a screw.

See the description of example 1 for the construction of the bottom assembly.

Modifications and variations of the above-described embodiments are possible to those skilled in the art in light of the above teachings and teachings, and the invention is not limited to the specific embodiments disclosed and described, but rather, modifications and variations are possible within the scope of the invention as defined by the appended claims.

Claims (10)

1. A base assembly for a thermal transfer printer, comprising:

a lower support;

the bracket is arranged on the lower support and comprises a plastic base and a metal supporting plate, the plastic base comprises a supporting surface, the metal supporting plate is assembled on the supporting surface, and the outer edge of the plastic base extends to the outer edge of the metal supporting plate;

and the pad piece is assembled on the upper side of the metal supporting plate.

2. The bottom assembly of a thermal transfer printer of claim 1, wherein the edges of the cushion member are provided with tension members, and the underside or outside of the side portions of the plastic base is provided with connecting portions, the tension members being connected to the corresponding connecting portions to position the cushion member on the upper side of the metal pallet.

3. The bottom assembly of a thermal transfer printer of claim 2, wherein the tension member is a pull cord and the attachment portion is a snap.

4. The bottom assembly of a thermal transfer printer of claim 2, wherein the tension member is a mousse strip and the connecting portion is a mousse patch.

5. The bottom assembly of a thermal transfer printer of claim 2, wherein the tension member is a cloth sleeve disposed at an edge of the ring cushion member, and the connecting portion is an edge of the plastic base member over which the cloth sleeve is fitted.

6. The bottom assembly of a heat transfer printer of claim 1, wherein the pad member is attached to the metal blade by hook and loop fasteners.

7. The bottom assembly of a thermal transfer printer of claim 1, wherein the edge of the support surface has a positioning protrusion, the positioning protrusion surrounding a mounting area of the support plate, the metal support plate being mounted in the mounting area of the support plate and fixedly attached to the support surface.

8. The base assembly of a thermal transfer printer of claim 1, wherein the metal pallet is fixedly attached to the support surface by a connector, or the metal is fixedly attached to the support surface by an adhesive material.

9. The bottom assembly of a thermal transfer printer according to claim 1, wherein the bracket is connected to the lower support by rail means, and rail means bracket mounting members are connected to the lower support, the bracket mounting members including rail attachment portions for mounting the two rail means in an opposed arrangement, the inner ends of the rail attachment portions being formed with an upper outwardly sloping surface.

10. A thermal transfer printer, comprising:

a housing having an upper support and the base assembly of any of claims 1-9;

the hot pressing plate assembly is arranged below the upper support and is controlled by the driving mechanism to move up and down;

the driving mechanism comprises a motor, a reduction gear, a transmission gear component and a screw rod nut pair, wherein the motor, the reduction gear and the transmission gear component are arranged on the upper support;

and the hot pressing plate assembly is arranged below the upper support, is fixedly connected with the nut at the middle part of the lower part of the upper support and is driven by the screw rod to rotate to move up and down.

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