CLAMPING DEVICE FOR FROZEN MATERIAL

Abstract

A clamping device for frozen material comprises a clamping member comprising a clamper for clamping frozen materials. A driving component is configured for driving the clamper to splay or fold. A cutting member connecting to the clamper and comprises two driven arms cooperating with the clamper.

Description

BACKGROUND

1. Technical Field

The present disclosure relates to a clamping device for frozen material.

2. Description of Related Art

When a frozen material is molded, a plurality of filaments will appear at the tail of the frozen material. User must cut the filaments, and then clamp the frozen material, which is time consuming and low efficiency.

Therefore, what is needed is a clamping device to overcome the shortcoming described.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is an isometric view of a clamping device for frozen material in accordance with an exemplary embodiment.

FIG. 2 is an exploded view of the clamping device for frozen material of FIG. 1.

FIG. 3 is an enlarged view of a first holding arm of the clamping device for frozen material of FIG. 1.

FIG. 4 is an enlarged view of a second holding arm of the clamping device for frozen material of FIG. 1.

FIG. 5 is an enlarged view of a fixing component of the clamping device for frozen material of FIG. 1.

FIG. 6 is a used state view of the clamping device for frozen material of FIG. 1.

DETAILED DESCRIPTION

Referring to FIGS. 1-2, a clamping device for frozen material 100 is provided. The clamping device 100 includes a clamping member 10, a first connection pole 20, a second connection pole 30, a first connection axis 40, a second connection axis 50, and a cutting component 60.

The clamping member 10 includes a clamper 11, a driving component 12, a fixing component 13 and a first bolt 16.

Referring to FIGS. 3-4, the clamper 11 includes a first holding arm 111 and a second holding arm 112 cooperating with the first holding arm 111. The first holding arm 111 includes a first holding portion 111a and a first connection portion 111b. The second holding arm 112 includes a second holding portion 112a cooperating with the first holding portion 111a and a second connection portion 112b cooperating with the first connection portion 111b. A first U shaped hole 111c is defined in the first connection portion 111b, and a second U shaped hole 112c is defined in the second connection portion 112b and is symmetrical to the first U shaped hole 111c. A through hole 111d is defined in the first connection portion 111b, and is configured for passing through by the first connection axle 40. A second through hole 112d is defined in the second connection portion 112b, and is configured for passing through by the second connection axle 50.

The driving component 12 is configured for driving the clamper 11 to splay or fold. The driving component 12 includes a power source 121 and a driving axle 122 coupling with the power source 121. The driving axle 122 is movable to and fro along an axial direction by the power source 121. In the exemplary embodiment, the power source 121 may be a cylinder, or a piston etc. A first extending portion 122a is vertically extended from one end of the driving axle 122, and a second extending portion 122b is vertically extended from another end of the driving axle 122 and is aligned with the first extending portion 122a. A threaded hole 122c is defined in the first extending portion 122a, and a second threaded hole 122d is defined in the second extending portion 122b and is aligned with the first threaded hole 122c. The first bolt 16 is extended through the first threaded hole 122c and the second threaded hole 122d of the driving axle 122 in turn, and is screwed with the nut (not shown), and the first U shaped hole 111c is engaged with the portion of the first bolt 16, and the second U shaped hole 112c is also engaged with the portion of the first bolt 16, so that, the first holding arm 111 and the second holding arm 122 is movably connected to the second holding arm 122.

Referring to FIGS. 2-5, the fixing component 13 includes a first board 131 and a second board 132 symmetrical to the first board 131. A first fixed hole 131a and a second fixed hole 131b are defined in the first board 131, and a third fixed hole 132a and a fourth fixed hole 132b are defined in the second board 132. The third fixed hole 132a is symmetrical to the first fixed hole 131a and the fourth fixed hole 132b is symmetrical to the second fixed hole 131b. A first receiving space 134, a second receiving space 136 and a connection hole 138 connecting the first receiving space 134 to the second receiving space 136 are formed between the first board 131 and the second board 132. The power source 121 is received in the first receiving space 134, and the driving axle 122 is passed through the connection hole 138 and is movably connected with the first holding arm 111 and the second holding arm, so that, the first holding arm 111 and the second holding arm 112 are received in the second receiving space 136.

When assembling the clamping member 10, firstly, the first bolt 16 is extended through the first threaded hole 122c and the second threaded hole 122d, and is screwed with the nut, the driving axle 122 is passed through the connection hole 138, and the power source 121 is received in the first receiving space 134. Secondly, the first U shaped hole 111c and the second U shaped hole 112c are engaged with the first bolt 16 respectively, so that, the first holding arm 111 and the second holding arm 112 are movably connected to the driving component 12. Finally, the first holding arm 111 and the second holding arm 112 are received in the second receiving space 136.

The cutting component 60 includes a first driven arm 61, a second driven arm 62, a first limitation block 63, a second limitation block 64 and a second bolt 65.

A first reamer member 612 is formed in the first driven arm 61, and a second reamer member 622 cooperating with the first reamer member 612 is formed in the second driven arm 62. The first reamer member 612 and the second reamer member 622 are made of the wear-resistant material.

One end of the connection pole 20 is fixed to the first holding arm 111, and another end of the connection pole 20 is fixed to the first driven arm 61. One end of the second connection pole 30 is fixed to the second holding arm 112, and another end of the second connection pole 30 is fixed to the second driven arm 62. A third through hole 611 is defined in the first driven arm 61. A fourth through hole 621 is defined in the second driven arm 621.

The first limitation block 63 is set in one side of the first driven arm 61, and the second limitation block 64 is set in one side of the second driven arm 62. Detailedly, a fifth through hole 631, a sixth through hole 632, a first threaded hole 633 and a second threaded hole 634 are defined in the first limitation block 63. A seventh through hole 641, a eighth through hole 642, a third threaded hole 643 and a fourth threaded hole 644 are defined in the second limitation block 64. The axle direction of the fifth through hole 631 and the sixth through hole 632 is vertical to the axle direction of the first threaded hole 633 and the second threaded hole 634, and the axle direction of the seventh through hole 641 and the eighth through hole 642 is vertical to the third threaded hole 643 and the fourth threaded hole 644. One end of the first connection axle 40 is passed through the first fixed hole 131a, the first through hole 111d and the third fixed hole 132a in turn, and another end of the first connection axle 40 is passed through the seventh through hole 641, the third through hole 611 and the fifth through hole 631 in turn. The first connection axle 40 is cooperated with the first fixed hole 131a and the third fixed hole 132a.

One end of the second connection axle 50 is passed through the second fixed hole 131b, the second through hole 112d and the fourth fixed hole 132b in turn, and another end of the connection axle 50 is passed through the eighth through hole 642, the fourth through hole 621 and the sixth through hole 632 in turn. The second connection axle 50 is cooperated with the second fixed hole 112d and the fourth fixed hole 132b. The four second bolts 65 is screwed with the first threaded hole 633, the second threaded hole 634, the third threaded hole 643 and the fourth threaded hole 644 respectively, and is resisted with the first connection axle 40 and the second connection axle 50, thereby limiting a position of the first driven arm 61 and the second driven arm 62 relative to the clamping member 10.

Referring to FIG. 6, the cutting member 60 is set to the edge of the female mold 220, so that, the cutting member 60 can cut more filaments 310. When the frozen material 300 is molded, the male mold 210 and the female mold 220 are separated, the filaments 310 appear at the tail of the frozen material 300. User starts the frozen material clamping device 100, and when clamping the frozen material 300, the driving component 12 drives the first holding arm 111 and the second holding arm 112 to fold, and the first holding arm 111 drives the first driven arm 61 of the cutting member 111 to move, and the second holding arm 112 drives the second driven arm 62 of the cutting member 60 to move, and when the first holding arm 111 and the second holding arm 112 clamp the frozen material 300, the first reamer member 612 and the second reamer member 622 cut the filaments 310, so that, the frozen material 300 is clamped and the filaments 310 is cut.

Although the present disclosure has been specifically described on the basis of the embodiments thereof, the disclosure is not to be construed as being limited thereto. Various changes or modifications may be made to the embodiments without departing from the scope and spirit of the disclosure.

Claims

1. A clamping device for frozen material comprising: a clamping member comprising: a clamper configured for clamping frozen materials;a driving component configured for driving the clamper to splay or fold; anda cutting member connecting to the clamper, and comprising two driven arms cooperating with the clamper.

2. The clamping device for frozen material as described in claim 1, wherein the clamper comprises two holding arms, and the driving component is configured for driving the two holding arms to cause the clamper to splay or fold.

3. The clamping device for frozen material as described in claim 2, wherein the driving component comprises a power source and a driving axle coupling with the power source, and the driving axle is movable to and fro along an axle direction by the power source to drive the two holding arms to splay or fold.

4. The clamping device for frozen material as described in claim 3, wherein the clamping member further comprises a fixing component comprising a first board and a second board symmetrical to the first board, and a first receiving space, a second receiving space and a connection hole connecting the first receiving space to the second receiving space are formed between the first board and the second board, the power source is received in the first receiving space, and the driving axle is passed through the connection hole and is movably connected to the clamper.

5. The clamping device for frozen material as described in claim 2, further comprising two connection axles and two connection poles, one end of each of the two connection axles is fixed to one of the holding arms, the other end of each of the two connection axles is connected to the clamper, one end of each of the two connection poles is fixed to the one of the holding arms, and the other end of each of the two connection poles is fixed to the clamper.

6. The clamping device for frozen material as described in claim 5, wherein the clamping member comprises two limitation blocks, the two limitation blocks are placed over the two connection axles and are located in each side of the two driven arms respectively, and the two limitation blocks are configured for sliding along the axle direction of the connection axle.

7. The clamping device for frozen material as described in claim 6, wherein two reamer members are formed at the two driven arms respectively.