CN212320130U

CN212320130U - Energy tower heat pump anti-floating device

Info

Publication number: CN212320130U
Application number: CN202021105292.2U
Authority: CN
Inventors: 侯旭华; 刘彦杰
Original assignee: Shanxi Hengyi Contract Energy Management Co ltd
Current assignee: Shanxi Hengyi Contract Energy Management Co ltd
Priority date: 2020-06-16
Filing date: 2020-06-16
Publication date: 2021-01-08
Anticipated expiration: 2030-06-16

Abstract

The utility model discloses an energy tower heat pump prevents device that spills that wafts, including heat pump set, the equal perpendicular fixed mounting in edge position all around of heat pump set's lower surface has the pillar, and the equal fixed mounting in surface top intermediate position has a welding plate around heat pump set, and is two sets of all the welding has splint, and is two sets of between the both sides outer wall intermediate position of welding plate the equal fixed mounting in surface one side position that the welding plate kept away from each other has a bearing seat, and the equal perpendicular fixed mounting in upper surface both sides position of bearing seat has a guide pin bushing, the inside slidable mounting of guide pin bushing has the slide bar, four groups perpendicular fixed mounting has with a set of diaphragm between the upper end position of slide. The utility model discloses in, prevent floating and spill the spacing body that the device was equipped with through compression and extension effect and separate the stability that keeps off body coordination regulation in order to improve to prevent floating and spill part installation and use, simultaneously, provide dampproofing dirt-proof heat exchange channel with the barrier propterty of reinforcing means.

Description

Energy tower heat pump anti-floating device

Technical Field

The utility model relates to a heat pump is prevented wafing and is spilt technical field, especially relates to an energy tower heat pump is prevented wafing and is spilt device.

Background

The energy tower heat pump is widely applied based on heat exchange between the energy tower and air and interaction of the heat pump unit for heating, refrigerating and providing hot water.

Traditional anti-floating device is when using, does not establish the retainer and has assisted the regulation and has influenced the stability of preventing floating and spilling part installation and use, simultaneously, does not provide independent heat exchange channel and has reduced dampproofing dustproof quality, has influenced the barrier propterty of device, has influenced the use of preventing floating and spilling the device.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the defects existing in the prior art and providing an energy tower heat pump anti-floating device.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

an energy tower heat pump anti-floating device comprises a heat pump unit, pillars are vertically and fixedly arranged at the edge positions of the periphery of the lower surface of the heat pump unit, welding plates are fixedly arranged at the middle positions of the tops of the front and back surfaces of the heat pump unit, clamping plates are welded between the middle positions of the outer walls of the two sides of the two groups of welding plates, a bearing seat is fixedly arranged at one side position of the outer surface of the two groups of welding plates away from each other, a guide sleeve is fixedly arranged at the two sides of the upper surface of the bearing seat, slide rods are slidably arranged in the guide sleeve, the same group of transverse plates are vertically and fixedly arranged between the upper end positions of the four groups of slide rods, an electric cylinder is fixedly arranged on the upper surface of the bearing seat at the front side, a push rod is vertically and movably connected with the middle position of the top of the electric cylinder, the top intermediate position vertical welding of splint has the stand, and the upper end fixed mounting of stand has the spring, the bottom both sides edge intermediate position of diaphragm all welds the installation cover, and the lower surface of diaphragm has the depression bar through the perpendicular threaded connection of installation cover, the upper end fixed mounting of spring is in the bottom position of depression bar, and depression bar parallel arrangement is adjacent the top of stand.

Preferably, the two groups of the clamping plates are symmetrically distributed by taking the longitudinal axis of the heat pump unit as a center, and the clamping plates are fixedly arranged on the upper surface of the heat pump unit.

Preferably, the two groups of bearing seats are distributed in parallel in the front and back of the heat pump unit, and the bearing seats and the heat pump unit are vertically arranged.

Preferably, the outer surface of the sliding rod is in contact with the inner surface of the guide sleeve, and the guide sleeve and the center of the longitudinal axis of the adjacent sliding rod are arranged on the same vertical line.

Preferably, the movable angle range of the transverse plate in the vertical direction is zero to forty-five degrees, the transverse plate is arranged above the heat pump unit, and the same group of heat storage layers are fixedly arranged between the upper surface and the outer surface of the transverse plate.

Preferably, the input end of the electric cylinder is electrically connected with the output end of an external power supply through a lead, and the electric cylinder is arranged in the middle of the two adjacent groups of guide sleeves.

Preferably, the welding of heat pump set's surface top position has the sleeve, and fixed mounting has the same a set of support between the edge position all around of telescopic upper surface, the support sets up two sets of the intermediate position of depression bar, the equal cladding in preceding back wall and the both sides wall position of support has the ventilated membrane, four sets of ventilated membrane make up into horn type structure, and the upper surface fixed mounting of ventilated membrane is in the lower surface position of diaphragm.

Compared with the prior art, the beneficial effects of the utility model are that:

1. in the utility model, the support body composed of the upright post and the spring is matched with the pressure bar installed by the installation sleeve in a guiding way, the two sides of the device are provided with limit positions, the flexible assembly is realized through the screw action between the pressure bar and the installation sleeve, and the anti-floating part is adjusted with the baffle body under the compression and extension action of the spring so as to improve the installation and use stability of the anti-floating part;

2. in the utility model, the protective cover structure is formed by combining the support and the air permeable film which are installed in a guiding way by the sleeve, and a damp-proof and dustproof heat exchange channel is provided between the device and the energy tower heat pump by cladding so as to enhance the protective performance of the device;

to sum up, the spacing body that anti-floating device was equipped with adjusts through compression and extension effect and the body coordination that separates and to improve the stability of anti-floating part installation and use, simultaneously, provides dampproofing dirt-proof heat exchange channel with the barrier propterty of reinforcing means.

Drawings

Fig. 1 is a partial enlarged view of a first embodiment of the anti-floating device for a heat pump of an energy tower according to the present invention;

fig. 2 is a schematic view of the overall structure of an energy tower heat pump anti-floating device provided by the present invention;

fig. 3 is a partial enlarged view of a second embodiment of the anti-floating device of the heat pump of the energy tower according to the present invention.

In the figure: the heat pump unit comprises a heat pump unit 1, a support column 2, a welding plate 3, a clamping plate 4, a bearing seat 5, a guide sleeve 6, a sliding rod 7, a transverse plate 8, an electric cylinder 9, a push rod 10, a heat storage layer 11, a vertical column 12, a spring 13, an installation sleeve 14, a compression rod 15, a sleeve 16, a support 17 and a breathable film 18.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

Example one

Referring to fig. 1-2, an energy tower heat pump anti-floating device comprises a heat pump unit 1, pillars 2 are vertically and fixedly installed at the peripheral edge positions of the lower surface of the heat pump unit 1, welding plates 3 are fixedly installed at the middle positions of the tops of the front and rear surfaces of the heat pump unit 1, a clamping plate 4 is welded between the middle positions of the outer walls of the two sides of the two sets of welding plates 3, a bearing seat 5 is fixedly installed at one side position of the outer surface of the two sets of welding plates 3, a guide sleeve 6 is vertically and fixedly installed at the two sides of the upper surface of the bearing seat 5, a slide rod 7 is slidably installed inside the guide sleeve 6, the same set of transverse plates 8 are vertically and fixedly installed between the upper end positions of the four sets of slide rods 7, an electric cylinder 9 is fixedly installed on the upper surface of the front side bearing seat 5, a push rod 10 is vertically and movably connected at the middle position of the, the top intermediate position of splint 4 has vertical welding to have stand 12, and the upper end fixed mounting of stand 12 has spring 13, and the bottom both sides edge intermediate position of diaphragm 8 has all welded installation cover 14, and the lower surface of diaphragm 8 has depression bar 15 through the perpendicular threaded connection of installation cover 14, and the upper end fixed mounting of spring 13 is in the bottom position of depression bar 15, and depression bar 15 parallel arrangement is in the top of adjacent stand 12.

Two sets of splint 4 use the longitudinal axis of heat pump set 1 to be central symmetric distribution, and splint 4 fixed mounting is in the upper surface position of heat pump set 1, two sets of bearing seat 5 parallel distribution is in the front and back of heat pump set 1, and bearing seat 5 and heat pump set 1 set up perpendicularly, the surface of slide bar 7 and the internal surface of guide pin bushing 6 contact, and the longitudinal axis center setting of guide pin bushing 6 and adjacent slide bar 7 is on same vertical line, diaphragm 8 is zero degree to forty-five degrees in vertical movable angle range, and diaphragm 8 sets up the top at heat pump set 1, fixed mounting has same group heat accumulation layer 11 between the upper surface of diaphragm 8 and the surface position, the input of electric jar 9 passes through wire and external power source's output electric connection, and electric jar 9 sets up the intermediate position at adjacent two sets of guide pin bushing 6.

Example two

Referring to fig. 2-3, an energy tower heat pump anti-floating device comprises a heat pump unit 1, pillars 2 are vertically and fixedly installed at the peripheral edge positions of the lower surface of the heat pump unit 1, welding plates 3 are fixedly installed at the middle positions of the tops of the front and rear surfaces of the heat pump unit 1, a clamping plate 4 is welded between the middle positions of the outer walls of the two sides of the two sets of welding plates 3, a bearing seat 5 is fixedly installed at one side position of the outer surface of the two sets of welding plates 3, a guide sleeve 6 is vertically and fixedly installed at the two sides of the upper surface of the bearing seat 5, a slide rod 7 is slidably installed inside the guide sleeve 6, the same set of transverse plates 8 are vertically and fixedly installed between the upper end positions of the four sets of slide rods 7, an electric cylinder 9 is fixedly installed on the upper surface of the front side bearing seat 5, a push rod 10 is vertically and movably connected at the middle position of the, the top intermediate position of splint 4 has vertical welding to have stand 12, and the upper end fixed mounting of stand 12 has spring 13, and the bottom both sides edge intermediate position of diaphragm 8 has all welded installation cover 14, and the lower surface of diaphragm 8 has depression bar 15 through the perpendicular threaded connection of installation cover 14, and the upper end fixed mounting of spring 13 is in the bottom position of depression bar 15, and depression bar 15 parallel arrangement is in the top of adjacent stand 12.

Two groups of clamping plates 4 are symmetrically distributed by taking the longitudinal axis of the heat pump unit 1 as a center, the clamping plates 4 are fixedly arranged on the upper surface of the heat pump unit 1, two groups of bearing seats 5 are distributed in front and at the back of the heat pump unit 1 in parallel, the bearing seats 5 are vertically arranged with the heat pump unit 1, the outer surface of each sliding rod 7 is contacted with the inner surface of each guide sleeve 6, the centers of the longitudinal axes of the guide sleeves 6 and the adjacent sliding rods 7 are arranged on the same vertical line, the movable angle range of the transverse plate 8 in the vertical direction is zero to forty-five degrees, the transverse plate 8 is arranged above the heat pump unit 1, the same group of heat storage layers 11 are fixedly arranged between the upper surface and the outer surface of the transverse plate 8, the input end of the electric cylinder 9 is electrically connected with the output end of an external power supply through a lead, the electric cylinder 9 is arranged in the middle position of the adjacent two groups of guide sleeves 6, support 17 sets up the intermediate position at two sets of depression bars 15, and the equal cladding in preceding back wall and both sides wall position of support 17 has ventilated membrane 18, makes up into the protection casing structure by support 17 and the ventilated membrane 18 of sleeve 16 direction installation, and the cladding provides dampproofing dirt-proof heat exchange channel with the barrier propterty of reinforcing means between device and the energy tower heat pump, and four groups of ventilated membranes 18 make up into horn type structure, and the last fixed surface of ventilated membrane 18 installs the lower surface position at diaphragm 8.

The working principle is as follows: the heat pump unit 1 fixed by a pillar 2 is used as an energy tower heat pump structure, heating, refrigeration and hot water supply are realized based on the heat exchange of an energy tower and the interaction of a heat pump, a base frame body is formed by a welding plate 3 and a clamping plate 4, the installation of a bearing seat 5 on the energy tower heat pump is realized, so that the installation support of an anti-floating mechanism is provided, a sliding rod 7 which is limited and installed by a guide sleeve 6 is combined into an installation frame structure, vertical supporting force is provided around a transverse plate 8, the transverse plate 8 and a heat storage layer 11 are combined into a baffle body, the flexible installation on the heat pump unit 1 is realized by the matching of the installation body formed by an electric cylinder 9 and a push rod 10 and the installation frame structure, so that anti-floating protection is provided, the heat absorption capacity is improved under the heat absorption effect of the heat storage layer 11, so as to realize high-efficiency heating used in winter, the electric cylinder 9 and the push rod 10 are electrified to drive the front side of the baffle body to be, the supporter that comprises stand 12 and spring 13 and the depression bar 15 cooperation of installing by the 14 direction of mounting sleeve are installed, it is spacing to provide in the both sides of device, screw action through between depression bar 15 and the mounting sleeve 14 realizes nimble assembly, and adjust with the baffle body coordination under the compression and the extension effect of spring 13 with the stability of improving anti-floating and sprinkling part installation and use, make up into the protection casing structure by support 17 and the ventilated membrane 18 of sleeve 16 direction installation, the cladding provides dampproofing dirt-proof heat exchange passageway with the barrier body coordination between device and the energy tower heat pump and adjusts with the stability of improving anti-floating and sprinkling part installation and use through compression and extension effect, simultaneously, provides dampproofing dirt-proof heat exchange passageway with the barrier body coordination of reinforcing means.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims

1. The utility model provides an energy tower heat pump device of preventing wafing, includes heat pump set (1), its characterized in that: the heat pump unit comprises a heat pump unit (1), pillars (2) are fixedly and vertically arranged at the edge positions of the periphery of the lower surface of the heat pump unit (1), welding plates (3) are fixedly and horizontally arranged at the top middle positions of the front surface and the rear surface of the heat pump unit (1), clamping plates (4) are welded between the middle positions of the outer walls of the two sides of the two groups of welding plates (3), bearing seats (5) are fixedly and horizontally arranged at one side of the outer surface of the two groups of welding plates (3) which are far away from each other, guide sleeves (6) are fixedly and vertically arranged at the two sides of the upper surface of the bearing seats (5), sliding rods (7) are slidably arranged in the guide sleeves (6), the same group of transverse plates (8) are fixedly and vertically arranged between the upper end positions of the four groups of sliding rods (7), electric cylinders (9) are fixedly arranged on the upper surface of, the perpendicular fixed mounting in the lower surface front side edge intermediate position of diaphragm (8) in upper end of push rod (10), the perpendicular welding of top intermediate position of splint (4) has stand (12), and the upper end fixed mounting of stand (12) has spring (13), the bottom both sides edge intermediate position of diaphragm (8) all welds installation cover (14), and the lower surface of diaphragm (8) has depression bar (15) through installation cover (14) perpendicular threaded connection, the upper end fixed mounting of spring (13) is in the bottom position of depression bar (15), and depression bar (15) parallel arrangement is adjacent the top of stand (12).

2. The energy tower heat pump drift-prevention device as claimed in claim 1, wherein the two groups of clamping plates (4) are symmetrically distributed around the longitudinal axis of the heat pump unit (1), and the clamping plates (4) are fixedly arranged on the upper surface of the heat pump unit (1).

3. The energy tower heat pump drift-prevention device as claimed in claim 1, wherein two sets of the bearing seats (5) are distributed in parallel in front of and behind the heat pump unit (1), and the bearing seats (5) and the heat pump unit (1) are arranged vertically.

4. The energy tower heat pump drift-proof device according to claim 1, wherein the outer surface of the sliding rod (7) is in contact with the inner surface of the guide sleeve (6), and the centers of the longitudinal axes of the guide sleeve (6) and the adjacent sliding rod (7) are arranged on the same vertical line.

5. The energy tower heat pump anti-drift device according to claim 1, wherein the horizontal plate (8) has a vertical movement angle ranging from zero degrees to forty-five degrees, the horizontal plate (8) is disposed above the heat pump unit (1), and the same group of heat storage layers (11) is fixedly mounted between the upper surface and the outer surface of the horizontal plate (8).

6. The energy tower heat pump drift-prevention device as claimed in claim 1, wherein the input end of the electric cylinder (9) is electrically connected with the output end of an external power supply through a conducting wire, and the electric cylinder (9) is arranged in the middle of two adjacent groups of the guide sleeves (6).

7. The energy tower heat pump anti-drift device according to claim 1, wherein a sleeve (16) is welded at the top of the outer surface of the heat pump unit (1), a same set of supports (17) is fixedly installed between the peripheral positions of the periphery of the upper surface of the sleeve (16), the supports (17) are arranged at the middle positions of the two sets of pressure rods (15), breathable films (18) are respectively coated on the front and rear walls and the two side walls of the supports (17), the four sets of breathable films (18) are combined into a horn-shaped structure, and the upper surface of each breathable film (18) is fixedly installed at the lower surface of the transverse plate (8).