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Return-Path: <> Delivered-To: rattkxnv@premium264.web-hosting.com Received: from premium264.web-hosting.com by premium264.web-hosting.com with LMTP id YBEZL6r1QGdLBS0ABiptEQ (envelope-from <>) for <rattkxnv@premium264.web-hosting.com>; Fri, 22 Nov 2024 16:20:42 -0500 Return-path: <> Envelope-to: rattkxnv@premium264.web-hosting.com Delivery-date: Fri, 22 Nov 2024 16:20:42 -0500 Received: from mailnull by premium264.web-hosting.com with local (Exim 4.96.2) id 1tEb50-00Cby2-2H for rattkxnv@premium264.web-hosting.com; Fri, 22 Nov 2024 16:20:42 -0500 X-Failed-Recipients: admin@fitwithiit.com Auto-Submitted: auto-replied From: Mail Delivery System <Mailer-Daemon@premium264.web-hosting.com> To: rattkxnv@premium264.web-hosting.com References: <2aOhVfLeRmKYriIGV5QuJLK4dB2jUAKRrf6pjFbk0@fitwithiit.com> Content-Type: multipart/report; report-type=delivery-status; boundary=1732310442-eximdsn-1426548451 MIME-Version: 1.0 Subject: Mail delivery failed: returning message to sender Message-Id: <E1tEb50-00Cby2-2H@premium264.web-hosting.com> Date: Fri, 22 Nov 2024 16:20:42 -0500 --1732310442-eximdsn-1426548451 Content-type: text/plain; charset=us-ascii This message was created automatically by mail delivery software. 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The following address(es) failed: admin@fitwithiit.com No Such User Here --1732310442-eximdsn-1426548451 Content-type: message/delivery-status Reporting-MTA: dns; premium264.web-hosting.com Action: failed Final-Recipient: rfc822;admin@fitwithiit.com Status: 5.0.0 --1732310442-eximdsn-1426548451 Content-type: message/rfc822 Return-path: <rattkxnv@premium264.web-hosting.com> Received: from rattkxnv by premium264.web-hosting.com with local (Exim 4.96.2) (envelope-from <rattkxnv@premium264.web-hosting.com>) id 1tEb50-00Cbxm-1K for admin@fitwithiit.com; Fri, 22 Nov 2024 16:20:42 -0500 To: admin@fitwithiit.com Subject: =?us-ascii?Q?[]_Please_moderate:_"5_Advanced_Hiit_Workout_Ex?= =?us-ascii?Q?ercises_That_Will_Take_Your_Body_To_a_Next_Leve?= =?us-ascii?Q?l"?= X-PHP-Script: fitwithiit.com/wp-comments-post.php for 188.130.137.151, 188.130.137.151 X-PHP-Filename: /home/rattkxnv/fitwithiit.com/wp-comments-post.php REMOTE_ADDR: 188.130.137.151 Date: Fri, 22 Nov 2024 21:20:42 +0000 From: WordPress <wordpress@fitwithiit.com> Message-ID: <2aOhVfLeRmKYriIGV5QuJLK4dB2jUAKRrf6pjFbk0@fitwithiit.com> X-Mailer: PHPMailer 6.9.2 (https://github.com/PHPMailer/PHPMailer) MIME-Version: 1.0 Content-Type: text/plain; charset=UTF-8 Content-Transfer-Encoding: 8bit Sender: <rattkxnv@premium264.web-hosting.com> A new comment on the post "5 Advanced Hiit Workout Exercises That Will Take Your Body To a Next Level" is waiting for your approval https://fitwithiit.com/who-else-wants-to-enjoy-5-advanced-hiit-workout-exercises-that-will-take-your-body-to-a-next-level/ Author: Mollistoict (IP address: 188.130.137.151, 188.130.137.151) Email: raapkavyul@gazeta.pl URL: Comment: <a href="https://vibromera.eu" rel="nofollow ugc"></a> <a href="https://youtube.com/shorts/OUawcTaf9Bo?si=ulEGWwbj-cyUyCWr" rel="nofollow ugc">Watch YouTube Short</a> How does vibration analysis help in equipment diagnostics? Description: Balanset-1A is a two-channel device for balancing and vibration analysis. It's suitable for balancing rotors such as crushers, fans, mulchers, choppers on combine harvesters, shafts, centrifuges, turbines, and more. Features: Vibrometer mode: - Tachometer: Accurately measures rotational speed (RPM). - Phase: Determines the phase angle of vibration signals for precise analysis. - 1x vibration: Measures and analyzes the fundamental frequency component. - FFT spectrum: Provides a detailed view of the frequency spectrum of vibration signals. - Overall vibration: Measures and monitors the overall vibration levels. - Measurement log: Stores measurement data for analysis. Balancing mode: - Single plane balancing: Balances rotors in a single plane to reduce vibration. - Two plane balancing: Balances rotors in two planes for dynamic balancing. - Polar graph: Visualizes the unbalance in a polar graph representation for accurate weight placement. - Restore last session: Allows you to resume a previous balancing session for convenience. - Tolerance calculator (ISO 1940): Calculates the acceptable balancing tolerance according to the ISO 1940 standard. - Grinding wheel balancing: Circular groove – used for grinding wheel balancing. In this case, 3 counterweights are used to eliminate unbalance. Charts: - Overall charts: Provides visual representation of overall vibration. - 1x charts: Displays the vibration patterns of the fundamental frequency component. - Harmonic charts: Shows the presence and impact of harmonic frequencies. - Spectrum charts: Presents a graphical representation of the frequency spectrum for in-depth analysis. Additional capabilities: - Archive: Store and access previous balancing sessions. - Reports: Generate detailed reports of balancing results. - Re-balancing: Easily repeat the balancing process using saved data. - Serial production balancing: Suitable for balancing rotors in serial production. Balanset-1A also offers the flexibility to select either the Imperial or Metric system, ensuring compatibility and convenience globally. The process of balancing a rotor using the Balanset-1A device from Vibromera involves several key steps, from equipment preparation to corrective weight installation. Equipment Preparation: Place vibration sensors perpendicular to the rotor's axis of rotation. Attach the laser tachometer to a magnetic stand, directing it towards the reflective tape on the pulley. Connect the sensors to the device and link the device to a laptop via USB. Launch the Balanset software, selecting the two-plane balancing mode. Initial Vibration Measurement: Before balancing, suspend a test weight and record its weight and installation radius. Start the rotor and measure the initial vibration level to determine the amplitude and phase of the initial imbalance. Balancing in the First Plane: Install the test weight in the first balancing plane, corresponding to the position of the first sensor. Run the rotor to measure the vibration level. It's crucial that the amplitude or phase changes by at least 20%, indicating partial correction of the imbalance. Balancing in the Second Plane: Move the test weight to the second plane (where the second sensor is placed), restart the rotor, and take measurements. These data will help the program calculate the precise position and weight of the corrective weights. Correcting the Imbalance: Based on the data collected, the Balanset program will suggest corrective weights and their installation angles for both planes. Remove the test weight, prepare the corrective weights as per the program's recommendations, and position them at the required angle in the rotor's rotation direction from the initial test weight position. Verification and Completion of Balancing: Run the rotor for a final balance check. If the vibration has reduced to an acceptable level, the process is complete. If further correction is needed, the program will indicate where and how much additional weight to install. It is essential to balance mechanically sound mechanisms securely fixed in their designated positions. Otherwise, the mechanism must be repaired, fitted with functional bearings, and secured before balancing. The rotor should be free of contaminants hindering the balancing process. Before measurements, select sensor installation locations and set them up according to the provided recommendations. Before balancing, it's recommended to measure in vibrometer mode. If the total vibration V1s(V2s) is approximately equal to the rotational component V1o(V2o), the primary vibration contribution is likely from rotor imbalance. If V1s(V2s) significantly exceeds V1o(V2o), a mechanism inspection is advised to check bearing conditions, foundation fastening reliability, rotor clearance from stationary parts during rotation, impact of other mechanisms’ vibrations, etc. Analyzing the temporal function and vibration spectrum graphs obtained during the "Graphs-Spectral Analysis" mode can be beneficial. It is recommended! Before balancing with the device, ensure there is no significant static imbalance. For horizontally positioned axis rotors, manually rotate the rotor 90 degrees from its current position. If the rotor is statically unbalanced, it will move to equilibrium. Once the rotor reaches equilibrium, place a balancing weight near the top at about the rotor's midpoint length. Adjust the weight to keep the rotor stationary in any position. This preliminary balancing helps reduce vibration when initially starting a highly unbalanced rotor. Device Kit: - Vibration sensors: 2 pieces; - Phase angle sensor (laser tachometer): 1 piece; - Measurement block (Balanset device): 1 piece; - Magnetic stand: 1 piece; - Electronic scales: 1 piece; - Transport case: 1 piece; - Software on a flash drive: 1 piece. Price: 1751 euros. of the HTML document] <b>Contact Information:</b> For more information about our Balanset balancing devices and other products, please visit our website: https://vibromera.eu. Subscribe to our YouTube channel, where you will find instructional videos and examples of completed work: https://www.youtube.com/@vibromera. Stay updated with our latest news and promotions on Instagram, where we also showcase examples of our work: https://www.instagram.com/vibromera_ou/. <a href="https://www.machinio.com/listings/98380186-portable-balancer-vibration-analyzer-balanset-1a-full-kit-in-portugal" rel="nofollow ugc">Buy Balanset-1A on Machinio</a> <a href="https://www.etsy.com/listing/1791714976/" rel="nofollow ugc">Balanset-1A OEM on Etsy</a> Approve it: https://fitwithiit.com/wp-admin/comment.php?action=approve&c=1799#wpbody-content Trash it: https://fitwithiit.com/wp-admin/comment.php?action=trash&c=1799#wpbody-content Spam it: https://fitwithiit.com/wp-admin/comment.php?action=spam&c=1799#wpbody-content Currently 1,174 comments are waiting for approval. Please visit the moderation panel: https://fitwithiit.com/wp-admin/edit-comments.php?comment_status=moderated#wpbody-content --1732310442-eximdsn-1426548451--
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