A multifunctional stent for supporting a BIPAP ventilator
A multi-functional, ventilator technology, applied in the field of multi-functional brackets, can solve the problems of falling off, poor safety performance, enriching spare time life and enriching the spiritual world, and achieve the effect of increasing static friction, solving easy fall off, and enriching spare time life
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Example Embodiment
[0063] Example 1
[0064] The following is attached Figure 1-16 The present invention will be described in further detail.
[0065] A multifunctional bracket for supporting BIPAP ventilator, such as Figure 1-2 As shown, it includes a support portion 1, an insertion portion 2, a support rod 3, a support shaft 4, and a pipeline fixing portion 5. The insertion portion 2 is provided with two sets, and the insertion portion 2 is symmetrically arranged on the support portion 1. The supporting rod 3 is installed inside the inserting part 2, the supporting shaft 4 is fixedly installed at the upper end of the supporting rod 3, and the pipeline fixing part 5 is installed on the supporting shaft 4 ;
[0066] Such as figure 1 , 2 , 4, 5, 6, 11, and 12, the support 1 includes a support base 22 and four legs 7, the four legs 7 are symmetrically installed at the bottom of the support base 22, and the four The insides of the legs 7 are all hollow structures, the insides of the four legs 7 are al...
Example Embodiment
[0086] Example 2
[0087] The difference from Embodiment 1 is that the surface of the block 12 and the inner surface of the slot 13 are also provided with a non-slip layer, and the non-slip layer is prepared by the following method:
[0088] Take the following raw materials and weigh in parts by weight: 25 parts of epoxy resin, 5 parts of titanium dioxide powder, 10 parts of aluminum oxide particles, 6 parts of glass powder, 15 parts of phenolic resin, 12 parts of acrylic resin, 8 parts of zinc oxide powder, intermediate Dihydroxybenzene-4 parts, glycerin 3 parts, triethylene diamine 1 part and water 40 parts;
[0089] S1. Add the weighed resorcinol, glycerin, triethylenediamine and water into a mixer and stir for 20 minutes at a stirring speed of 600r / min to obtain a mixed solution;
[0090] S2. Add epoxy resin, titanium dioxide powder, aluminum oxide particles, glass powder, phenolic resin, acrylic resin and zinc oxide powder into a ball mill for fine grinding until the particle dia...
Example Embodiment
[0095] Example 3
[0096] The difference from Example 2 is the preparation of the non-slip layer, and the specific preparation method is as follows:
[0097] Take the following raw materials and weigh in parts by weight: 28 parts of epoxy resin, 6 parts of titanium dioxide powder, 11 parts of aluminum oxide particles, 7 parts of glass powder, 18 parts of phenolic resin, 13 parts of acrylic resin, 9 parts of zinc oxide powder, intermediate 3 parts of benzenediol, 4 parts of glycerin, 2 parts of triethylenediamine and 50 parts of water;
[0098] S1. Add the weighed resorcinol, glycerin, triethylenediamine and water into a mixer and stir for 25min at a stirring speed of 700r / min to obtain a mixed solution;
[0099] S2. Add epoxy resin, titanium dioxide powder, aluminum oxide particles, glass powder, phenolic resin, acrylic resin and zinc oxide powder into a ball mill for fine grinding until the particle diameter is not greater than 40um, to obtain a mixed powder material;
[0100] S3. Add...
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