CN-224198125-U - Crushing secondary cooling structure of automatic packaging machine

Abstract

The utility model relates to the field of packaging equipment, in particular to a crushing secondary cooling structure of an automatic packaging machine. The novel crushing device is provided with a crushing bin, the bottom of the crushing bin is provided with a transition bin, the transition bin is provided with a hollow wall, and the exterior of the transition bin is provided with a cold air inlet and a cold air outlet which are respectively communicated with a hollow space in the wall. The utility model can ensure that the temperature of the remains is reduced before the remains are packaged, and prevent the package bag from being scalded due to overheat inside the remains.

Inventors

• JIANG XUFENG

Assignees

• 江苏帕瑞戴斯新材料科技有限公司

Dates

Publication Date

20260505

Application Date

20250424

Claims (4)

1. 1. The crushing secondary cooling structure of the automatic packaging machine is provided with a crushing bin (1) and is characterized in that a transition bin (2) is arranged at the bottom of the crushing bin (1), the transition bin (2) is provided with a hollow wall, and a cold air inlet (3) and a cold air outlet (4) are arranged outside the transition bin (2) and are respectively communicated with a hollow space in the wall.
2. 2. A pulverizing and secondary cooling structure of an automatic packaging machine according to claim 1, wherein said transition bin (2) is provided with a gradually shrinking inner cavity.
3. 3. The pulverizing and secondary cooling structure of an automatic packaging machine according to claim 2, wherein a cross grid (5) of hollow design is arranged in the inner cavity, and the cross grid (5) is communicated with the space in the wall of the pulverizing bin (1).
4. 4. A pulverizing secondary cooling structure of an automatic packaging machine according to claim 1 or 3, wherein the bottom of the transition bin (2) is provided with a vibration feeding bin (6).

Description

Crushing secondary cooling structure of automatic packaging machine Technical Field The utility model relates to the field of packaging equipment, in particular to a crushing secondary cooling structure of an automatic packaging machine. Background Along with the development of the society in China, the demands of people for the funeral industry are continuously changed. After cremation of remains, the traditional bone and germ collection mode can not meet the requirements of modern people. For this reason, we need to find more efficient, more environmentally friendly solutions. At present, crematory workers mainly collect ashes in a rake, a shovel and other modes, but the methods still have the problem of incomplete collection. In order to solve the problems, the method is considered to crush the remains and then pack the remains, but the method is needed to solve the problem that the residual temperature inside the crushed remains easily scalds the packaging bag. Disclosure of utility model In view of the above, the utility model aims to provide a crushing secondary cooling structure of an automatic packaging machine, aiming at the problem that the residual temperature inside a remains crushing package is easy to burn a packaging bag. The utility model provides an automatic packagine machine's crushing secondary cooling structure in this scheme is equipped with broken storehouse, the bottom in broken storehouse is provided with the transition storehouse, the transition storehouse is equipped with hollow wall, and the transition storehouse outside is equipped with the hollow space in cold air import and the cold air export switch-on wall respectively. Further, the transition bin is provided with an inner cavity which is gradually reduced. Furthermore, a cross lattice with a hollow design is arranged in the inner cavity, and the cross lattice is communicated with the space in the wall of the crushing bin. Further, a vibration feeding bin is arranged at the bottom of the transition bin. The utility model has the beneficial effects that the temperature of the remains can be reduced before the remains are packaged, and the package bag is prevented from being scalded due to overheat inside the remains. Drawings FIG. 1 is a schematic diagram of the structure of the present application; FIG. 2 is a schematic perspective cross-sectional view of a transition bin; The device comprises a crushing bin 1, a transition bin 2, a cold air inlet 3, a cold air outlet 4, a cross grid 5 and a vibration feeding bin 6. Detailed Description The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model. Referring to figures 1 to 2 there is shown a crushing secondary cooling structure of an automatic packaging machine provided with a crushing silo 1 and equipped with a unique cooling device. Specifically, the bottom of the crushing bin 1 is provided with a transition bin 2, the transition bin 2 is provided with a hollow wall, and the outside is provided with a cold air inlet 3 and a cold air outlet 4, which are connected with a hollow space in the wall, so that the refrigerating effect of the transition bin 2 is realized. When the broken remains fall into the breaking bin 1, heat exchange can be carried out between the broken remains and the transition bin 2, so that the remains are cooled again, and the residual temperature in the remains is eliminated. It should be added that the cool air inlet 3 and the cool air outlet 4 should be connected to an inlet and an outlet of a refrigerating apparatus, for example, a refrigerating pump, respectively, so as to circulate cool air. In addition, the transition bin 2 is also provided with an inner cavity which is gradually reduced, so that broken remains can be concentrated, and the remains can be inevitably contacted with the wall due to the gradual reduction of the inner cavity, and the cooling effect is ensured. On the basis, a cross grid 5 with a hollow design can be arranged in the inner cavity, and the cross grid 5 is connected with the inner space of the wall of the crushing bin 1 so as to further improve the contact area. Realizing the effective cooling of the remains. Finally, the bottom of the transition bin 2 is provided with a vibration feeding bin 6, and the vibration feeding bin 6 is generally used for conveying materials. In this embodiment, the device is mainly used for conveying broken remains, and vibration and friction are mainly used for enabling the broken remains to vibrate continuously, so that the device can enable the remains to be in