There are 3 challenges.
Your query has no
JOIN condition between the tables
groups, making this effectively a limited
CROSS JOIN - which you most probably do not intend. I.e. every phone that qualifies is combined with every group that qualifies. If you have 100 phones and 100 groups that's already 10,000 combinations.
Insert distinct combinations of
Avoid inserting rows that are already there in table
All things considered it could look like this:
INSERT INTO group_phones(group_id, phone_name)
SELECT i.id, i.name
SELECT DISTINCT g.id, p.name -- get distinct combinations
FROM phones p
JOIN groups g ON ??how are p & g connected??
WHERE g.id IN ($add_groups)
AND p.name IN ($phones)
LEFT JOIN group_phones gp ON (gp.group_id, gp.phone_name) = (i.id, i.name)
WHERE gp.group_id IS NULL -- avoid duping existing rows
This form minimizes the chance of a race condition with concurrent write operations. If your table has heavy concurrent write load, you may want to lock the table exclusively or use serializable transaction isolation, This safeguard against the extremely unlikely case that a row is altered by a concurrent transaction in the tiny time slot between the constraint verification (row isn't there) and the write operation in the query.
BEGIN ISOLATION LEVEL SERIALIZABLE;
Be prepared to repeat the transaction if it rolls back with a serialization error.
For more on that topic good starting points could be this blog post by @depesz or this related question on SO.
Normally, though, you needn't even bother with any of this.
LEFT JOIN tbl ON right_col = left_col WHERE right_col IS NULL
is generally the fastest method with distinct columns in the right table. If you have dupes in the column (especially if there are many),
WHERE NOT EXISTS (SELECT 1 FROM tbl WHERE right_col = left_col)
May be faster because it can stop to scan as soon as the first row is found.
You can also use
IN, like @dezso demonstrates, but it is usually slower in PostgreSQL.