CN209148576U - Thermal insulation of building door/window detection device - Google Patents
Thermal insulation of building door/window detection device Download PDFInfo
- Publication number
- CN209148576U CN209148576U CN201821947663.4U CN201821947663U CN209148576U CN 209148576 U CN209148576 U CN 209148576U CN 201821947663 U CN201821947663 U CN 201821947663U CN 209148576 U CN209148576 U CN 209148576U
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- China
- Prior art keywords
- detection device
- test block
- movable plate
- thermal insulation
- drying box
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Abstract
The utility model relates to a kind of thermal insulation of building door/window detection devices, belong to door and window detection device field.Including detection device ontology, detection device ontology includes hot cell, cold house, test block, opening is provided in test block, storage case is provided on detection device ontology, actuator is provided in storage case, actuator includes gear and the rack gear that engages with gear, gear is coaxially connected with rotary electric machine, it accommodates box inner wall and its short transverse is provided with sliding slot, sliding slot is slidably connected with rack gear, movable plate is provided in test block, the side wall of movable plate is connect with test block side walls, and rack gear passes through detection device ontology close to one end of detection device ontology and connect with movable plate.Using such thermal insulation of building door/window detection device, various sizes of building doors and windows can detect.
Description
Technical field
The utility model relates to door and window detection device field more particularly to a kind of thermal insulation of building door/window detection devices.
Background technique
Thermal insulation of building door/window detection device is based on steady heat transfer principle, using calibration Heat-box method detection window heat preservation
Performance.Test specimen side is hot tank, simulates heating building winter indoor climate condition, and the other side is ice chest, simulates gas outside winter room
Time condition.Processing, the stable air themperature of each self-sustaining in test specimen two sides, air velocity and hot spoke are being sealed to test specimen gap
Under the conditions of penetrating, the calorific value of electric heater in hot tank is measured, the heat loss by hot tank outer wall and test specimen frame is subtracted, divided by test specimen face
The long-pending product with two sides Air Temperature Difference, can calculate the energy saving of test specimen.
In the prior art, Authorization Notice No. is the Chinese patent of CN203465227U, discloses a kind of building doors and windows heat preservation
Performance detecting system.Including hot cell, cold house, heating device, blower, refrigerating plant, electric control gear and test specimen frame, refrigeration dress
The heat exchanger setting the compressor set by being located at the external world and connecting in cold house with compressor set forms;Electric control gear includes cabinet
With the intracorporal touch screen computer of case is set, is electrically connected with touch screen computer PID control instrument, temperature sampler, adjust function
Rate device, electrical parameter power meter and start-stop button, PID control instrument are connect with regulation power device, heating device respectively with the tune
It saves power device to be connected, the heating device in hot cell is also connect with electrical parameter power meter, the temperature sensing connecting with temperature sampler
Device is separately positioned on hot cell, in cold house and on test specimen frame.The utility model accurately controls heating dress using PID control instrument
The heating amount set, cold house, hot cell, which are respectively formed, stablizes adjustable temperature field, has fully ensured that temperature control Stability and veracity.But it should
Utility model cannot test various sizes of test block, operation is more troublesome during fixed test block.
Utility model content
The purpose of this utility model is to provide a kind of thermal insulation of building door/window detection devices, have test size test
The advantages of part.
The above-mentioned purpose of the utility model has the technical scheme that
A kind of thermal insulation of building door/window detection device, including detection device ontology, detection device ontology includes hot cell, cold
Room, test block are provided with opening in test block, and storage case, setting in the storage case are provided on the detection device ontology
There is an actuator, the actuator includes gear and the rack gear that engages with gear, and the gear is coaxially connected with rotary electric machine, described
It accommodates box inner wall and its short transverse is provided with sliding slot, the sliding slot is slidably connected with rack gear, is provided in the test block
The side wall of movable plate, the movable plate is connect with test block side walls, and the rack gear passes through test close to one end of test block
Frame is connect with movable plate.
Implement above-mentioned technical proposal, test block is put into test block, the rotation of rotary electric machine sliding tooth wheel, gear band movable tooth
Item moves in a straight line along the chute, so that the movable plate connecting with rack gear is moved along test block inner sidewall, and then can abut not
With the test block of width.
Further, the side wall that the storage case is provided with sliding slot is provided with baffle, and the baffle is located at sliding slot far from detection
Above one end of apparatus body, be provided with push rod between the rack gear and movable plate, the both ends of the push rod respectively with rack gear and shifting
Movable plate connection.
Implement above-mentioned technical proposal, by the setting of baffle, makes gear driving rack towards the side far from detection device ontology
To when movement, it can prevent rack gear from skidding off outside gear;By the setting of push rod, gear driving rack can be made to move towards detection device ontology
It is dynamic, when rack gear is moved to the position with storage case clamping, it is stuck in gear on rack gear, prevents rack gear from skidding off the situation outside gear
Occur.
Further, the side wall that the detection device ontology is provided with storage case is additionally provided with bubble chamber, in the bubble chamber
Foam beads are provided with, the side wall that the bubble chamber is abutted with detection device ontology is provided with delivery port, the movable plate direction
One end of test block opening is provided with the corrugated plating along the setting of test block short transverse, the one end of the corrugated plating far from movable plate
It is connect with the inner sidewall of test block close to storage case, other both ends and the test block inner sidewall of the corrugated plating are slidably connected, institute
The cavity that corrugated plating, movable plate, test block are constituted is stated to be connected to bubble chamber by delivery port.
Implement above-mentioned technical proposal, when push rod pushes movable plate mobile towards the direction far from storage case, in bubble chamber
Foam beads are fallen by delivery port in the cavity that corrugated plating, movable plate, test block are constituted, and then avoid movable plate and extraneous ring
Border contact, the situation for preventing test block from causing test inaccurate because of the influence of ambient temperature occur.
Further, tilting table is provided in the bubble chamber, the least significant end of the tilting table extends to delivery port opening.
Implement above-mentioned technical proposal, by the setting of tilting table, falls into corrugated plating convenient for the foam beads in bubble chamber, moves
In the cavity that movable plate, test block are constituted, foam beads is avoided to accumulate in bubble chamber and corrugated plating, movable plate, survey cannot be fallen into
Situation about trying in the cavity that frame is constituted occurs.
Further, the side wall of the bubble chamber is provided with revolving door, and the revolving door is arranged in foam beads short transverse
Upper end, be provided with handle on the revolving door.
Implement above-mentioned technical proposal, when the foam beads in bubble chamber need replacing, revolving door is rotated by handle, is beaten
After opening revolving door, foam beads are replaced.
Further, the side wall of the hot cell and cold house is respectively arranged with drying box, is provided in the drying box multiple flat
Row resistance net side by side, the both ends of the resistance net are connect with the side wall of drying box respectively, the drying box far from hot cell with it is cold
The side wall of room is provided with air intake passage, is provided with suction ventilator in the air intake passage, the suction ventilator side wall and air intake passage
Inner sidewall connection, the drying box are connected to hot cell and cold house by outlet passageway.
Implement above-mentioned technical proposal, before testing test block, extraneous air is sucked in drying box by suction ventilator, is led to
The resistance net heating air in drying box is crossed, so that the moisture in air is heated evaporation, dry air passes through outlet passageway
Into in cold house and hot cell, so that cold house and the indoor air of heat are in drying regime, prevent in cold house and hot room air
Condensate moisture Cheng Shui, and then influence the refrigeration and heating effect of cold house and hot cell.
Further, the roof of the drying box close to storage case is provided with steam orifice.
Implement above-mentioned technical proposal, the vapor in air is discharged outside drying box by steam orifice, is avoided in drying box
The case where containing moisture in air occurs.
Further, the outlet passageway includes the first outlet passageway and the second outlet passageway, first outlet passageway
Length is greater than the length of the second outlet passageway, and the both ends of first outlet passageway are connected between cold house and drying box respectively, institute
The both ends for stating the second outlet passageway are connected between hot cell and drying box respectively.
Implement above-mentioned technical proposal, when being discharged into cold house by the air that drying box heats by the first outlet passageway, is added
The air of heat passes through the setting of the first outlet passageway length, is allowed to cool, then be discharged into cold house, reduces to cold house's refrigeration effect
It influences.
In conclusion the utility model has the following beneficial effects:
The rotation of rotary electric machine sliding tooth wheel, gear rotation band carry-over bar move in a straight line along the chute on the chute, so that with
The push rod of rack gear connection drives movable plate to move up and down, so that various sizes of building doors and windows can be put into test block
It is interior.
Detailed description of the invention
Fig. 1 is the overall structure diagram of the utility model;
Fig. 2 is the schematic diagram of the section structure of the utility model;
Fig. 3 is the structural schematic diagram that the utility model is used to show corrugated plating.
Appended drawing reference: 1, detection device ontology;11, hot cell;111, the second outlet passageway;12, cold house;121, the first outlet
Channel;13, test block;131, movable plate;2, storage case;21, sliding slot;22, baffle;3, actuator;31, gear;311, it rotates
Motor;32, rack gear;321, push rod;4, bubble chamber;41, foam beads;42, delivery port;43, tilting table;44, revolving door;441,
Handle;5, corrugated plating;6, drying box;61, resistance net;62, air intake passage;621, suction ventilator;63, steam orifice.
Specific embodiment
Below in conjunction with attached drawing, the technical solution of the utility model embodiment is described.
As shown in Figures 1 and 2, a kind of thermal insulation of building door/window detection device, including detection device ontology 1, detection is set
Standby ontology 1 includes hot cell 11, cold house 12, test block 13, and opening is provided in test block 13, and test block 13 is located at cold house 12 and heat
Between room 11, the outer roof of detection device ontology 1 is provided with storage case 2, and actuator 3 is provided in storage case 2, and actuator 3 includes
Gear 31 and the rack gear 32 engaged with gear 31,2 inner sidewall of storage case is provided with along its short transverse to be slidably connected with rack gear 32
Sliding slot 21, gear 31 is coaxially connected with rotary electric machine 311, and gear 31 and rotary electric machine 311 are vacantly arranged in storage case 2,
The baffle 22 that storage case 2 is provided with the side wall of sliding slot 21 while being additionally provided with above sliding slot 21, rack gear 32 is far from baffle 22
One end be provided with push rod 321, push rod 321 is connected with movable plate 131 far from one end of rack gear 32, and movable plate 131 is located at test
It is slidably connected in frame 13 and with 13 inner wall of test block.
1 roof of detection device ontology is provided with bubble chamber 4, is provided with corrugated plating between movable plate 131 and detection device ontology 1
5(is shown in Fig. 3), one end of corrugated plating 5 is connect with inspection 12 roof of test block, and the other end and movable plate 131 are open towards test block 13
One end connection, the side wall of bubble chamber 4 connect with the side wall of storage case 2, and foam beads 41, bubble chamber 4 are placed in bubble chamber 4
Bottom wall connect with 12 roof of hot cell, and 4 bottom wall of bubble chamber is provided with delivery port 42, and delivery port 42 is located at movable plate 131, ripple
The top for the cavity that plate 5, test block 13 are formed, tilting table 43 is provided in bubble chamber 4, and one end of tilting table 43 is higher than other one
End, the least significant end of tilting table 43 extend to delivery port 42.Bubble chamber 4, which is located above 41 short transverse of foam beads, is provided with rotation
Revolving door 44, revolving door 44 and bubble chamber 4 are side walls hinged, and handle 441 is provided on revolving door 44.
The sidewall bottom of hot cell 11 and cold house 12 is respectively arranged with drying box 6, and the roof of drying box 6 is provided with steam orifice
63, be provided with multiple parallel resistance nets 61 side by side in drying box 6, the both ends of resistance net 61 respectively with the roof of drying box 6 with
Bottom wall connection, drying box 6 are provided with air intake passage 62 far from the side wall of hot cell 11 and cold house 12, suction are provided in air intake passage 62
Blower 621,621 side wall of suction ventilator are connect with the inner sidewall of air intake passage 62, and drying box 6 and cold house 12 pass through the first outlet passageway
121 connections, drying box 6 are connected to hot cell 11 by the second outlet passageway 111, and the length of the first outlet passageway 121 is greater than second
The length of outlet passageway 111, is provided with air intake passage 62 on drying box 6, air intake passage respectively with the first outlet passageway 121 and
Two outlet passageways 111 are oppositely arranged.
Under the description of above structure, before detecting test block, extraneous air is sucked into drying box by suction ventilator 621
In 6, air is heated by the resistance net 61 in drying box 6, so that the moisture in air is heated evaporation, dry air passes through
Outlet passageway 121 respectively enters in cold house 12 and hot cell 11, so that the air in cold house 12 and hot cell 11 is in drying regime, prevents
The only condensate moisture Cheng Shui in cold house 12 and hot cell 11 in air, and then influence the refrigeration and heating effect of cold house 12 and hot cell 11
Fruit.
After test block is put into test block 13, rotary electric machine 311 drives gear 31 to rotate, the rotation band carry-over bar of gear 31
32 21 move in a straight line along the chute on sliding slot 21, so that the push rod 321 connecting with rack gear 32 drives movable plate 131 to do fortune up and down
It is dynamic, so that various sizes of building doors and windows can be put into test block 13.
Foam when push rod 321 pushes movable plate 131 mobile towards 1 bottom wall of detection device ontology, in bubble chamber 4
Grain 41 is slid into the cavity that movable plate 131, test block 13, corrugated plating 5 are formed by being obliquely installed for tilting table 43, so that
Movable plate 131 is relatively isolated from ambient temperature, and avoid test block causes test inaccurate due to the temperature of external environment
The case where occur.
Claims (8)
1. a kind of thermal insulation of building door/window detection device, including detection device ontology (1), detection device ontology (1) includes heat
Room (11), cold house (12), test block (13), test block are provided with opening on (13), characterized in that the detection device ontology
(1) it is provided with storage case (2), is provided with actuator (3) in the storage case (2), the actuator (3) includes gear (31) on
With the rack gear (32) engaged with gear (31), the gear (31) is coaxially connected with rotary electric machine (311), the storage case (2)
Inner sidewall is provided with sliding slot (21) along its short transverse, and the sliding slot (21) is slidably connected with rack gear (32), the test block
(13) it is provided with movable plate (131) in, the side wall of the movable plate (131) is connect with test block (13) side walls, the tooth
Item (32) passes through test block (13) close to the one end of test block (13) and connect with movable plate (131).
2. thermal insulation of building door/window detection device according to claim 1, characterized in that storage case (2) setting
There is the side wall of sliding slot (21) to be provided with baffle (22), the baffle (22) is located at sliding slot (21) far from detection device ontology (1)
Above one end, be provided with push rod (321) between the rack gear (32) and movable plate (131), the both ends of the push rod (321) respectively with
Rack gear (32) and movable plate (131) connection.
3. thermal insulation of building door/window detection device according to claim 1, characterized in that the detection device ontology
(1) side wall for being provided with storage case (2) is additionally provided with bubble chamber (4), is provided with foam beads (41) in the bubble chamber (4),
The side wall that the bubble chamber (4) abuts with detection device ontology (1) is provided with delivery port (42), movable plate (131) direction
One end of test block (13) opening is provided with the corrugated plating (5) along the setting of test block (13) short transverse, and the corrugated plating (5) is remote
One end from movable plate (131) is connect with the inner sidewall of test block (13) close to storage case (2), and the corrugated plating (5) is in addition
Both ends are slidably connected with test block (13) inner sidewall, the cavity that the corrugated plating (5), movable plate (131), test block (13) are constituted
It is connected to bubble chamber (4) by delivery port (42).
4. thermal insulation of building door/window detection device according to claim 3, characterized in that set in the bubble chamber (4)
It is equipped with tilting table (43), the least significant end of the tilting table (43) extends to delivery port (42) opening.
5. thermal insulation of building door/window detection device according to claim 4, characterized in that the side of the bubble chamber (4)
Wall is provided with revolving door (44), and the revolving door (44) is arranged in the upper end of foam beads (41) short transverse, the revolving door
(44) handle (441) are provided on.
6. thermal insulation of building door/window detection device according to claim 1, characterized in that the hot cell (11) and cold house
(12) lateral wall is respectively arranged with drying box (6), and multiple parallel resistance nets side by side are provided in the drying box (6)
(61), the both ends of the resistance net (61) are connect with the side wall of drying box (6) respectively, and the drying box (6) is far from hot cell (11)
It is provided with air intake passage (62) with the side wall of cold house (12), is provided with suction ventilator (621), the suction in the air intake passage (62)
Blower (621) side wall is connect with the inner sidewall of air intake passage (62), and the drying box (6) passes through with hot cell (11) and cold house (12)
Outlet passageway connection.
7. thermal insulation of building door/window detection device according to claim 6, characterized in that the drying box (6) is close
The roof of storage case (2) is provided with steam orifice (63).
8. thermal insulation of building door/window detection device according to claim 7, characterized in that the outlet passageway includes the
The length of one outlet passageway (121) and the second outlet passageway (111), first outlet passageway (121) is logical greater than the second outlet
The both ends of the length in road (111), first outlet passageway (121) are connected between cold house (12) and drying box (6) respectively, described
The both ends of second outlet passageway (111) are connected between hot cell (11) and drying box (6) respectively.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201821947663.4U CN209148576U (en) | 2018-11-24 | 2018-11-24 | Thermal insulation of building door/window detection device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201821947663.4U CN209148576U (en) | 2018-11-24 | 2018-11-24 | Thermal insulation of building door/window detection device |
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Publication Number | Publication Date |
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CN209148576U true CN209148576U (en) | 2019-07-23 |
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CN201821947663.4U Expired - Fee Related CN209148576U (en) | 2018-11-24 | 2018-11-24 | Thermal insulation of building door/window detection device |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN116930257A (en) * | 2023-09-18 | 2023-10-24 | 台春节能新材料(苏州)有限公司 | Thermal insulation board performance test platform |
-
2018
- 2018-11-24 CN CN201821947663.4U patent/CN209148576U/en not_active Expired - Fee Related
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN116930257A (en) * | 2023-09-18 | 2023-10-24 | 台春节能新材料(苏州)有限公司 | Thermal insulation board performance test platform |
CN116930257B (en) * | 2023-09-18 | 2023-12-05 | 台春节能新材料(苏州)有限公司 | Thermal insulation board performance test platform |
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Legal Events
Date | Code | Title | Description |
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GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20190723 Termination date: 20191124 |
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CF01 | Termination of patent right due to non-payment of annual fee |