How to avoid the bolts on the sex doll’s feet from scratching the floor?

In reality, many people worry that the bolts on the bottom of the feet of the TPE dolls with standing function will damage the floor of the room, depending on the material of the floor. If it is concrete or rigid tile usually does not crush. However, if it is wood floor or flexible tile, it will be very easy to dent and the surface will easily peel off.

So, how do you avoid bolts scratching the floor?

The first way is to wear shoes or socks

Fantasy TPE sex dolls that include a standing feature often scratch the floor, so manufacturers who know this will offer related freebies such as uxdoll TPE dolls before the product is shipped.

We can also put shoes or socks on the doll, the targeted choice can be. Shoes are best to choose flat-soled shoes, if you are worried about the foot nails poke bad shoes can additionally buy a pair of thick insoles, cotton-soled slippers are a good choice. We do not recommend to choose high heels, because the balance of the sex doll is more difficult to find, wearing high heels is difficult to maintain the posture.

In addition, a pair of towel-soled socks or silicone socks is also a good choice. But the presence of bolts when putting on and taking off the socks can cause trouble and may tear the socks, and if not taken off slowly, the doll’s toenails may also fall off, so this method is not always practical.

Another method, which is simpler and more efficient, is to prevent your tan skin sex doll from standing directly on the floor.

When storing life size TPE sex dolls independently, the need to move back and forth to put the doll in the box is relatively troublesome, so most of the time will stand the doll or even place it against the wall.

Postscript

From the sex doll industry well-known mall uxdoll remind, select the optimal choice of sex doll special hooks and brackets for vertical placement, do not advocate a long time to let the doll stand, because it is easy to cause some hidden parts of the tear or squeeze deformation.