CN217455321U - Thermal transfer printing device - Google Patents

Abstract

The utility model relates to the technical field of thermal transfer printing equipment, in particular to a thermal transfer printing device which comprises a machine body, a driving mechanism, a hot pressing plate component and a bracket; the organism includes metal support and shell covering, and metal support has: the upper bracket and the lower bracket extend in the same direction, and the side bracket connects one end of the upper bracket and one end of the lower bracket; the shell covering part comprises an upper shell part covering the upper bracket, a lower shell part covering the lower bracket and a side shell part covering the side bracket; the driving mechanism is arranged on the upper bracket; the hot pressing plate assembly is arranged below the upper shell and driven by the driving mechanism to move up and down; the bracket is supported on the lower support and used for supporting the thermal transfer printing object. Through designing the organism into metal support and shell covering, actuating mechanism and bracket are connected to metal support, and the weight and the effort of both exert at metal support, and the shell covering plays pleasing to the eye and guard action, under the circumstances of guaranteeing structural strength, can reduce the weight and the volume of organism effectively, reduce cost.

Description

Thermal transfer printing device

Technical Field

The utility model relates to a heat-transfer seal equipment technical field, concretely relates to automatic pressure's heat-transfer seal device.

Background

The existing automatic pressure heat transfer machine generally adopts a hydraulic or pneumatic mode, and has a complex structure and heavy weight; in order to solve the problems, some manufacturers design a scheme of adopting motor transmission, the automatic pressure heat transfer machine comprises a machine body, a base, a working plate and a heating pressing plate assembly, the working plate is arranged on the base, a reduction box is arranged on the machine base, the heating pressing plate assembly is driven to lift through a screw rod and nut mechanism, the machine body is required to be designed into a metal material due to the limited structural process in order to ensure the stable output of pressure, and although the structural strength is ensured, the machine body is heavy in weight and high in cost.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the current organism weight who adopts motor drive's automatic pressure heat transfer machine big, problem with high costs through designing into metal support and shell covering with the organism, actuating mechanism and bracket are connected to the metal support and solve.

The thermal transfer printing device comprises a machine body, a driving mechanism, a hot-pressing plate assembly and a bracket; the body includes a metal bracket and a housing cover, the metal bracket having: the upper bracket and the lower bracket extend in the same direction, and the side bracket is connected with one end of the upper bracket and one end of the lower bracket; the shell covering piece comprises an upper shell piece covering the upper bracket, a lower shell piece covering the lower bracket and a side shell piece covering the side bracket; the driving mechanism is arranged on the upper bracket; the hot pressing plate assembly is arranged below the upper shell and driven by the driving mechanism to move up and down; the bracket is supported on the lower support and used for supporting the thermal transfer printing object.

The machine body is designed into the metal support and the shell covering piece, the driving mechanism and the bracket are connected to the metal support, the weight and the acting force of the driving mechanism and the bracket are applied to the metal support, the shell covering piece plays a role in beauty and protection, the selection space of the material of the shell covering piece is large, the weight and the volume of the machine body can be effectively reduced under the condition of ensuring the structural strength, and the cost is reduced; the shell covering piece can be made of common shell industrial materials, so that the design space of the appearance of the product is larger.

Preferably, the upper bracket includes two upper support arms and the drive installed part that the interval set up side by side, two upper support arms are connected to the drive installed part, actuating mechanism installs drive installed part is last. By adopting the structure, the weight of the upper bracket can be reduced, the structural rigidity can be ensured, and the material cost can be reduced.

Preferably, the side support comprises two side columns arranged at intervals, one end of each upper support arm is connected with the upper end of the side column on the corresponding side, and the lower end of each side column is connected with the lower support. By adopting the structure, the weight of the side bracket can be reduced, the structural rigidity can be ensured, and the material cost can be reduced.

Preferably, the connection between one end of the upper support arm and the upper end of the corresponding side upright post comprises at least one of the following:

the triangular support connecting piece is used for connecting the lower side of one end of each upper supporting arm with the inner side of the upper end of the side upright column on the corresponding side;

the length of the corner connecting piece is matched with the distance between the upper ends of the two side upright columns, and the two ends of the corner connecting piece are respectively connected with the upper side of one end of each upper supporting arm in a wrapping manner and the outer sides of the upper ends of the side upright columns on the corresponding side; or two corner connecting pieces are arranged and respectively coated and connected with the upper side of one end of each upper supporting arm and the outer side of the upper end of the side upright post on the corresponding side.

By adopting the connecting structure, the connection between the upper support arm and the upper end of the side upright post is stable and reliable due to the triangular stability of the triangular support connecting piece and the corner limiting characteristic of the corner connecting piece.

Preferably, the triangular support connecting piece and the corner connecting piece are fixed with the corresponding side upright posts through screws and/or welding.

Preferably, the lower bracket is provided with a bearing surface, bearing side walls at least extending downwards from two opposite sides of the bearing surface, and a bearing connecting part formed at the lower end of each bearing side wall and connected with the bottom wall of the lower shell member; the bearing surface is provided with upright post jacks corresponding to the lower ends of the two side upright posts, and the lower ends of the two side upright posts are inserted into the corresponding upright post jacks in an angle-limited fit manner and are fixedly connected with the lower support. The lower bracket adopts the structure, the material weight can be reduced while the structural strength is ensured, and meanwhile, the space formed below the bearing surface is reasonably utilized to provide a space position for the connection of the lower ends of the two side stand columns, so that the product structure is more compact, and the stand column jacks enable the installation of the two side stand columns to be convenient and rapid.

Preferably, the lower ends of the two side upright posts are connected with the lower side of the lower bracket through welding, so that the connection between the lower ends of the two side upright posts and the lower side of the lower bracket is more stable.

Preferably, the device also comprises a guide rail connecting mechanism for connecting the bracket and the lower bracket, the guide rail connecting mechanism comprises a metal frame part with a front opening and connected with the supporting surface, guide rail devices are arranged on two opposite sides of the opening of the metal frame part, and the bracket is connected on the guide rail devices. By adopting the structure, a user can conveniently control the bracket, and meanwhile, the stress of the bracket can be effectively transmitted to the lower bracket through the metal frame piece.

Preferably, the upper shell member comprises a top shell and a top shell lower cover, the top shell comprises a first shell end extending to the front end of the upper bracket and a second shell end extending with a bent part and covering and connecting the upper parts of the side brackets, and an upper shell cavity accommodating the upper parts of the upper bracket and the side brackets and having an opening at the lower side is formed between the first shell end and the second shell end; the top shell lower cover covers the lower side of the upper shell cavity; the upper shell part adopts the structure, so that the top shell and the lower cover of the top shell can be stably connected, and the appearance is attractive.

The side shell piece comprises a side shell main body and a side shell cover body, the side shell main body is jointed with the top shell, the side shell cover body is jointed with the lower cover of the top shell, a side shell cavity which is laterally opened and is used for accommodating the side support is formed in the side shell main body, a buckling structure is designed between the shell walls at two vertical sides of the side shell main body and the side support, and the side shell cover body covers the lateral opening of the side shell cavity and is connected with the side shell main body through a connecting element; the lateral shell piece is convenient to mount by adopting the structure, and meanwhile, the lateral shell main body is connected with the lateral bracket through the buckling structure, so that the connection is stable, and the mounting is quick.

The lower casing part comprises a lower casing base part and a lower casing upper cover, the lower support is installed on the lower casing base part, the lower casing upper cover is covered on the upper side of the lower casing base part, and the lower casing upper cover is provided with a side support connecting hole and a support seat connecting hole.

Preferably, the lateral opposite sides of the lower housing base part are designed with extraction recesses. By designing the structure, the equipment is convenient to take and place.

Drawings

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

FIG. 2 is a left side sectional view of the thermal transfer device

FIG. 3 is a schematic perspective view of a housing cover

FIG. 4 is an exploded view of a metal bracket and housing cover

FIG. 5 is a perspective view of a metal stent

FIG. 6 is an exploded view of a metal stent

FIG. 7 is a bottom perspective view of the metal bracket

FIG. 8 is a bottom exploded view of a metal bracket

FIG. 9 is a perspective view of a metal bracket loaded with a hot platen assembly

FIG. 10 is a perspective cross-sectional view of the drive mechanism

FIG. 11 is a partial perspective view of the drive mechanism

FIG. 12 is an exploded view of the bracket and lower housing member

Detailed Description

Referring to fig. 1 to 11, the thermal transfer device includes a body 1, a driving mechanism m, a hot platen assembly H, and a bracket 3; the body 1 includes a metal bracket 1a and a housing cover 1b, the metal bracket 1a having: upper and lower brackets 1a1 and 1a2 extending in the same direction, and a side bracket 1a3 connecting the upper bracket 1a1 and one end of the lower bracket 1a 2; the case cover 1b includes an upper case member 1b1 covering the upper bracket 1a1, a lower case member 1b2 covering the lower bracket 1a2, and a side case member 1b3 covering the side bracket 1a 3; the driving mechanism m is mounted on the upper bracket 1a 1; the hot pressing plate assembly H is disposed below the upper casing member 1b1 and is driven by the driving mechanism m to move up and down; the tray 3 is supported on the lower support 1a2 for supporting the thermal transfer object.

Referring to fig. 1, 2, 10 and 11, the driving mechanism m comprises a motor m1, a reduction gear m2, a transmission gear member m3 and a lead screw nut pair R, wherein the upper end of a lead screw R1 is fixedly connected with the middle part of the reduction gear m 2; the hot pressing plate assembly H is arranged below the upper bracket 1a1, the middle part of the hot pressing plate assembly H is fixedly connected with a nut R2, and the hot pressing plate assembly H is rotationally driven by a screw rod R1 to move up and down. Through adopting the vice R drive hot pressing board subassembly H of screw-nut to go up and down, actuating mechanism m installs on upper bracket 1a1 and is located upper portion shell 1b1, and lead screw R1 is vertical fixed for the volume and the weight reduction of product, cost reduction.

By designing the machine body 1 into a metal bracket 1a and a shell covering part 1b, wherein a driving mechanism m and a bracket 3 are connected to the metal bracket 1a, the weight and the acting force of the driving mechanism m and the bracket 3 are applied to the metal bracket 1a, the shell covering part 1b plays a role in beauty and protection, the selection space of the material of the shell covering part 1b is large, and under the condition of ensuring the structural strength, the weight and the volume of the machine body 1 can be effectively reduced, and the cost is reduced; the housing cover 1b can be made of a general housing industrial material, so that the design space of the product is larger.

Referring to fig. 1, 7 and 8, in one embodiment, the driving mechanism m further comprises a gearbox m4, the gearbox m4 is installed in the driving installation area 1.10, the upper end of the screw rod, the reduction gear m2 and the transmission gear member are installed in the gearbox m4, and the motor m1 is fixedly connected with the gearbox m 4. With the above structure, the driving mechanism m has a smaller overall volume. The driving gear member is a worm, and the reduction gear m2 is a worm wheel, so that the thickness of the driving mechanism m can be further reduced, and the thickness of the upper support 1.1 can be further reduced.

Referring to fig. 10 and 11, in one embodiment, the transmission m4 includes a first box m41 and a second box m42 arranged up and down, a first bearing mount m411 is provided on an inner wall of the first box m41, a second bearing mount m421 and a lead screw mounting hole m422 penetrating through a middle portion of the second bearing mount m421 are correspondingly provided on an inner wall of the second box m42, an upper end of a lead screw R1 penetrates through an upper side of a reduction gear m2, a first planar bearing m51 and a second planar bearing m52 are respectively connected to an upper end and a lower end of the lead screw R1 on an upper side and a lower side of the reduction gear m2, a first planar bearing m51 is mounted on the first bearing mount m411, and a second planar bearing m52 is mounted on the second bearing mount m 421. The upper end of the screw 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 mounting part m411 and a second bearing mounting 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 R1 is realized, the universal screw R1 can be adopted without processing an axial positioning structure on the screw 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 the lower side is provided at the lower portion of 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.

In one embodiment, the reduction gear m2 is made of plastic and fixed on the screw rod R1 through injection molding, a pin hole R10 is arranged at the position where the screw rod R1 is connected with the reduction gear m29, and a pin (not shown) is installed in the pin hole R10, so that the injection molding connection of the reduction gear m29 and the screw rod R1 can be more stable through adopting the structure.

Referring to fig. 1-9, in one embodiment, upper carriage 1a1 includes two upper arms 1a11 spaced apart in parallel and a drive mount 1a12, drive mount 1a12 connecting two upper arms 1a11, drive mechanism m mounted on drive mount 1a12, and drive mount 1a12 provided with drive via 1a 121. With this structure, the weight of the upper bracket 1a1 can be reduced, the structural rigidity can be ensured, and the material cost can be reduced.

In one embodiment, the drive mount 1a12 is welded to the two upper arms 1a11, although screws may be used.

In one embodiment, the side stand 1a3 includes two spaced apart side posts 1a31, each upper arm 1a11 is connected at one end to the upper end of the corresponding side post 1a31, and each side post 1a31 is connected at its lower end to the lower stand 1a 2. With this structure, the weight of the side stand 1a3 can be reduced, the structural rigidity can be ensured, and the material cost can be reduced.

Referring to fig. 4 to 8, in one embodiment, the connection between one end of the upper arm 1a11 and the upper end of the side pillar 1a31 of the corresponding side includes: a triangular support link 1a13 and a corner link 1a 14. The triangular support connecting piece 1a13 is connected with the lower side of one end of each upper support arm 1a11 and the inner side of the upper end of the side upright post 1a31 on the corresponding side; the length of the corner connecting piece 1a14 is matched with the distance between the upper ends of the two side columns 1a31, and two ends of the corner connecting piece 1a14 are respectively connected with the upper side of one end of each upper support arm 1a11 and the outer side of the upper end of the corresponding side column 1a31 in a covering mode. In another alternative, the corner connector 1a14 may be configured to have two and respectively cover and connect the upper side of one end of each upper arm 1a11 and the outer side of the upper end of the corresponding side post 1a 31.

With the connection structure, the connection between the upper support arm 1a11 and the upper end of the side upright post 1a31 is stable and reliable due to the triangular stability of the triangular support connecting piece 1a13 and the corner limiting characteristic of the corner connecting piece 1a 14.

In one embodiment, the corner connector 1a14 is secured to the corresponding side post 1a31 by welding, which ensures the stability of the connection to the side post 1a31, and the corner connector 1a14 can be pre-positioned with screws to facilitate welding of the corner connector 1a14 to the corresponding side post 1a 31.

Under the condition of meeting the stress, the corner connecting piece 1a14 and the corresponding side upright post 1a31 can be connected only by screws, and the main factors considered include the size, the weight and the pressing size of the hot pressing plate assembly H.

The triangular support connecting piece 1a13 is preferably connected by screws, so that the upper bracket 1a1 is convenient to be connected with and detached from the side upright post 1a 31. For the stability of the connection, a welding aid can also be added or the connection can be made only by welding.

Referring to fig. 4 to 8, in one embodiment, the lower bracket 1a2 has a support surface 1a20, a support sidewall 1a21 extending downward from at least two opposite sides of the support surface 1a20, and a support connecting portion 1a22 formed at the lower end of the support sidewall 1a21 and connected to the bottom wall of the lower housing member 1b 2; the bearing surface 1a20 is provided with a column inserting hole 1a23 corresponding to the lower ends of the two side columns 1a31, and the lower ends of the two side columns 1a31 are inserted into the corresponding column inserting holes 1a23 in an angle limited fit mode and are fixedly connected with the lower bracket 1a 2. Lower carriage 1a2 adopts above-mentioned structure, can reduce material weight when guaranteeing structural strength, and the space that rational utilization bearing face 1a20 below formed simultaneously provides spatial position for the lower extreme connection of two side posts 1a31, makes product structure compacter, and the simple to operate that the post jack 1a23 made two side posts 1a31 is swift.

A lateral limiting structure for laterally limiting the lower end of the side upright post 1a31 is arranged at the lower side of the upright post inserting hole 1a 23. Due to the limited thickness of the bearing surface 1a20, the lateral limiting structure can prevent the two side uprights 1a31 from being laterally unstable due to the fact that the contact surfaces between the upright insertion hole 1a23 and the two side uprights 1a31 are few. Of course, the lateral stopper structure may be provided on the upper side of the pillar insertion hole 1a23 without affecting the assembly.

One version of a lateral stop structure is an extension wall 1a 231.

In one embodiment, the lower ends of the two side posts 1a31 are connected with the lower side of the lower bracket 1a2 by welding, so that the connection between the two is more stable. For reinforcing the connection, reinforcing connectors 1a24 are provided between the lower ends of the two side pillars 1a31 and the lower side of the lower bracket 1a 2.

Referring to fig. 4, 5 and 12, in one embodiment, the present invention further comprises a rail connecting mechanism connecting the bracket 3 and the lower bracket 1a2, the rail connecting mechanism comprises a front opening and a supporting surface 1a20 connected to a metal frame member S3, the metal frame member S3 is provided with rail means S at two opposite sides of the opening of the metal frame member S3, the bracket 3 is connected to the rail means S, and the front side of the bracket 3 is provided with a handle S2. With this structure, the user can easily handle the bracket 3, and the force of the bracket 3 can be effectively transmitted to the lower frame 1a2 through the metal frame member S3.

Referring to fig. 1 to 4, in one embodiment, the upper housing member 1b1 includes a top housing 1b11 and a top housing lower cover 1b12, the top housing 1b11 includes a first housing end 1b111 extending to the front end of the upper bracket 1a1 and a second housing end 1b112 having a curved portion extending and covering and connecting the upper portion of the side bracket 1a3, and an upper housing cavity 1b10 accommodating the upper portion of the upper bracket 1a1 and the side bracket 1a3 is formed between the first housing end 1b111 and the second housing end 1b112 with a lower opening; the top shell lower cover 1b12 covers the lower side of the upper shell chamber 1b10, the first end of the top shell lower cover 1b12 is connected with the first shell end 1b111, the second end of the top shell lower cover 1b12 is connected with the side bracket 1a3, and the top shell lower cover 1b12 is connected with the upper bracket 1a1 through screws; the upper housing member 1b1 with the above structure can firmly connect the top housing 1b11 and the top housing lower cover 1b12, and is beautiful.

Referring to fig. 1 to 4, the side housing member 1b3 includes a side housing body 1b31 engaged with the top housing 1b11 and a side housing cover body 1b32 engaged with the top housing lower cover 1b12, the side housing body 1b31 forms a side housing cavity 1b30 laterally opened to accommodate the side bracket 1a3, the vertical side housing walls of the side housing body 1b31 and the side bracket 1a3 are designed with a fastening structure 1b33, and the side housing cover body 1b32 covers the side housing cavity 1b30 and is connected with the side housing body 1b31 through a connecting element; the side casing piece 1b3 is convenient to mount by adopting the structure, and meanwhile, the side casing main body 1b31 is connected with the side bracket 1a3 through the buckling structure 1b33, so that the connection is stable and the mounting is quick.

Referring to fig. 1 to 4, the lower housing member 1b2 includes a lower housing base member 1b21 and a lower housing upper cover 1b22, the lower bracket 1a2 is mounted on the lower housing base member 1b21, the lower housing upper cover 1b22 is provided on the upper side of the lower housing base member 1b21, and the lower housing upper cover 1b22 is provided with side bracket attachment holes 1b23 and bracket attachment holes 1b 24.

In one embodiment, laterally opposite sides of lower housing base member 1b21 are designed with extraction notches 1b 20. By designing the structure, the equipment is convenient to take and place.

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 thermal transfer device, comprising:

a housing comprising a metal bracket and a housing cover, the metal bracket having: the upper bracket and the lower bracket extend in the same direction, and the side bracket connects one end of the upper bracket and one end of the lower bracket; the shell covering piece comprises an upper shell piece covering the upper bracket, a lower shell piece covering the lower bracket and a side shell piece covering the side bracket;

a driving mechanism mounted on the upper bracket;

the hot pressing plate component is arranged below the upper shell component and driven by the driving mechanism to move up and down;

and the bracket is supported on the lower bracket and is used for providing support for the thermal transfer printing object.

2. The thermal transfer device of claim 1, wherein the upper bracket includes two upper arms spaced apart from one another in parallel, and a drive mounting member connecting the two upper arms, the drive mechanism being mounted to the drive mounting member.

3. The thermal transfer device according to claim 2, wherein the side frame includes two spaced apart side posts, each upper arm having one end connected to an upper end of the corresponding side post, and each side post having a lower end connected to the lower frame.

4. The thermal transfer device of claim 3, wherein the connection between one end of the upper arm and the upper end of the side post of the corresponding side comprises at least one of:

the triangular support connecting piece is used for connecting the lower side of one end of each upper supporting arm with the inner side of the upper end of the side upright column on the corresponding side;

the length of the corner connecting piece is matched with the distance between the upper ends of the two side upright columns, and the two ends of the corner connecting piece are respectively connected with the upper side of one end of each upper supporting arm in a wrapping manner and the outer sides of the upper ends of the side upright columns on the corresponding side; or two corner connecting pieces are arranged and respectively coated and connected with the upper side of one end of each upper supporting arm and the outer side of the upper end of the side upright post on the corresponding side.

5. The thermal transfer device of claim 4, wherein the triangular support connectors and corner connectors are fixed to the corresponding side posts by screws and/or welding.

6. The thermal transfer apparatus according to any one of claims 2 to 5, wherein the lower frame has a support surface, support side walls extending downward from at least opposite sides of the support surface, and support connecting portions formed at lower ends of the support side walls and connected to the bottom wall of the lower casing member; the bearing surface is provided with upright post jacks corresponding to the lower ends of the two side upright posts, and the lower ends of the two side upright posts are inserted into the corresponding upright post jacks in an angle-limited fit manner and are fixedly connected with the lower support.

7. The thermal transfer device of claim 6, wherein the lower ends of the two side posts are connected to the underside of the lower frame by welding; or the lower ends of the two side upright columns are connected with the lower bracket through welding, and a reinforcing connecting piece is welded between the front sides of the lower ends of the two side upright columns and the lower side of the lower bracket.

8. The thermal transfer apparatus of claim 6, further comprising a rail connecting mechanism connecting the bracket and the lower frame, the rail connecting mechanism comprising a front opening connected to the support surface of the metal frame member, the metal frame member having rail means mounted on opposite sides of the opening of the metal frame member, the bracket being connected to the rail means.

9. The thermal transfer device according to any one of claims 1 to 5, wherein the upper casing member includes a top casing and a top casing lower cover, the top casing including a first casing end extending to a front end of the upper bracket and a second casing end extending with a bent portion and covering and connecting upper portions of the side brackets, an upper casing chamber accommodating the upper bracket and the upper portions of the side brackets being formed with an opening at a lower side therebetween; the top shell lower cover covers the lower side of the upper shell cavity;

the side shell piece comprises a side shell main body and a side shell cover body, the side shell main body is jointed with the top shell, the side shell cover body is jointed with the lower cover of the top shell, a side shell cavity which is laterally opened and is used for accommodating the side support is formed in the side shell main body, a buckling structure is designed between the shell walls at two vertical sides of the side shell main body and the side support, and the side shell cover body covers the lateral opening of the side shell cavity and is connected with the side shell main body through a connecting element;

the lower casing part comprises a lower casing base part and a lower casing upper cover, the lower support is installed on the lower casing base part, the lower casing upper cover is covered on the upper side of the lower casing base part, and the lower casing upper cover is provided with a side support connecting hole and a support seat connecting hole.

10. The thermal transfer device of claim 9, wherein laterally opposite sides of the lower housing base member are configured with extraction notches.

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