Description
hardware flow control. It is an ideal choice in the field of industrial automation.
The growth rate of the industry”s overall net profit attributable to parent companies continues to decline, and the phenomenon of increasing industry revenue without
increasing profits is obvious. In 2018, the industry as a whole achieved a net profit attributable to the parent company of 3.250 billion yuan, with a year-on-year growth
rate of -26.42%. Although the overall revenue growth rate was positive in 2018, in the context of the fierce price war in the industry, increasing revenue
does not increase profits. The phenomenon is very significant. In 2019Q1-3, the industry as a whole achieved net profit attributable to the parent company of 1.888
billion yuan, a year-on-year growth rate of -43.63%, and the growth rate of net profit attributable to the parent company continued to decline. Judging from the net profit
attributable to the
parent company of the industry in a single quarter, dragged down by the poor performance of New Star, the net profit attributable to the parent company of the industry
in the single quarter of 2018 Q4 suffered a loss of 98 million yuan. The net profit performance of the industry attributable to the parent company has continued to be
sluggish since 2019. . It is expected that the decline in the industry”s net profit attributable to the parent company for the whole year will narrow compared with the first three quarters, and the
overall profitability will hit a historical bottom.
The industry”s overall gross profit margin and net profit margin have continued to decline since 2017, and changes in gross profit margin and net profit margin in a
single quarter are negatively correlated or related to the pace of corporate expense control. In 2019Q1-3, the overall gross profit margin of the industry was 28.68%,
and the net profit margin was 5.54%. It has continued to decline since reaching a historical high in 2017,
and the decline curve has gradually flattened. It is expected that the overall gross profit margin decline is expected to stabilize in 2020, and the net profit margin may be
Ushering in upward repair. Judging from the changes in the industry”s overall gross profit margin and net profit margin in a single quarter, the two show a certain negative
correlation. This may be due to the company”s reduction in gross profit margin due to fierce price wars or falling sales volume caused by the industry downturn. It is related to its
own period expenses
. On the contrary, when the gross profit margin rebounds, the company”s period expenses will increase to a certain extent.
The industry”s overall operating cash flow has significant seasonal characteristics, and most sales collections are concentrated in Q4, which leads to an improvement
in overall cash flow. In 2019Q1-3, the industry”s overall operating net cash flow was 580 million yuan, accounting for 1.52% of operating income. There is a big gap between
this value and the whole year in previous years. Through the analysis of single-quarter data, it is found that the industry generally has negative operating net cash flow in the
first quarter, and there will be a substantial inflow of operating net cash
flow in the fourth quarter, thus driving the overall industry. Cash flow improved. China Merchants Bank Research Institute believes that this is mainly related to the industry”s
payment methods. Most companies in the industry will advance capital investment after receiving orders at the beginning of the year, resulting in greater cash flow outflow. As
the project settlement is gradually accepted and completed at the end of the year, payment collections are concentrated in the year. Tail release.
5. A drop in short-term prosperity will not change the long-term growth trend
In 2018, global industrial robot sales reached 422,000 units, a year-on-year increase of 11.05%. IFR predicts that the sales growth rate in 2019 will reach -0.24%. In
2018, the total sales of industrial robots in my country was approximately 154,000 units, accounting for 36.49% of global sales. It is still the largest industrial robot market in the world.
In 2018, the sales of industrial robots in my country reached US$5.4 billion, an increase of 21% over 2017. The decrease in sales volume but the increase in sales
indicate that the average value of each industrial robot used in my country is increasing, and the products are gradually moving from low-end to mid-to-high-end. . From the
perspective of industrial robot density, Singapore reached 831 units/ten thousand people in 2018, the highest in the world, followed by South Korea
(774 units) and Germany (338 units). my country”s industrial robot density was 140 units/ten thousand people, higher than the world”s Average for each region (99 units).
Compared with Singapore, South Korea, Germany and other developed countries in manufacturing automation, my country”s industrial robot sales still have a lot of
room for improvement, and the long-term growth trend of the industry is clear. Through the overall third quarter report data of listed companies, we found that the overall industry
revenue in 2019Q1-3 declined slightly year-on-year, and the negative growth in single-quarter revenue narrowed significantly; the growth rate of the industry’s net profit attributable to
parent companies continued to decline, and the industry’s increase in revenue did not increase profits. The industry as a whole Operating
cash flow has significant seasonal characteristics, and most
sales collections are concentrated in Q4, which leads to an improvement in overall cash flow. Based on the previous macro data, it is believed that the fundamentals
of the industry have hit the bottom, and the industry has structural differentiation characteristics. Looking forward to 2020, the negative impact of declining automobile sales on the
demand for industrial robots will gradually weaken. The 3C field may contribute to the main increase in demand for industrial robots, and an industry turning point may be coming.
Excitation system ABB module RLM01
Excitation system ABB module RINT-5521C
Excitation system ABB module RINT-5521C
Excitation system ABB module RID-04 3HNA020882-001
Excitation system ABB module RFO810
Excitation system ABB module RF620
Excitation system ABB module RF615
Excitation system ABB module RF615
Excitation system ABB module RF533 3BSE014227R1
Excitation system ABB module RF522 3BSE000743R1
Excitation system ABB module REX521GHHGSH51G
Excitation system ABB module REX521GBHPLB01G
Excitation system ABB module REX010
Excitation system ABB module REU615E_D
Excitation system ABB module REU610CVVHCNR
Excitation system ABB module RET670
Excitation system ABB module RET670
Excitation system ABB module RET670
Excitation system ABB module RET650
Excitation system ABB module RET650
Excitation system ABB module RET630
Excitation system ABB module RER133
Excitation system ABB module REM615
Excitation system ABB module REM545BM223AAAA
Excitation system ABB module REM545BM222BAAA
Excitation system ABB module REM543CM216AAAA
Excitation system ABB module REM543CM214AAAB
Excitation system ABB module REG670
Excitation system ABB module REG216
Excitation system ABB module REF620C
Excitation system ABB module REF615R
Excitation system ABB module REF615K
Excitation system ABB module REF615F
Excitation system ABB module REF615E
Excitation system ABB module REF615C-E
Excitation system ABB module REF615C-D
Excitation system ABB module REF615A_E HAFAABAAABE1BCA1XE
Excitation system ABB module REF615
Excitation system ABB module REF611C-E
Excitation system ABB module REF610C11LCLR
Excitation system ABB module REF610
Excitation system ABB module REF610
Excitation system ABB module REF601 CE446BB1NH
Excitation system ABB module REF601
Excitation system ABB module REF543KM129AAAB
Excitation system ABB module REF543KM127AAAA
Excitation system ABB module REF543KB127AAAA
Excitation system ABB module REF542PLUS 1VCR007346
Excitation system ABB module REF542PLUS 1VCF752000
Excitation system ABB module REF542plus
Excitation system ABB module REF542PLUS
Excitation system ABB module REF542PLUS
Excitation system ABB module REF541KM118AAAA
Excitation system ABB module REF541
Excitation system ABB module RED615
Excitation system ABB module REC670
Excitation system ABB module REC650
Excitation system ABB module RDCU-12C 3AUA0000036521
Excitation system ABB module RDCU-02C
Excitation system ABB module RDCU-02C
Excitation system ABB module RDCU-02C
Excitation system ABB module RDCO-03C
Excitation system ABB module RDCO-01
Excitation system ABB module RB520 3BSE003528R1
Excitation system ABB module RB520
Excitation system ABB module RB520
Excitation system ABB module RAPI-01C 3AUA0000036340
Excitation system ABB module RAPI-01C 3AUA0000036340
Excitation system ABB module RAIO-01
Excitation system ABB module R1.SW2/3
Excitation system ABB module R1.SW2/3
Excitation system ABB module R1.CAIR
Excitation system ABB module R1.CAIR
Excitation system ABB module QHMX325
Excitation system ABB module QHMV306
Excitation system ABB module QHMV303A
Excitation system ABB module QHFT201
Excitation system ABB module QHFT200F
Excitation system ABB module QHFG207
Excitation system ABB module QHFG205
Excitation system ABB module QHFG-203
Excitation system ABB module QHFC210
Excitation system ABB module QHFB-210
Excitation system ABB module QHFA-301
Excitation system ABB module PXAH401
Excitation system ABB module PXAH401
Excitation system ABB module PU519 3BSE018681R1
Excitation system ABB module PU519
Excitation system ABB module PU518
Excitation system ABB module PU517 3BSC980050R46
Excitation system ABB module PU517
Excitation system ABB module PU517
Excitation system ABB module PU517
Reviews
There are no reviews yet.