DE1965962A1 - DEVICE CONTAINING ADSORBING ELEMENTS - Google Patents

Description

Priority v. Jt.July 1969 in Prankreich Anm.No.i E »N. 6 922 758

The present invention relates to a gas adsorbent Device, preferably a vacuum pump with a heat source attached to at least one adsorbing element m is closed.

The adsorbing elements are connected to a heat source, one after the other, one cold and one after the other is a warm spring, or vice versa. It is known that certain adsorbents, known as zeolites, have the double property of being able to produce gases even in the

- depth

Condition easier to adsorb traces when exposed to temperatures have been brought, and these gases at increased

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to release the temperature. The lowest temperature favors always the best extraction of gas traces, during the regeneration temperature, at which, so to speak, the entirety the gases released is around 3OO ° G. In certain applications, such as gas compression, one tries to adsorb a gas in the cold with adsorbing elements, which one then desorbed in a pressurized closed vessel in the heat. For other applications,

tk, for example in vacuum pumps, on the contrary, it is the adsorption process that is important, and the heating of the adsorption elements has no other task than to bring about their regeneration.

A composite adsorbent element is known, that is a metallic plate-shaped, drawn on the surface ^ 3 has support part on which a coating of an adsorbent Substance mixed with a compound such as kaolin.

So that the adsorbing elements work particularly well and effectively, the inventor has set himself the task of to provide a device such as a pump, a Compressor or a cooler, which the adsorbing Elements contain *

In terms of speed and quality of work then do the adsorbing elements work particularly effectively

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sam if they ask in excellent thermal contact 'with the heat source to be a · cold spring, when the elements ± n ~ an adsorber work * This is difficult to achieve in general, because the adsorbent materials themselves are "thermally insulating.

It is also an object of the present invention to provide a Adsorbtionsvorriehtung to create in one and the same constructive unit a heat source and a Combined compartment of adsorbent elements. Another one The aim of the invention is an adsorption device, which provides an excellent thermal connection between feathers of the adsorption elements and the heat source »

Furthermore, the aim of the invention is an arrangement of Adsorption elements in relation to the thermal connection, such that always between the adsorbent elements Gaps are left free to ensure good gas access to allow, which is important in certain applications, such as vacuum pumps j.

The invention is based on the finding that all adsorbent elements of the present type a stretchable metallic support member, its thickness or edge is weak, which are generally free of adsorbent is coating, and the invention is characterized in that the device exrv separate gastight compartment for storing adsorbent elements and a heat source discharging i end of the compartment trm-

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summarizes and in that the elements are made of adsorbent Substances are fixed by a thermal bond in said storage compartment, at least a portion of which the edge of each expandable metal support part is connected to a thermally highly conductive body, which in There is a thermal connection with the heat source. Because of this thermal connection with part of the knowledge of the metallic support part of the adsorbing elements, you get to a rapid and complete cooling * development of the adsorbent elements, such that the effectiveness the adsorbing elements is increased considerably. This thermal connection can either be a Welding between the edge of the supporting part of the adsorbent element and the thermal conduction body in contact with the cold source or a simple one direct support, preferably under pressure of the edge of such a support part, of adsorbent elements against the guide body in heat contact with the heat source lock in.

Another 2el dör invention relates to a method for Obtaining a thermal connection for one of the above, adsorbing device by welding, and this The method is characterized in that there is a bed of granules of welding products on the surface an intermediate partition between which the heat source containing compartment and the part containing the adsorbing elements and that Flaclispttlen made from

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wound adsorbent element tapes under pressure in supports are arranged on the side covered with granules and that the whole thing is in a regulated atmosphere heated to the melting temperature of the granules.

Further features and advantages of the invention are provided the following description in conjunction with the attached Drawings can be seen in which represent!

1 shows a cross-sectional view of a first embodiment of an adsorption device according to the invention,

FIG. 2 is a view of the adsorption device according to FIG in a manufacturing intermediate stage, '._.- ".

3 shows a perspective illustration of a first embodiment,

FIG. K shows a schematic axial sectional illustration of the embodiment according to FIG.

5 and 6 are views of two other embodiments a device according to the invention urid

Fig. 7 shows a modification of the execution s form according to. Fig. 6.

In Figures 1 and 2, a gas-adsorbing Vprrich-

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device according to the invention, which has a chamber 51 with thermal insulation 52. The chamber is divided into two compartments 53 and 54 by a highly conductive metal partition 55, for example made of copper. The rammer 53 represents the heat source, and it has a tube 56 in the form of a coiled tube, which is used to introduce the coolant and is connected to an electrical heating resistor. The compartment 54 encloses an adsorbing element 57> the structure of which will be explained in the following, and it is provided with a connecting plate, P, for example to a pump chamber.

This adsorbent element 57 is designed as a winding in the form of a flat body from a strip of adsorbent material, which itself is formed from an expandable metal support band 57a made of aluminum with a very small thickness and on the two surfaces with a coating layer 57 ^D i 57 c made of adsorbent Fabric is coated, which is composed of dry "particles". sets, which are embedded by compression against each other and on the expandable metal support part. This flat body made of a wound strip 57 is welded with its upper edge to the lower surface of the partition wall 55, and the various welding points are shown at 59. With the aid of FIG. 2, one can see how this welding would be carried out: First, the compartment 53 containing the heat source is created, this compartment 53 is placed in the welding position

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to be welded face of the "partition wall 55 is facing upwards and is horizontal, a layer of granules of the welded product is distributed over this surface, the flat bodies or the flat bodies made of sinuous ones Material 57 from such that it is on the granule layer by means of its edge rest / ?, and one leads a rest under pressure from this flat body the partition 55 and two by means of a support surface 60, on which a 6l weight has been placed * The entire component is placed in an enclosed space with a regulated atmosphere that has a deep 6s vacuum or can be a pure neutral gas, and the whole thing is brought to the melting temperature of the granules. This the latter soil is sufficient for conservation to have a part that is the heat source and the adsorbing part Product contains, the latter practicing with the heat source? a series of welds 59 connected 1st, which result in a very good thermal connection.

The choice of welding material is important as it should have the following properties: ■

It should not require a pickling agent, its organic or polar damping - poison the adsorbent,

no very volatile components such as Hg, Gd, Ga etc. contains »

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at a temperature well below the melting temperature of aluminum (66O ° C) and also below the decomposition temperature of zeolites (45O / 500 ° C)
melt and

the aluminum and the copper themselves - in their absence
completely wet with a pickling agent.

For example, there are two types of weld material Weight composition listed:

(i) Germanium $ 53 - Aluminum $ 45 - Magnesium $ 2 Melting temperature 425 C,

(IT) Aluminum between $ 40 and $ 63 - Magnesium between 37 and 60 # - Melting temperature = 460 ° C.

The first has the advantage of being at a lower temperature to melt, while the second has better aluminum wetting.

It should be noted that in this embodiment the winding of the wound tape is sufficiently loose that the shape that arises from it is sufficiently open to allow the molecules of the gas that are enclosed in it
Pump chamber located, can easily get into the open spaces between the belt. ·

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With reference to FIGS. 3 and 4, it can be seen that a heat source 80 is essentially surrounded by a metallic fold bar made of tombac 81, and two outer walls 82 and 83 form: bearing surfaces between several flat bodies 85, 86, 87, 88 with intermediate bearing surfaces made of highly conductive material 89, 90, 91 between each flat body, which are cut out or perforated, for example star-shaped, so that a free passage of gas from one flat body to another is guaranteed !? is. In this embodiment, the intermediate plates 89 »90, 91 and the outer plates 82 and 83 are _{fixed with the interposition of the flat bodies 85 s} 88 via a tie rod 92 which is fixed on one side of the inner plate 82 and has a thread at its free end to which a locking nut oil is applied. In this embodiment, the plates serve as a thermal connection between the edges of the elements made of adsorbent materials and the heat source, as do the free surfaces of the intermediate plates.

According to the embodiment according to FIG. 5, one has a geometry which corresponds approximately to that shown in Fig.l, with the difference that there is a flat body from a twisted strip 100 under heavy pressure against a partition wall 101 between a heat source 102 and a compartment of the adsorbents 103 is held is, by means of a kind of support wheel 104, which is composed of several arms 105 that have a

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Hold together threaded cylinders 06 and have round lugs 107 at their outer ends, which are likewise provided with thread, the entirety of the central 106 and peripheral 107 cylinders are attached to the tie rods 108 made of conductive material, which are fixed to the partition wall 101 , and the wheel is pressed against the flat body of coiled tape 101 via the tightening nuts 109 in such a way that a double heat-conducting connection is formed, W on the one hand between the upper edge of the flat body 100 and the base 101 and on the other hand between the lower edge of the body 100, the stud 108 and the same wall 101. "'

According to Fig. 6 , the thermal contact is created by two identical thermally conductive tie rods, namely the tie rods 110 and 111, which have a free end.

the partition 112 between the compartment of the heat source ^ 113 and the compartment of the adsorbent products 114 are welded. On the same tie rods 110 and 111 stacks of sawn-out rectangles 115 are applied, the are made from a strip of adsorbent material, and the thermal connection is created there by a connection between the stud bolts 110, 111, the during operation the pressure of the screws 116 and the perforated edge 117 of the parts 115 are exposed. With certain Application cases are given conductive resting parts 118 between each plate 115 or between. Groups of plat-

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made up of adsorbent elements in order to obtain a certain amount of energy Extension of the parts to bring about a better There is accessibility of the gaseous molecules between two parts II5 arranged one above the other. The nuts II6 ensure that the parts 115 are fixed each tie rod 110, 111 and thus a better contact of the hole edges 117 of the metal support part with the conductive tie rod 110 or 111. The type of metal alloy that forms the tension bolts 110, 111 will depend selected from the desired results »If you want to achieve a constant determination, you will accordingly, the pulling irons are made in a material whose thermal expansion coefficient is identical to that of that of the metal support parts of the adsorbent elements are formed. On the other hand, if you have very good thermal contact, be it at a low temperature, be it at a high temperature want to achieve, one trains tie rods, which are at high temperature or correspondingly at lower Temperature. Contract more than the material that which forms metal support members. To get good contact at low temperature, for example, one can Use copper trains because it was covered with zeolites The less aluminum strip contracts j so up to 77 K, the pressure exerted by the copper trains very strong and the thermal contact excellent. This arrangement is particularly useful for the manufacture of Pumps suitable for adsorption cooled to 77 K » In the other case, one or more round bodies with an elasticity of bronze are pushed between the thread

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bolts 116 and parts 115 strip-shaped adsorbent, to ensure constant pressure. In this way you can achieve a constant pressure, even with varying pressure Temperature.

The results achieved thanks to the described arrangement make it possible to achieve a remarkable effectiveness of the adsorbent material. For example with one has an arrangement of the type described in FIG expose a part of adsorbent substances to the cold can that from 500 g on an aluminum strip of 2C mm in length of deposited zeolite and the 10 mm diameter copper tie rods were spaced 50 mm apart , and the residence time of the part in the cold from 450 ° K to 77 ° K was approximately 15 minutes.

According to Figure 7, the parts 120 are defined there so that its small edge is directed towards a connection 121 with an evacuated space. Between

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™ parts 120 are round pieces 122 attached, form the Abstandtt iückfi. This arrangement is particularly suitable ■ to obtain deep Vakui that Zugänfjlri chkeit the gaseous molecules to the adsorbent 1st optimal.

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Claims (1)

Patent a η s ρ r ü c he Ic) Gas adsorbing device, preferably a vacuum pump with a heat source connected to at least one adsorbent Element is connected, characterized in that the device has a compartment for receiving of the adsorbing elements ", which is attached to the to be adsorbed gas-containing space connected and is separated from a compartment in a gas-tight manner, which encloses a heat source, and that the adsorbing elements are fixed in the compartment via a "thermal connection" are and with at least part of the edge of each metallic: Support part via a highly conductive thermal body in thermal connection with the heat source stand. 2.) Adsorption device according to claim 1, characterized in that that the thermal bond is a weld between the edge of a support part of the adsorbent Element and the thermal guide body in connection with the heat source. 3.) Adsorption device according to claim 1 or Z, characterized in that the thermal connection is created via a direct bearing of the edge of a Sttitzteiles desadsorbing element against the thermal guide body in connection with the heat source. iO9812 / 09Ö5 - Hk - 4.) Adsorption device according to claims 1 to 3, characterized characterized in that the direct support is a support is under constant mechanical pressure. 5 ·) Adsorption device according to claims 2 and 3, in which the adsorbing elements as flat bodies a winding path, characterized in that that the flat bodies are in a thermal connection with the cold source, a surface of each flat body is supported against a disk thermal conductivity in heat connection with the Stand heat source " 6.) Adsorption device according to claim 1, characterized in that the adsorbent element as a stack of is formed with perforations provided punched rectangular parts and that the thermal connection between the edge of the support part at one point of a recess and a tension bolt in thermal contact with the Heat source takes place, with the rectangular parts at a A plurality of tension bolts are adapted and fixed by a compression nut. 7.) Adsorption device according to claim 5 »characterized in that that a plurality of flat bodies of wound ribbons are arranged spaced one above the other, with two two flat bodies arranged one above the other; one cut out or perforated support disc provided 309βί2 / Ο9β5 BATH ORIGINAL is, which conducts itself well in thermal connection with a Part of the edge of each flat part and to the other with the heat source. 8.) Adsorption device according to one of claims 1 to 7, characterized in that the ¥ arm connection a direct connection "between the edge of the adsorbent Elements and a partition between the receiving compartments of the adsorbent elements and the heat source well conducts. 9.) Adeorptionsvorrichtung according to any one of claims 1 to 7, characterized in that the thermal connection between the edge of a support part of the adsorbent Element includes intermediate pieces, such as plates, tie rods, etc., which are in thermal contact with a partition wall, that between the receiving compartment of the adsorbent elements and the heat source have good thermal conductivity. 10.) Adsorption device according to claim 9, characterized in that that the partition is formed cylindrically in the manner of a bellows. 1st, the heat source is axial, so that the adsorbent elements in a circular Compartment are arranged. 13.) Adsorption device according to claim 10, characterized in that the egg: 'j tfärmeverbindiing is created via pressure, '- 309812 / 09RS BATH ORIGINAL which is exercised via an axial tension bolt that. effective between at least two transverse plates and so between these the flat bodies unfolded Tape sets. 12.) Adsorptionsvorriehtung according to claim 2, characterized in that the welding material has a melting temperature between 300 and 400 ° C and an affinity for aluminum _c 13 ·) Process for establishing a thermal connection by welding for an adsorbing device claims 2, 8 and 12, characterized in that a layer of welding material granules on the Surface of the partition wall applies, the flat body on the bearing surface under pressure on the with granules covered area and the whole thing in a regulated atmosphere up to the melting point of the granules is heated. lh.) Adsorption device according to one of claims 6, 9 and 11, characterized in that each tension bolt consists of a material whose coefficient of thermal expansion is identical or different from that which represents the metal support part of the adsorbing elements, depending on the pressure effect that occurs during the - operation is desired » 309812/0985 BAD ORiGiNAl.