RU95738U1 - Borehole Camera - Google Patents

Abstract

 1. A downhole chamber comprising a three-section housing, the extreme cylindrical sections of which have an outer round eccentrically located fixed tip, and the inner edge is hermetically connected to the cylindrical spacer, while guides and a pocket are arranged linearly sequentially from the nipple installed in the narrowed part of the upper section. bores and side holes, characterized in that the guides are installed in the upper section, and for one unit in the spacer pocket is made, parallel to the last him in which the flow channel is located. ! 2. The downhole chamber according to claim 1, characterized in that the profile of the flow channel is made cylindrical, or segmented, or curved equidistantly encircling the pocket.

Description

The utility model relates to the oil industry, namely to downhole equipment and can be used in oil production or supplying working agents to the reservoir.

Known borehole chamber (see RU 2292439 C2 EV 21/03) consisting of 3 section housing in the form of a cylindrical pipe, lower and upper tip; eccentrically fixed inside the pipe of a hollow pocket with bores, and above it a guide element, while the length and bore of the hollow pocket do not allow the use of standard valves of different lengths.

Also known is a borehole chamber (see RU 2357069 C1 E21B 34/06), a prototype comprising a 3-section housing consisting of a cylindrical spacer (pipe) hermetically connected to the upper and lower sections having eccentric round tips. Moreover, the nipple is installed in the upper one on the same line with which guides and a pocket with bores are sequentially fixed inside the spacer.

The disadvantages of the known device include the laborious process of sealing the casing due to the fact that the guides and nipples are installed in the casing by means of screws passing through the wall of the spacer and the tip, followed by welding of the screw heads and holes in the wall, both the spacers and the tip as well as welding in the wall window spacers covering the through side channels of the pocket. Such infusions are the most defective when testing well chambers for leaks.

The technical task of the utility model is to reduce the complexity of sealing the housing, and therefore increase reliability by eliminating the sealing holes by welding to secure embedded parts in the housing.

The problem is solved in that the guides are installed in the upper section, and in one piece with the spacer a pocket is made, parallel to the last one in which the flow channel is located, and the profile of the flow channel is made cylindrical, either segmented or curved, equidistantly encircling the pocket.

Figure 1 shows a longitudinal section of a borehole chamber; figure 2 section along aa in figure 1; figure 3 and figure 4 options for a section along aa.

The downhole chamber consists of three sectional casing 1 consisting of an upper section 2 having a round eccentrically located tip 3 in which the nipple 4 is fixed, and guides 5 are fixed in the lower part of the section 2. The upper section 2 is hermetically connected, for example, by means of a thread followed by welding with a spacer 6 equipped with a pocket 7 with bores and side holes and parallel to the last, flow channel 8 having either a cylindrical shape 9, or a segmented 10, or curved 11 equidistantly encircling karma n 7. The spacer 6, in turn, is also tightly connected to the lower section 12 having a round eccentrically located tip 13 coaxial with the tip 3 and the channel 8.

Assembly of the borehole chamber is as follows.

In the upper section 2, the nipple 4 and the guides 5 are linearly installed, and their close arrangement at the edges allows fastening, for example, by welding from the inside without making holes in the wall of the section, then we connect section 2 with a spacer 6 and the lower section 12 while aligning the tips 3 and 13 with channel 8. Then we seal the joints between sections 2 and 12 with a spacer 6, for example, by means of a thread with subsequent welding.

The downhole camera is ready to go.

Thus, due to the fact that the spacer is made of solid metal and contains a pocket 7 with the bores and side holes necessary for the extraction technology and a flow channel parallel to the pocket, the connection of the guides 5 with section 2 as well as the nipple 4 with tip 3 is made from the inside by welding, this eliminates the technological holes in the borehole chamber body, and hence the defect-like welding of these holes, which undoubtedly reduces the complexity of sealing and increases the reliability of the borehole chamber.

Claims (2)

1. A downhole chamber containing a three-section housing, the extreme cylindrical sections of which have an outer round eccentrically fixed fixed tip, and the inner edge is hermetically connected to the cylindrical spacer, while guides and a pocket are arranged linearly sequentially from the nipple installed in the narrowed part of the upper section. bores and side holes, characterized in that the guides are installed in the upper section, and for one unit in the spacer pocket is made, parallel to the last him in which the flow channel is located. 2. The downhole chamber according to claim 1, characterized in that the profile of the flow channel is made cylindrical, or segmented, or curved equidistantly encircling the pocket.