CN106841282A - Gas-liquid is without phase transformation double-tube heat exchanger performance and energy efficiency testing device - Google Patents

Abstract

The invention discloses gas-liquid without phase transformation double-tube heat exchanger performance and energy efficiency testing device, including heat exchanger body and casing, the casing is located at the right side of heat exchanger body, the casing is made up of water tank one and water tank two, the water tank one is fixedly mounted on the top of water tank two, the bottom of the water tank one and the inner chamber of water tank two has been respectively fixedly connected with temperature sensor one and temperature sensor two, water tank three and water tank four are fixedly connected with the top of the heat exchanger body, the water tank three is located at the left side of water tank four.The present invention is by setting temperature sensor one and temperature sensor two, the effect of temperature in detection water tank one and water tank two is reached, the temperature information that will can be detected is converted into data signal and is transmitted to processor, information can be stored in logging modle processor, prevent test data from being mixed up, so as to allow user can more convenient heat exchanging device performance tested, allow testing efficiency to be improved.

Description

Solution-air is without phase transformation double-tube heat exchanger performance and energy efficiency testing device

Technical field

The present invention relates to heat exchanger test device technical field, specially solution-air is without phase transformation double-tube heat exchanger performance and energy Effect test device.

Background technology

Shell-and-tube heat exchanger is widely used a kind of heat exchanger in heat exchanger, with the progress of society, in order to carry The performance of shell-and-tube heat exchanger high, and make improvements, it is to be understood that to the performance of shell-and-tube heat exchanger, but existing test Apparatus structure too complex, operation is very inconvenient, allows user to test very inconvenient, and often will easily test Data are mixed up, and cause testing efficiency low.

The content of the invention

It is an object of the invention to provide solution-air without phase transformation double-tube heat exchanger performance and energy efficiency testing device, possess conveniently The advantage of test, solves the problems, such as that common test device is inconvenient to test.

To achieve the above object, the present invention provides following technical scheme：Solution-air is without phase transformation double-tube heat exchanger performance and efficiency Test device, including heat exchanger body and casing, the casing are located at the right side of heat exchanger body, and the casing is by the He of water tank one Water tank two is constituted, and the water tank one is fixedly mounted on the bottom difference at the top of water tank two, the water tank one and the inner chamber of water tank two Temperature sensor one and temperature sensor two are fixedly connected with, water tank three and water are fixedly connected with the top of the heat exchanger body Case four, the water tank three is located at the left side of water tank four, and the top of the water tank three and water tank four has been respectively communicated with the He of outlet pipe one The inside of outlet pipe two, the outlet pipe one and outlet pipe two is respectively arranged with magnetic valve one and magnetic valve two, the heat exchanger Be fixedly connected with the water pump positioned at the left side of water tank three at the top of body, the water inlet of the water pump is communicated with water inlet pipe, it is described go out Water pipe one and outlet pipe two are connected with water inlet pipe, and the delivery port of the water pump is communicated with water-supply-pipe, and the water-supply-pipe is away from water One end of pump is connected with the water inlet of heat exchanger body, and division box, described point of water dress are fixedly connected with the left of the casing Put including accommodating block, the inside of the receiving block offers the groove one connected with water tank one, and the inside for accommodating block opens up There is the groove two positioned at the bottom of groove one, the groove two is connected with groove one, and the one end and water of groove two away from groove one Case two is connected, and the internal activity for accommodating block is connected with a point water block, and the surface of described point of water block offers and connected with groove one Groove three, the bottom of described point of water block is fixedly connected with the block in groove two, and the described point of top of water block is fixed and connected Drive link is connected to, the drive link runs through the outside for accommodating block and extending to receiving block, the receiving away from one end of point water block The motor on the left of drive link is fixedly connected with the top of block, the rotating shaft of the motor is fixedly connected with spur gear one, described Accommodate and be fixedly connected with support block at the top of block, the straight-tooth for being socketed in drive link surface is rotatably connected at the top of the support block Wheel two, the spur gear two is engaged with spur gear one, and the delivery port of the heat exchanger body is communicated with water service pipe, the water service pipe One end away from heat exchanger body connects with groove one, the output end of the temperature sensor one and temperature sensor two with place Manage the input electrical connection of device, the output end of the processor respectively with water pump, motor, magnetic valve one, magnetic valve two and record The input electrical connection of module.

Preferably, fixture block is fixedly connected with the top of the support block, the fixture block is movably connected in the interior of spur gear two Portion.

Preferably, the front and back of described point of water block has been fixedly connected with guide pad, and the inside of the receiving block opens up There is the gathering sill being adapted with guide pad, the guide pad is slidably connected in gathering sill.

Preferably, the surface of the drive link is provided with external screw thread, and the inwall of the spur gear two is provided with and external screw thread The internal thread being adapted.

Preferably, snubber block is provided between the receiving block and motor, electricity is fixedly connected at the top of the snubber block The bottom of machine, the bottom of the snubber block is fixedly connected on the top for accommodating block.

Compared with prior art, beneficial effects of the present invention are as follows：

1st, the present invention has reached temperature in detection water tank one and water tank two by setting temperature sensor one and temperature sensor two Effect, the temperature information that will can be detected is converted into data signal and is transmitted to processor, and processor can be stored information In logging modle, prevent test data from being mixed up, so as to allow user can more convenient heat exchanging device performance surveyed Examination, allows testing efficiency to be improved.

2nd, the present invention has reached the effect of control flow direction by setting division box, can pass through entering in groove one Liquid after heat exchanger body treatment is oriented to, in allowing the liquid or gas of different temperatures to respectively enter water tank one and water tank two Detected with temperature sensor one and temperature sensor two, facilitated so as to allow user to operate more, so as to improve survey Examination efficiency.

Brief description of the drawings

Fig. 1 is schematic structural view of the invention；

Fig. 2 is the plan structure partial cutaway schematic that the present invention accommodates block；

Fig. 3 is principle of the invention block diagram.

In figure：1 heat exchanger body, 2 casings, 201 water tanks one, 202 water tanks two, 3 water tanks three, 4 water tanks four, 5 outlet pipes one, 6 outlet pipes two, 7 water pumps, 8 water inlet pipes, 9 water-supply-pipes, 10 division boxs, 101 accommodate block, 102 points of water blocks, 103 blocks, 104 and pass Lever, 105 motors, 106 spur gears one, 107 spur gears two, 11 grooves one, 12 grooves two, 13 grooves three, 14 support blocks, 15 lead to Water pipe, 16 temperature sensors one, 17 temperature sensors two, 18 magnetic valves one, 19 magnetic valves two, 20 processors, 21 logging modles, 22 fixture blocks, 23 guide pads, 24 gathering sills, 25 snubber blocks.

Specific embodiment

Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is carried out clear, complete Site preparation is described, it is clear that described embodiment is only a part of embodiment of the invention, rather than whole embodiments.It is based on Embodiment in the present invention, it is every other that those of ordinary skill in the art are obtained under the premise of creative work is not made Embodiment, belongs to the scope of protection of the invention.

Fig. 1-3 are referred to, solution-air is without phase transformation double-tube heat exchanger performance and energy efficiency testing device, including the He of heat exchanger body 1 Casing 2, casing 2 is located at the right side of heat exchanger body 1, and casing 2 is made up of water tank 1 and water tank 2 202, and water tank 1 is consolidated Dingan County has been respectively fixedly connected with TEMP mounted in the top of water tank 2 202, the bottom of water tank 1 and the inner chamber of water tank 2 202 Device 1 and temperature sensor 2 17, the top of heat exchanger body 1 are fixedly connected with water tank 33 and water tank 44,33, water tank In the left side of water tank 44, the top of water tank 33 and water tank 44 has been respectively communicated with outlet pipe 1 and outlet pipe 26, outlet pipe one 5 and the inside of outlet pipe 26 be respectively arranged with magnetic valve 1 and magnetic valve 2 19, the top of heat exchanger body 1 is fixedly connected Have a water pump 7 positioned at the left side of water tank 33, the water inlet of water pump 7 is communicated with water inlet pipe 8, outlet pipe 1 and outlet pipe 26 with Water inlet pipe 8 is connected, and the delivery port of water pump 7 is communicated with water-supply-pipe 9, the one end and heat exchanger body 1 of water-supply-pipe 9 away from water pump 7 Water inlet is connected, and the left side of casing 2 is fixedly connected with division box 10, and division box 10 includes accommodating block 101, accommodates block 101 Inside offer the groove 1 connected with water tank 1, the inside for accommodating block 101 is offered positioned at the bottom of groove 1 Groove 2 12, groove 2 12 is connected with groove 1, and groove 2 12 is connected away from one end of groove 1 with water tank 2 202, The internal activity for accommodating block 101 is connected with a point water block 102, and the front and back of point water block 102 has been fixedly connected with guide pad 23, The inside for accommodating block 101 offers the gathering sill 24 being adapted with guide pad 23, and guide pad 23 is slidably connected in gathering sill 24, Can be coordinated with gathering sill 24 by setting guide pad 23, so as to moving up and down that point water block 102 can more be stablized, point water The surface of block 102 offers the groove 3 13 connected with groove 1, and the bottom of point water block 102 is fixedly connected with positioned at groove two Block 103 in 12, the top of point water block 102 is fixedly connected with drive link 104, the one end of drive link 104 away from point water block 102 Through accommodating block 101 and extending to the outside for accommodating block 101, the top for accommodating block 101 is fixedly connected with positioned at the left side of drive link 104 The motor 105 of side, to accommodate and be provided with snubber block 25 between block 101 and motor 105, and the top of snubber block 25 is fixedly connected on motor 105 bottom, the bottom of snubber block 25 is fixedly connected on the top for accommodating block 101, can be to motor by setting snubber block 25 105 carry out shock-absorbing protecting, so as to extend the service life of motor 105, the rotating shaft of motor 105 is fixedly connected with spur gear 1, The top for accommodating block 101 is fixedly connected with support block 14, and the top of support block 14 is rotatably connected to and is socketed in the surface of drive link 104 Spur gear 2 107, the top of support block 14 is fixedly connected with fixture block 22, and fixture block 22 is movably connected in the interior of spur gear 2 107 Portion, is prevented from spur gear 2 107 and inclines when rotated to drop by setting fixture block 22, can allow the spur gear 2 107 can be more Good rotation, the surface of drive link 104 is provided with external screw thread, and the inwall of spur gear 2 107 is provided with what is be adapted with external screw thread Internal thread, spur gear 2 107 is engaged with spur gear 1, by setting division box 10, has reached the effect of control flow direction, Liquid after heat exchanger body 1 is processed in groove 1 can be entered to be oriented to, the liquid or gas of different temperatures is allowed Body detected in respectively enteing water tank 1 and water tank 2 202 with temperature sensor 1 and temperature sensor 2 17, so that Allow user to operate more to facilitate, so as to improve testing efficiency, the delivery port of heat exchanger body 1 is communicated with water service pipe 15, Water service pipe 15 is connected away from one end of heat exchanger body 1 with groove 1, temperature sensor 1 and temperature sensor 2 17 Input of the output end with processor 20 is electrically connected, the output end of processor 20 respectively with water pump 7, motor 105, magnetic valve one 18th, the input electrical connection of magnetic valve 2 19 and logging modle 21, by setting temperature sensor 1 and temperature sensor two 17, the effect of temperature in detection water tank 1 and water tank 2 202 has been reached, the temperature information that will can be detected is converted into number Word signal is transmitted to processor 20, and information can be stored in logging modle 21 for processor 20, prevents test data from being mixed up, So as to allow user can more convenient heat exchanging device performance tested, allow testing efficiency to be improved.

When using, magnetic valve 1 can be controlled to rotate by processor 20, so as to allow outlet pipe 1 to be connected with water inlet pipe 8, Then control water pump 7 to work by processor 20, the water in water tank 33 is pumped into heat exchanger body 1, then by water service pipe 15 Liquid or gas are transported in water tank 1 with groove 1, are detected telecommunications after temperature using temperature sensor 1 Number being converted into data signal is transmitted to processor 20, and the information that temperature sensor 1 is detected is stored in record by processor 20 again In module 21, then by processor 20 control magnetic valve 1 close, while open magnetic valve 2 19, allow outlet pipe 26 with Water inlet pipe 8 is connected, so as to the water allowed in water tank 44 enters in heat exchanger body 1, the liquid after the treatment of heat exchanger body 1 Into in groove 1, the controlled motor 105 of simultaneous processor 20 works, and rotates 105 turn spur of motor 1, so that Turn spur 2 107 rotates, and makes spur gear 2 107 drive drive link 104 to move up, so that block 103 is by groove one 11 block, and allow groove 1 to be connected with water tank 2 202 by groove 2 12, so as to allow by the water after the treatment of heat exchanger body 1 Into in water tank 2 202, then information is converted to from data signal is transmitted to from electric signal by the measurement of temperature sensor 2 17 Be stored in information in logging modle 21 by reason device 20, processor 20.

In sum：The solution-air without phase transformation double-tube heat exchanger performance and energy efficiency testing device, by heat exchanger body 1, case It is body 2, water tank 1, water tank 2 202, water tank 33, water tank 44, outlet pipe 1, outlet pipe 26, water pump 7, water inlet pipe 8, defeated Water pipe 9, division box 10, accommodate block 101, point water block 102, block 103, drive link 104, motor 105, spur gear 1, straight Gear 2 107, groove 1, groove 2 12, groove 3 13, support block 14, water service pipe 15, temperature sensor one 16, temperature are passed Sensor 2 17, magnetic valve 1, magnetic valve 2 19, processor 20, logging modle 21, fixture block 22, guide pad 23, the and of gathering sill 24 The cooperation of snubber block 25, solves the problems, such as that common test device is inconvenient to test.

Although an embodiment of the present invention has been shown and described, for the ordinary skill in the art, can be with Understanding can carry out various changes, modification, replacement to these embodiments without departing from the principles and spirit of the present invention And modification, the scope of the present invention be defined by the appended.

Claims (5)

1. solution-air is without phase transformation double-tube heat exchanger performance and energy efficiency testing device, including heat exchanger body（1）And casing（2）, it is special Levy and be：The casing（2）Positioned at heat exchanger body（1）Right side, the casing（2）By water tank one（201）With water tank two （202）Composition, the water tank one（201）It is fixedly mounted on water tank two（202）Top, the water tank one（201）With water tank two （202）The bottom of inner chamber has been respectively fixedly connected with temperature sensor one（16）With temperature sensor two（17）, the heat exchanger sheet Body（1）Top be fixedly connected with water tank three（3）With water tank four（4）, the water tank three（3）Positioned at water tank four（4）Left side, institute State water tank three（3）With water tank four（4）Top be respectively communicated with outlet pipe one（5）With outlet pipe two（6）, the outlet pipe one （5）With outlet pipe two（6）Inside be respectively arranged with magnetic valve one（18）With magnetic valve two（19）, the heat exchanger body（1） Top be fixedly connected with positioned at water tank three（3）The water pump in left side（7）, the water pump（7）Water inlet be communicated with water inlet pipe （8）, the outlet pipe one（5）With outlet pipe two（6）And water inlet pipe（8）Connection, the water pump（7）Delivery port be communicated with it is defeated Water pipe（9）, the water-supply-pipe（9）Away from water pump（7）One end and heat exchanger body（1）Water inlet connection, the casing（2） Left side be fixedly connected with division box（10）, the division box（10）Including accommodating block（101）, the receiving block（101） Inside offer and water tank one（201）The groove one of connection（11）, the receiving block（101）Inside offer positioned at groove One（11）The groove two of bottom（12）, the groove two（12）With groove one（11）Connection, and groove two（12）Away from groove one （11）One end and water tank two（202）Connection, the receiving block（101）Internal activity be connected with a point water block（102）, described point Water block（102）Surface offer and groove one（11）The groove three of connection（13）, described point of water block（102）Bottom fix connect It is connected to positioned at groove two（12）Interior block（103）, described point of water block（102）Top be fixedly connected with drive link（104）, institute State drive link（104）Away from a point water block（102）One end through accommodate block（101）And extend to receiving block（101）Outside, institute State receiving block（101）Top be fixedly connected with positioned at drive link（104）The motor in left side（105）, the motor（105）Turn Axle is fixedly connected with spur gear one（106）, the receiving block（101）Top be fixedly connected with support block（14）, the support Block（14）Top be rotatably connected to and be socketed in drive link（104）The spur gear two on surface（107）, the spur gear two（107） With spur gear one（106）Engagement, the heat exchanger body（1）Delivery port be communicated with water service pipe（15）, the water service pipe（15） Away from heat exchanger body（1）One end and groove one（11）Connection, the temperature sensor one（16）With temperature sensor two （17）Output end and processor（20）Input electrical connection, the processor（20）Output end respectively with water pump（7）、 Motor（105）, magnetic valve one（18）, magnetic valve two（19）And logging modle（21）Input electrical connection.

2. solution-air according to claim 1 is without phase transformation double-tube heat exchanger performance and energy efficiency testing device, it is characterised in that： The support block（14）Top be fixedly connected with fixture block（22）, the fixture block（22）It is movably connected in spur gear two（107）'s It is internal.

3. solution-air according to claim 1 is without phase transformation double-tube heat exchanger performance and energy efficiency testing device, it is characterised in that： Described point of water block（102）Front and back be fixedly connected with guide pad（23）, the receiving block（101）Inside offer With guide pad（23）The gathering sill being adapted（24）, the guide pad（23）It is slidably connected at gathering sill（24）It is interior.

4. solution-air according to claim 1 is without phase transformation double-tube heat exchanger performance and energy efficiency testing device, it is characterised in that： The drive link（104）Surface be provided with external screw thread, the spur gear two（107）Inwall be provided with and be adapted with external screw thread Internal thread.

5. solution-air according to claim 1 is without phase transformation double-tube heat exchanger performance and energy efficiency testing device, it is characterised in that： The receiving block（101）With motor（105）Between be provided with snubber block（25）, the snubber block（25）Top be fixedly connected on Motor（105）Bottom, the snubber block（25）Bottom be fixedly connected on receiving block（101）Top.