CN117797604B - VOCs waste gas treatment equipment with gas detection function - Google Patents

Abstract

The application discloses VOCs waste gas treatment equipment with a gas detection function, which belongs to the field of VOCs waste gas treatment, and comprises a base, wherein a treatment bin is assembled on the upper surface of the base, the treatment bin is divided into a heat treatment bin and an adsorption separation bin by an assembly partition plate, the outside of the adsorption separation bin is connected with a two-stage gas purification tower by a gas detector, and the exhaust ports of the two-stage gas purification tower are communicated with the heat treatment bin; the inside of adsorption separation storehouse is equipped with the adsorption separation subassembly, the adsorption separation subassembly includes: and the separation pipeline is assembled on the partition plate and is provided with a plurality of groups of adsorption components. According to the application, the activated carbon adsorption plate in the adsorption separation assembly is arranged in the adsorption separation bin to adsorb VOCs waste gas, and the rectangular frame is matched with the power assembly to drive the activated carbon adsorption plate to swing in multiple directions, so that the contact area between the activated carbon adsorption plate and the VOCs waste gas is increased, and the adsorption effect is improved.

Description

VOCs waste gas treatment equipment with gas detection function

Technical Field

The application relates to the field of VOCs waste gas treatment, in particular to VOCs waste gas treatment equipment with a gas detection function.

Background

VOCs waste gas refers to organic VOCs waste gas generated in the production and manufacturing process, and pollution and damage to the environment can cause adverse effects on climate, biology and ecology, thereby affecting the development and survival of human beings. Thus, there is a need for treatment of organic VOCs off-gas produced during manufacturing.

The invention patent with publication number CN117225102A discloses a device for treating VOCs waste gas, which comprises a treatment mechanism and a discharge mechanism, wherein the discharge mechanism is fixedly connected to the top of the treatment mechanism, the treatment mechanism consists of an adsorption unit, a filtering unit and a heat treatment unit, the adsorption unit is fixedly connected to the upper end and the lower end of the filtering unit, the filtering unit is fixedly connected to the side surface of the heat treatment unit, and the discharge mechanism is fixedly connected to the top of the heat treatment unit. Most organic waste materials in VOCs waste gas can be effectively filtered through the filter screens distributed in an arrangement mode in the application documents, but the filter screens adopt a fixed structure, the contact time length of the filter screens and the VOCs waste gas is short, the contact area is insufficient, and the filtering effect is poor.

Disclosure of Invention

The application solves the problems of the prior art that the filter screen adopts a fixed structure, the contact time of the filter screen and VOCs waste gas is short, the contact area is insufficient, and the filtering effect is poor. Therefore, the application provides VOCs waste gas treatment equipment with a gas detection function, which can improve the adsorption separation effect on organic VOCs waste gas.

In order to achieve the above purpose, the application provides VOCs waste gas treatment equipment with a gas detection function, which comprises a base, wherein the upper surface of the base is provided with a treatment bin, the treatment bin is divided into a heat treatment bin and an adsorption separation bin by an assembly partition plate, a heat treatment assembly is arranged in the heat treatment bin, the outside of the adsorption separation bin is connected with a two-section type gas purification tower by a gas detector, and the exhaust ports of the two-section type gas purification tower are communicated with the heat treatment bin;

The inside of adsorption separation storehouse is equipped with the adsorption separation subassembly, the adsorption separation subassembly includes:

the separation pipeline is assembled on the separation plate, a plurality of groups of adsorption assemblies are assembled in the separation pipeline, the adsorption assemblies comprise rectangular frames, activated carbon adsorption plates are assembled in the rectangular frames, elastic pieces are assembled outside the rectangular frames, and soft rubber sealing sleeves are assembled between the rectangular frames and the separation pipeline;

The power assembly is assembled on the separation plate and comprises a rotating motor and first rotating rods, wherein the rotating motor is embedded on the separation plate, the two first rotating rods are arranged on the side surface and the bottom of the separation pipeline respectively, the two first rotating rods are in transmission connection with an output shaft of the rotating motor through a transmission belt, and a plurality of cams installed at different angles are fixed on the first rotating rods;

A flow guiding assembly is arranged inside the separation pipeline and used for reducing the flow speed of the gas.

Preferably, each rectangular frame corresponds to two cams, and the bottom of the separation pipe is provided with a plurality of rectangular frames. Because the separation pipeline is separated by a plurality of rectangular frames, the setting of a plurality of rectangular frames, in order to ensure the horizontality of separation pipeline, the setting of cam simultaneously can make the rectangular frame take place multi-direction swing to promote its inside active carbon adsorption plate and VOCs waste gas's area of contact.

Preferably, the flow guiding assembly comprises a special-shaped flow guiding block, a plurality of flow guiding grooves for changing the direction of air flow are formed in the special-shaped flow guiding block, and air inlet grooves communicated with the plurality of flow guiding grooves are formed in the special-shaped flow guiding block. Through setting up special-shaped guide block and changing the VOCs waste gas that gets into in the separation pipeline, through the cooperation of air inlet tank and many guiding gutter simultaneously, can slow down the velocity of flow of VOCs waste gas, further promote the area of contact and the contact duration of VOCs waste gas and active carbon adsorption board.

Preferably, every two diversion trenches in the special-shaped diversion block correspond to an activated carbon adsorption plate assembled in the rectangular frame.

Preferably, the special-shaped flow guide block is internally provided with a rotary rod in a rotary connection mode in the air inlet groove, the outer side of the rotary rod is sleeved with a plurality of first wind blades, and a trilobal air plate is fixed at the position, close to the air outlet of the separation pipeline, of the rotary rod. VOCs waste gas in the air inlet groove can drive the first wind blade to rotate, and the resistance provided by the first wind blade can be better guide the VOCs waste gas into the diversion trench, so that the contact area and the contact duration of the VOCs waste gas and the activated carbon adsorption plate are further improved.

Preferably, the adsorption separation bin is provided with filtering component with two-section type gas purification tower air inlet department, filtering component is including assembling at the filter plate of two-section type gas purification tower air inlet department, rotating the second bull stick of connecting in the bracing piece, the end of second bull stick is fixed with second wind blade, the one end that second wind blade was kept away from to the second bull stick one end is close to the filter plate is fixed with the connecting block, the connecting block side is fixed with hollow pole, one side that hollow pole is close to the filter plate rotates and is connected with the cleaning roller. VOCs waste gas after adsorption separation subassembly adsorption in the adsorption separation storehouse can get into in the two-stage gas purification tower through the air inlet of two-stage gas purification tower, filter the impurity in the VOCs waste gas through the filter plate that sets up in air inlet department, simultaneously, under the effect that VOCs waste gas flows, make second wind vane rotate, and then drive the second bull stick and rotate, drive hollow pole and its inside cleaning roller rotation immediately for clean filter plate prevents that the filter plate from being blocked.

Preferably, a metal cylinder is movably connected in the inner cavity of the hollow rod. When the hollow rod rotates, the metal cylinder can slide in the inner cavity of the hollow rod, so that a vibration effect is generated, and the cleaning efficiency of the cleaning roller is improved.

The application has the advantages that:

(1) According to the application, the activated carbon adsorption plate in the adsorption separation assembly is arranged in the adsorption separation bin to adsorb VOCs waste gas, and the rectangular frame is matched with the power assembly to drive the activated carbon adsorption plate to swing in multiple directions, so that the contact area of the activated carbon adsorption plate and the VOCs waste gas is increased, and the adsorption effect is improved.

(2) According to the application, the VOCs waste gas entering the separation pipeline is changed through the special-shaped flow guide block in the flow guide assembly, and meanwhile, the flow speed of the VOCs waste gas can be slowed down through the cooperation of the air inlet groove and the plurality of flow guide grooves, so that the contact area and the contact duration of the VOCs waste gas and the activated carbon adsorption plate are further improved.

(3) The application can filter particle impurities in VOCs waste gas by arranging the filter component at the gas inlets of the adsorption separation bin and the two-stage gas purifying tower, and simultaneously, the second wind blade is rotated under the action of the flow of the VOCs waste gas so as to drive the second rotating rod to rotate, thereby driving the hollow rod and the cleaning roller in the hollow rod to rotate, and cleaning the filter plate and preventing the filter plate from being blocked.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application, are incorporated in and constitute a part of this specification. The drawings and their description are illustrative of the application and are not to be construed as unduly limiting the application. In the drawings:

fig. 1 is a schematic view of a three-dimensional structure in front view of the present application.

Fig. 2 is a schematic cross-sectional view of a treatment cartridge of the present application.

FIG. 3 is a schematic view of the structure of the adsorption separation module of the present application.

Fig. 4 is a schematic view of the power assembly of the present application.

FIG. 5 is a schematic view of the structure of the adsorption module of the present application.

FIG. 6 is a schematic cross-sectional view of a baffle assembly of the present application.

Fig. 7 is a schematic view of the structure of the filter assembly of the present application.

Fig. 8 is a schematic top view of a filter assembly of the present application.

Fig. 9 is a schematic view of the hollow bar and its connection structure according to the present application.

In the above-mentioned figures of the drawing,

100. A base; 200. a treatment bin; 300. a heat treatment bin; 400. an adsorption separation bin;

500. An adsorption separation assembly; 510. separating the pipeline; 520. a power assembly; 521. a rotating electric machine; 522. a first rotating lever; 523. a transmission belt; 524. a cam; 530. an adsorption assembly; 531. a rectangular frame; 532. an elastic member; 533. an activated carbon adsorption plate; 534. a soft rubber sealing sleeve;

540. A flow guiding assembly; 541. a special-shaped flow guide block; 542. an air inlet groove; 543. a diversion trench; 544. a rotating rod; 545. a first wind blade; 546. a trilobal aerofoil;

600. A two-stage gas purification tower;

700. A filter assembly; 710. a filter plate; 730. a support rod; 740. a second rotating rod; 750. a second wind blade; 760. a connecting block; 770. a hollow rod; 780. a cleaning roller; 790. a metal cylinder;

800. A gas detector; 900. and (5) heat treatment assembly.

Detailed Description

In order to enable those skilled in the art to better understand the present application, the following description will make clear and complete descriptions of the technical solutions according to the embodiments of the present application with reference to the accompanying drawings. It will be apparent that the described embodiments are merely some, but not all embodiments of the application. All other embodiments, which can be made by those skilled in the art based on the embodiments of the present application without making any inventive effort, shall fall within the scope of the present application.

It should be noted that the terms "first," "second," and the like in the description and the claims of the present application and the above figures are used for distinguishing between similar objects and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used may be interchanged where appropriate in order to describe embodiments of the application herein. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

In the present application, the terms "upper", "lower", "left", "right", "front", "rear", "top", "bottom", "inner", "outer", "middle", "vertical", "horizontal", "lateral", "longitudinal" and the like indicate an azimuth or a positional relationship based on that shown in the drawings. These terms are only used to better describe the present application and its embodiments and are not intended to limit the scope of the indicated devices, elements or components to the particular orientations or to configure and operate in the particular orientations.

Also, some of the terms described above may be used to indicate other meanings in addition to orientation or positional relationships, for example, the term "upper" may also be used to indicate some sort of attachment or connection in some cases. The specific meaning of these terms in the present application will be understood by those of ordinary skill in the art according to the specific circumstances.

Furthermore, the terms "mounted," "configured," "provided," "connected," "coupled," and "sleeved" are to be construed broadly. For example, it may be a fixed connection, a removable connection, or a unitary construction; may be a mechanical connection, or an electrical connection; may be directly connected, or indirectly connected through intervening media, or may be in internal communication between two devices, elements, or components. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art according to the specific circumstances.

It should be noted that, without conflict, the embodiments of the present application and features of the embodiments may be combined with each other. The application will be described in detail below with reference to the drawings in connection with embodiments.

Example 1

Referring to fig. 1-5, the present embodiment provides a VOCs waste gas treatment apparatus with a gas detection function, including a base 100, wherein a treatment bin 200 is assembled on an upper surface of the base 100, the treatment bin 200 is separated into a heat treatment bin 300 and an adsorption separation bin 400 by an assembling partition plate, a heat treatment assembly 900 is disposed in the heat treatment bin 300, the heat treatment assembly 900 mainly uses auxiliary fuel such as fuel gas or fuel oil to burn, heats mixed gas, and decomposes harmful substances into harmless substances under the high temperature effect, the outside of the adsorption separation bin 400 is connected with a two-stage gas purification tower 600 through a gas detector 800, and an exhaust port of the two-stage gas purification tower 600 is communicated with the heat treatment bin 300;

the adsorption separation cartridge 400 is internally equipped with an adsorption separation assembly 500, and the adsorption separation assembly 500 includes:

The separation pipeline 510 assembled on the division plate, one end of the separation pipeline 510 is positioned outside the adsorption separation bin 400 and is used for externally connecting an exhaust pipeline, the other end of the separation pipeline 510 is fixed on the division plate and the bottom of the separation pipeline 510 is provided with openings, a plurality of groups of adsorption assemblies 530 are assembled in the separation pipeline 510, a plurality of rectangular frames are assembled at the bottom of the separation pipeline 510, the separation pipeline 510 is separated by the plurality of rectangular frames 531, the adsorption assemblies 530 comprise the rectangular frames 531, an activated carbon adsorption plate 533 is assembled in the rectangular frames 531, an elastic piece 532 is assembled outside the rectangular frames 531, a soft rubber sealing sleeve 534 is assembled between the rectangular frames 531 and the separation pipeline 510, and the arrangement of the soft rubber sealing sleeve 534 ensures the mobility and the tightness between the rectangular frames 531 and the separation pipeline 510;

Referring to fig. 2, fig. 3, fig. 4, fig. 5, a power assembly 520 assembled on a partition board, the power assembly 520 includes a rotating motor 521 and a first rotating rod 522, the rotating motor 521 is embedded on the partition board, the first rotating rod 522 has two common and respectively disposed at the side and bottom of the separation pipeline 510, the two first rotating rods 522 are all in transmission connection with an output shaft of the rotating motor 521 through a transmission belt 523, a plurality of cams 524 installed at different angles are fixed on the first rotating rod 522, each rectangular frame 531 corresponds to the two cams 524, the plurality of cams 524 are disposed, and the rectangular frames 531 can swing in multiple directions, so as to promote the contact area between the activated carbon adsorption plates 533 and the VOCs waste gas, adsorb the VOCs waste gas by disposing the activated carbon adsorption plates 533 in the adsorption separation assembly 500 in the adsorption separation bin 400, and simultaneously cooperate with the power assembly 520 to make the rectangular frames 531 drive the activated carbon adsorption plates 533 to swing in multiple directions, promote the contact area between the activated carbon adsorption plates 533 and the VOCs waste gas, and promote the adsorption effect;

When the adsorption separation assembly 500 specifically works, firstly, the separation pipeline 510 is located in the external area of the adsorption separation bin 400 and is externally connected with the waste gas pipeline, then the VOCs waste gas enters the separation pipeline 510, the rotating motor 521 is started at the moment, the two first rotating rods 522 are respectively controlled to rotate by the two driving belts 523 on the output shaft of the rotating motor 521, at the moment, the cams 524 on the two first rotating rods 522 irregularly circularly collide with the rectangular frame 531, and meanwhile, the top ends and the side surfaces of the rectangular frame 531 are respectively provided with the elastic pieces 532, so that under the irregular circular collision of the cams 524, the rectangular frame 531 drives the active carbon adsorption plate 533 in the rectangular frame 531 to swing in multiple directions, the contact area of the active carbon adsorption plate 533 and the VOCs waste gas is improved, and the adsorption effect is improved.

Referring to fig. 2, fig. 3, fig. 5, fig. 6, the guide assembly 540 is assembled inside the separation pipe 510 and used for reducing the flow rate of gas, the guide assembly 540 comprises a special-shaped guide block 541, a plurality of guide grooves 543 used for changing the direction of the gas flow are formed in the special-shaped guide block 541, air inlet grooves 542 communicated with the plurality of guide grooves 543 are formed in the special-shaped guide block 541, every two guide grooves 543 correspond to an activated carbon adsorption plate 533 assembled in a rectangular frame 531, the flow direction of the VOCs waste gas entering the separation pipe 510 is changed by arranging the special-shaped guide block 541, meanwhile, the flow speed of the VOCs waste gas can be reduced by matching of the air inlet grooves 542 and the plurality of guide grooves 543, and the contact area and the contact duration of the VOCs waste gas and the activated carbon adsorption plate 533 are further improved. The special-shaped flow guide block 541 is located in the air inlet groove 542 and is rotationally connected with a rotating rod 544, a plurality of first wind blades 545 are sleeved on the outer side of the rotating rod 544, a trilobal air plate 546 is fixed at the position, close to the air outlet of the separation pipeline 510, of the rotating rod 544, VOCs waste gas entering the air inlet groove 542 can drive the first wind blades 545 to rotate, and the VOCs waste gas can be better guided into the flow guide groove 543 through resistance provided by the first wind blades 545, so that the contact area and the contact duration of the VOCs waste gas and the activated carbon adsorption plate 533 are further improved.

Above-mentioned absorption separation subassembly 500 at concrete during operation, at first the VOCs waste gas that gets into separation pipeline 510 can preferential contact special-shaped guide block 541, change the flow direction of the VOCs waste gas that gets into in the separation pipeline 510 through setting up special-shaped guide block 541, simultaneously through the cooperation of air inlet groove 542 and many guiding grooves 543, can slow down the velocity of flow of VOCs waste gas, simultaneously, the VOCs waste gas that gets into in the air inlet groove 542 can drive first wind blade 545 rotation, resistance through first wind blade 545 provides, can be better with VOCs waste gas guide to the guiding groove 543 in, further promote the area of contact and the contact duration of VOCs waste gas and active carbon adsorption plate 533, simultaneously, because the rotation of dwang 544 can drive trilobal aerofoil 546 and rotate, export the VOCs waste gas after the absorption separation fast to the absorption separation storehouse 400 in, be convenient for carry out the follow-up operation.

Referring to fig. 1,2, 5, 7, 8 and 9, a filter assembly 700 is disposed at the air inlet of the adsorption separation bin 400 and the two-stage gas purification tower 600, the filter assembly 700 includes a filter plate 710 mounted at the air inlet of the two-stage gas purification tower 600, a second rotating rod 740 rotatably connected in the support rod 730, a second wind blade 750 is fixed at the end of the second rotating rod 740, a connecting block 760 is fixed at the end of the second rotating rod 740 far away from the second wind blade 750 near the filter plate 710, a hollow rod 770 is fixed at the side of the connecting block 760, a cleaning roller 780 is rotatably connected at one side of the hollow rod 770 near the filter plate 710, the VOCs waste gas absorbed by the adsorption separation assembly 500 in the adsorption separation bin 400 enters the two-stage gas purification tower 600 through the gas inlet of the two-stage gas purification tower 600, particle impurities in the VOCs waste gas are filtered through the filter plate 710 arranged at the gas inlet, meanwhile, under the action of flow of the VOCs waste gas, the second wind blade 750 is enabled to rotate, the second rotating rod 740 is driven to rotate, the hollow rod 770 and the cleaning roller 780 inside the hollow rod 770 are driven to rotate immediately, the filter plate 710 is used for cleaning, the filter plate 710 is prevented from being blocked, the metal cylinder 790 is movably connected in the inner cavity of the hollow rod 770, and the metal cylinder 790 slides in the inner cavity of the hollow rod 770 in the rotating process, so that a vibration effect is generated, and the cleaning efficiency of the cleaning roller 780 is improved.

In the specific operation of the above-mentioned filter assembly 700, the filter plate 710 assembled at the air inlet of the two-stage gas purifying column 600 may adsorb some particulate impurities not adsorbed by the activated carbon adsorption plate 533, so as to ensure the trafficability of the filter plate 710, when the VOCs waste gas adsorbed by the adsorption separation assembly 500 in the adsorption separation bin 400 enter the two-stage gas purifying column 600 through the filter plate 710, the flowing VOCs waste gas drives the second wind blade 750 to rotate, then drives the second rotating rod 740 fixed to the second wind blade 750 to rotate, and as the second rotating rod 740 rotates, the hollow rod 770 fixed outside rotates along with the rotation of the second rotating rod 740, and the cleaning roller 780 inside the hollow rod 770 rotates along with the rotation of the filter plate 710, so as to clean the surface of the filter plate 710 by the cleaning roller 780, preventing the filter plate 710 from being blocked, and at the same time, the metal cylinder 790 slides in the cavity inside of the hollow rod 770 rotates, thereby generating a vibration effect, and improving the cleaning efficiency of the cleaning roller 780;

Finally, the VOCs waste gas purified by the two-stage gas purifying tower 600 enters the heat treatment bin 300, and is subjected to harmless heat treatment by the heat treatment assembly 900, and the heat treatment assembly 900 mainly utilizes auxiliary fuels such as fuel gas or fuel oil to burn, so that the mixed gas is heated, and harmful substances are decomposed into harmless substances under the action of high temperature.

The foregoing is only a preferred embodiment of the present application, but the scope of the present application is not limited thereto, and any person skilled in the art, who is within the scope of the present application, should make equivalent substitutions or modifications according to the technical scheme of the present application and the inventive concept thereof, and should be covered by the scope of the present application.

Claims (2)

1. The VOCs waste gas treatment equipment with the gas detection function comprises a base (100), wherein a treatment bin (200) is assembled on the upper surface of the base (100), the treatment bin (200) is divided into a heat treatment bin (300) and an adsorption separation bin (400) through an assembly partition plate, a heat treatment assembly (900) is arranged in the heat treatment bin (300), the outside of the adsorption separation bin (400) is connected with a two-section type gas purification tower (600) through a gas detector (800), and the exhaust ports of the two-section type gas purification tower (600) are communicated with the heat treatment bin (300);

The adsorption separation bin is characterized in that an adsorption separation assembly (500) is assembled in the adsorption separation bin (400), and the adsorption separation assembly (500) comprises:

A separation pipe (510) assembled on the separation plate, wherein a plurality of groups of adsorption assemblies (530) are assembled in the separation pipe (510), the adsorption assemblies (530) comprise rectangular frames (531), activated carbon adsorption plates (533) are assembled in the rectangular frames (531), elastic pieces (532) are assembled outside the rectangular frames (531), and soft rubber sealing sleeves (534) are assembled between the rectangular frames (531) and the separation pipe (510);

The power assembly (520) is assembled on the separation plate, the power assembly (520) comprises a rotating motor (521) and first rotating rods (522), the rotating motor (521) is embedded on the separation plate, the first rotating rods (522) are two in total and are respectively arranged at the side face and the bottom of the separation pipeline (510), the two first rotating rods (522) are in transmission connection with an output shaft of the rotating motor (521) through a transmission belt (523), and a plurality of cams (524) installed at different angles are fixed on the first rotating rods (522);

A flow guide assembly (540) mounted inside the separation duct (510) for decelerating the flow of the gas;

each rectangular frame (531) corresponds to two cams (524), and the bottom of the separation pipe (510) is provided with a plurality of rectangular frames;

The flow guide assembly (540) comprises a special-shaped flow guide block (541), wherein a plurality of flow guide grooves (543) for changing the air flow direction are formed in the special-shaped flow guide block (541), and an air inlet groove (542) communicated with the plurality of flow guide grooves (543) is formed in the special-shaped flow guide block (541); each two diversion grooves (543) in the special-shaped diversion block (541) corresponds to an activated carbon adsorption plate (533) assembled in the rectangular frame (531);

A rotating rod (544) is rotationally connected in the special-shaped flow guide block (541) and positioned in the air inlet groove (542), a plurality of first wind blades (545) are sleeved on the outer side of the rotating rod (544), and a trilobal air plate (546) is fixed at the position, close to an air outlet of the separation pipeline (510), of the rotating rod (544);

The utility model discloses a filter plate, including adsorption separation storehouse (400), filter plate (710), filter rod (760) are connected in bracing piece (730) including assembly in two segmentation gas purification tower (600) air inlet department, filter assembly (700), second bull stick (740), the end of second bull stick (740) is fixed with second wind blade (750), the one end that second wind blade (750) was kept away from to second bull stick (740) is close to the one end of filter plate (710) is fixed with connecting block (760), connecting block (760) side is fixed with hollow pole (770), one side that hollow pole (770) is close to filter plate (710) rotates and is connected with cleaning roller (780).

2. The VOCs waste gas treatment apparatus with gas detection function according to claim 1, wherein a metal cylinder (790) is movably connected in the inner cavity of the hollow rod (770).