CN208635484U - A kind of high-efficiency and energy-saving type tubular glass drying device - Google Patents

Abstract

The utility model discloses a kind of high-efficiency and energy-saving type tubular glass drying devices, including power supply, it further include the first fixed bottom plate and the second fixed bottom plate being placed in parallel, the first insulation board is set on described first fixed bottom plate, the second insulation board is set on described second fixed bottom plate, the first glass tube and the second glass tube is respectively set between first insulation board and the second insulation board, the first semiconductor layer is arranged along tube wall in first glass tube, the second semiconductor layer is arranged along tube wall in second glass tube, the utility model solves the problems, such as that drying efficiency of the existing technology is low, a kind of high-efficiency and energy-saving type tubular glass drying device is provided, when it is applied by way of semiconductor electrified regulation, drying thermal energy is converted electrical energy into greatest extent, the loss of thermal energy is reduced by glass tube simultaneously, energy during drying Dissipation of energy is enough saved, to improve drying efficiency.

Description

A kind of high-efficiency and energy-saving type tubular glass drying device

Technical field

The utility model relates to drying heating equipments, and in particular to a kind of high-efficiency and energy-saving type tubular glass drying device.

Background technique

Drying equipment is also known as drier and drying machine.Equipment for operation to be dried is made in material by heating Hygroscopic water (referring generally to moisture or other volatile liquid components) vaporization evolution, to obtain the solid material of regulation water capacity.It is dry Dry purpose is the needs for using or being further processed for material.As timber can be to prevent in production wooden model, the drying before woodenware Only product deformation, the drying of ceramic batch before calcination can prevent finished product to be cracked.In addition the material after drying is also convenient for transporting And storage, the grain drying that will such as harvest is to certain moisture content hereinafter, with anti-mildew.It is produced due to spontaneously drying far from satisfaction The needs of development, various mechanization driers are applied more and more widely.But existing drying equipment drying efficiency is low, And a large amount of energy of waste.

Utility model content

The utility model solves the problems, such as that drying efficiency of the existing technology is low, provides a kind of high-efficiency and energy-saving type tubulose Glass drying device converts electrical energy into drying thermal energy when applying by way of semiconductor electrified regulation to greatest extent, The loss for reducing thermal energy by glass tube simultaneously, can save dissipation of energy, to improve dry effect during drying Rate.

The utility model is achieved through the following technical solutions:

A kind of high-efficiency and energy-saving type tubular glass drying device, including power supply further include the first fixed bottom plate being placed in parallel Bottom plate is fixed with second, the first insulation board is set on the described first fixed bottom plate, and setting second is exhausted on the described second fixed bottom plate Listrium sets gradually screw hole one, screw hole two, screw hole three, screw hole four, the screw hole one, screw hole two, spiral shell on first insulation board Hole three, screw hole four the center of circle be located in a straight line, set gradually on second insulation board screw hole five, screw hole six, screw hole seven, Screw hole eight, the screw hole five, screw hole six, screw hole seven, screw hole eight the center of circle be located in a straight line, first insulation board and The first glass tube and the second glass tube are respectively set between two insulation boards, one end of first glass tube is located at screw hole one and spiral shell Between hole two, for the other end between screw hole five and screw hole six, first glass tube is fixed on first absolutely by the first tabletting On listrium, first glass tube is fixed on the second insulation board by the second tabletting, and one end of second glass tube is located at Between screw hole three and screw hole four, for the other end between screw hole seven and screw hole eight, second glass tube is solid by third tabletting It is scheduled on the first insulation board, first glass tube is fixed on the second insulation board by the 4th tabletting, first glass tube Inside along tube wall be arranged the first semiconductor layer, second glass tube along tube wall be arranged the second semiconductor layer, described first Electrode one is arranged close to one end of screw hole one in semiconductor layer, and electrode two, second semiconductor is arranged close to one end of screw hole five Electrode three is arranged close to one end of screw hole three in layer, and electrode four, the electrode one and electrode two-way is arranged close to one end of screw hole seven Conducting wire connection is crossed, electrode three and electrode four are separately connected the positive and negative anodes of the power supply.

Further, a kind of high-efficiency and energy-saving type tubular glass drying device, setting and the screw hole in first tabletting One, the matched through-hole one of screw hole two, through-hole two, further include screw one and screw two, and screw one sequentially passes through through-hole one, screw hole one It is fixed on first insulation board, screw two sequentially passes through through-hole two, screw hole two is fixed on first insulation board, described Setting and the screw hole five, the matched through-hole five of screw hole six, through-hole six, further include screw five and screw six, spiral shell in second tabletting Nail five sequentially passes through through-hole five, screw hole five is fixed on first insulation board, and it is solid that screw six sequentially passes through through-hole six, screw hole six It is scheduled on second insulation board.

Further, a kind of high-efficiency and energy-saving type tubular glass drying device, setting and the screw hole in the third tabletting Three, the matched through-hole three of screw hole four, through-hole four, further include screw three and screw four, and screw three sequentially passes through through-hole three, screw hole three It is fixed on first insulation board, screw four sequentially passes through through-hole four, screw hole four is fixed on first insulation board, described Setting and the screw hole seven, the matched through-hole seven of screw hole eight, through-hole eight, further include screw seven and screw eight, spiral shell in 4th tabletting Nail seven sequentially passes through through-hole seven, screw hole seven is fixed on first insulation board, and it is solid that screw eight sequentially passes through through-hole eight, screw hole eight It is scheduled on second insulation board.

Further, a kind of high-efficiency and energy-saving type tubular glass drying device, first glass tube and the second glass tube Quantity is several.

The utility model compared with prior art, has the following advantages and benefits:

1, when the utility model is applied by way of semiconductor electrified regulation, drying is converted electrical energy into greatest extent Thermal energy.

2, the utility model reduces the loss of thermal energy by glass tube simultaneously, and energy can be saved during drying It dissipates.

3, the utility model can improve drying efficiency, while playing energy-efficient effect under the premise of guaranteeing drying.

Detailed description of the invention

Attached drawing described herein is used to provide to further understand the utility model embodiment, constitutes the one of the application Part does not constitute the restriction to the utility model embodiment.In the accompanying drawings:

FIG. 1 is a schematic structural view of the utility model.

Label and corresponding parts title in attached drawing:

1- power supply, the fixed bottom plate of 2- first, the fixed bottom plate of 3- second, the first insulation board of 4-, the second insulation board of 5-, 6- first Glass tube, the second glass tube of 7-, the first tabletting of 8-, the second tabletting of 9-, 10- third tabletting, the 4th tabletting of 11-, 12- screw one, 13- screw two, 14- screw three, 15- screw four, 16- screw five, 17- screw six, 18- screw seven, 19- screw eight.

Specific embodiment

For the purpose of this utility model, technical solution and advantage is more clearly understood, below with reference to embodiment and attached drawing, The utility model is described in further detail, and the exemplary embodiment and its explanation of the utility model are only used for explaining this Utility model is not intended to limit the scope of the present invention.

Embodiment

As shown in Figure 1, a kind of high-efficiency and energy-saving type tubular glass drying device, including power supply 1, it further include be placed in parallel One fixed bottom plate 2 and second fixes bottom plate 3, and the first insulation board 4, the described second fixed bottom are arranged on the described first fixed bottom plate 2 Second insulation board 5 is set on plate 3, screw hole one, screw hole two, screw hole three, screw hole four, institute are set gradually on first insulation board 4 State screw hole one, screw hole two, screw hole three, screw hole four the center of circle be located in a straight line, set gradually spiral shell on second insulation board 5 Hole five, screw hole six, screw hole seven, screw hole eight, the screw hole five, screw hole six, screw hole seven, screw hole eight the center of circle be located at straight line On, it is respectively set the first glass tube 6 and the second glass tube 7 between first insulation board 4 and the second insulation board 5, described first One end of glass tube 6 is between screw hole one and screw hole two, and the other end is between screw hole five and screw hole six, first glass Pipe 6 is fixed on the first insulation board 4 by the first tabletting 8, and first glass tube 6 is fixed on second absolutely by the second tabletting 9 On listrium 5, setting and the screw hole one, the matched through-hole one of screw hole two, through-hole two, further include screw in first tabletting 8 One 12 and screw 2 13, screw 1 sequentially passes through through-hole one, screw hole one is fixed on first insulation board 4, screw 2 13 Sequentially pass through through-hole two, screw hole two is fixed on first insulation board 4, in second tabletting 9 setting with the screw hole five, The matched through-hole five of screw hole six, through-hole six, further include screw 5 16 and screw 6 17, screw 5 16 sequentially passes through through-hole five, spiral shell Hole five is fixed on first insulation board 4, and screw 6 17 sequentially passes through through-hole six, screw hole six is fixed on second insulation board On 5, one end of second glass tube 7 between screw hole three and screw hole four, the other end between screw hole seven and screw hole eight, Second glass tube 7 is fixed on the first insulation board 4 by third tabletting 10, and first glass tube 6 passes through the 4th tabletting 11 are fixed on the second insulation board 5, setting and the screw hole three in the third tabletting 10, the matched through-hole three of screw hole four, logical Kong Si further includes screw 3 14 and screw 4 15, and screw 3 14 sequentially passes through through-hole three, screw hole three is fixed on first insulation On plate 4, screw 4 15 sequentially passes through through-hole four, screw hole four is fixed on first insulation board 4, sets in the 4th tabletting 11 Set with the screw hole seven, the matched through-hole seven of screw hole eight, through-hole eight, further include screw 7 18 and screw 8 19, screw 7 18 according to Secondary to be fixed on first insulation board 4 across through-hole seven, screw hole seven, it is fixed that screw 8 19 sequentially passes through through-hole eight, screw hole eight On second insulation board 5, the first semiconductor layer, second glass tube 7 are set along tube wall inside first glass tube 6 The second semiconductor layer is arranged along tube wall in inside, and electrode one is arranged close to one end of screw hole one in first semiconductor layer, close to spiral shell Electrode two is arranged in the one end in hole five, and electrode three is arranged close to one end of screw hole three in second semiconductor layer, close to screw hole seven Electrode four is arranged in one end, and the electrode one is connect with electrode two by conducting wire, and electrode three and electrode four are separately connected the power supply 1 Positive and negative anodes.Further, the quantity of first glass tube 6 and the second glass tube 7 is several.

When the utility model is applied by way of semiconductor electrified regulation, drying heat is converted electrical energy into greatest extent Energy.The loss for reducing thermal energy by glass tube simultaneously, can save dissipation of energy during drying.It can guarantee to dry Under the premise of dry, drying efficiency is improved, while playing energy-efficient effect.

Above-described specific embodiment, to the purpose of this utility model, technical scheme and beneficial effects carried out into One step is described in detail, it should be understood that being not used to limit the foregoing is merely specific embodiment of the present utility model Determine the protection scope of the utility model, within the spirit and principle of the utility model, any modification for being made equally is replaced It changes, improve, should be included within the scope of protection of this utility model.

Claims (4)

1. a kind of high-efficiency and energy-saving type tubular glass drying device, including power supply (1), which is characterized in that further include being placed in parallel Bottom plate (3) are fixed in first fixed bottom plate (2) and second, are arranged the first insulation board (4) on described first fixed bottom plate (2), described Be arranged the second insulation board (5) on second fixed bottom plate (3), set gradually on first insulation board (4) screw hole one, screw hole two, Screw hole three, screw hole four, the screw hole one, screw hole two, screw hole three, screw hole four the center of circle be located in a straight line, described second absolutely Screw hole five, screw hole six, screw hole seven, screw hole eight, the screw hole five, screw hole six, screw hole seven, screw hole eight are set gradually on listrium (5) The center of circle be located in a straight line, the first glass tube is respectively set between first insulation board (4) and the second insulation board (5) (6) and the second glass tube (7), between screw hole one and screw hole two, the other end is located at spiral shell for one end of first glass tube (6) Between hole five and screw hole six, first glass tube (6) is fixed on the first insulation board (4) by the first tabletting (8), and described the One glass tube (6) is fixed on the second insulation board (5) by the second tabletting (9), and one end of second glass tube (7) is located at spiral shell Between hole three and screw hole four, for the other end between screw hole seven and screw hole eight, second glass tube (7) passes through third tabletting (10) it is fixed on the first insulation board (4), first glass tube (6) is fixed on the second insulation board by the 4th tabletting (11) (5) on, first glass tube (6) is internal to be arranged the first semiconductor layer along tube wall, and second glass tube (7) is internal along tube wall Second semiconductor layer is set, and electrode one is arranged close to one end of screw hole one in first semiconductor layer, close to one end of screw hole five Electrode two is set, and electrode three is arranged close to one end of screw hole three in second semiconductor layer, and electricity is arranged close to one end of screw hole seven Pole four, the electrode one are connect with electrode two by conducting wire, and electrode three and electrode four are separately connected the positive and negative of the power supply (1) Pole.

2. a kind of high-efficiency and energy-saving type tubular glass drying device according to claim 1, which is characterized in that first pressure Setting and the screw hole one, the matched through-hole one of screw hole two, through-hole two, further include screw one (12) and screw two on piece (8) (13), screw one (12) sequentially passes through through-hole one, screw hole one is fixed on first insulation board (4), and screw two (13) is successively Be fixed on first insulation board (4) across through-hole two, screw hole two, on second tabletting (9) setting with the screw hole five, The matched through-hole five of screw hole six, through-hole six, further include screw five (16) and screw six (17), screw five (16) sequentially passes through through-hole Five, screw hole five is fixed on first insulation board (4), screw six (17) sequentially passes through through-hole six, screw hole six be fixed on it is described On second insulation board (5).

3. a kind of high-efficiency and energy-saving type tubular glass drying device according to claim 1, which is characterized in that the third pressure Setting and the screw hole three, the matched through-hole three of screw hole four, through-hole four, further include screw three (14) and screw four on piece (10) (15), screw three (14) sequentially passes through through-hole three, screw hole three is fixed on first insulation board (4), and screw four (15) is successively It is fixed on first insulation board (4) across through-hole four, screw hole four, setting and the screw hole on the 4th tabletting (11) Seven, the matched through-hole seven of screw hole eight, through-hole eight, further include screw seven (18) and screw eight (19), screw seven (18) sequentially passes through Through-hole seven, screw hole seven are fixed on first insulation board (4), and screw eight (19) sequentially passes through through-hole eight, screw hole eight is fixed on On second insulation board (5).

4. a kind of high-efficiency and energy-saving type tubular glass drying device according to claim 1, which is characterized in that first glass The quantity of glass pipe (6) and the second glass tube (7) is several.