Profile
Contact Details
Member: Richard Rushworth
Company: Thomas Oliver
Phone: 01707 872 000
Mobile: 07880 722 052
Email: Richard.rushworth@thomasoliveruk.co.uk
Website: www.thomasoliveruk.co.uk
Nexus Role: Member
Services
- Ltd Co purchase
- BTL
- FTB
- Newly employed
- Remortgage
- FTC
- Self-employed
- Capital-Raising
- Debt Consolidation
- FTB FTL
- Discharged bankrupts
- Bridging
- Help to Buy
- Right to Buy
- Shared Ownership
- Life and Critical Illness
- Income Protection
- Buildings and Contents
- Key Persons Cover
- Shareholder Protection
- Life Protection
Business Profile
Richard Rushworth is a fully CeMAP qualified self-employed Mortgage and Protection Advisor. He works under the Thomas Oliver brand and is based in Brentwood, Essex where he was born and brought up. Prior to becoming self-employed he worked for Kings Group and was based in Enfield Town where he still has a large client base. While employed he became the company’s top broker in his first complete year and won numerous other awards.
He believes that not only will his knowledge and experience enable him to tailor individual products to each client but that service is the key. He looks after his clients from the first meeting all the way through to completion, and often beyond that. Explaining each step of the process and talking to both solicitors and estate agents enables the client to carry on with their own lives and gives them the confidence to go through the process without fear.
He can often stretch budgets more than previously thought possible while coming up with ideas and solutions to problems. While self-employed he has the flexibility to visit clients at a time to suit them. You don’t just get convenience and a helping hand through the process though, his experience will guide you to the best product for you. Everyone is different with different circumstances and he will be able to get the best products for you
Contact
Sales Enquiries:
C: Danny Nevill
Office Address:
Nexus Networking Ltd
Wellington House
Butt Rd
Colchester
Essex
CO3 3DA