Command Palette

Search for a command to run...

UnylyUnyly
Весь каталог

Ged Invest

БесплатноНе проверен

An MCP server for construction tools that calculates wall formwork material takeoffs from geometry inputs, enabling LLMs to generate accurate bills of materials

GitHubEmbed

Описание

An MCP server for construction tools that calculates wall formwork material takeoffs from geometry inputs, enabling LLMs to generate accurate bills of materials.

README

An MCP (Model Context Protocol) server hosting a growing set of construction tools for Ged Invest. The first tool domain is wall formwork quantity takeoff; more tool domains can be added later as separate submodules.

Idea / architecture

Separation of concerns:

Photo / drawing / PDF
        │
        ▼
[ LLM (ChatGPT / Claude) ]     ← reads the geometry, builds structured data
        │   { segments:[{length, height, corner}], system:"BAUTEKK" }
        ▼
[ Ged Invest MCP (Python) ]    ← deterministic calculators (tools)
        │   panel selection + corners + hardware + aggregation
        ▼
[ Result: BOM ]   → panels, corners, ties, props, m², timber
  • The LLM is the "eyes": it reads an image and turns it into numbers.
  • The MCP is the "calculator": repeatable, no guessing. The same geometry always yields the same result - unlike LLM arithmetic.

Tool domains

Domain Status Tools
formwork ready list_formwork_systems, formwork_catalog, count_formwork, concrete_pressure_check
(future) planned additional construction tools register the same way

Formwork systems

System Max pressure Catalog
BAUTEKK 40 kN/m² verified against DTR BauTekk 04/2022 + project PDF (R01)
BAUFRAME 60 kN/m² default values — to be verified
BAUSCHAL 80 kN/m² default values — to be verified

BAUTEKK data taken from the manufacturer DTR: panel widths (10/20/25/30/45/50/60/75/90 cm, 70 cm as VT), three heights (90/120/150 cm), real article numbers for every size, outer/inner corners per height, and the connector rule (5/4/3 connectors per joint for 150/120/90 cm plates). Tie and prop counts remain design-dependent estimates.

BAUFRAME/BAUSCHAL catalogs contain sensible starting values. Confirm panel sizes and article numbers against the official BAUKRANE catalog before production use (src/ged_invest_mcp/formwork/catalog.py).

Install

Requires Python ≥ 3.10.

python3.13 -m venv .venv
source .venv/bin/activate
pip install -e .

Run

The server supports two transports from a single entry point.

stdio (local — Claude Desktop / Cursor)

python -m ged_invest_mcp.server        # stdio by default
ged-invest-mcp

In this mode you host no network server — the client (Claude/Cursor) launches the Python process itself and talks to it over stdin/stdout. When the client closes, the process ends. No ports, no hosting.

HTTP (remote — ChatGPT / connectors)

python -m ged_invest_mcp.server --http                 # http://0.0.0.0:8000/mcp
python -m ged_invest_mcp.server --http --port 9000
python -m ged_invest_mcp.server --transport sse        # legacy SSE transport

ChatGPT cannot launch a local process, so it needs an MCP exposed over HTTP at a URL. Expose a local server via a tunnel (e.g. ngrok http 8000) or deploy it, then add https://.../mcp as a custom connector.

count_formwork — two ways to pass geometry

A) Segment list (you know wall lengths and corners):

{
  "system": "BAUTEKK",
  "segments": [
    {"length": 465, "height": 150, "corner_at_end": "outer", "label": "A"},
    {"length": 465, "height": 150, "corner_at_end": "outer", "label": "B"}
  ]
}

B) Polygon (outline coordinates — corners detected automatically):

{
  "system": "BAUTEKK",
  "polygon": [[0,0],[840,0],[840,700],[0,700]],
  "height": 150
}

Client configuration

Claude Desktop / Cursor (mcp.json)

{
  "mcpServers": {
    "ged-invest": {
      "command": "/ABSOLUTE/PATH/bud-ged-mcp/.venv/bin/python",
      "args": ["-m", "ged_invest_mcp.server"]
    }
  }
}

Method (formwork, in short)

  1. Wall outline → segments between corners (outer / inner / none for collinear).
  2. Segment length → panel width selection (dynamic programming, min. timber).
  3. Height → panels are stacked to reach the wall height; the top course may stand above the pour line (reported as top_overshoot_cm, panels are not cut).
  4. Panels = columns × courses × faces (default 2 = wall centerlines; pass faces=1 if the input already lists both faces separately).
  5. Corners: one corner element per course.
  6. Hardware: full family from the catalog (ties, nuts, cones, plugs, spacer tubes, connectors, pins, wedges, corner tensioners, props with heads/feet). Coefficients are approximate and should be calibrated against the DTR.
  7. Horizontal leftover that does not fit panels → timber infill [lm].

Auditable output

count_formwork returns, besides the BOM:

  • input_echo — the geometry actually used (polygon-derived side lengths, corner types and winding), so you can verify the LLM read the drawing correctly;
  • assumptions — faces, corner rule, spacings, panel heights, policies;
  • per-segment panels_horizontal_per_face / courses_vertical_per_face layout;
  • reconciliation — geometry area vs panel area and waste %;
  • units, catalog_version, warnings, disclaimer.

This is an engineering estimator — the result supports quoting/ordering and must be approved by the site manager (per the project notes).

concrete_pressure_check — fresh concrete pressure (DIN 18218)

Computes the maximum characteristic lateral fresh concrete pressure per DIN 18218:2010-01 from the pouring (rise) rate v, consistency class (F1F6, SCC) and setting time tE, caps it by the hydrostatic pressure γc·H, and compares it to the formwork system's limit:

  • characteristic_pressure_kn_m2, hydrostatic_pressure_kn_m2, design_pressure_kn_m2, governing;
  • within_limit and max_pouring_rate_for_limit_m_per_h (the fastest safe rate);
  • pass system (e.g. BAUTEKK) to auto-fill the limit (40 kN/m²) and the DTR process cap (2 m/h).

Simplified 15 °C reference model (no temperature/admixture corrections). The real pressure and safe pouring rate remain the site manager's responsibility.

Adding a new tool domain

  1. Create src/ged_invest_mcp/<domain>/ with a register(mcp) function.
  2. Import and call it in server.py.

Tests

python -m pytest -q

from github.com/ged-pawel/ged-invest-mcp

Установка Ged Invest

У этого сервера нет опубликованного пакета — он собирается из исходников. Открой репозиторий и следуй инструкции в README.

▸ github.com/ged-pawel/ged-invest-mcp

FAQ

Ged Invest MCP бесплатный?

Да, Ged Invest MCP бесплатный — установка в пару кликов через Unyly без оплаты.

Нужен ли API-ключ для Ged Invest?

Нет, Ged Invest работает без API-ключей и переменных окружения.

Ged Invest — hosted или self-hosted?

Self-hosted: сервер запускается локально на твоей машине командой из раздела установки.

Как установить Ged Invest в Claude Desktop, Claude Code или Cursor?

Открой Ged Invest на unyly.org, выбери вкладку своего клиента (Claude Desktop, Claude Code, Cursor) и нажми Install — конфиг сгенерируется автоматически, без правки JSON.

Похожие MCP

Compare Ged Invest with

Не уверен что выбрать?

Найди свой стек за 60 секунд

Автор?

Embed-бейдж для README

Похожее

Все в категории development