CN-224230380-U - Air source heat pump device based on Internet of things

Abstract

The utility model discloses an air source heat pump device based on the Internet of things, which comprises a heat pump body and a vibration damping mechanism, wherein the vibration damping mechanism comprises a bridge plate, a U-shaped guide seat, an I-shaped shock pad, a bolt stop rod, a shock pad cylinder, a supporting rod and a base plate, the vibration damping mechanism is arranged at the air source heat pump provided with an Internet of things module, the vibration damping mechanism provides a first layer of material buffering by the I-shaped shock pad and a T-shaped supporting pad, the T-shaped supporting pad is not only supported at the bottom to the U-shaped guide seat, but also provides internal support for the column cylinder block of the T-shaped supporting pad to further buffer vibration when the U-shaped guide seat vibrates, meanwhile, the shock pad cylinder is sleeved outside the supporting rod and the layer supporting ring and damps through friction between the layer rib ring and the layer supporting ring, and the shock absorption design of multi-layer and multi-component cooperation can buffer and absorb vibration energy more effectively, so that vibration interference of the heat pump body to surrounding buildings and equipment is greatly reduced.

Inventors

• Dou ning
• Sun Genghua
• ZHANG XING
• LIU YANG
• ZHANG XIAOXIAO

Assignees

• 天津安捷物联科技股份有限公司

Dates

Publication Date

20260512

Application Date

20250513

Claims (6)

1. 1. The air source heat pump device based on the Internet of things comprises a heat pump body (1), and is characterized by further comprising a vibration damping mechanism (2), wherein the vibration damping mechanism (2) comprises a bridge plate (3), a U-shaped guide seat (4), an I-shaped shock pad (5), a bolt stop rod (7), a shock pad cylinder (10), a supporting rod (12) and a base plate (14), the bridge plate (3) is symmetrically welded at the bottom end of a machine box of the heat pump body (1), the U-shaped guide seat (4) is symmetrically welded at the positions of two end plate heads of the bridge plate (3) extending out of the lower part of the heat pump body (1), a T-shaped supporting pad (6) is inserted into the U-shaped guide seat (4), the T-shaped supporting pad (6) is integrally formed at four corners of the pad surface of the I-shaped shock pad (5), the T-shaped supporting pad (6) and the I-shaped shock pad (5) are provided with bolt stop rods (7) which are inserted upwards and are screwed with flange nuts (8), the four-point welding rods (7) are welded on the surface of a plate body of a base (14), the base plate (14) extends out of the shock pad (12) and the shock pad (12) is inserted upwards and is inserted into the shock pad (12) in the shock pad (14), the shock pad section of thick bamboo (10) bond and fix the lower face at bridge plate (3), and the protruding layering muscle ring (11) that has in the riser chamber of shock pad section of thick bamboo (10), the support rod (12) in shock pad section of thick bamboo (10) are overlapped outward and are overlapped bonding and have layer backing ring (13).
2. 2. The air source heat pump device based on the Internet of things, which is characterized in that bottom containing grooves (9) are symmetrically formed below a plate body of the bridge plate (3), and shock pad cylinders (10) are clamped and bonded in groove cavities of the bottom containing grooves (9).
3. 3. The air source heat pump device based on the Internet of things, which is characterized in that three layers of layer rib rings (11) in the shock pad cylinder (10) are vertically arranged, and three groups of ring bodies of layer supporting rings (13) are bonded on vertical clamping sleeves on the surfaces of supporting rods (12) in the shock pad cylinder (10).
4. 4. The air source heat pump device based on the Internet of things, which is characterized in that mounting holes are formed in the surface of a base plate (14) between the supporting rods (12) in a penetrating mode, and the mounting holes of the base plate (14) are located below groove cavities on two sides of the I-shaped shock pad (5).
5. 5. The air source heat pump device based on the Internet of things, which is characterized in that rectangular cushion blocks of the T-shaped supporting pads (6) are integrally formed at four corners of the pad surface of the I-shaped shock pad (5), cylindrical blocks are protruded at the top ends of the rectangular cushion blocks of the T-shaped supporting pads (6), and the cylindrical blocks of the T-shaped supporting pads (6) are upwards inserted out of guide cavities penetrating through the surfaces of the U-shaped guide seats (4).
6. 6. The air source heat pump device based on the Internet of things, which is characterized in that a cushion hole for penetrating out of the supporting rod (12) is formed in the cushion surface of the I-shaped shock pad (5), and a cushion hole for penetrating out of the bolt stop rod (7) is formed between the I-shaped shock pad (5) and the T-shaped supporting pad (6).

Description

Air source heat pump device based on Internet of things Technical Field The utility model relates to the technical field of air source heat pumps, in particular to an air source heat pump device based on the Internet of things. Background The air source heat pump is also called an air source heat pump, is a device for transferring heat from a low-temperature heat source to a high-temperature heat source by utilizing reverse thermodynamic cycle, is an effective means for utilizing low-temperature heat energy in air, and is characterized in that an Internet of things module, such as a sensor, a controller, a communication module and the like, is embedded in air source heat pump equipment to realize connection between the equipment and the Internet, the sensor collects various data, such as temperature, pressure, energy consumption and the like, in the running process of the air source heat pump in real time, the controller analyzes and processes the data according to preset rules and algorithms, the data is transmitted to a cloud server or a user terminal through the communication module, and a user can remotely monitor the running state of the air source heat pump through a mobile phone application program, computer software and other terminal equipment. The prior art air source heat pump can be installed and used in some roof areas after the internet of things module is configured, vibration is directly transmitted to installation bases when the air source heat pump operates to affect surrounding equipment and building structures, a shock pad is added between the air source heat pump and the roof installation bases to conduct shock absorption in the prior art, the shock pad structure and the shock absorption mode are simple, shock absorption effects between the air source heat pump and the roof installation bases are limited, vibration force applied by the air source heat pump to the roof installation bases cannot be effectively eliminated, and therefore, the air source heat pump device based on the internet of things is provided. Disclosure of utility model The utility model mainly aims to provide an air source heat pump device based on the Internet of things, a vibration damping mechanism is arranged at an air source heat pump provided with an Internet of things module, the vibration damping mechanism provides a first layer of material quality for buffering by an I-shaped vibration damping pad and a T-shaped supporting pad, the T-shaped supporting pad is not only supported at the bottom by a U-shaped guide seat, but also can provide internal support for vibration when the U-shaped guide seat vibrates, and further dampens vibration, meanwhile, a vibration damping pad cylinder is sleeved outside a supporting rod and a layer supporting ring, damping and vibration damping are carried out through friction between a layer rib ring and a layer supporting ring, and compared with a traditional simple vibration damping pad, the vibration damping mechanism can buffer and absorb vibration energy more effectively, greatly reduces vibration interference of a heat pump body to surrounding buildings and equipment, and can effectively solve the problems in the background technology. In order to achieve the above purpose, the technical scheme adopted by the utility model is as follows: The utility model provides an air source heat pump device based on thing networking, includes the heat pump body, still includes the vibration damping mechanism, the vibration damping mechanism includes bridge plate, U-shaped guide seat, worker's shape shock pad, bolt check rod, shock pad section of thick bamboo, branch and base plate, the quick-witted case bottom symmetry welding of heat pump body has the bridge plate, and the bridge plate stretches out the both ends board head department symmetry welding U-shaped guide seat of heat pump body below, alternate in the U-shaped guide seat to stretch out there is T-shaped support pad, and T-shaped support pad integrated into one piece is in the pad face four corners department of worker's shape shock pad, have bolt check rod upward alternate with flange nut and connect soon between T-shaped support pad and the worker's shape shock pad, and bolt check rod four spot welds at the board surface of base plate, base plate surface four spot welds between the bolt check rod has branch, and the body of branch upwards wears out worker's shape shock pad and the cushion section of thick bamboo and inlay, shock pad section of thick bamboo bonding is fixed at the lower face of thick bamboo of bridge plate, and the protruding pad section of thick bamboo intracavity bump, the pad has the pad ring to overlap the vibration damper sleeve. Further, bottom containing grooves are symmetrically formed below the plate body of the bridge plate, and shock pad cylinders are clamped and bonded in groove cavities of the bottom containing grooves; through adopting above-mentioned technical scheme, the shock pad section of t